CA1169409A - Tiltable and/or rotatable support for a display device - Google Patents

Abstract

ABSTRACT

A TILTABLE AND/OR ROTATABLE SUPPORT FOR A DISPLAY DEVICE

A tiltable and/or rotatable support for a display device includes a cam operated locking mechanism operable to positively clamp the support in a selected swivel and/or tilt position and limiting the amount of tilt and swivel to predetermined amounts. The locking mechanism is operated by means of a lever extending through a hori-zontal slot in the base and is adjustable to compensate for axial tolerance build-up which could otherwise lead to malfunction. The support may be provided as a stand-alone unit or formed integral with the base of the display device.

Description

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A TILTABLE AND/OR ROTATABLE SUPPORT FOR A DISPLAY D~VICE

The invention relates to a tiltable and/or rotatable support for a unit such as a display device.

Back round Information _ g _ -The IBM 6580 Display Station (IBM is a registered trade mark of International Business Machines Corporation) includes a display module which may be swivelled and/or tilted by an operator to adjust the view-ing angle. The base of the display module has a central ribbed portion which is shaped to present a spherically contoured convex surface.
This module is supported on a plinth ~hich has a central spherically contoured concave surface which mates with the contoured surface on the underside of the module. The two surfaces are slidable, one over the other, to rotate and/or tilt the display module on the plinth.
shaped key-piece extends from the centre of the convex surface on the underside of the module through an elongated aperture extending dia-gonally across the concave surface in a direction from front to back of the plinth. The shape of the ~ey-piece serves to hold the ~odule in place on the plinth whilst permitting tilting of the module within limits dictated by the key-piece movable within the confines of the elongated slot. Rotation of the module is limited by a projecting lug extending upwards from the base into the spherical convex surface of the module where it engages ribs positioned to define the permitted rotational movement of the module. Wing pieces extend down from each side of the convex surface of the module to contact the plinth to pro-vide lateral support for the module and to limit vibration. Further details of the construction of the tilt and/or rotate feature of the display module are to be found in Canadian Application ~o. 403,500, filed May 21, 1982, by K.C. ~ryant-Jeffries et al.

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U~9-81-008 2 l IBM Technical Disclosure Bulletin Vol. 23, No. 7A, Dec. 1980, pages 2859/60 entitled 'Swivel and tilt mechanism for display unit' by S Futatsugi and M Koboyashi, describes a mechanism similar to that incorporated in the IBM 6580 Display Station but additionally having a locking mechanism for clamping the display module, or cabinet, on the plinth, or pedestal, in ~he selected tilted and rotated posltion. The locking mechanism consists of a T-shaped shaft, or stopper, mounted for axial movement in a central hole in the concave spherlcal surface of the plinth and extending through a diagonally positioned elongated slot running from front to back across the convex surface of the underside of the display module. Although axially movable, the T-shaped shaft is otherwise fixed in relation to the plinth with the cross-bar of the shaft aligned parallel to the front edge of the plinth. When assem-bled, the cross-bar of the shaft is only aligned with the elongated slot in the display module when the latter has been rotated through 90 with respect to the plinth. The T-shaped shaft serves therefore to secure the module to the plinth in all normal viewing positions. The module may be removed from the plinth if desired by rotating through 90 and lifting, allowing the cross-bar of the shaft to pass through the elongated slot. The cross-piece of the shaft is provided on its underside with a hard rubbcr layer which is normally held in frictional contact with the inside surface of the module base by means of a spring attached to the other end of the shaft exerting a force downwards into the plinth. This has the effect of securing the display module firmly to the plinth and locking the mechanism against inadvertent movement.
When it is desired to adJust the display module swivel or tilt posi-tion, the clamp is released by means of a cam operated mechanism which lifts the shaft and thus the locking brake, constituted by the rubber coated cross-piece, from engagement with the inside surface of the base of the display module.

l Outline of Invention The present invention provides a tiltable and/or rotatable support suitable for a display device with an improved locking mechanism. The support may be in the form cf a separate unit on which the display device stands or alternatively, as in the prlor art examples, may be constructed with the top of the u~it integrally formed as the base of the display device. The same basic principle is used as ln the prior art in as much as tilt and swivel adjustment is achieved by means of two spherically contoured mating surfaces sliding one over the other.

