CA1285036C - Electrical connector - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE An electrical connector includes a plug having a number of contact pins and a jack having a number of receptacle contacts corresponding to the contact pins. Each of the receptacle contacts has a parallel portion and a widened portion, and a contact pressing member having partition walls is movable in such a manner that, when the contact pressing member is in a first position, the partition walls are positioned at the parallel portions of the receptacle contacts to allow an easy insertion of the contact pins and, when the contact pressing member is moved to a second position, the partition walls are moved to the widened portions of the receptacle contacts so that the gaps between the widened portions are narrowed and, therefore, the receptacle contacts are pressed into firm contact with the contact pins.

Description

~ 35~

AN ELECTRICAL CONNECTOR
_, BACKGROUND OF THE INVENTION
1. Field of the Invention This invention relates to a connector used in the electric or elec~ronic fields and, more particularly, 5 to an electrical connector comprising a plug assembly having a large number of contact pins and a jack assembly having a large number of receptacle contacts corres-ponding to the contact pins.
In the recent years, electronic instruments such as computers have become very sophisticated, and accordingly, the number of output terminals of such a computer has been greatly increased. Thereore, a connector having a large number of pins or contacts is required in this field, and such a connector must be handled ~y àn operator, and sta~ly connected to a corresponding connector in such a manner that only a small force is necessary when one connector is engaged with or disengaged from the other connector.

2. Description of the Related Art An electrical connector known in the prior art comprises a plug assembly having a large number o contact pins and a jack assembly having a large number of receptacle contacts corresponding to the contact pins. Namely, the plug comprises a large number of contact pins regularly arranged and rigidly secured to a board to constitute a pin array, and the jack assembly comprises a large number of receptacle contacts, each usually having a pair of contact portions, and a molded body having a large number of compartments and guide slots corresponding to the array of contact pins. The pairs of contact portions of the receptacle contacts are accom~odated in the compartments, and when the plug is engaged with the jack the contact pins of the plug are inserted through the respective-guide slots into the compartments i.e., the gaps formed between the pairs of ~ ~5~3~

contact portions~ in such a manner that the contact pin widens the gap of the contact portions and eomes into sliding contact with the contact portions.
However, a conventional eonneetor as mentioned above has several drawbacks, for example, the force for inserting the contact pins inko the jack is also used for widening the gaps between khe pairs o~ contact portions, and there~ore, if khe number of conkact pins is increased, the plug insertion foree must be also increased. This plug insertion force is exerted directly on the contact pins and receptacle contacts, i.e., on the plug and jack assemblies, so that the parts and materials constituting these assemblies must be strengthened, In addition, if the number of contact pins is ~urther increased, it becomes difficult to uniformly apply a large plug insertion force at all areas of the jaek or plug assemblies. This also inereases the possibility of damage to or deformation of the contaet pins or receptacle contacts.
~ 20 SUMM~RY OF THE INVENT~ON
; An object of the present invention is to provide an electrieal eonnector comprising a plug and a jack and having multiple pin contacts and receptacle contaets, whereby a plug insertion force is si~nificantly redueed, so that a connecting operation ean be easily performed.
Another object of the present invention is to provide an electrieal connector, capable of maintaining a large contact force between the eontact pins and eontaet receptaeles while the plug is engaged with the jaek.
~ ccording to the present invention there is provided a electrical connector eomprising: (a) a plug assembly having a number of eontaet pins and (b) a jack assembly ineluding a numher of receptacle contaets corresponding to the contact pins, each of the receptacle contacts defining a gap opening at a top thereof into which the contact pin can be resiliently inserted, so that the contact pins simultaneously come into electrical contact with the receptacle contacts, each of the receptacle contacts having at least one parallel portion and a widened portion in which the width o~ the gap is larger than that in the parallel portion; and a contact pressing member having partition walls and being movable between first and second positions in such a manner that, when the contact pressing member is in the first position, the partition walls are positioned at the parallel portions of the receptacle contacts so that the gaps therein allow an easy insertion of the contact pins and, when the contact pressing member moves to the second position, the partition walls are moved to the widened portions of the receptacle contacts so that the gaps therein are narrowed in such a manner that the receptacle contacts are in firm contact w:ith the contact pins; and (c) means for moving the contact pressi:ng member between the first and second positions thereof.
~ Thus, a multiple pin and receptacle contacts type : 20 electrical connector can be obtained by which a plug insertion force is significantly reduced and, therefore, a connecting operation can be easily performed, and in the connected state, a large and uniform contact force is maintained between the pin contacts ana the receptacle contacts.
The present invention also provides an electrical connector comprising: (a) a plug assembly including a board and a number of contact pins regularly arranged on the board; and (bt a jack assembly including a mother board and a plurality of jack modules regularly arranged on the mother board, each of the jack modules comprising:
a housing fi~ed on the mother board; a number of recep-tacle contacts regularly arranged on the housing corresponding to the contact pins, each of the receptacle contacts projecting from the housing and defining a gap opening at the top thereof, the receptacle contacts also having a widened portion adjacent to the tops and at ~.X~

