CN103887654A

CN103887654A - Releasing mechanism for disengagement of patch chord and individual port member

Info

Publication number: CN103887654A
Application number: CN201310706539.4A
Authority: CN
Inventors: 迪帕克·维尼亚莫尔·穆拉利; 巴特·拉伊库马尔·耶廷德拉; 塞德里克·布鲁诺·皮埃尔·肖万; 布莱恩·亚历山大·高洛伊
Original assignee: Schneider Electric SE
Current assignee: Schneider Electric SE
Priority date: 2012-12-20
Filing date: 2013-12-19
Publication date: 2014-06-25
Anticipated expiration: 2033-12-19
Also published as: AU2013273627A1; EP2747214A1; CN103887654B; EP2747214B1; AU2013273627B2

Abstract

The present invention relates to a releasing mechanism for disengagement of a patch chord and an individual port member from a modular panel assembly. One aspect of the releasing mechanism comprises an individual port member having a plurality of connectors, assembled to the front end of a panel assembly by means of its locking member for holding at least one connector which receives the patch chord, through a connector housing. A release lever member is formed of a main body portion and a plurality of attachment portions that are connected to the main body portion at its both ends. The lever member is attached to the connector housing through its attachment portions in such a way that the lever member is moved from a first end position to an opposite second end position with respect to the connector housing. When the lever member is moved at the first end position, the release lever member is further moved to disengage the patch chord from the connector, whereas when the lever member is moved at the opposite second end position, the release lever member forms a gripping space in tandem with the locking member to pull and disengage the individual port member from the panel assembly. Such releasing mechanism improves the accessibility and reduces the user effort/force requirement for removal of patch chord, and also facilitates ergonomically good hold and better gripping to the user for removal of individual port member.

Description

For separating of the release mechanism of patch cord and separate port member

Technical field

The present invention relates generally to the field from modular panels assembly removal/pull down by patch cord and separate port member.More specifically, the present invention relates to a kind of for the release mechanism from modular panels components apart by patch cord and separate port member.In addition, the present invention also prevents that patch cord is connected and disconnection with the unwarranted of modular panels assembly.To using the connector port of connector and the mandate of RJ45 to belong to machine tool.

Background technology

In modular panels assembly, very eurypalynous patch cord, particularly RJ-45 patch cord or plug, be designed to be plugged in connector, and each is all arranged flexible extended lock clamp, to patch cord is locked onto in the connector being assembled in modular panels (Data panel) or patch cord is removed from be assembled in the connector of modular panels.Further, multiple separate port members are assembled from the front end of modular panels, and are formed and have the clamping rpole that separate port is locked onto to modular panels.Each separate port member is made up of connector and connector shell, and is called as the assembly of connector and connector case.Each connector shell is all designed to the connector (socket) that receives RJ45 patch cord (plug) to remain in modular panels.

In patch cord is inserted to connector time, the locking double-layered quilt of patch cord is engaged in the lock slots of connector, this makes the joint from the electrical contact of patch cord and connector, thereby sets up and be electrically connected with ending between the cable at connector place at the cable that ends at patch cord place.Can be locked folder and patch cord is got loose from latched position by manual squeezing, wherein this hand break loose requires to approach patch cord and pushes locking folder.Especially, patch cord can remove from connector by applying power, and, in the time that locking double-layered quilt user power is pressed, connector outside is pulled down and slided into patch cord self from connector.Similarly, by unclamping separate port member and separate port member being remained on to any surface below connector area supported, separate port member can remove from panel.

In this modular panels, multiple patch cords very closely interval together, and to be arranged and to locate abreast or with a compact mode that is stacked on the modular panels on another.The locking folder that this intensive installation of patch cord on panel may provide little gap or space to approach each patch cord.After in separate port member is assembled into panel, consider the panel of separate port member above and below assembling, can be used for the approaching gap of user very little.Especially, due to the location of connector in trade mark frame or the identification existence of plate/panel and separate port member, available gap is less.In addition, the panel that is arranged on port below has also increased obstacle, and therefore, available gap is less, and it becomes user by patch cord and the two obstacle removing from panel of separate port member.Therefore, user is difficult to approach patch cord locking folder so that hand-driven moving removes patch cord, and user is difficult to unclamp clamping rpole to separate port member is removed from panel.

In a kind of traditional scheme, the instrument of user's use such as straight screwdriver etc. approaches and pushes patch cord locking folder to remove patch cord, and presses and unclamp clamping rpole to remove separate port member from panel.But the scheme of this use auxiliary tools is not very effective, and damage the locking folder of patch cord and the clamping rpole of separate port member.Further, user must carry this auxiliary tools to remove patch cord and separate port member from panel.

For these traditional schemes and design, there is less gap very general on the whole this product line of field of network connections for remove the problem of the problem of patch cord and the accessibility of patch cord from port.Therefore, user is difficult to approach line locking folder and pushes it or in foreign material erecting of panel place around, see that locking presss from both sides.Result is to remove these patch cords and become for the user bored and become burden, because for patch cord is pulled out from corresponding connector, the locking of traditional patch cord is pressed from both sides and must be urged near position.And, the common position too dark in the groove of connector of locking folder of patch cord, this may damage user's nail in the time pulling down patch cord.Or user must carry auxiliary tools and remove patch cord, this is trouble.Therefore, be necessary to provide a kind of easy and reliable scheme to overcome shortcoming above-mentioned.

The present case of the network industry is that connector port is modular jack open and that can accept by any unwarranted user.In the ordinary course of things, connector port may be misapplied or different communication jacks has unexpected connection.Therefore, need to prevent that unwarranted personnel from removing patch cord/patch cord and connector port are disconnected from connector port.Replace the problems referred to above, the specific purpose tool that accommodates extention can be integrated to assist to lock/unclamp patch cord and separate port member.

Therefore, expecting provides a kind of for the simple and reliable release mechanism from modular panels components apart patch cord and separate port member, and it can overcome above-mentioned defect.This mechanism has improved and has approached to remove patch cord, and is conducive to grasp better to remove separate port member.Further, it makes setter easily patch cord be removed and reduce setter removes patch cord strength from connector from connector, and for providing good ergonomics from modular panels assembly removal separate port member.In addition, this release mechanism should be able to prevent unexpected or unwarranted approaching and the separating of patch cord and separate port member, and avoids the unwarranted insertion of patch cord for security reason.

Summary of the invention

The object of the present invention is to provide a kind ofly for the release mechanism from modular panels components apart by patch cord and separate port member, it has improved accessibility to remove patch cord and be conducive to grasp better to remove separate port member.

It is a kind of for the release mechanism from modular panels components apart by patch cord and separate port member that another object of the present invention is to provide, it prevents unexpected or unwarranted approaching and the separating of patch cord and separate port member, and avoids the unwarranted insertion of patch cord for security reason.

It is a kind of for the release mechanism from modular panels components apart by patch cord and separate port member that further aim of the present invention is to provide, and it has reduced user and has removed the required strength/power of patch cord from connector port.

It is a kind of for the release mechanism from modular panels components apart by patch cord and separate port member that further aim of the present invention is to provide, and it is for user is from the pull-out of modular panels assembly with remove separate port member the good grip ergonomics is provided.

It is a kind of for the release mechanism from modular panels components apart by patch cord and separate port member that further aim of the present invention is to provide, it has simplified structure, and easily adaptive, dismounting and assembling again in the situation that not using or use the simplest instrument.