The locking mechanism is similar to that shown in the prior art in as much as clamping is achieved by bringing a brake member into fric-tional engagement with the inside surface of one of the spherically contoured mating surfaces. The mechanism differs from the prior art in several important respects. First, considerable clamping pressure is needed to ensure that the support will remain locked in a selected tilted position when carrying a relatively heavy load such as a large screen CRT display device. Accordingly, the brake pressure is applied in the present invention by means of a cæm device which positively draws the brake into frictional engagement with the surface, exerting a predetermined clamping pressure of sufficient magnitude. For ease of operation, the cam device is lever operated which together with the relatively long travel of the caMming surface, compared to the resul-ting translational cammed movement, provide an operator with consider-able mechanical advantage. Second, most units that are likely to be carried on the support require electrical connections to be made to an external unit. It is therefore desirable, and in some cases essential, to limlt the amount of permitted rotation of the support. In the present invention, a limit stop is provided integral with the brake member. The stop and brake member are arranged to rotate with the surface engaged by the brake device. The stop projects beyond the surface to engage detents on the other contoured surface positioned to limit the rotational motion to a predetermined amount.

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1 The various component parts of the support stand and locking mechanism are intended for mass production and accordingly different tolerances build-up from one unit to another to the extent that at the extremes of variation the locking mechanism may not work. Accordingly the locking mechanism includes an arrangement for performing pre-adjustment to eliminate tolerance build-up problems prior to operator use.

In order that the invention may be fully understood, a preferred embodiment thereof will now be described with reference to the accom-panying drawings. In the drawings:

Figure 1 shows in front perspective view, a CRT display device supported on a tiltable and/or rotatable support stand, according to the invention, in a rotated position;

Figure 2 shows in side perspective view a CRT display device supported on the support stand in a tilted position;

Figure 3 shows a front perspective view of the support stand in the aligned forward-facing untilted position with a CRT display device, part shown in phantom, in place;

Flgure 4 shows the component parts of the support stand in exploded view.

Figure 5 shows a detail of a locking mechanism modified to include a set-up adjustment for elimination of unwanted tolerance build-up in the mechanism. The detail shown in the figure shows the mechanism before set-up adjustment has been made;

Figure 6 shows the same detail of the locking mechanism shown in Figure 5 but after the set-up adjustment has been made;

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9a~9 Figure 7 shows several views of one component forming the set-up adjustment shown in Figures 5 and 6; and Figure 8 shows several views of another component forming the set-up adjustment shown in Figures 5 and 6.

A tiltable and/or rotatable stand according to the invention shown in the Figures l to 4, consists of two main components, a base member or plinth 1 and a top member or platform 2 upon which a display device 3 or some other unit is supported. The construction of the stand is such that the platform is rotatable through 90 in either direction from the front-facing position, and tiltable from the horizontal 5 in an upwards direction through to 20 in a downwards direction. Figure l shows the stand with swivel adjustment and Figure 2 shows it with tilt adjustment.

The two components l and 2 are held together by means of a novel locking mechanism extending through apertures in both components and operable by means of a lever 4 (Figure 4) projecting through, and movable along a horizontal arcuate slot 5 in the plinth 1. The lever 4 carries a knob 6 shaped to enhance ease of operation. The arrangement according to the invention is such that with the knob 6 in its extreme left-hand position in slot 5, the lo~cking mechanism is released so that the platform 2 is free to rotate, or swivel, and tilt, or pivot, with respect to the plinth 1. With the knob 6 in its extreme right-hand position in slot 5, as shown in Figures 1 to 4, the locking mechanism is engaged so that thereafter the platform 2 is locked against tilting, and/or swivelling. A tiltable and/or rotatable support in which the locking mechanism clamps the platform in the selected tilt position but stili permits swivel adjustment is described and claimed in aforementioned Canadian Patent &~lication rlo. 403,500.

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1 A detailed description of the construction and operation of the support stand will now be given with reference to the exploded diagram shown in Figure 4. The plinth 1 is formed as a rectangular base member having a central spherically contoured concave~annular surface 7 surrounding a central circular aperture 8. The platform 2 is similarly formed as a rectangular top me~ber having a central spherically con-toured convex surface 9 matchlng ~he concave surface 7 and having a diagonal elongated slot 10 extending therethrough from the front to the back of the platform. In one form of construction, the top member may be placed in direct contact with the base member with the convex sur-face of the top member mating with the matching concave surface of the base member. In the preferred embodiment however, the t~o contoured surfaces are additionally provided with low friction surfaces. Thus, an annular bearing surface 11 of low friction hard wearing material, with a correspondingly contoured profile to that of surface 7, is pro-vided on the surface located between raised concentric rims 12 and 13 themselves formed during the moulding of the plinth. The annular bearing surface 11 is secured by a number of integral shaped clips 14 which snap-fit into correspondingly posltioned holes 15 in the surface 7. The elongated slot 10 in the surface 9 prevents a simllar annular bearing surface being used and accordingly two separate bearing sur-faces 16 are provided located one on each side of the slot. The bearing surfaces are secured by fur~ther integral shaped clips 17 which snap-fit into correspondingly positioned holes 18 through the surface 9. With the plinth 1 and platform 2 mounted together as shown in Figure 3, the mating bearing surfaces ensure smooth and easy ad~ustment of the stand by an operator. The locking mechanism according to the present invention serves the dual function of providing a clamping force to lock the platform in a selected tilt and/or swivel position and limiting the amount of tilt and swivel permitted.