least one parallel portion adjacent to the widened portion thereof, the width of the gaps at the widened portions being larger than the width at the parallel portions; a pin guide fi~ed to the housing and having a number of guide holes corresponding to the number of contact pins, so that the contact pins can be simultaneously inserted through the guide holes and come into resilient contact with the receptacle cor.tacts; a contact pressing member having partition walls and slidingly mounted on the housing between the upper and lower position thereof in such a manner that, when the contact pressing member is in the lower position, the partition walls are positioned at the paral~lel portions of the receptacle contacts so that the gaps therein allow an easy insertion of the contact pins and when the contact pressing member moves to the upper position, the partition walls are moved to the widened portions of the receptacle contacts so that the gaps therein are narrowed in such a manner that the pin contacts are pressed into firm contact with the receptacle contacts; and the contact pressing member i5 provided at both side walls thereof with inclined guide grooves, respectively; and (c) means for moving the contact pressing member com-prising: a plurality oX sliding members slidably mounted on the mother board, each of the sliding mejmbers having projections which are engaged ~ith the inclined guide grooves of the contact pressing member; ana a plurality of cam levers pivotably mounted on the mother board, each of the cam levers having one end engaged with one or more the sliding member; and (d) a detachable operating means for pivotally moving the one or more cam levers, whereby the contact pressing members is moved up and down the movement of the cam levers and the sliding members, and thus the contact pressing member can be easily moved up and down by using the detachable operating means. In this case, all of or a group of the jack modules are connected simultaneously by the opera-. ~

5~

tion means, and after the insertion of the jack assernbly, this operating means can be removed so that the provision of a particular space for this purpose becomes unneces-sary.
BRIEF DESCRIPTION OF THE DRAWINGS
Figure l is a perspective view illustrating a first embodiment of an electrical connector according to the present invention;
Figure 2 is a perspective view of a jack assembly;
Figure 3 is a perspective view of a jack module;
Figure 4 is a perspective view of a receptacle contact;
Figures 5A, 5B, and 5C are perspective views of housing, a contact pressing member, and a guide member constituting a jack module, respectively;
: Figure 6 is a partial cross-sectional view of the electrical connector shown in Fig. l;
Figure 7 is a partial side view, shown in cross~
section, illustrating a means for causing up and down movement of the contact pressing member in the first embodiment;
Figures 8A, 8B, and 8C are schematic views for explaining the operation of the connector of this invention;
Figure 9 is a perspective view of a jack assembly in another embodiment of this invention;
Figure 10 is an enlarged perspective view of a portion X in Fig. 9;
Fi~ure 11 is schematic view for explaining an operation of a cam lever used in the embodiment shown in Figs. 9 and 10 Figure 12 is a perspective view of jack modules and sliding members in still another embodiment of this invention;
Figure 13 is a schematic view of a jack assembly in the embodiment shown in Fig. 12; and, Figure 14 is an enlarged perspective view of a ~35~