According to an aspect, the present invention who realizes this object relates to a kind of for the release mechanism from modular panels components apart by patch cord and separate port member, comprise separate port member, this separate port member has multiple connectors, be assembled into the front end of panel assembly by its locking component, to keep receiving at least one connector of patch cord by connector shell.Trip lever member is formed by main part and multiple attachment part of being connected to main part at the two ends of main part.Bar member is attached to connector shell by its attachment part, makes bar member move to the second relative end position from first end position with respect to connector shell.In the time that bar member is moved to first end position, trip lever member is moved further to patch cord is separated from connector, but in the time that bar member moves to the second relative end position, trip lever member forms and grasps space to pull separate port member and separate port member is separated from panel assembly with locking component cooperation.This release mechanism has been improved accessibility and has been reduced user and removed the required strength/power of patch cord, also helps the good grip in ergonomics and better grasps so that user removes separate port member.Further, it is simple in structure, and easily adaptive, dismounting and assembling again in the situation that not using instrument or use the simplest instrument.

In addition the arm region that, the main part of trip lever member is extended by He Cong touch area, touch area forms.The attachment part of trip lever member is positioned at the both sides of outside, touch area in touch area, and wherein attachment part comprises swivel pin.It is adjacent with the port region of connector shell that trip lever member is positioned as, and makes the leading edge of arm region in the time that patch cord is connected to connector by separate port member be positioned at the securing rod below of patch cord.

In first end position, by the touch area of trip lever member is pressed away from patch cord, trip lever member moves in a downward direction with respect to connector shell, makes the securing rod of the leading edge pushing patch cord of the arm region of trip lever member, to patch cord is separated from connector.At the second end position, trip lever member moves in the upward direction with respect to connector shell, so that the locking component cooperation in arm region and connector shell makes the arm region of trip lever member as grasping space to pull separate port member and separate port member is separated from panel assembly.

Release mechanism further comprises: pin assemblies, and this pin assemblies has at least two pins, and these at least two pins are loaded and are bonded to spring member at its one end place.Pin assemblies is assembled in the main part of trip lever member, while making in trip lever member is assembled into separate port member, the pin of pin assemblies is extruded and locks together with respect to the first end position of trip lever member and the second end position and connector shell, so that the movement of restriction trip lever member from first end position to the second end position, vice versa.Spring member is extruded to pin is separated with connector shell, to trip lever member is moved to the second end position from first end position, vice versa.

According to another aspect, the present invention who realizes this object relates to a kind of for the release mechanism from modular panels components apart by patch cord and separate port member, comprise separate port member, this separate port member has multiple connectors, be assembled into the front end of panel assembly by its locking component, to keep receiving at least one connector of patch cord by connector shell.Trip lever member is formed by main part and multiple attachment part of being connected to main part at the two ends of main part.Bar member is attached to connector shell by its attachment part, makes bar member move to the second relative end position from first end position with respect to connector shell.Port lock member is attached to separate port member or trip lever member, to limit the movement of trip lever member from its first end position.When bar member is during in first end position, port lock member is removed from separate port member or trip lever member, patch cord is separated from connector by being moved further trip lever member, and in the time that bar member moves to the second relative end position, trip lever member forms and grasps space to pull separate port member and separate port member is separated from panel assembly with locking component cooperation.Another object of the present invention is to provide a kind of for the release mechanism from modular panels components apart by patch cord and separate port member, it prevents unexpected or unwarranted approaching and the separating of patch cord and separate port member, and avoids the unwarranted insertion of patch cord for security reason.This release mechanism, except be easy to get loose patch cord and port member, also prevents unexpected or unwarranted approaching and the separating of patch cord and separate port member, and avoids the unwarranted insertion of patch cord for security reason.

It is adjacent with the port region of connector shell that trip lever member is positioned as, and pushes the securing rod of patch cord with convenient patch cord by connector shell while being connected to connector.In first end position, by trip lever member is pressed away from patch cord, trip lever member moves in a downward direction with respect to connector shell, makes the securing rod of at least a portion pushing patch cord of trip lever member, to patch cord is separated from connector.At the second relative end position, trip lever member moves in the upward direction with respect to connector shell, so that the locking component cooperation at least a portion and the connector shell of trip lever member makes trip lever member as grasping space to pull separate port member and separate port member is separated from panel assembly.

According to a design concept of the port lock member associated with the second aspect of release mechanism of the present invention or embodiment, the arm region that the main part of trip lever member is extended by lock arm, from lock arm and the multiple guiding elements that are positioned at attachment part rear form, and lock arm has raised areas at its free end.Port lock member extends and at least two extensible regions tilting toward each other form from body region by U-shaped body region with at two edges at the center of body region.The body region of port lock member is formed has the groove at heart place therein and the multiple guide slits at its free end.At least one in the extensible region of port lock member is formed has lock slots.Port lock member is attached to trip lever member, the guiding elements of trip lever member is directed in the corresponding guide slits of port lock member, and the raised areas of lock arm is locked in the lock slots of port lock member, to limit the movement of trip lever member from its first end position.By the groove operation tool in body region, the raised areas of the lock arm of trip lever member is separated from the lock slots of port lock member, thereby port lock member is pulled down from trip lever member, so that the movement of trip lever member from first end position to the second end position, vice versa.

According to another design concept of the port lock member associated with the second aspect of release mechanism of the present invention or embodiment, port lock member comprises the base flange that ends at the U-shaped body region of deflection pin and extend from U-shaped body region at one of center edge of U-shaped body region.Port lock member is deflected and consumes pin by it and is locked into separate port member, the securing rod of patch cord is locked between at least a portion of trip lever member and the base flange of port lock member, to limit the movement of trip lever member from its first end position.The consumption pin of port lock member is deflected and unclamps from separate port member, to port lock member is pulled down from trip lever member, thus the movement of trip lever member from first end position to the second end position, vice versa.Port lock member consumes pin by it and is assembled into separate port member with the orientation of reversing, to stop the port region of separate port member.

According to another design concept of the port lock member associated with the second aspect of release mechanism of the present invention or embodiment, the arm region that the main part of trip lever member is extended by touch area with from lock arm forms, and wherein arm region is formed and has lead arm to limit guide space in touch area.Port lock member comprises the extensible flange that ends at the body region of deflection flange, extend from the top edge of body region and the lock flange of extending from the lower limb of body region, and wherein the body region of port lock member is formed the heart therein and has groove.Once illusory patch cord is plugged in connector, port lock member is maintained at machine tool inside and is attached to trip lever member, so that the lock flange of port lock member is directed in the guide space being limited by the lead arm of trip lever member, and the deflection flange of port lock member is locked in connector shell, in limiting the movement of trip lever member and port lock member is kept in position.In this case, the port lock of illusory patch cord and connector port remains unauthorized persons and can not approach and be connected patch cord.

In order to approach and use connector port, the deflection flange of port lock member is by two flange deflections of instrument, and carry out operation tool and unclamped from connector shell and pull out by the groove in the body region of port lock member, thereby port lock member is removed from trip lever member, so that mobile trip lever member illusory patch cord is removed from connector port.Given situation provides the chance that patch cord is assembled into connector port for authorized user.As mentioned above, by port lock member is assembled in trip lever member, unwarranted the removing of patch cord is prevented from.

Brief description of the drawings

Discuss with reference to the accompanying drawings the present invention in more detail.

