Holder for supporting a component below a support

Abstract

A mechanism for supporting a component, such as a CPU, below a support, includes a support member mounted to depend from the support and being adapted to undergo both horizontally directed sliding movement and pivotal movement about a vertically disposed pivot axis relative thereto, a pair of straps having first and second ends, and a strap tension adjustment device carried by the support member, wherein second ends of the straps are removably fixed to the support member and first ends of the straps are fixed to the tension adjustment device, such that the straps are suspended below the support member as U-shaped loops sized to receive the component therewithin, and the tension adjustment device is manually operable to releasably shorten the lengths of the loops for clamping the component in position relative the support member. The component may be selectively mounted such that its major side surfaces or panels are arranged either normal or parallel to a lower surface of the support.

Description

BACKGROUND OF THE INVENTION

In prior U.S. Pat. No. 5,131,620, there is disclosed a mechanism for mounting a component, such as a CPU, below a support, such as the work surface of a desk or work station, which employs a support member fixed to depend from the support and a pair of straps for clamping the component upwardly against the support member. The support member is supported by a tradeway for horizontal sliding movement.

A somewhat similar mechanism has been sold commercially for several years by the assignee of the present application. In this prior mechanism, the support member is connected to a carriage for pivot movement about a vertically disposed axis and the carriage is slidably supported for horizontal movement by a trackway.

A drawback of the known mechanisms mentioned above is that they require the use of snap buckles to join ends of the strap, and the threading of the straps through such buckles for adjustment/component clamping purposes. Further, such mechanisms are restricted in design for use in supporting components of rectangular cross-sectional configuration, and more particularly, components of rectangular cross-section configuration with their major side surfaces or panels arranged to extend normal to the support.

SUMMARY OF THE INVENTION

The present invention relates to a mechanism for use in mounting a component, such as a CPU, to removably depend from a support.

More particularly, the present mechanism generally includes a support member mounted to depend from a support, a pair of straps each having first and second ends, and a tension adjustment device mounted on the support member and engaging with the first ends of the straps, with second ends of the straps being removably attached directly to the support member, whereby the straps are suspended below the support member as U-shaped loops sized to receive the component therewithin, and the tension adjustment device is manually operable to releasably shorten the lengths of the loops for clamping the component upwardly against the support member.

More specifically, the support member is in the form of a generally rectangular, horizontally disposed support plate having elongated, parallel, depending side portions and parallel, depending end portions, wherein the end portions cooperate to support the tension adjustment device and the side portions define pairs of mounting surfaces depending below the end portions and arranged for engagement with the component when clamped upwardly against the support member. The end portions are preferably formed with downwardly facing concave free edges accommodating for free receipt of convex side surfaces or panels of a component when engaged with the mounting surfaces.

Further, it is preferable to fix the first ends of the straps to a rod having opposite ends rotatably supported within bore openings defined by the end portions, a toothed wheel fixed for rotation with the rod, a ratchet arm pivotally supported by the support plate for releasable engagement with a toothed wheel, and a manually operating handle for releasable engagement with the rod for purposes of manual tensioning of the straps and adapted to be releasably stored on the support plate adjacent the tension adjustment device.

The present mechanism may be modified to permit mounting of a component such that its major side surfaces are horizontally disposed. In this arrangement, pairs of mounting clips are adapted to releasably engage with the side portions of the support plate and provided with through slide mounting openings for removable, sliding receiving adjacent end portions of pairs of oppositely extending tubes having strap guiding end caps mounting on their oppositely facing ends. The end caps engage with portions of the loops relatively adjacent their first and second ends and additionally define bearing surfaces of the component engaging when the loop is shortened by the tension adjustment device.

BRIEF DESCRIPTION OF THE DRAWINGS

The nature and mode of operation of the present invention will now be more fully described in the following detailed description taken with the accompanying drawings wherein.

