The present invention relates to worktables, and more particularly to a worktable comprising a multidirectional coupling.
It is known to provide worktables that have a movable work platform supported by a base. However, these known worktables do not allow a versatile displacement of the work platform. For example, known prior art worktables have a rotatable work platform that is rotatable and that is further movable along a single linear axis. This lack of displacement capacity is often problematic.
The present invention relates to a worktable comprising:
In one embodiment, said second and third translation members are integrally attached to a guide member, said first translation member being a first elongated rail slidable relative to and along said guide member along said first translation axis by the engagement of said first rail on said guide member, and said fourth translation member being a second elongated rail slidable relative to and along said guide member along said second translation axis by the engagement of said second rail on said guide member.
In one embodiment, said first swivel member is fixedly attached to said second rail, said second swivel member is fixedly attached to said work platform, and said first rail is destined to be attached to the external structure.
In one embodiment, said first and second rails have substantially flat elongated main bodies provided with incurved flanges that slidably engage corresponding grooves on said guide member that respectively form said second and third translation members.
In one embodiment, said first and second rails comprise stoppers at the respective extremities of their said elongated main bodies, said guide member being movable relative to said first and second rails along said first and second translation axes between said stoppers on which said guide member can abut, with said stoppers defining said first, second, third and fourth limit positions.
In one embodiment, said first and second translation axes and said swiveling axis are all perpendicular to one another.
In the annexed drawings:
In the embodiment shown in the annexed drawings, and as seen more specifically in
A guide member 40 is slidable along first rail 32. As further shown in
Guide member 40 also comprises a second pair of grooves 50 and 52 that are also located on opposite side edges of guide member 40, albeit on different edges than those of the first pair of grooves 44, 46.
Multidirectional coupling 24 further includes a second rail 54 that defines a substantially flat elongated main body 56 provided with incurved flanges 58, 60 along the two longitudinal side edges of main body 56. Flanges 58 and 60 of second rail 54 respectively engage grooves 50 and 52 of guide member 40 (as shown in
It can be seen that the first and second pairs of grooves 44, 46 and 50, 52 are vertically offset, i.e. the first pair of grooves 44, 46 is lower than the second pair of grooves 50, 52 on the respective sides edges of guide member 40, to allow guide member 40 to simultaneously be engaged by each one of first and second rails 32, 54 that will be allowed to slide relative to guide member 40 at all times notwithstanding the presence or position of the other one of first and second rails 32, 54. Indeed, first rail 32 will slide underneath guide member 40 and will engage first pair of grooves 44, 46 that is located near the lower surface of guide member 40, while second rail 54 will slide over guide member 40 and will engage second pair of grooves 50, 52 that is located near the upper surface of guide member 40.
Optional lubrication means can be provided between first and second rails 32, 54 and guide member 40. For example, in the embodiment shown in the drawings, grease-oversaturated U-shaped lubrication strings 64 are inserted in corresponding openings 66 that allow strings 64 to protrude slightly within corresponding grooves 44, 46, 50, 52. Thus, as first and second rails 32, 54 move relative to guide member 40, the flanges 36, 38, 58, 60 of first and second rails 32, 54 will slide within grooves 44, 46, 50, 52 and within the channels formed by the U-shaped strings 64, the latter gradually freeing lubricating grease to facilitate the sliding engagement of rails 32, 54 relative to guide member 40.
It is noted that first rail 32 and first pair of grooves 44, 46 of guide member 40 define a first linear assembly comprising:
This second translation member engages first rail 32 and is linearly movable relative to and along first rail 32 according to a first translation axis.
Also, guide member 40 and its second pair of grooves 50, 52 together with second rail 54 define a second linear assembly comprising:
The second rail 54 engages this third translation member and is linearly movable relative to and along guide member 40 and its second pair of grooves 50, 52 according to a second translation axis that is transversal to the first translation axis. In the embodiment shown in the drawings, guide member 40 is rectangular and the second translation axis is perpendicular to the first translation axis, although it is understood that in alternate embodiments of the invention (not shown) the first and second translation axes could be transversal without however being perpendicular.
Multidirectional coupling 24 also comprises a swivel assembly 68 that comprises first and second rotatable swivel members 70, 72 both in the form of discs which are superposed atop one another and which rotatably engage each other so as to allow relative rotation of first and second swivel members 70, 72 about a swiveling axis that is transversal to both the first and the second translation axes. In the embodiment shown in the drawings, the swiveling axis is more particularly perpendicular to the first and second translation axes. Swivel members 70, 72 are spaced-apart from each other by means of a low-friction intermediate disc 74 that facilitates the relative rotation of swivel members 70, 72. For example, swivel members 70, 72 may be made of metal, whereas intermediate disc 74 may be made of a low-friction material such as TEFLON (registered trademark). A series of balls 76 are peripherally installed in a channel formed between swivel members 70, 72, as in many convention ball-bearing swivel members. An annular central clip 78 retains swivel members 70, 72 in their proximate engagement.
First swivel member 70 is fixedly attached to second rail 54 centrally thereof and opposite the sliding channel formed between flanges 58, 60, and second swivel member 72 is fixedly attached underneath work platform 22.
In use, first rail 32 is to be fixed to the external structure, such as table T, which is to support worktable 20. As suggested in
Moreover, the displacement of work platform 22 along the first translation axis is allowed at any position of work platform along second rail 54; the displacement of work platform 22 along the second translation axis is allowed at any position of work platform 22 along first rail 32; and a full 360° swiveling displacement of work platform 22 is allowed at any position of work platform 22 along both first and second rails 32, 54. Indeed, the sliding relationship of guide member 40 within the respective first and second rail sliding channels, and the swiveling capacity of swivel assembly 68, are not hindered by the structural components of worktable 20, nor are they limited thereby.
A second position of work platform 22′ is shown in dotted lines with reference numbers of elements which are positioned differently than at the first position of work platform 22 being primed. In this second position of work platform 22′, second rail 54 is at a same position relative to first rail 32 and to guide member 40 than in the first position of work platform 22, but second swivel member 72 (concealed in
A third position of work platform 22″ is shown in dotted lines with reference numbers of elements which are positioned differently than at the first position of work platform 22 being double primed. In this third position of work platform 22″, second rail 54″ is moved along guide member 40 until guide member 40 is located at one end of second rail 54″, and second swivel member 72 (concealed in
The above positions 22, 22′ and 22″ of the work platform shown in
In alternate embodiments of the invention, the order in which the first linear and second linear assemblies and the swiveling assembly are provided, could be shuffled to provide for example a multidirectional coupling where the swiveling assembly would be located between the two linear assemblies. In such a case, the work platform would be fixed to one of the two linear assemblies.
The lengths of the first and second rails 32, 54 are shown to be different in the annexed drawings, with second rail 54 being shorter than first rail 32, but it is is understood that first and second rails 32, 54 could have any suitable selected relative lengths.
The present application claims the conventional priority under the Paris Convention of provisional patent application No. 60/535,519 filed in the United States on Jan. 12, 2004 in the name of the present inventors.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CA2005/000018 | 1/7/2005 | WO | 00 | 9/23/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2005/065482 | 7/21/2005 | WO | A |
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Number | Date | Country | |
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60535519 | Jan 2004 | US |