The locking mechanism comprises a brake member 19 secured to, but free to rotate on, the free end of an axially topped shaft or spindle ~9~3~

l 20 extending from the lever 4 and passing through a central hole in a circular cam device 21 and elongated slot 10. The cam device 21 is held as a press-fit in aperture 8. The brake member is secured to the shaft 20 by means of a bolt and retaining washer 22 which, when screwed fully home, provides clearance to enable the brake member to be rotated on the end of the shaft.

Rotational limitation is provided by the free end of a lug 23 integral with and extending backwardly and downwardly from the brake member 19 passes through elongated slot 10 and into an arcuate slot 24 formed in the inner position of surface 7. Since the brake member 19 is constrained by the presence of the shaft to rotate with the platform

- 2 during swivel ad~ustment, the amount of adjustment of the platform is determined by the length of arcuaee slot 25 within which the lug 23 slides. Further, the amount of tilt ad~ustment is determined by the length of elongated slot 10 in the platfor~ which is slidable forwards and backwards about the fixed axis of the shaft 20 and the lug 23. Two brake pads 24 are secured to the lmderside oE laterally extending por-tions of the brake member 19 to lie above portions of the inside surface 26 of the platform located on each side of and extending paraIlel to, the slot 10. The underside of the cam device 21 has two identical camming surfaces 27 over which cam followers 28 on lever 4 ride as the lever is moved along slot 5. The arrangement of the mechanism ls such that movement of the lever 4 from its extreme left-hand position to the extreme right-hand In slot 5 is accompanied by movement of the cam followers along the camming surfaces, the profile of the latter being such that the shaft 20 is pos-ltively drawn axially down through the apertures to clamp the brake pads hard onto the por-~ions 26 thereby locking the platform 2 flrmly in the selected rotated and/or tilted position. Since the brake device 19 is permitted to rotate with the platform 2, in those constructions where the friction between the mating contoured surfaces of the platform and plinth is arranged to be considerably less than the fri~tional clamping force of .... ...

4~9 l the brake member, rotational adjustment of the platform can be made even though it is locked in the tilt position.

Malfunction of the locking mechanism could represent a hazard for an operator and therefore it is important for the mechanism to be accurately set-up to ensure subsequent reliable operation. Clearly, it is an essential feature that the platform position should be ad~ustable both by tilting and swivelling when the lever is ln lts extreme left-hand release position but flrmly locked against tilting and optionally agalnst swivelling, when in its extreme right-hand locked position.

Figures 5 and 6 show a modlficatlon to the locking mechanism which enables a vertlcal adjustment to be made to eliminate undeslrable tolerance build-up which may, lf uncorrected, cause operatlonal mal-functlon of the locking mechanism. The modification involves replacing the one part brake member 19 and the two pads 24 shown ln Figure 4 by two separate component parts 29 and 30. The component part 29 is addi-tionally shown as three separate related views in Figure 7 from which it is seen to be essentially the body portion of the brake member 19 but with lts upper surface 31 inclined at about 10 to the horizontal.
The part 29 is made from hard neoprene rubber which having high fric-tional properties dispenses with the need for separate brake pads.

In Figure 7, the top left-hand view shows a plan view looklng down of the componen~ part 29 of the brake member with integral rotation llmit lug 23. The bottom left-hand vlew is a section of the plan along A-A. The top right-hand view is a true end elevation view of the part 29 shown in plan view as viewed from the right.

The component part 30 is additionally shown as three separate related vlews in Figure 8 from which it is seen to be generally wedge-shaped with its lower inclined surface 32 correspondlng to the shape of the surface 31. In Figure 8, the top left-hand view shows a plan view 4()9 l looking down of the compoent adjusting part 30. The bottom lefthand view shows a side elevation and the bottom right-hand view shows an end elevation.

Four upwardly and inwardly extending fingers 33 cooperate with rails 34 on each side of the wedge-shaped part 30 to hold the two com-ponent parts together whilst permi'tting relative sliding of the sur-faces 31 and 32 one over the other. The inside surfaces of the inward projecting portions of the fingers 33 and the upper surfaces of the rails 34 are serrated. The detent effect of the serrations on the fingers with the serrations on the rails serve to restrain the two component parts against slipping from the set-up position. The shaft 20 passes through a central bore 35 in the component part 29 and an elongated bore 37 in the wedge-shaped component part 30. The two parts are held in place on the shaft by bolt and retaining washer 220 Prior to initial set-up, the locking mechanism is assembled as shown in Figure 5 so that there is freedom of movement between the locklng mechanism components in an axial direction with the bolt 22 screwed hard down onto the retainlng washer. To set-up the mechanism to compensate for any tolerance build-up problem, the lever 4 is moved to the mid-travel position along slot 5. The wedge-shaped ad~uster is then slid up the slope of the part 2~ until all clearance is taken up as shown in Figure 6. The detenting effect of the cooperating serra-tions-on the two parts prevents the mechanism shaking out of ad~ust-ment. Movement of the lever to the right applies the brake and move-ment to the left releases the brake.