FIG. 1 is a prospective view of a holder formed in accordance with the present invention;

FIG. 2 is a front end elevational view of the holder of FIG. 1 showing it supported by a guide track to depend from a support, such as the top of a desk or workstation;

FIG. 3 is a bottom plan view of the holder;

FIG. 4 is a side elevational view of the holder, as viewed from the right side of FIG. 2 with parts broken away to show a strap tension adjustment mechanism;

FIG. 5 is an enlarged sectional view taken generally along the line 5--5 in FIG. 4;

FIG. 6 is a view similar to FIG. 5, but showing the strap tension adjustment mechanism in released condition;

FIG. 7 prospective view of a holder formed in accordance with a first alternative embodiment of the present invention;

FIG. 8 is fragmentary front elevational view of the holder of FIG. 7;

FIG. 9 is a sectional view taken generally along the line 9--9 in FIG. 7; and

FIG. 10 is a front elevational view of a holder formed in accordance with a second alternative embodiment of the present invention.

DETAILED DESCRIPTION

Reference is first made to FIGS. 1-4, wherein a holder or support mechanism formed in accordance with a preferred form of the present invention is generally designated as 10 and shown as serving to removably suspend or support a component 12, such as a CPU, beneath a support 14, such as a top of a table, desk, or work station having vertically facing and generally horizontally disposed upper and lower surfaces 14a and 14b, respectively.

Holder 10 generally includes a component clamping means generally designated as 16 and suitable mounting means 18, which is intended to be attached to support 14 and serves to suspend the component clamping means beneath the support in a position in which the component 12 is accessible to a user thereof.

Mounting means 18 may be variously defined, but preferably includes a guide track 20 fixed, as by fasteners, not shown, to support lower surface 14b, and a trolley 22, which is supported by the track way for horizontal sliding movement and includes a suitable pivot device 24 serving to support clamping means 16 for pivotal movement about a vertically extending pivot axis 24a arranged normal to surface 14b. Mounting means 18 is shown by way of example as being of the type disclosed in U.S. Design Pat. No. 306,239 for use in adjustably mounting a keyboard beneath a work surface. Alternatively, if desired, component clamping means 16 may be non-movably fixed to depend from surface 14b.

Component clamping means 16 is shown in FIGS. 1-4 as including a support member 26 coupled to trolley 22 by pivot device 24; a pair of flexible straps 28 and 30 having first and second ends 28a, 30a and 28b, 30b, respectively; a strap tension adjustment mechanism 32; and attaching means 34 and 36 cooperating with the strap tension adjustment mechanism to suspend the straps a s U-shaped loops beneath the support member. If desired, the mid-portions of straps 28 and 30 may be threaded through one or more rigid spacer braces 38 tending to maintain such mid-portion spaced apart through a distance corresponding essentially to the spacing between strap first ends 28a, 30a and second ends 28b, 30b.

Support member 26 includes a support plate 40, which is coupled to trolley 22 and arranged to assume a generally horizontally disposed position beneath support 14 and provided with depending first and second parallel edge portions 42a and 42b and first and second parallel end portions 44a and 44b disposed normal to the edge portions. In the illustrated form of the invention, support plate 40 is provided with two pairs of parallel slots 46a, 46a and 46b, 46b to define attaching means 34 and 36 for use in releasably threadably receiving strap second ends 28b and 30b; a pair of slots 48a, 48b to permit strap first ends 28a and 30a to be passed upwardly therethrough; and a depending retaining tongue 50 whose purpose will hereinafter be described. It is now contemplated that the original structure of the attaching means may be exchanged by replacing slots 46a, 46a and 46b, 46b with a pair of T-shaped slot openings, which are individually sized to removably mount a T-shaped mounting clip having a pair of parallel slot s th rough which a second end of a strap may be threaded.

In the preferred construction, edge portions 42a and 42b are shaped adjacent their opposite or first and second ends to define downwardly projecting feet 52a, 52b and 54a, 54b whose lower edges define pairs of parallel bearing surfaces 52a', 52b' and 54a', 54b' arranged to engage with an upper or minor side surface 12a of component 12, as best shown in FIG. 2. Preferably, the lower free edges 44a' and 44b' of end portions 44a and 44b are concave and disposed vertically intermediate bearing surfaces 52a', 52b' and 54a' and 54b' and the lower surface of support plate 40 in order to permit component surface 12a to be clamped against such bearing surfaces, even when such component surface is of convex configuration as generally indicated in FIG. 2.