Fig. 1 illustrates the decomposition view of depicting according to the release mechanism with trip lever member of exemplary the first embodiment of the present invention;

Fig. 2 illustrates the trip lever member and the assembled view of inserting the patch cord in connector shell in connector shell that be coupled to of having described according to exemplary the first embodiment of the present invention;

Fig. 3 illustrates according to the isometric top view of the trip lever member of exemplary the first embodiment of the present invention;

Fig. 4 illustrates according to the isometric bottom view of the trip lever member of exemplary the first embodiment of the present invention;

Fig. 5 illustrates and has described according to the patch cord of exemplary the first embodiment of the present invention and be positioned at the cutaway view of trip lever member of first end position;

Fig. 6 illustrate described according to the patch cord of exemplary the first embodiment of the present invention and when the first end position cutaway view being moved further of trip lever member;

Fig. 7 illustrates the schematic diagram of the trip lever member of having described second end position relative according to being positioned at of exemplary the first embodiment of the present invention;

Fig. 8 illustrates according to the decomposition view of the trip lever member that is assembled with spring loaded pin assembly of exemplary the second embodiment of the present invention;

Fig. 9 illustrates and has described according to the trip lever member that is locked in first end position in separate port member of exemplary the second embodiment of the present invention and the assembled view of pin assemblies;

Figure 10 illustrates and has described according to the trip lever member that is locked in first end position of exemplary the second embodiment of the present invention and the assembled view of pin assemblies and patch cord;

Figure 11 illustrates and has described the schematic diagram so that trip lever member is got loose from first end position according to the spring member of the use instrument squeeze pin assembly of exemplary the second embodiment of the present invention;

Once Figure 12 illustrates the use instrument extrusion spring member of having described according to exemplary the second embodiment of the present invention, trip lever member is from the schematic diagram moving up of first end position;

Figure 13 illustrates and has described according to the trip lever member that is locked in the second end position of exemplary the second embodiment of the present invention and the schematic diagram of pin assemblies;

Figure 14 illustrates and has described the schematic diagram so that trip lever member is got loose from the second end position according to the spring member of the use instrument squeeze pin assembly of exemplary the second embodiment of the present invention;

Figure 15 illustrates the decomposition view of having described exemplary the 3rd embodiment according to the present invention and have the release mechanism of trip lever member and port lock member;

Figure 16 illustrates and has described exemplary the 3rd embodiment according to the present invention and before assembling port lock member, be coupled to trip lever member in connector shell and the assembled view of patch cord;

Figure 17 illustrates according to the isometric top view of the trip lever member of exemplary the 3rd embodiment of the present invention;

Figure 18 illustrates according to the outside isometric view of the port lock member of exemplary the 3rd embodiment of the present invention;

Figure 19 illustrates according to the inner side isometric view of the port lock member of exemplary the 3rd embodiment of the present invention;

Figure 20 illustrates the schematic diagram of having described according to the port lock member fitting together with trip lever member of exemplary the 3rd embodiment of the present invention;

Figure 21 illustrates and has described exemplary the 3rd embodiment according to the present invention and use the get loose detailed view of the port lock member fitting together with trip lever member of instrument;

Figure 22 illustrates according to the isometric view of the port lock member of exemplary the 4th embodiment of the present invention;

Figure 23 illustrates the isometric view of having described exemplary the 4th embodiment according to the present invention patch cord and trip lever member are locked in the port lock member of its first end position;

Figure 24 illustrates the detailed view of having described to be locked according to the use port locking component of exemplary the 4th embodiment of the present invention the trip lever member of the first end position of trip lever member;

Figure 25 illustrates and has described the detailed view of exemplary the 4th embodiment according to the present invention with the port lock member of the directed location of reversing;

Figure 26 illustrates and before assembling port lock member, is engaged in trip lever member in connector shell and the assembled view of illusory patch cord according to exemplary the 4th embodiment of the present invention;

Figure 27 illustrates according to the isometric top view of the trip lever member of exemplary the 4th embodiment of the present invention;

Figure 28 illustrates according to the outside isometric view of the port lock member of exemplary the 4th embodiment of the present invention;

Figure 29 illustrates according to the inner side isometric view of the port lock member of exemplary the 4th embodiment of the present invention;

Figure 30 illustrates and has described, according to the use instrument of exemplary the 4th embodiment of the present invention, port lock member is assembled into the detailed view in trip lever member and separate port member; With

Figure 31 illustrates and has described according to the get loose detailed view of the port lock member fitting together with trip lever member of the use instrument of exemplary the 4th embodiment of the present invention.

Embodiment

The present invention has described a kind of modular panels assembly substantially, and it is arranged and is arranged as has multiple connectors 20, connector shell 30 and patch cord 40, and wherein modular panels assembly can be Data panel assembly.Multiple separate port members 100 are assembled into modular panels assembly with stack manner, to multiple connectors 20 are firmly held in modular panels assembly, thereby multiple connector (socket) 20 receives multiple patch cords (plug) 40 by connector shell 30 respectively.

Fig. 1 illustrates the decomposition view of having described according to the release mechanism with trip lever member 50 of exemplary the first embodiment of the present invention.The invention describes for the release mechanism from modular panels components apart by patch cord 40 and separate port member 100.This release mechanism is made up of connector shell 30 and trip lever member 50.The separate port member 100 being made up of connector 20 and connector shell 30 is by it for keeping the locking component 34 of connector 20 to be assembled into the front end of panel assembly, and connector 20 receives patch cord 40 by connector shell 30.The locking component 34 of connector shell 30 is formed clamping rpole, and it engages separate port member 100 be locked on panel assembly.

Fig. 2 illustrates the trip lever member 50 and the assembled view of inserting the patch cord 40 in connector shell 30 in connector shell 30 that be coupled to of having described according to exemplary the first embodiment of the present invention.After in separate port member 100 and connector 20 are assembled in to panel assembly, patch cord 40 can be plugged in connector 20, so that from the joint of the electric contact of patch cord 40 and connector 20, thereby set up the cable 10 that ends at patch cord 40 places and end at being electrically connected between the cable 10 at connector 20 places.Patch cord 40 includes but not limited to RJ-45 patch cord or plug.Patch cord 40 is arranged to has the snap lock fixed pole 42 being assembled in connector part, for patch cord 40 being locked in to connector 20 or patch cord 40 being removed from connector 20.Especially, in patch cord 40 is inserted to connector 20 by the port region 32 of connector shell 30 time, the securing rod 42 of patch cord 40 is engaged in the lock slots 22 of connector 20.

Fig. 3 illustrates according to the isometric top view of the trip lever member 50 of exemplary the first embodiment of the present invention.Trip lever member 50 is connected to main part 52 one group of attachment part 54 by main part 52 with at the two ends of main part 52 forms.Bar member 50 is assembled and be attached to connector shell 30 by its attachment part (particularly hinge portion) 54, and bar member 50 can be rotated or energy pivotable around the longitudinal axis of hinge portion 54 with respect to connector shell 30.Especially, the attachment part 54 of bar member 50 is be formed on hole 36 in connector shell 30 at 30 two front bottom sides of connector shell place hinged, wherein the profile in the hole 36 of connector shell 30 can be formed and the outline of attachment part 54, to receive bar member 50.

The arm region 58 that the main part 52 of trip lever member 50 is extended by 56He Cong touch area, touch area 56 forms, and as shown in Figure 4, Fig. 4 illustrates according to the isometric bottom view of the trip lever member 50 of exemplary the first embodiment of the present invention.The attachment part 54 of trip lever member 50 is located at two side flange 562 places of 56 outsides, touch area in touch area 56, and wherein attachment part 54 is designed to cylindrical swivel pin.The main flange 581 of the arm region 58 of bar member 50 extends and rises from least local part of one of main flange 561 of touch area 56, the side flange 582 of arm region 58 is extended in the main flange 561 of touch area 56, and this separates and limits Petting Area 563 in the touch area 56 of bar member 50.

Fig. 5 illustrates and has described according to the patch cord 40 of exemplary the first embodiment of the present invention and be positioned at the cutaway view of the trip lever member 50 at P1 place, first end position.It is adjacent with the port region 32 of connector shell 30 that trip lever member 50 is positioned as, and makes the leading edge of arm region 58 in the time that patch cord 40 is plugged in connector 20 by the port region 32 of connector shell 30 be positioned at the below of the securing rod 42 of patch cord 40.In the time that trip lever member 50 can be attached to connector shell 30 pivotally, bar member 50 moves to the second relative end position P2 with respect to connector shell 30 from first end position P1.Especially, first or free end position P1, once being positioned as, bar member 50 and connector shell 30 make patch cord 40 be connected to connector 20 by connector shell 30, the lower surface of the securing rod 42 of the leading edge contact patch cord 40 of arm region 58.