portion XIV in Fig. 13.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring now to Fig. 1, a plug assembly 10 com-prises a board 11 to which a large number of contact pins 12 are rigidly secured. These pins 12 are regularly arranged and constitute a pin array. A jack assembly 15 comprises a plurality of jack modules 20 regularly arranged and fixed on a rnother board 16 ~Fig. 2). Each module 20 (Fig. 3) comprises a housing 21, a contact pressing member 22, and a pin guide 23, which are molded of plas~ic, and a plurality of receptacle contacts 24.
Each receptacle contact 24 (Fig. 4) consists of a relatively long metal piece having a pair of leaves extending upward from the housing 21, and comprising pairs of contact portions 24a, widened portions 24b, and parallel straight portions 24c, a U-shaped base portion 24d and a lower extending portion 24e. The contac~ portions 24a opened to the top are slightly diverged to facilitate the insertion of the contact pin 12, and the gap between the widened portions 24b is wider than the gap between this parallel straight portions 24c.
The housing 21 (Fig. 5A~ fixed on the mother board 16 has a plurality of regularly arranged com-partments 21a separated by partition walls 21b ~Fig. 7).
The receptacle contact 24 is inserted into the compartment 21a in such a manner that the U-shaped base portions 24d is fixed in the compartments 21a, whereby the lower portion 24e extends downward from the housing 21 and the upper portions 24a, 24b, and 24c extend upward therefrom. The housing 21 is provided at the both sides thereof with a pair of vertical columns 21c having vertical recesses 21d, with two pairs of hooks 21e, at the front and rear ends thereof and two pair of horlzontal guide grooves 21f at both sides thereof.

3Çi The contact pressing member 22 (Fig. 5B) has an upper opening 22a and a plurality of regularly arranged holes 22b corresponding to the compar~ments 21a of the housing 21 for receiving the receptacle contacts 24.
The contact pressing member 22 is provided at both sides thereof with a pair of vertical grooves 22c which fit the vertical columns 21c of the housing 21, respectively, so that the contact pressing ~ember 22 is vertically slidable up and down the housing 21. When the contact pressing member 22 is moved down, the holes 22b (partition walls 22e define these holes 22b) are posi-tioned at the parallel straight portions 24c o the receptacle contact 24. On the other hand, when the contact pressing member 22 is pulled up, the holes 22a (partition walls 22e) are positioned at the widened portions 24b of the receptacle contact 24 so as to narrow the gap between the pair of contact portions 24a.
When the contact pressing member 22 is in the lower position, the gap between the pair of contact portions 24a is slightly smaller than the diameter of the contact pin 12, and accordingly, a contact force Fl for inserting the contact pin 12 at this position is far smaller than a contact force F2 in which the gap between the contact portions 24a is narrowed by moving the contact pressing member 22 upward ~Fl << F2).
The contact pressing member 22 is provided at both sides thereof with two pairs of cam grooves 22d which are inclined with respect to the horizontal guide groove 21f of the housing 21.
The contact pin guide 23 (Fig. 5C~ also has a plurality of regularly arranged holes 23a corresponding to the holes 22a of the contact pressing member 22 into which the contact pins 12 of the plug assembly 10 can be inserted. The con~act pin guide 23 is provided at both sides thereof with a pair of vertical projections 23b which fit into the vertical recesses 21d of the housing 21 and, at the front and rear ends thereof, with 5~