Tension adjustment mechanism 32 is best shown in FIGS. 3-6 as being mounted on support member 26 and as including an elongated tubular rod 56 having opposite ends 56a and 56b rotatably supported within aligned bore openings formed in end portions 44a and 44b, wherein only one of such bore openings is shown at 58 in FIG. 2, and a mid-portion 56c connected to strap first ends 28a and 30a by suitable fasteners 60a and 60b shown only in FIG. 3. Mechanism 32 also includes a toothed wheel 62, which is fixed for rotation with rod 56 by a pin 64 extending radially through the rod a ratchet pawl 66, which is pivotally supported by a bearing pin 68 and arranged to releasably engage with the teeth of toothed wheel 62; and suitable resilient means, such as a coil spring 70, which is mounted on bearing pin 68 with its opposite ends arranged to bear on ratchet pawl 66 and a generally L-shaped bracket 72 fixed to support plate 40. As will be apparent, spring 70 serves to normally retain ratchet pawl 66 in engagement with toothed wheel 62, whereby to permit strap loop shortening rotations of rod 56 in the direction indicated by arrow 74 in FIG. 5, while preventing oppositely directed or strap loop lengthening rotation thereof. Bracket 72 cooperates with first end portion 44a to axially locate rod 56, toothed wheel 62 and ratchet pawl 66 and to support opposite ends of bearing pin 68.

A free end 66a of ratchet pawl 66 is arranged to extend forwardly through an access opening 76 formed adjacent the juncture of support plate 40 and first end portion 44a in order to permit manually induced movement of ratchet pawl 66 against the bias of spring 70 between its engaged position of FIG. 5 and its released position of FIG. 6.

As will be apparent from viewing FIG. 4, rod 56 may be provided with a suitable operating handle, such as an alien wrench 78 removably received within a suitably shaped drive opening 80 defined by deforming rod end 56a. When wrench 78 is not in use, it may be removably stored by inserting same through an access opening 82 formed in first end portion 44a into a storage chamber defined by retaining tongue 50 and the lower surface of support plate 40.

In operation, component 12 may be stored beneath support 14 with its major side surfaces 12b,12b arranged to extend essentially normal to support lower surface 14b, by the following procedure. First ratchet pawl 66 is manually released from latching engagement with toothed wheel 62 to free rod 56 for rotation in an unwinding direction, shown by arrow 86 in FIG. 6, in order to allow straps 28 and 30 to be finally unwound from the rod. Strap second ends 28b and 30b are then threaded through slots 46 and 48, respectively, to define U-shaped loops sized to loosely receive component 12.

Thereafter, the loops are shortened by employing wrench 78 to rotate rod 56 in its strap winding or take-up direction shown by arrow 74 in FIG. 5, until component 12 is lifted sufficiently to place its upper surface 12a in clamping engagement with bearing surfaces 52a', 52b' and 54a', 54b'. Finally, wrench 78 is stored by inserting same through access opening 82.

Whenever it is desired to remove component 12 from its supported position beneath support 14, it is necessary to manually move ratchet pawl 66 into its release position shown in FIG. 6 and then unwind or loosen straps 28 and 30 sufficiently to permit withdrawal of the component from within the loops.

A first alternative embodiment of the present invention will now be described with reference to FIGS. 7-9, wherein its holder and the parts thereof similar to those described above with reference to holder 10 are identified by like one hundred series numerals.

More specifically, holder 110 is intended for use in mounting component 12 such that its major surfaces 12b are horizontally disposed, as best shown in FIGS. 7 and 8. Holder 110 differs from holder 10 in that its clamping means additionally includes a pair of mounting openings formed in each of the depending edge portions of support plate 140, which are shown in part only in FIG. 7 for the case of mounting openings 200 and 202 formed in edge portion 142b; mounting clips removably inserted one in each of the mounting openings, as also shown in part only in FIG. 7 for the case of mounting clips 204 and 206 to depend parallel to the edge portions on which same are mounted; two pairs of tubes 208, 210 and 212, 214; and two pairs of strap guiding end caps 216, 218 and 220, 222. Each of the mounting clips is formed with a slide mounting opening, shown only for the case of slide mounting openings 204a and 206a of clips 204 and 206, which are adapted to removably, slidably support relatively adjacent end portions 208a, 210a and 212a, 214a of the tubes 208, 210 and 212, 214 with the relatively remote end portions 208b, 210b and 212b, 214b of such tubes serving to mount end caps 216, 218 and 220, 222, respectively. End caps 216 and 218 each define guide slots 216a and 218a for slidably receiving strap 128; and end caps 220 and 222 define guide slots 220a and 222a for slidably receiving strap 130. Further, the end caps are each formed with a mounting recess for receiving an associated remote end portion of a tube on which same is mounted and a downwardly facing bearing surface for engaging component upper major side surface 12b; only one of such mounting recesses and such bearing surfaces being shown at 218b and 218c, respectively, for the case of end cap 218 in FIG. 9.