Fig. 6 illustrates and has described the cutaway view that is moved further when the P1 of first end position according to the patch cord 40 of exemplary the first embodiment of the present invention and trip lever member 50.In the time that bar member 50 moves to first end position P1, trip lever member 50 is further pressed to separate patch cord 40.Especially, at first end position P1, the user power little by the touch area 56(of Manual press trip lever member 50 applies on it) make it away from patch cord 40, trip lever member 50 further moves in a downward direction with respect to connector shell 30, thereby the securing rod 42 of the leading edge of the arm region 58 of trip lever member 50 pushing patch cord 40, this contributes to user that securing rod 42 is promoted for patch cord 40 is separated with connector 20 from its latched position, and patch cord 40 is pulled out to connector 20.This first or free position/function P1 place, user promotes trip lever member 50 makes it rotate and power is delivered on the securing rod 42 of patch cord 40 around hinge portion 54.Subsequently, user can easily pull out connector 20 by patch cord 40.Therefore, this release mechanism has reduced user/setter patch cord 40 has been removed to required effort/power from connector 20.This also contributes to overcome the complexity of taking patch cord 40 apart in the less installing space of panel assembly.

Similarly, in the time that bar member 50 moves to the second relative end position P2, trip lever member 50 forms and grasps space to pull and separate separate port member 100 with locking component 34 cooperations, as shown in Figure 7, Fig. 7 illustrates the schematic diagram of the trip lever member 50 of having described the second end position P2 relative according to being positioned at of exemplary the first embodiment of the present invention.Especially, at the second relative end position P2, trip lever member 50 rotates towards connector shell 30 in the upward direction, to make arm region 58 arrive the forward position with respect to connector shell 30, locking component 34 cooperations of this and connector shell 30 form and use the space that grasps that acts on user, thereby the arm region 58 of trip lever member 50 is pulled by user, to unclamp the locking component 34 of connector shell 30, and then separate port member 100 is separated/removes from panel assembly.At this second place/function P2, trip lever member 50 rotates so that arm region 58 arrives front around hinge portion 54, this contributes to user to provide and grasp in the bottom of the locking component 34 with respect to connector shell 30, engaging/the locking component 34 at top that simultaneously gets loose, to pull separate port member 100 and separate port member 100 taken apart from panel assembly.Therefore, this release mechanism for user/setter provide good ergonomics gripping in case by separate port member 100 from modular panels assembly removal.Therefore, release mechanism of the present invention is called as dual purpose release mechanism, it has improved proximity to remove patch cord 40, and is conducive to better grasp to remove separate port member 100, thereby patch cord 40 is easily separated from modular panels with separate port member 100.In addition, its simple structure and in the situation that not using or use the simplest instrument by easy dismounting with assemble again.The Data panel of the frame cell size that mechanism operation is 1 in standard.

Fig. 8 illustrates according to the decomposition view of the trip lever member 50 ' that is assembled with spring loaded pin assembly 60 of exemplary the second embodiment of the present invention.According to the core idea that does not deviate from disclosed release mechanism above of the present invention on the other hand, release mechanism further comprises the spring loaded pin assembly 60 being assembled in disclosed trip lever member 50 ' above, to stop patch cord 40 ' to separate with connector port 32 ' for security reason, this can be avoided and prevent accident and approach without permission and patch cord 40 ' separating and separate port member 100 ' separating from modular panels assembly from connector 20 ', as shown in Figure 9, Fig. 9 illustrates and has described according to the trip lever member that is locked in first end position P1 in separate port member 100 ' 50 ' of exemplary the second embodiment of the present invention and the assembled view of pin assemblies 60.Pin assemblies 60 comprises at least two pins 62, and pin 62 is loaded with spring member 66 in its one end, to pin 62 is linked together in back-to-back mode.Each pin 62 is formed cylindrical form, and is arranged to and has retainer 64, and retainer 64 is formed on the excircle of pin 62, adjacent with the end that is loaded with spring member 66.Each pin retainer 64 of 62 is configured to spring member 66 to be captured in to two in the time that pin assemblies 60 is fitted in the touch area 56 ' of trip lever member 50 ' and sells in 62.

Pin assemblies 60 is fixed in the touch area 56 ' of trip lever member 50 ', two pin retainers 64 of 62 are put lean on and be trapped in from the halt 564 ' of the side flange 582 ' extension in the bar component arm region 58 ' of the main part 52 ' in the main flange 561 ' of bar member touch area 56 ', and two pin free ends of 62 are inserted in the hole 565 ' in two side flanges 562 ' of the touch area 56 ' that is formed on trip lever member 50 ', and extend to 565 ' outside, hole.The profile in the hole 565 ' of trip lever member 50 ' can be formed the outline with the pin 62 of pin assemblies 60.Especially, hole 565 ' in two side flanges 562 ' of touch area 56 ' is positioned as adjacent with the attachment part 54 ' of trip lever member 50 ', thereby it is also adjacent with the attachment part 54 ' of trip lever member 50 ' to extend to the outside pin 62 in these holes 565 '.

Further, upper pin-and-hole and lower pin-and-hole 38 ' can be formed with connector shell 30 ' in top side and the bottom side in each attachment part hole 36 ' adjacent.Thereby while trip lever member 50 ' being assembled into together with pin assemblies 60 in connector shell 30 ' in the hole 36 ' by the attachment part of bar member 50 ' 54 ' being attached to connector shell 30 ', the spring of pin assemblies 60 loads stretching pin 62 and is extruded and is engaged to correspondingly going up in pin-and-hole and lower pin-and-hole 38 ' in connector shell 30 ' by spring member 66.In connector shell 30 ', be positioned as respectively and the second end position P2 and the P1(Liang Ge lock part, first end position of trip lever member 50 ' at the top side in each attachment part hole 36 ' and the upper pin-and-hole of bottom side and lower pin-and-hole 38 ') relevant.

Figure 10 illustrates the assembled view of having described according to the trip lever member that is locked in first end position P1 50 ' of exemplary the second embodiment of the present invention and pin assemblies 60 and patch cord 40 '.At first or initial end position P1 of trip lever member 50 ', the spring of pin assemblies 60 loads stretching pin 62 and is extruded by means of machine tool 150, and be engaged/be locked in corresponding lower pin-and-hole 38 ' at the bottom side place with respect to attachment part hole 36 ', the attachment part 54 ' of trip lever member 50 ' is engaged with in attachment part hole 36 '.At this first end position P1, patch cord 40 ' can be inserted in the port region 32 ' of connector shell 30 ', to connect and be plugged in connector 20 '.Because the pin 62 lower pin-and-holes 38 ' that are trapped in connector shell 30 ' are located, therefore sell 62 preventions unexpected or unwarranted approaching and patch cord 40 ' and separate port member 100 ' separating from panel assembly.

Figure 11 illustrates and has described the schematic diagram so that trip lever member 50 ' is got loose from first end position 150 according to the spring member 66 of the use instrument 150 squeeze pin assemblies 60 of exemplary the second embodiment of the present invention.Machine tool 150 can be used with by means of retainer 64 extrusion spring members 66 by authorized user, to pin 62 is moved to inside together, thereby will sell 62 pin-and-hole 38 ' separation from connector shell 30 ', this contributes to trip lever member 50 ' by the rotation of its attachment part 54 '.Subsequently, away from patch cord 40 ', trip lever member 50 ' is further moved in a downward direction by the touch point 563 ' Manual press that the touch area of trip lever member 50 ' 56 ' is located with respect to connector shell 30 ', thereby the securing rod 42 ' of the leading edge of the main flange 581 ' of the arm region 58 ' of trip lever member 50 ' pushing patch cord 40 ', this contributes to user that securing rod 42 ' is pushed away to its latched position to patch cord 40 ' is separated from connector 20 ', and moves patch cord 40 ' to connector 20 ' outside.

