The present invention relates to a quick clamping fixture, and more particularly to a quick clamping fixture that utilizes a compression spring to push a set of metal plates in a slider into an inclined state for firmly pressing against on a main rod and thereby preventing the slider from sliding along the main rod, and an L-shaped plate to release the metal plates from the inclined state for the slider to slide on the main rod again.
There are various types of braking mechanisms being employed on the currently available quick clamping fixtures to stop two sliders thereof from moving when a workpiece has been clamped therebetween. Most of these conventional braking mechanisms can only temporarily hold the sliders in place. In other words, when the sliders or the clamped workpiece is subjected to an external force, the braking mechanism on the sliders will become loosened easily to undesirably release the sliders and accordingly, the workpiece.
Moreover, the two sliders on the conventional quick clamping fixtures could be slid only along and on a main rod and are not removable from the main rod. Therefore, the conventional quick clamping fixture does not provide applications other than clamping a workpiece.
It is therefore tried by the inventor to develop a quick clamping fixture that includes a braking mechanism to provide enhanced braking effect for the sliders, and can be used in different manners to provide other functions.
To achieve the above and other objects, the quick clamping fixture according to the present invention includes a main rod, on which two sliders are slidably mounted and may be braked at desired positions to clamp a workpiece between them. The two sliders each have a housing, in which an L-shaped plate and a set of metal plates are mounted with the main rod extended through these plates. The L-shaped plate and the set of metal plates in the housing are normally pushed by a compression spring into an inclined state to thereby firmly press against an outer surface of the main rod, preventing the slider from sliding along the main rod. When the L-shaped plate is pushed and held, the L-shaped plate and the set of metal plates are moved into an upright state without firmly pressing against the main rod, allowing the slider to slide along the main rod; and when the L-shaped plate is released, the slider is braked again.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
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The slider 1 includes a housing 101 defining an internal space 73; a first jaw 7 provided on the housing 101 at an upper front end thereof; and a base 71 provided at a bottom of the housing 101 to define a lower space 72 between the bottom of the housing 101 and the base 71. The housing 101 is provided on front and rear walls at a center thereof with two corresponding openings 10, and on the front and rear walls near an upper end thereof with two corresponding screw holes 21.
A first one of the two L-shaped plates 11, a first one of the two sets of metal plates 12, and a first one of the two compression springs 4 are sequentially mounted in the internal space 73 of the housing 101 of the slider 1 from front to rear, with a lower horizontal portion of the first L-shaped plate 11 forward extended through the lower space 72 to locate outside the housing 101.
The slider 1 is assembled to the main rod 3 by extending the main rod 3 through the two corresponding openings 10 on the housing 101, the large bore 111 on the first L-shaped plate 11, the large bores 121 on the first set of metal plates 12, and the first compression spring 4. A first one of the two bolts 5 is extended through the two corresponding screw holes 21 on the housing 101, the small bore 112 on the first L-shaped plate 11, and the small bores 122 on the first set of metal plates 12, and fixed at two ends to the front and rear walls of the housing 101. A first one of the two collars 6 is mounted on the first bolt 5 to locate between the front wall of the housing 101 and the first L-shaped plate 11.
With the above arrangements, the first compression spring 4 mounted on the main rod 3 and located between the rear wall of the housing 101 and the first set of metal plates 12 is able to normally forward push the first L-shaped plate 11 and the first set of metal plates 12 into a rearward inclined state on the main rod 3, as shown in
The fine-adjustment slider 2 includes a housing 102 defining an internal space 74; a hand-operable screw rod 201 axially extended through near an upper end of the housing 102; a second jaw 8 connected near an upper end to a front end of the screw rod 201 with the main rod 3 extended through near a lower end of the second jaw 8; and a base 81 provided at a bottom of the housing 102 to define a lower space 82 between the bottom of the housing 102 and the base 81. The housing 102 is provided on front and rear walls at a center thereof with two corresponding openings 20, and on the front and rear walls near an upper end thereof with two corresponding screw holes 22.
A second one of the two L-shaped plates 11, a second one of the two sets of metal plates 12, and a second one of the two compression springs 4 are sequentially mounted in the internal space 74 of the housing 102 of the fine-adjustment slider 2 from front to rear, with a lower horizontal portion of the second L-shaped plate 11 forward extended through the lower space 82 to locate outside the housing 102. The fine-adjustment slider 2 is assembled to the main rod 3 by extending the main rod 3 through the two corresponding openings 20 on the housing 102, the large bore 111 on the second L-shaped plate 11, the large bores 121 on the second set of metal plates 12, and the second compression spring 4. A second one of the two bolts 5 is extended through the two corresponding screw holes 22 on the housing 102, the small bore 112 on the second L-shaped plate 11, and the small bores 122 on the second set of metal plates 12, and fixed at two ends to the front and rear walls of the housing 102. A second one of the two collars 6 is mounted on the second bolt 5 to locate between the front wall of the housing 102 and the second L-shaped plate 11.
With the above arrangements, the second compression spring 4 mounted on the main rod 3 and located between the rear wall of the housing 102 and the second set of metal plates 12 is able to normally forward push the second L-shaped plate 11 and the second set of metal plates 12 into a rearward inclined state on the main rod 3, similar to that shown in
By mounting the two L-shaped plates 11 and the two sets of metal plates 12 in the housings 101, 102 in the above manner, the L-shaped plates 11 and the metal plates 12 may be moved along with the housings 101, 102 on the main rod 3 to and fro.
And, by manually rotating the screw rod 201 forward, the second jaw 8 connected to the front end of the screw rod 201 is brought to gradually move along the main rod 3 toward or away from the first jaw 7, so as to finely adjust a distance between the first and the second jaw 7, 8 for firmly and safely clamping a workpiece between the two jaws 7, 8.
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When the slider 1 or the fine-adjustment slider 2 has been moved along the main rod 3 to the desired position to firmly clamp a workpiece between the first and the second jaw 7, 8, and it is desired to brake the slider 1 or the fine-adjustment slider 2 on the main rod 3, an operator needs only to release the L-shaped plate 11. At this point, an elastic restoring force of the compressed compression spring 4 automatically pushes the L-shaped plate 11 and the set of metal plates 12 into the rearward inclined state on the main rod 3, so that the L-shaped plate 11 and the set of metal plates 12 are firmly pressed at the large bores 111, 121 against the main rod 3 again, and the slider 1 or the fine-adjustment slider 2 is braked.
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Since the metal plates 12 are closely arranged in the housings 101, 102 to thereby produce a considerably large overall thickness for each set of the metal plates 12, when the metal plates 12 are rearward inclined in the housing 101, 102, all the large bores 121 on the inclined metal plates 12 are firmly pressed against the main rod 3 at the same time to produce an increased total contact area between the large bores 121 and the outer surface of the main rod 3, so that the slider 1 and the fine-adjustment slider 2 in the braked state are not subject to any risk of loosening from the main rod 3 easily.
Number | Date | Country | Kind |
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096210712 | Jul 2007 | TW | national |