By viewing FIG. 8, it will be understood that the clamping means of the first alternative form of the invention, in which the bearing surfaces of the guide clips engage with the upper major surface 12b of component, serves to space the upper surface of support plate 140 through a greater distance from such major surface than would be the case, if such major surface were engaged by the bearing surfaces of the preferred form of the invention including surface 152b'. This increase in distance serves to increase the angle a defined by the straps and surface 12b, so as to maximize the component of the tension force acting on the straps, which is available for clamping component 12 relative to holder 110, while minimizing the component of the tension force tending to crush component 12, in a direction extending parallel to major surface 12b. The valve of angle a may, for example, be increased by increasing the vertical dimension of the mounting clips, as measured between the upper mounting ends of such clips and their slide mounting openings, as viewed in FIG. 8.

In operation of the first alternative form of the invention, a user is required to insert the mounting clips into their associated mounting openings; insert the tubes into their associated slide mounting openings of the mounting clips; insert the remote end portions of the tubes into their associated end clips; thread straps 128 and 130 through guide slots 216a and 220a, spacer braces 138 and 138, guide slots 218a and 222a, and slots 146a, 146a and 146b, 146b, whereby to form loops of a size sufficient to receive component 12. Wrench 178 is then inserted into drive opening 180 and operated as required to shorten the loops and draw component 12 upwardly to clamp same in a mounted position relative to holder 110.

A second alternative embodiment of the present invention will now be described with reference to FIG. 10, wherein its holder and the parts thereof similar to those described above with reference to holder 10 are identified by like three hundred series numerals.

More specifically, holder 310 is intended for use in mounting a component 12 such that its major surfaces 12b are horizontally disposed, as shown in FIG. 10. Holder 310 differs from holder 10 in that its clamping means additionally includes a single U-shaped spacer unit 390, which includes a pair of side panels 390a and 390b, which have lower edges joined to parallel side edges of a bottom panel 390c and upper edges, not shown, arranged to removably bear or abut against the lower surface of support plate 340. If desired, one or both open ends of spacer unit 390 may be bridged by suitable end panels, not shown, if required for aesthetic and/or unit rigidifying purposes. Spacer unit 390 performs the same function as the clamping means described with reference to FIGS. 7-9, namely, that of serving to maximize the angle a formed by the straps and the upper major surface 12b of the component to be supported by the holder.

In operation, a user would first insert spacer unit 390 into the support member intermediate side edge portions 342a and 342b to position same in abutting engagement with the lower surface of support plate 340. Thereafter, the user will follow the procedure described with reference to holder 10.

Claims

1. A mechanism for suspending a component below a support, said mechanism comprising:

a mounting means adapted to be attached to said support; and

component clamping means, said mounting means suspending said clamping means below said support, said clamping means including a support member coupled to said mounting means, a pair of straps each having first and second ends, tension adjustment means mounted on said support member and connected to said first ends of said straps, and attaching means for attaching said second ends to said support member and cooperating with said tension adjustment means to suspend said straps by said first and second ends thereof to form U-shaped loops arranged beneath said support member for receiving said component therewithin, and said tension adjustment means being manually operable to releasably shorten the lengths of said loops for clamping said component relative to said support member.

2. The mechanism according to claim 1, wherein said support member defines two pairs of bearing surfaces arranged to be releasably clamped against by said component.

3. The mechanism according to claim 2, wherein said bearing surfaces extend transversely of said loops with first bearing surfaces of each said pair being aligned and disposed relatively adjacent said attaching means and second bearing surfaces of each said pair being aligned and disposed relatively adjacent said tension adjustment means.

4. The mechanism according to claim 1, wherein said support member includes support plate coupled to said mounting means to assume a horizontally disposed position when said mounting means is attached to said support, said support plate having depending first and second parallel edge positions each defining adjacent first and second ends thereof a pair of aligned bearing surfaces extending transversely of said loops and arranged for clamping engagement with said component.