Once Figure 12 illustrates the use instrument 150 extrusion spring members 66 of having described according to exemplary the second embodiment of the present invention, trip lever member 50 ' is from the schematic diagram moving up of first end position P1.For separate port member 100 ' is removed from panel assembly, trip lever member 50 ' rotates towards connector shell 30 ' in the upward direction, so that the forward position that arm region 58 ' arrives with respect to connector shell 30 ', this makes trip lever member 50 ' arrive the second end position P2 place, as shown in figure 13, Figure 13 exemplifies and has described according to the trip lever member that is locked in the second end position P2 50 ' of exemplary the second embodiment of the present invention and the schematic diagram of pin assemblies 60.Subsequently, the spring of pin assemblies 60 loads stretching pin 62 and is extruded by instrument 150, and be engaged/lock onto in the corresponding upper pin-and-hole 38 ' with respect to the top sides in attachment part hole 36 ', the attachment part 54 ' of trip lever member 50 ' is engaged with in attachment part hole 36 '.At the second end position P2, the arm region 58 ' of trip lever member 50 ' is cooperated the space that grasps as user with the locking component 34 ' in connector shell 30 ', thereby the arm region 58 ' of trip lever member 50 ' is pulled in the upward direction by user, to unclamp locking component 34 ', thereby separate port member 100 ' is separated from panel assembly.In addition, at the second latched position P2, release mechanism prevents patch cord 40 ' unexpectedly or to be without permission inserted in connector port.Reuse instrument 150, user can move to first end position P1 from the second end position P2 by trip lever member 50 ', vice versa, as shown in figure 14, Figure 14 illustrates and has described the schematic diagram so that trip lever member 50 ' is got loose from the second end position P2 according to the spring member 66 of the use instrument 150 squeeze pin assemblies 60 of exemplary the second embodiment of the present invention.

Figure 15 exemplifies and has described to have a trip lever member 50 ' according to exemplary the 3rd embodiment of the present invention ' and the decomposition view of the release mechanism of port lock member 70.The present invention has described further aspect the release mechanism with lock-in feature of the core idea that does not deviate from release mechanism, and it can be called as and gets loose and locking mechanism.Release mechanism comprises connector shell 30 ' ', trip lever member 50 ' ' and port lock member 70.Separate port member 100 ' ' comprise connector 20 ' ' and connector shell 30 ' ', connector shell 30 ' ' by its locking component 34 ' ' be assembled into panel assembly to keep connector 20 ' ', connector 20 ' ' by connector shell 30 ' ' reception patch cord 40 ' '.Connector shell 30 ' ' locking component 34 ' ' is formed clamping rpole, and it is by separate port member 100 ' ' engage and be locked on panel assembly.After ' with connector 20 ' ' fits together by connector shell 30 ', trip lever member 50 ' ' by its attachment part (particularly hinge portion) 54 ' ' is attached to connector shell 30 ' ', thus bar member 50 ' ' with respect to connector shell 30 ' ' can rotate.Especially, hole 36 ' in bar member 50 ' ' attachment part 54 ' ' and at connector shell 30 ' ' two front bottom sides be formed on connector shell 30 ' ' ' hinged, the profile of wherein connector shell 30 ' ' hole 36 ' ' can be formed and attachment part 54 ' ' outline, to receive bar member 50 ' '.

Afterwards, once connector shell 30 ' ' and trip lever member 50 ' ' fit together, ' securing rod 42 ' ' is engaged to connector 20 ' in the port region 32 ' of patch cord 40 ' ' can by connector shell 30 ' ' ' be inserted into and be plugged into connector 20 ' ', to make patch cord 40 ' ' in.Subsequently, port lock member 70 is inserted into and ' in trip lever member 50 ' ' locks together with being assembled in connector shell 30 ', this stops trip lever member 50 ' ' movement, with prevent unexpected or unwarranted approach and patch cord 40 ' ' and separate port member 100 " ' from separating of panel assembly; as shown in figure 16, Figure 16 illustrates and has described exemplary the 3rd embodiment according to the present invention be coupled to connector shell 30 ' before assembling port lock member 70 ' in trip lever member 50 ' ' and patch cord 40 ' ' assembled view.Trip lever member 50 ' ' profile and the profile of port lock member 70 be manufactured so that trip lever assembly 50 ' ' can lock together with port lock member 70, to prevent patch cord 40 ' ' with connector 20 ' ' separates.Authorized user can use machine tool 150 ' the port lock member 70 that gets loose, so that by patch cord 40 ' ' with separate port member 100 ' ' separates from panel assembly.

Figure 17 illustrates according to the trip lever member 50 ' of exemplary the 3rd embodiment of the present invention ' isometric top view.Trip lever member 50 ' ' by main part 52 ' ' and in main part 52 ' one group of attachment part 54 ' of ' two ends be connected to main part 52 ' ' ' form.The arm region 58 ' that trip lever member 50 ' ' main part 52 ' ' is by touch area 56 ' ' and from touch area 56 ' ' extends ' form.Two side flanges 562 ' that trip lever member 50 ' ' attachment part 54 ' ' is positioned at touch area 56 ' ' outside in touch area 56 ' ' ' locate.The lock arm 564 ' of the main flange 581 ' of bar member 50 ' ' arm region 58 ' ' ' from touch area 56 ' ' ' extend and rise, ' side flange 582 ' ' extends in ' main flange 561 ' ' in touch area 56 ' to make arm region 58 ', wherein touch area 56 ' ' in lock arm 564 ' ' is as touch point 563 ' ', so that user further presses trip lever member 50 ' ' removes patch cord 40 ' '.From arm region 58 ', ' extend lock arm 564 ' ' is formed and has more close lock arm 564 ' ' free-ended raised areas 565 ' '.In addition, the arm region 58 ' side flange 582 ' of each extension ' ' is formed and is arranged as has one group of guiding elements 583 ' in its outer surface ', wherein guiding elements 583 ' ' is shaped as cylindrical pin.

Figure 18 illustrates according to the outside isometric view of the port lock member 70 of exemplary the 3rd embodiment of the present invention.Port lock member 70 is by body region 71 and at least two extensible region 72a, 72b, and wherein body region 71 is restricted to U-shaped body region, and this U-shaped body region has and is shaped as the center flange 73 with two side flanges 74.72a, 72b extend from the two edges of the center flange 73 of body region 71 in two extensible regions (upper extensible region and lower extensible region), and tilt toward each other, wherein the inclination of these extensible region 72a, 72b is formed and makes port lock member 70 can easily be assembled into trip lever member 50 ' ' in.The center flange 73 of body region 71 is formed the heart therein and has groove 75, so that the end of receiving tool 150 ', but being formed in its free end, each side flange 74 of body region 71 there is guide slits 76, to receive trip lever member 50 ' ' guiding elements 583 ' '.Similarly, extensible region 72a, at least one in 72b, particularly with the lower extensible region 72b of trip lever member 50 ' while locking together ' contact lock arm 564 ' ', be formed and have for receiving trip lever member 50 ' raised areas 565 ' of ' lock arm 564 ' ' ' lock slots 77, as shown in figure 19, Figure 19 illustrates according to the inner side isometric view of the port lock member 70 of exemplary the 3rd embodiment of the present invention.