two pairs of jaws 23c which engage with the hooks 21e of the housing 21, so that the guide member 23 is thus fixedly attached to the housing 21.
The means 40 for movlng the contact pressinq member 22 up and down will now be described with refer-ence to Figs. 1, 6, and 7. Movably arranged in each gap 17 formed between the longitudinal rows of jack modules 20, are a longitudinal sliding members 30 having a plurality of upper and lower projections 31 and 32, which are engaged with the cam grOQVeS 22d of the contact pressing member 22 and the guide grooves 21f of the housing 21, respectively. These sliding members 30 are also arranged along the side faces of the left- and rightmost rows of the jack modules 20, respectively.
Accordingly, since the guide grooves 21f are straight but the cam grooves 22d are gradually inclined downward to the front, when the sliding members 30 are moved forward, the contact pressing member 22 is moved upward.
Each sliding member 30 is provided at the rear end thereof with open hole 33, and in the vicinity thereof, a bearing block 41 having a bearing groove 42 is fixed on the mother board 16. A tool 43 having a protrusion 44 insertable into the hole 33 of the sliding member 30 and a pair of legs 45 engageable with the bearing grooves 42 o~ the adjacent two blocks 41 is provided~ and therefore, when the plug assembly 10 is to be inserted into the jack assembly 15, the tool 43 is engaged with the blocks 41 and the protrusion 44 is inserted into the hole 33, so that the sliding members 39 is slidably moved.
The operation of the connector of this invention will now be described with reference to Figs. 8A, 8B, and 8C. Before the insertion of the contact pins 12, the sliding members 30 are in the rearward position and, there~ore, the upper projections 31 are positioned at an - upper portion of the inclined cam grooves 22d, so that the contact pressing member 22 is in the lower position, ~ ~5~

the holes 22b (partition wall 22e) thereof are fitted only on the parallel portions 24c of the receptacle contacts 24, and the wide portions 24b o~ the receptacle contacts 24 freely lie within the openings 22a o the contact pressing member 22, as shown in Fig. 8A.
In this state, the plug assembly 10 is lowered in such a manner that the plug contact pins 12 are inserted through the holes 23a of contact pin guides 23 into the jack modules 20, and then each contact pin 12 is inserted into the gap between the pair of contact portions 24a of the receptacle contacts 24, as shown in Fig. 8B. In this state, the pair of receptacle contacts (including portions 24a, 24b, and 24c) are supported, in a cantilever fashion, on the housing 21 and, therefore, the contact force Fl (force exerted on the contact pin 12) is so small that a large number of contact pins 12 can be easily, simultaneously inserted into the jack modules 20 with a relatively small insertion force and slidingly moved along the contact portions 24a, to thereby effectively rid the contact pins 12 and recep-tacle contacts 24 of any contamination thereon. Thus, an effective cleaning can be attained by a slight friction exerted between the contact pin 12 and the receptacle contact 24 by the contact~force Fi.
After the insertion of the plug assembly 10, the tool 43 (Fig. 7) is set on the bearing blocks 41 to move the sliding member 30 forwara, and thus the upper proiection 31 thereof is brought into contact with a lower portion of the inclined cam groove 22d, so that the contact pressing member 22 is moved to the upper position, as shown in Fig. 8C. Therefore, the hole 22b (partition wall 22e) mo~es upward to the widened portions 24b of the contact 24 and narrows the gap therebetween, so that the top contact portions 24a are strongly pushed (force F2) against the plug contact pin 12 and brought into firm contact with the contact pin 12, and thus the plug insertion is completed.