5. The mechanism according to claim 4, wherein said support plate has depending end portions extending normal to said edge portions, said end portions cooperating to mount said tension adjustment means and having concave free edges arranged intermediate said bearing surfaces and said support plate.

6. The mechanism according to claim 1, wherein said support member includes a support plate having depending first and second edge portions and depending first and second parallel end portions disposed normal to said edge portions, said bearing surfaces extending below said end portions, and said tension adjustment means is carried by said end portions.

7. The mechanism according to claim 6, wherein said tension adjustment means includes an elongated rod having opposite ends rotatably supported by said end portions and a mid-portion connected to said first ends of said straps, a toothed wheel fixed for rotation with said rod, a ratchet pawl pivotally mounted on said support member and arranged to releasably engage said toothed wheel, resilient means tending to releasably bias said ratchet pawl into engagement with said toothed wheel for normally permitting manual rotation of said rod in a first direction to shorten said loops, said pawl being manually movable against said bias to release said pawl from engagement with said toothed wheel for allowing manually induced lengthening of said loops.

8. The mechanism according to claim 7, wherein said attaching means is carried by said support plate.

9. The mechanism according to claim 8, wherein said attachment means is defined by pairs of parallel slots formed in said support plate for releasably, threadably receiving said second ends of said straps.

10. The mechanism according to claim 9, wherein said support plate has a pair of through openings for freely receiving said straps extending from said mid-portion of said rod.

11. The mechanism according to claim 10, wherein said end portions have concave free edges arranged intermediate said bearing surfaces and said support plate.

12. The mechanism according to claim 1, wherein said support member includes a support plate having a pair of depending first and second end portions; and said tension adjustment means includes an elongated rod having opposite ends rotatably supported by said end portions and a mid-portion connected to said first ends of said straps, a toothed wheel fixed for rotation with said rod, a ratchet pawl pivotally mounted on said support member and arranged to releasably engage said toothed wheel, resilient means for providing a bias tending to releasably maintain said ratchet pawl in engagement with said toothed wheel for normally permitting manual rotation of said rod in a first direction to shorten said loops, said pawl being manually movable against said bias to release said pawl from engagement with said toothed wheel for allowing manually induced lengthening of said loops.

13. The mechanism according to claim 12, wherein said support plate has depending side edge portions disposed normal to said end portions, and said clamping means includes mounting openings defined by each of said side edge portions and mounting clips removably supported one within each of said mounting openings to depend normal to said support plate and parallel to said side edge portions, each of said mounting clips being formed with a slide mounting opening two pairs of extension tubes having remote end portions and adjacent end portions, said adjacent end portions of said extension tubes being removably slidably mounted within an aligned pair of slide mounting openings to position said remote end portions in an outwardly spaced relationship relative to said side edge portions of said support plate, and end guides mounted one on each of said remote end portions for sliding engagement with said straps.

14. The mechanism according to claim 1, wherein said support member has depending side edge portions, and said clamping means includes mounting openings defined by each of said side edge portions and mounting clips removably supported one within each of said mounting openings to depend normal to said support plate and parallel to said side edge portions, each of said mounting clips being formed with a slide mounting opening, two pairs of extension tubes having remote end portions and adjacent end portions, said adjacent end portions of said extension tubes being removably slidably mounted within an aligned pair of slide mounting openings to position said remote end portions in an outwardly spaced relationship relative to said side edge portions of said support plate, and end guides mounted one on each of said remote end portions for sliding engagement with said straps.

15. The mechanism according to claim 1, wherein said support member defines bearing surface arranged to face downwardly relative thereto for engagement by said component upon said clamping thereof relative to said support member, and said clamping means additionally includes a spacer unit removably mounted on said support member and defining a further bearing surface, said further bearing surface being arranged to face downwardly and be disposed relatively below said bearing surface when said spacer unit is mounted on said support member, whereby said component may be clamped against said further bearing surface when said spacer unit is mounted on said support member and the lengths of said loops are shortened.

16. The mechanism according to claim 1, wherein said support member includes a generally horizontally disposed support plate having downwardly extending parallel edge portions, and said clamping means additionally includes a spacer unit of U-shaped configuration defined by a pair of side panels upstanding from a lower panel defining a bearing surface, said side panels being removably insertable between said edge portions for underengagement with said support plate.