In this embodiment of release mechanism of the present invention, by trip lever member 50 ' ' be assembled into connector shell 30 ' ' and by patch cord 40 ', ' by connector shell 30 ' ' is plugged into connector 20 ' ' in after, port lock member 70 is by guiding elements 583 ' ' be attached to trip lever member 50 ' ' and together with ' with at trip lever member 50 ' ', be locked in first end position P1 by lock arm 564 ', as shown in figure 20, Figure 20 illustrate described according to exemplary the 3rd embodiment of the present invention with trip lever member 50 ' ' isometric view of the port lock member 70 that fits together.Especially, port lock member be inserted into and with trip lever member 50 ' ' lock together, the raised areas 565 ' that ' guiding elements 583 ' ' is directed and slide in the guide slits 76 of port lock member 70 to make trip lever member 50 ', and trip lever member 50 ' ' lock arm 564 ' ' ' be engaged in the lock slots 77 in the lower extensible region 72b of port lock member 70.The tip lock that this is by patch cord 40 ' ' securing rod 42 ' ' fixes on trip lever member 50 ' ' and the upper extensible region 72a of port lock member 70 between.Therefore, this release mechanism can stop trip lever member 50 ' ' be moved further, this prevents unexpected or unwarranted approach and patch cord 40 ' ' with separate port member 100 ' ' separates from panel assembly, has also stopped connector shell 30 ' ' port region 32 ' ' thus avoid patch cord 40 ' for security reason ' unwarranted insertion.

Figure 21 illustrates and has described to get loose and trip lever member 50 ' according to the use instrument 150 ' of exemplary the 3rd embodiment of the present invention ' detailed view of the port lock member 70 that fits together.For by port lock member 70 from trip lever member 50 ' ' get loose, instrument 150 ' can be authorized to user and use and be inserted in the groove at center flange 73 places of the body region 71 of port lock member 70, the raised areas 565 ' that thereby instrument 150 ' can be rotated or reverse to press trip lever member 50 ' ' lock arm 564 ' ' ', and by raised areas 565 ' ' separate with the lock slots 77 of port lock member 70, this contribute to authorized user to pull port lock member 70 and by port lock member 70 and trip lever member 50 ' ' separate.Subsequently, by Manual press trip lever member 50 ', ' touch area 56 ' ' makes it away from patch cord 40 ' ', trip lever member 50 ' ' with respect to connector shell 30 ' ' be pushed or be moved further along downward direction, the leading edge pushing patch cord 40 ' of thereby trip lever member 50 ' ' arm region 58 ' ' ' securing rod 42 ' ', this contributes to user by securing rod 42 ' ' push away its latched position, so that by patch cord 40 ', ' separate with connector 20, and by patch cord 40 ' ' moves connector 20 ' to ' outside.

Further, for by separate port member 100 ' ' remove from panel assembly, by port lock member 70 from trip lever member 50 ' ' get loose after, trip lever member 50 ' ' in the upward direction towards connector shell 30 ' ' rotate, the forward position of so that arm region 58 ' ' arrive with respect to connector shell 30 ' ', this makes trip lever member 50 ' ' arrive the second end position P2.At the second end position P2, trip lever member 50 ' ' arm region 58 ' ' and connector shell 30 ' ' in locking component 34 ' ' cooperation is with the space that grasps that acts on user, thereby trip lever member 50 ' ' arm region 58 ' ' is pulled in the upward direction by user, to unclamp locking component 34 ' ', and then by separate port member 100 ' ' separate with panel assembly.

Figure 22 illustrates according to the isometric view of the port lock member 80 of exemplary the 4th embodiment of the present invention.As the additional aspect of port lock member 80 discussed above, port lock member 80 also can be designed and be configured as different forms, to prevent the accidental separation of patch cord 40.The party's face of port lock member 80 comprises U-shaped body region 82 and base flange 84, the two ends of U-shaped body region 82 are extended and are ended at deflection pin 86, and base flange 84 is located extend and tilt from U-shaped body region 82 at one of center edge of U-shaped body region 82.Port lock member 80 also can be called as barrier sheet 80, and its sheet metal by 1.2mm thickness is made.

Figure 23 illustrates the isometric view that patch cord 40 and trip lever member 50 is locked in to the port lock member 80 of its first end position P1 of having described according to exemplary the 4th embodiment of the present invention.After be plugged into connector 20 by connector shell 30 in trip lever member 50 is assembled into connector shell 30 and by patch cord 40 in, port lock member 80 consumes pin 86 by it and is assembled into separate port member 100.Especially, port lock member 80 is pushed and is inserted in the space being limited with respect to the lower surface of patch cord 40 by securing rod 42, the free end of base flange 84 of port lock member 80 and the end of the securing rod 42 of patch cord 40 are contacted, and the deflection pin 86 of port lock member 80 is deflected and locks onto in the hole 39 in the side surface of connector shell 30, wherein the hole 39 in connector shell 30 is positioned as adjacent with the hole 36 of attachment part 54 that receives trip lever member 50, as shown in figure 24, Figure 24 illustrates the detailed view of having described to be locked according to the use port locking component 80 of exemplary the 4th embodiment of the present invention the trip lever member 50 of the first end position P1 of trip lever member 50.The profile in the hole 39 of connector shell 30 can be formed the outline with the deflection pin 86 of port lock member 80, to receive deflection pin 86.This release mechanism fixes on the tip lock of the securing rod of patch cord 40 42 between the arm region 58 of trip lever member 50 and the base flange 84 of port lock member 80.In the time that user presses trip lever member 50 and removes patch cord 40, the movement of trip lever member 50 is limited by port lock member 80.Therefore, this release mechanism can prevent unexpected or unwarranted approach and patch cord 40 from the separation of connector 20.

For port lock member 80 is got loose from trip lever member 50, instrument 150 can be authorized to user and use and be inserted in the gap being formed on the both sides that consume pin 86, so that deflection consumes pin 86, thereby port lock member 80 is got loose from separate port member 100, and this contributes to authorized user to pull port lock member 80 and port lock member 80 is separated from trip lever member 50.Subsequently, make it to promote in a downward direction or be moved further trip lever member 50 away from patch cord 40 with respect to connector shell 30 by the touch area 56 of Manual press trip lever member 50, thereby the securing rod 42 of the leading edge of the arm region 58 of trip lever member 50 pushing patch cord 40, this contributes to user that securing rod 42 is pushed away to its latched position, to patch cord 40 is separated and moves patch cord 40 to connector 20 outsides from connector 20.Further, port lock member 80 is sold 86 by consumption and is assembled into separate port member 100 with the orientation of reversing, make restriceted envelope between trip lever member 50 and port lock member 80, this has stopped the port region 32 of separate port member 100, thereby avoid the unwarranted insertion of patch cord 40 for security reason, as shown in Figure 25, Figure 25 illustrates and has described according to the detailed view of the port lock member 80 being positioned with the orientation of reversing of exemplary the 4th embodiment of the present invention.Further, for separate port member 100 is removed from panel assembly, by port lock member 80 after trip lever member 50 gets loose, trip lever member 50 rotates towards connector shell 30 in the upward direction, so that arm region 58 arrives forward position, locking component 34 cooperations in itself and connector shell 30 are with the space that grasps that acts on user, thereby the arm region 58 of trip lever member 50 is pulled in the upward direction by user, to unclamp locking component 34, and then separate port member 100 is separated with panel assembly.

Figure 26 illustrates and before assembling port lock member 90, is engaged in connector shell 30 ' according to exemplary the 4th embodiment of the present invention ' ' in trip lever member 50 ' ' ' with illusory patch cord 40 ' ' ' assembled view.The present invention has described further aspect the release mechanism with lock-in feature (port lock member) of the core idea that does not deviate from release mechanism.The release mechanism of this particular aspects of the present invention is designed to by means of trip lever member 50 ' ' ' and port lock member 90 by illusory patch cord 40 ' ' ' keep and be locked in separate port member 100 ' ' ' port region 32 ' ' ' in, this is at separate port member 100 ' ' ' do not used or in remaining on panel assembly without any connect in the situation that time prevent and stop that unwarranted user approaches and any patch cord is inserted to separate port member 100 ' ' ' port region 32 ' ' ' in.Release mechanism mainly comprises by connector 20 ' ' ' and connector shell 30 ' ' ' form separate port member 100 ' ' ', trip lever member 50 ' ' ' and port lock member 90.Separate port member 100 ' ' ' by its locking component (clamping rpole) 34 ' ' ' be assembled into panel assembly, so that by connector shell 30 ' ' ' maintenance connector 20 ' ' '.In this release mechanism, illusory patch cord 40 ' ' ' used and be locked into separate port member 100 ' ' ' port region 32 ' ' ' in, so that at separate port member 100 ' ' ' prevent unwarranted use while using under any connection.Illusory patch cord 40 ' ' ' by specialized designs and end at retaining member 44 ' ' ' (instead of cable connection), wherein retaining member 44 ' ' ' contribute to user by illusory patch cord 40 ' ' ' move to connector 20 ' ' ' outside, separate illusory patch cord 40 ' simultaneously ' '.