.~ 5~36 Thereafter, the contact pressing member 22 is kept at the upper position, and thus the firm contact between the receptacle contact 24 and the plug contact pin 12 is maintained.
When the plug assembly 10 is to be disengaged from the jack modules 20, the sliding member 30 is first moved backward to lower the contact pressing member 22, and then the plug assembly 10 is raised from the jack assembly 15 in an opposite manner as to that described above, for the engagement of the plug assembly 10.
Another embodiment of the means 50 for moving the sliding members 30 is shown in Figs. 9, 10, and 11. In this embodiment, the sliding member 30 has a groove 34 at the rear end thereof and, in the vicinity thereof, a cam lever 51, provided for each adjacent two of the slide members 30, is pivotably mounted by a shaft 52 on adjacent bearing blocks 53, which are arranged between the cam levers 51 and fixed on the mother board 16. The cam lever 51 is provided at the free end thereof with a pair of shafts 54 and 55 projecting from both sides thereof to engage with the grooves 34 of two adjacent sliding members 30, respectively. Each of the grooves 34 has a U-shaped, semicircular cross-section and, on the other hand, each of the shafts 54 and 55 has a cylindrical, circular cross-section.
The upper ends of the cam levers 51 are rigidly connected by, for example, bolts 56, to a common connecting bar S7 extending in parallel to the shaft 52.
The connecting bar 57 has two tool insert projections 58 extending in the direction opposite to that of the cam levers 51. Two operating tools 59 can be detachably fitted to the projections 58 so that, when the operating tools 59 are pulled in the direction indicated by arrows in Fig. 9, the cam levers 51 are pivotably moved in the clockwise direction (Fig. 1~) to move the shafts 54 and 55 forward, and therefore, all of the sliding members 30 are simultaneously moved forward to raise the 5~3~

contact pressing members 22 of the jack modules 20.
According to this embodiment, a dimension~width) of the groove 34 may be smaller than that of the hole 33(Fig. 7~ in the previous embodiments and, therefore, an operating area S may be minimized, since the cylindrical shaft 54, 55 is engaged with the semi-circular groove 34. That is, in Fig. 11, when the cam lever 51 is pivotably moved about the shaft 52 in the direction indicated by an arrow, the shaft 54, 55 pushes a wall of the groove 34 and is allowed to turn in the same groove 34. This means that the width of the grrove 34 is sufficient to be very slightly larger than the diameter of the shaft 54, 55 so that the latter can freely turns in the groove 34. Contrary to this, in the embodiment of Fig. 7, the width of the hole 33 must be larger than a distance corxesponding to the stroke of the sliding member 30 and, therefore, a larger operating area is required.
Figures 12, 13, and 14 illustrate still another embodiment for moving the contact pressing memb~r 22 up and down. In this embodiment, movably arranged at both sides of the longitudinal rows of the jack modules 20 are pairs of longitudinal sliding members 60a and 60b having a plurality of upper and lower~projections 61 and 62 on the inner sides thereof. These projections 61 and 62 are engaged with the cam grooves 22d of the contact pressing member 22 and guide grooves 21f of the housing 21, respectively, in the same manner as in the previous embodiment~
~ach pair of sliding members 60a is connected at the rear end thereof to a connecting member 63 having a top opening groove 64 at the rear end thereof, and in the vicinity thereof, a cam lever 65 (Fig. 14), provided for the two adjacent connecting members 63, is pivotably 35 mounted by a shaft 66 on a bearing block 68 (Fig. 13) fixed on the mother board 16 (not shown in Fig. 13).
The cam lever 65 is provided at the free end thereof ~ ~35~

with a pair of shafts 67 projecting from both sides thereof to engage with the grooves 64 of the two adjacent connecting members 63, respectively.
The upper end of each cam le~er 65 has a threaded hole 69 to which an operating tool 70 having a threaded projection at one end thereof can be detachably attached, so that when the operating tool 70 i5 pulled in the direction indicated by an arrow in Fig. 13, the cam lever 65 is pivotably moved independently of the other cam levers 65. Therefore, two pairs of the sliding members 60a and 60b are simultaneously moved forward to raise the contact members 22 of the two rows of jack modules 20. Thus, the operating tool 70 can be used, in turn, for the subsequent cam levers 65 so that two pairs of sliding members 60a and 60b are moved each time.