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Claims (8)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A tiltable and/or rotatable support for a unit, for example a dis-play device comprising a base member and a top member having spheri-cally contoured mating surfaces, a shaft mounted for axial movement extending through apertures in the two surfaces, the aperture in one of said surfaces being in the form of an elongated slot, the arrangement being such that the members are rotatable relative to one another about said shaft and/or tiltable relative to one another by an amount deter-mined by the longitudinal movement of the slotted member about said shaft, and a locking mechanism operable to cause a brake member sup-ported at one end of the shaft to be brought into frictional engagement with the elongated slotted member to clamp said base and top members together, characterised by the combination of a locking mechanism including a camming mechanism connected to the other end of said shaft, operable to positively draw said brake member into frictional engage-ment with said slotted member to prevent subsequent tilt and/or rotate adjustment of the members, or to release said brake member from said frictional engagement to enable subsequent tilt and/or rotate adjust-mint of the members, and a detent means extending from said brake member co-acting with the other member to limit relative rotation of said members.

2. A tiltable and/or rotatable support as claimed in claim 1, in which said brake member includes a laterally extending member symmetri-cally pivoted on the end of said shaft, the portions of said laterally extending member projecting on each side of the shaft including parts formed from frictional material for contacting portions of the elon-gated slotted member lying respectively on each side of said elongated slot and said detent means comprises a lug rigidly attached to and projecting from said brake member through said elongated slot to lie between two rotation limit stops provided on said other member, the extent of relative rotation between the top and base member being determined by the length of travel of said lug between the stops.

3. A tiltable and/or rotatable support as claimed in claim 2, in which means are provided for adjusting said locking mechanism at will to compensate for the effect of tolerance build-up of components in the direction of the longitudinal axis of said shaft.

4. A tiltable and/or rotatable support as claimed in claim 1 in which said brake member consists of two generally wedge-shaped co-operating parts mounted one upon the other to the end of said shaft and constructed in such a way that movement of one relative to the other increases or decreases the thickness of the brake member in the direction of the longitudinal axis of said shaft whereby tolerance build-up of locking mechanism components in the direction of the longitudinal axis of said shaft can be removed, and means for holding the two wedge-shaped parts in a selected position against relative slipping therebetween.

5. A tiltable and/or rotatable support as claimed in claim 2 in which said brake member consists of two generally wedge-shaped co-operating parts mounted one upon the other to the end of said shaft and constructed in such a way that movement of one relative to the other increases or decreases the thickness of the brake member in the direction of the longitudinal axis of said shaft whereby tolerance build-up of locking mechanism components in the direction of the longitudinal axis of said shaft can be removed, and means for holding the two wedge-shaped parts in a selected position against relative slipping therebetween.

6. A tiltable and/or rotatable support as claimed in claim 3 in which said brake member consists of two generally wedge-shaped co-operating parts mounted one upon the other to the end of said shaft and constructed in such a way that movement of one relative to the other increases or decreases the thickness of the brake member in the direction of the longitudinal axis of said shaft whereby tolerance build-up of locking mechanism components in the direction of the longitudinal axis of said shaft can be removed, and means for holding the two wedge-shaped parts in a selected position against relative slipping therebetween.

7. A tiltable and/or rotatable support as claimed in claims 4, 5 or 6 in which said base member has a spherically contoured concave surface with a central aperture, said top member has a spherically contoured mating convex surface with said elongated slot extending diagonally from front to back therethrough, said brake member mounted on one end of said shaft for engagement with said top member and said camming mechanism being attached to the other end of said shaft and retained by said base member, the camming mechanism including a lever extending through a horizontal slot in said base member for operator access, the arrangement being such that horizontal movement of the lever in one direction along the horizontal slot is translated by said camming mechanism into vertical movement effective to clamp said membrs together as aforesaid and movement in the opposite direction is translated by said camming mechanism into vertical movement effectively release said members as aforesaid.

8. A tiltable and/or rotatable support as claimed in claims 4, 5 or 6 in which said two co-operating parts constituting said brake member are secured to said shaft by a bolt extending through an elongated slot in one component part and a clearance aperture in the other, set-up adjustment of the component parts of said locking mechanism being achieved by sliding said wedge-shaped component parts one over the other to increase the thickness of the brake member sufficiently to eliminate all axial clearance of said components with said lever in its mid-travel position.