Figure 27 illustrates according to the trip lever member 50 ' of exemplary the 4th embodiment of the present invention ' ' isometric top view.Trip lever member 50 ' ' ' by main part 52 ' ' ' and in main part 52 ' ' ' two ends be connected to main part 52 ' ' ' one group of attachment part 54 ' ' ' form.Bar member 50 ' ' ' by its attachment part (particularly hinge portion) 54 ' ' ' assembled and be attached to connector shell 30 ' ' ', thereby bar member 50 ' ' ' with respect to connector shell 30 ' ' ' around hinge portion 54 ' ' ' longitudinal axis can rotate or energy pivotable.Especially, by separate port member 100 ' ' ' be assembled in panel assembly in after, bar member 50 ' ' ' attachment part 54 ' ' ' with at connector shell 30 ' ' ' two front bottom side place is formed on connector shell 30 ' ' ' in hole 36 ' ' ' hinged, wherein connector shell 30 ' ' ' hole 36 ' ' ' profile can be formed and attachment part 54 ' ' ' outline, to receive bar member 50 ' ' '.

Trip lever member 50 ' ' ' main part 52 ' ' ' by touch area 56 ' ' ' and from touch area 56 ' ' ' extend arm region 58 ' ' ' form.Trip lever member 50 ' ' ' attachment part 54 ' ' ' be positioned at touch area 56 ' ' ' outside in touch area 56 ' ' ' two side flanges 562 ' ' ' locate wherein attachment part 54 ' ' ' be designed to cylindrical swivel pin.Bar member 50 ' ' ' arm region 58 ' ' ' main flange 581 ' ' ' from touch area 56 ' ' ' main flange 561 ' ' ' one of at least local part extend and rise, make arm region 58 ' ' ' side flange 582 ' ' ' in touch area 56 ' ' ' main flange 561 ' ' ' in extend, this is at bar member 50 ' ' ' touch area 56 ' ' ' in be separated out and limit Petting Area 563 ' ' '.Arm region 58 ' ' ' each side flange 582 ' ' ' be formed there is lead arm 583 ' ' ', with at bar member 50 ' ' ' touch area 56 ' ' ' Petting Area 563 ' ' ' in limit guide space.

Figure 28 illustrates according to the outside isometric view of the port lock member 90 of exemplary the 4th embodiment of the present invention.The party's face of port lock member 90 comprises body region 91, lock flange 93 and extensible flange 94, two lateral edges of body region 91 extend and end at deflection flange 92, lock flange 93 is extended from body region 91 in body region 91Xia center edge, and extensible flange 94 extends from body region 91 in body region 91Shang center edge.Deflection flange 92 is designed to flexible material, and deflection flange 92 can easily be pushed toward each other with respect to the body region of port lock member 90 91.Further, body region 91 is formed the heart therein and has groove 95, to receive machine tool, as shown in figure 29, Figure 29 illustrates according to the inner side isometric view of the port lock member 90 of exemplary the 4th embodiment of the present invention.

Figure 30 illustrates and has described according to the use instrument 150 ' of exemplary the 4th embodiment of the present invention ' port lock member 90 is assembled into trip lever member 50 ' ' ' and separate port member 100 ' ' ' in detailed view.In this embodiment of release mechanism of the present invention, by trip lever member 50 ' ' ' be assembled into separate port member 100 ' ' ' afterwards, illusory patch cord 40 ' ' ' can by connector shell 30 ' ' ' port region 32 ' ' ' be inserted into and be plugged into connector 20 ' ' ' in, thereby illusory patch cord 40 ' ' ' securing rod 42 ' ' ' be engaged to connector 20 ' ' ' in.Once illusory patch cord 40 ' ' ' be plugged into connector 20 ' ' ' in, port lock member 90 is inserted into and is coupled to machine tool 150 ' ' in, the C shape member 151 ' of machine tool 150 ' ' use instrument 150 ' ' ' the deflection flange 92 of deflection port locking component 90, and during port lock member 90 is kept in position.Be combined with machine tool 150 ' ' port lock member 90 by means of trip lever member 50 ' ' ' in lead arm 583 ' ' lock flange 93 and trip lever member 50 ' of port lock member 90 ' and ' ' lock together.Especially, be combined with machine tool 150 ' ' port lock member 90 be inserted into and with trip lever member 50 ' ' ' lock together, make the lock flange 93 of port lock member 90 directed and join to by trip lever member 50 ' ' ' lead arm 583 ' ' ' in the guide space that limits, and the end of the deflection flange 92 of port lock member 90 is engaged or lock and join to connector shell 30 ' ' ' hole 39 ' in side surface ' ' in, wherein connector shell 30 ' ' ' in hole 39 ' ' ' be positioned as and receive trip lever member 50 ' ' ' attachment part 54 ' ' ' hole 36 ' ' ' adjacent.Connector shell 30 ' ' ' hole 39 ' ' ' profile can be formed and the outline of the deflection flange 92 of port lock member 90, to receive the end of deflection flange 92.This is by illusory patch cord 40 ' ' ' securing rod 42 ' ' ' tip lock fix on trip lever member 50 ' ' ' arm region 58 ' ' ' and the upper extensible flange 94 of port lock member 90 between.Afterwards, instrument 150 ' ' turn clockwise, and be pulled to port lock member 90 outsides.When user presses trip lever member 50 ' ' ' remove illusory patch cord 40 ' ' ' time, trip lever member 50 ' ' ' movement limited by port lock member 90.Therefore, this release mechanism can stop trip lever member 50 ' ' ' movement, thereby avoid illusory patch cord 40 ' ' ' from connector 20 ' ' ' separate, this prevent and stopped that unwarranted user approaches and by the charged patch cord of any connection by separate port member 100 ' ' ' port region 32 ' ' ' be inserted into connector 20 ' ' ' in.

Figure 31 illustrates the detailed view of having described according to the use instrument 150 ' of exemplary the 4th embodiment of the present invention the port lock member 90 that ' get loose and trip lever member 50 ' ' fit together.Authorized user can use machine tool 150 ' ' by port lock member 90 from trip lever member 50 ' ' ' get loose, and then by illusory patch cord 40 ' ' ' with connector 20 ' ' ' separate, to any charged patch cord is plugged into connector 20 ' ' ' in.Especially, for by port lock member 90 from trip lever member 50 ' ' ' get loose, the instrument 150 ' being used by authorized user ' can be inserted in the groove 95 at body region 91 places of port lock member 90, the deflection flange 92 of thereby instrument 150 ' ' C shape member 151 ' ' deflection port locking component 90 so that the end of deflection flange 92 from connector shell 30 ' ' ' pull down, and instrument 150 ' ' can clockwise mode be rotated or reverse, until C shape member 151 ' ' outer surface of body region 91 of neighbor port locking component 90, so that instrument 150 ' ' at least a portion engage and lock with the inner surface of the body region 91 of port lock member 90.Subsequently, instrument 150 ' ' can be authorized to user pull, so that port lock member 90 is from trip lever member 50 ' ' ' and separate port member 100 ' ' ' pull down.