Claims (13)

1. An electrical connector comprising:
a) a plug assembly having a number of contact pins; and, b) a jack assembly including:
a number of receptacle contacts corresponding to said contact pins, each of said receptacle contacts defining a gap opening at a top-thereof, into which said contact pins can be resiliently inserted, so that said contact pins simultaneously come into electrical contact with said receptacle contacts, said receptacle contacts having at least one parallel portion and a widened portion in which the width of a gap therebetween is larger than the width of a gap between said parallel portions; and, a contact pressing member having partition walls and being movable between a first position and a second position in such a manner that, when said contact pressing member is in said first position, said partition walls are positioned at said parallel portions of the receptacle contacts so that the gaps between said portions of said receptacle contacts allow an easy insertion of said contact pins and, when said contact pressing member is moved to said second position, said partition walls are moved to said widened portions of said portions of said receptacle contacts so that the gaps between said portions of said receptacle contacts are narrowed in such a manner that said receptacle contacts are pressed into firm contact with said contact pins; and, c) means for moving said contact pressing member between said first position and said second position.

2. A connector as set forth in claim l, wherein each of said receptacle contacts comprises a pair of resilient leaves and said gap is defined therebetween.

3. An electrical connector comprising;
a) a plug assembly including a board and a number of contact pins regularly arranged on said board; and, b) a jack assembly including a mother board and a plurality of jack modules regularly arranged on said mother board; each of said jack modules comprising:
a housing fixed on said mother board;
a number of receptacle contacts regularly arranged on said housing and corresponding to said contact pins, each of said receptacle contacts being projected from said housing and defining a gap opening at a top thereof into which said contact pins can be resiliently inserted, so that said contact pins simultaneously come into electrical contact with said receptacle contacts, said receptacle contact having at least one parallel portion and a widened portion in which a width of a gap therebetween is larger than a width between said parallel portions; and, a contact pressing member having partition walls and mounted movably with respect to said housing between a first position and a second position in such a manner that, when said contact pressing member is in said first position, said partition walls are positioned at said parallel portions of the receptacle contacts so that the gaps between said portions of the receptacle contacts allow an easy insertion of said contact pins, and when said contact pressing member is moved to said second position, said partition walls are moved to said widened portions of the recep-tacle contacts so that said the gaps between said widened portions are narrowed in such a manner that said receptacle contacts are pressed into firm contact with said contact pins; and, c) means for moving said contact pressing member between said first position and said second position.

4. A connector as set forth in claim 3, wherein each of said receptacle contacts comprises a pair of resilient leaves projecting from said housing in such a manner that said gap is defined between said pair of leaves.

5. A connector as set forth in claim 3, wherein said housing has a means for slidably guiding said contact pressing member between said first position and said second position.

6. An electrical connector comprising:
a) a plug assembly including a board and a number of contact pins regularly arranged on said board; and, b) a jack including a mother board and a plurality of jack modules regularly arranged on said mother board, each of said jack modules comprising:
a housing fixed on said mother board;
a number of receptacle contacts regularly arranged on said housing and corresponding to said contact pins, each of said receptacle contacts being projected from said housing and defining a gap opening at a top thereof, said receptacle contacts also having a widened portion adjacent to said opening at said top and at least one parallel portion adjacent to said widened portion, a width of said gap between said widened portions being larger than a width of a gap between said parallel portions;
a contact pin guide fixed to said housing and having a number of guide holes corresponding to said contact pins, so that said contact pins can be simultaneously inserted through said guide holes and brought into resilient contact with said receptacle contacts;
a contact pressing member having partition walls and being slidingly mounted on said hosing to move between an upper position and a lower position in such a manner that, when said contact pressing member is in said lower position, said partition walls are positioned at said parallel portions of the receptacle contacts so that the gaps between said portions of said receptacle contacts allow an easy insertion of said contact pins and, when said contact pressing member is moved to said upper position, said partition walls are moved up to said widened portions of said receptacle contacts so that said gaps between said portions of said receptacle contacts are narrowed in such a manner that said receptacle contacts are pressed into firm contact with said contact pins; and, c) means for moving said contact pressing member between said upper position and said lower position.