The aforementioned specific embodiments of the invention that are described as.Should be realized that, this embodiment is only described for example object.To those skilled in the art, be apparent that, although described the present invention at this for specific embodiment, the present invention also have manyly substitute, change and modification.It is intended to all these changes and substitutes as long as they enter in spirit and scope of the presently claimed invention and equivalent thereof and are just included in spirit and scope of the presently claimed invention and equivalent thereof.Therefore, drop on all modification, the change in the wide region of claims and substitute in gamut of the present invention.

Claims

1. for separating of a release mechanism for patch cord and separate port member, comprising:

Separate port member, has multiple connectors, is assembled into the front end of panel assembly by the locking component of described separate port member, to keep receiving at least one connector of described patch cord by connector shell; With

Trip lever member, is formed by main part and multiple attachment part of being connected to described main part at the two ends of described main part;

Wherein said bar member is attached to described connector shell by its attachment part, makes described bar member move to the second relative end position from first end position with respect to described connector shell;

In the time that described bar member is moved to described first end position, described trip lever member is moved further that described patch cord is separated from described connector, and in the time that described bar member is moved to described the second relative end position, described trip lever member and described locking component cooperation form and grasp space, to pull described separate port member and described separate port member is separated from described panel assembly.

2. release mechanism as claimed in claim 1, the arm region that the described main part of wherein said trip lever member is extended by touch area with from described touch area forms.

3. the release mechanism as described in claim 1 and 2, the described attachment part of wherein said trip lever member is positioned at outside, described touch area in both sides, described touch area, and wherein said attachment part comprises swivel pin.

4. the release mechanism as described in claim 1 and 2, it is adjacent with the port region of described connector shell that wherein said trip lever member is positioned as, make in the time that described patch cord is connected to described connector by described connector shell described in the leading edge of arm region be positioned at the securing rod below of described patch cord.

5. the release mechanism as described in claim 1 and 2, wherein in described first end position, by the described touch area of described trip lever member is pressed away from described patch cord, described trip lever member moves in a downward direction with respect to described connector shell, make the described leading edge of the described arm region of described trip lever member push the described securing rod of described patch cord, so that described patch cord is separated from described connector.

6. the release mechanism as described in claim 1 and 2, wherein at described the second relative end position, described trip lever member moves in the upward direction with respect to described connector shell, so that the described locking component cooperation in described arm region and described connector shell, make the described arm region of described trip lever member grasp space to pull described separate port member and described separate port member is separated from described panel assembly described in being used as.

7. release mechanism as claimed in claim 1, further comprise: the pin assemblies with at least two pins, these at least two pins are loaded and are bonded to spring member at its one end place, wherein said pin assemblies is assembled in the described main part of described trip lever member, make in the time that described trip lever member is assembled in described connector shell, the described pin of described pin assemblies is extruded and locks together with respect to the described first end position of described trip lever member and described the second end position and described connector shell, movement with restriction trip lever member from described first end position to described the second end position, vice versa.

8. release mechanism as claimed in claim 7, wherein said spring member is extruded that described pin is separated from described connector shell, to trip lever member is moved to described the second end position from described first end position, vice versa.

9. for separating of a release mechanism for patch cord and separate port member, comprising:

Separate port member, has multiple connectors, is assembled into the front end of panel assembly by the locking component of described separate port member, to keep receiving at least one connector of described patch cord by connector shell;

Trip lever member, formed by main part and multiple attachment part of being connected to described main part at the two ends of described main part, wherein said bar member is attached to described connector shell by its attachment part, makes described bar member move to the second relative end position from first end position with respect to described connector shell; With

Port lock member, is attached to described separate port member or described trip lever member, to limit the movement of trip lever member from its first end position;

Wherein when described bar member is during in described first end position, described port lock member is removed from described separate port member or described trip lever member, to described patch cord is separated from described connector by being moved further described trip lever member, and in the time that described bar member is moved to described the second relative end position, described trip lever member and described locking component cooperation form and grasp space, to pull described separate port member and described separate port member is separated from described panel assembly.

10. release mechanism as claimed in claim 9, it is adjacent with the port region of described connector shell that wherein said trip lever member is positioned as, to push the securing rod of described patch cord in the time that described patch cord is connected to described connector by described connector shell.

11. release mechanism as claimed in claim 9, wherein in described first end position, by described trip lever member is pressed away from described patch cord, described trip lever member moves in a downward direction with respect to described connector shell, make at least a portion of described trip lever member push the described securing rod of described patch cord, to described patch cord is separated from described connector.

12. release mechanism as claimed in claim 9, wherein at described the second relative end position, described trip lever member moves in the upward direction with respect to described connector shell, so that the described locking component cooperation at least a portion of described trip lever member and described connector shell, make described trip lever member grasp space to pull described separate port member and described separate port member is separated from described panel assembly described in being used as.

13. release mechanism as claimed in claim 9, the arm region that the described main part of wherein said trip lever member is extended by lock arm, from described lock arm and the multiple guiding elements that are positioned at described attachment part rear form, and described lock arm has raised areas at its free end.

14. release mechanism as claimed in claim 9, wherein said port lock member extends and at least two extensible regions tilting toward each other form from described body region by U-shaped body region with in the Liang Ge edge at the center of described body region.

15. release mechanism as claimed in claim 14, the described body region of wherein said port lock member is formed to be had at the groove of the center of described body region with in multiple guide slits of the free end of described body region.

16. release mechanism as claimed in claim 14, at least one in the described extensible region of wherein said port lock member is formed has lock slots.

17. release mechanism as described in claim 9 and 13-16, wherein said port lock member is attached to described trip lever member, the described guiding elements of described trip lever member is directed in the corresponding guide slits of described port lock member, and the described raised areas of described lock arm is locked in the described lock slots of described port lock member, to limit the movement of trip lever member from its first end position.

18. release mechanism described in claim 9 and 13-17, wherein carry out operation tool by the groove in described body region and the described raised areas of the described lock arm of described trip lever member is separated from the described lock slots of described port lock member, described port lock member is removed from described trip lever member, to trip lever member is moved to described the second end position from described first end position, vice versa.

19. release mechanism as claimed in claim 9, wherein said port lock member comprises the base flange that ends at the U-shaped body region of deflection pin and extend from described U body region at one of center edge of described U-shaped body region.

20. release mechanism as described in claim 9 and 19, wherein said port lock member is deflected and consumes pin by it and is locked into described separate port member, the described securing rod of described patch cord is locked between at least a portion of described trip lever member and the described base flange of described port lock member, to limit the movement of trip lever member from its first end position.

21. release mechanism as described in claim 9 and 20, the described consumption pin of wherein said port lock member is deflected and unclamps from described separate port member, so that described port lock member is pulled down from described trip lever member, to trip lever member is moved to described the second end position from described first end position, vice versa.

22. release mechanism as described in claim 9 and 19, wherein said port lock member consumes pin by it and is assembled into described separate port member with the orientation of reversing, to stop the described port region of described separate port member.

23. release mechanism as claimed in claim 9, the arm region that the described main part of wherein said trip lever member is extended by touch area with from described lock arm forms, wherein said arm region is formed has lead arm, to limit guide space in described touch area.

24. release mechanism as claimed in claim 9, wherein said port lock member comprises the extensible flange that ends at the body region of deflection flange, extend from the top edge of described body region and the lock flange of extending from the lower limb of described body region, and the described body region of wherein said port lock member is formed the heart therein and has groove.

25. release mechanism as described in claim 23-24, once wherein illusory patch cord is plugged in described connector, described port lock member is attached to described trip lever member, the described lock flange of described port lock member is directed in the described guide space being limited by the described lead arm of described trip lever member, and the described deflection flange of described port lock member is locked in described connector shell, to limit the movement of trip lever member.

26. release mechanism as described in claim 23-25, wherein carry out operation tool by the groove in the described body region of described port lock member and the described deflection flange of port lock member described deflection flange is unclamped from described connector shell described in deflection, described port lock member is removed, so that mobile trip lever member from described trip lever member.