7. A connector as set forth in claim 6, wherein each of said contact pressing members is provided at a side wall thereof with at least one inclined guide groove and said moving means comprises a plurality of sliding members slidably mounted on said mother board, each of said sliding members having projections which are engaged with said inclined guide grooves of said contact pressing members, whereby said contact pressing members are moved up and down by a movement of said sliding members.

8. A connector as set forth in claim 7, wherein each of said sliding members is slidably disposed in a gap between said tow adjacent jack modules and provided with said projections on both sides thereof, so that said projections are engaged with said inclined guide grooves of said two adjacent jack modules.

9. A connector as set forth in claim 6, wherein each of said contact pressing members is provided at both side walls thereof with inclined guide grooves, respectively, and said moving means comprises a plurality of pairs of sliding members slidably mounted on said mother board, each pair of said sliding members having projections which are engaged with said inclined guide grooves at both side walls thereof, respectively, whereby said contact pressing members are moved up and down by a movement of said pairs of sliding members.

10. An electrical connector comprising:
a) a plug assembly including a board and a number of contact pins regularly arranged on said board; and, b) a jack assembly including a mother board and a plurality of jack modules regularly arranged on said mother board; each of said jack modules comprising:
a housing fixed on said mother board;

a number of receptacle contacts regularly arranged on said housing and corres-ponding to said contact pins, each of said receptacle contacts being projected from said housing and defining a gap opening at a top thereof, each of said receptacle contacts also having a widened portion adjacent to said top opening and at least one parallel portion adjacent to said widened portion, a width of a gap at said widened portion being larger than a width of a gap at said parallel portion;
a contact pin guide fixed to said housing and having a number of guide holes corresponding to said contact pins, so that said contact pins can be simultaneously inserted through said guide holes and be brought into resilient contact with said receptacle contacts;
a contact pressing member having partition walls and slidingly mounted on said housing between an upper position and a lower position in such a manner that, when said contact pressing member is in said lower position, said partition walls are positioned at said parallel portions of the receptacle contacts so that gaps between said portions of said receptacle contacts allow an easy inser-tion of said contact pins, and when said contact pressing member is moved to said upper position, said partition walls are moved up to said widened portions of the receptacle contacts so that said gaps between said widened portions are narrowed in such a manner that said receptacle contacts are pressed into firm contact with said contact pins, and said contact pressing member is provided at both side walls thereof with inclined guide grooves, respectively;
c) means for moving said contact pressing member comprising:
a plurality of sliding members slidably mounted on said mother board, each of said sliding members having projections which are engaged with said inclined guide grooves of said contact pressing members; and, a plurality of cam levers pivotably mounted on said mother board, each of said cam levers having one end engaged with one or more of said sliding members; and, d) a detachable operating means for pivotally moving one or more of said cam lever, whereby said contact pressing members are moved up and down by movements of said cam levers and said sliding members.

11. A connector as set forth in claim 10, wherein said cam levers are connected to each other by a common bar so that said plurality of cam levers are pivotably moved simultaneously and said operating means is detachably attached to said common bar, whereby said contact pressing members of all of said jack modules are .
moved up and down by a single operation.

12. A connector as set forth in claim 10, wherein a plurality of paris of said sliding members are slidably disposed along both sides of said jack modules, each pair of said sliding members having one end connected to an adjacent pair of sliding members and engaged with one or more of said cam levers, and said operating means is detachably attached to each individual cam lever, whereby said contact pressing members of one or more rows of said jack modules are moved up and down by a single operation.

13. A connector as set forth in claim 10, wherein said cam lever is provided at said one end with at least one shaft having a cylindrical, circular cross-section and extending in parallel to an axis about which said cam lever is povitably moved, said sliding member has a groove having a U-shaped, semicircular cross-section, said shaft is engaged with said groove, so that said sliding member is moved upon a pivotable movement of said cam lever.