1. Field of the Invention
The present invention relates to drawing device.
2. Description of the Prior Art
A conventional drawing device is shown in
However, all the elements of the previous drawing device are linked together in a pivot manner, so that hooking to the bottom of the object and positioning are difficult. Also, an object in a narrow space is further difficult to be removed.
Moreover, the two clipping rods 43 are arc-shaped and bent outward, so that the drawing device is hard to enter a narrow space to operate. Even if the drawing device is able to be placed into a narrow space forcedly, position of hooking may be deviated due to the slanting screwing of the bolt 41. Thus, the object is unable to be removed from the fixed end.
The present invention is, therefore, arisen to obviate or at least mitigate the above mentioned disadvantages.
The main object of the present invention is to provide a drawing device, having a plurality of clipping rods to provide easy clamping at numeral co-planar positions.
To achieve the above and other objects, a drawing device of the present invention includes a first driving element, a bolt, a plurality of second driving elements, and a plurality of clipping rods.
The first driving element has a first driving portion and an axle portion, and the axle portion axially forms a threaded hole.
The bolt is screwed with the threaded hole.
The second driving rods are spacedly and annularly disposed on and abut against an outer peripheral face of the first driving portion.
The clipping rods are rotatably disposed on the second driving elements respectively, and each clipping rod forms a hook portion.
When operating, the bolt is able to drive the axle portion and the first driving portion to rotate, and the first driving portion further drives the second driving elements to rotate. And then, the second driving elements drive the clipping rods to move between a first position and a second position respectively. Also, each clipping rod is able to turn relative to one of the second driving elements freely, so that the hook portion of each clipping rod is able to face outward or inward alternatively.
Thereby, the clipping rods are able to clamp from numeral co-planar positions, and stability and safety are both improved.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings, which show, for purpose of illustrations only, the preferred embodiment(s) in accordance with the present invention.
Please refer to
The upper and the lower shells are board-shaped and define a receiving room. The cover 10 is disposed on a side of the upper shell 11 away from the lower shell 12. The first driving element 14 and the second driving elements 20 are disposed in the receiving room respectively, and a center of each of the upper or the lower shells 11,12 forms an axle hole 13,131. In the major embodiment, the cover 10 forms a plurality of sliding slots 101. More preferably, the sliding slots extend in an arc shape.
The first driving element 14 has a first driving portion and an axle portion. An outer peripheral face of the first driving portion forms a plurality of protruding teeth annularly. The axle portion protrudes above the first driving portion and is inserted in the axle hole 13 of the upper shell 11. A cross-section of the axle portion is a polygon, more preferably a hexagon to correspond to tools which has a hexagonal cross-section. In addition, the axle portion forms a threaded hole 141 axially, and the bolt 15 is screwed with the threaded hole 141.
The second driving elements 20 are spacedly and annularly disposed on and abut against the outer peripheral face of the first driving portion. More preferably, an outer peripheral face of each second driving element 20 annularly forms a plurality of protruding teeth, so that the outer peripheral face of each second driving element 20 is engaged with the outer peripheral face of the first driving portion.
An end of each clipping rod 21 is rotatably disposed on a bottom of one of the second driving element 20, more preferably, on an off-center position of the second driving element 20. On the other hand, an end of each clipping rod 21 forms a stepped rod and penetrates one of the second driving element 20 from the bottom of the second driving element 20. Also, the clipping rod 21 protrudes above a top of the second driving element 20 in a predetermined length. In addition, a screwing element 23 is screwed with the clipping rod 21 to position the clipping rod 21 on the second driving element 20. In the major embodiment, the screwing element 23 is a nut. Besides, the other opposite end of the clipping rod 21 is bent to form a hook portion 22.
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For a better performance, the second driving elements are arranged equidistantly to provide numeral co-planar positions for clamping. In practice, as shown in
Besides, an unfixed terminal sheath 16 can be disposed on a lower end of the bolt 15 to prevent abrasion when the bolt 15 is rotated, as shown in Figs, 6 and 7.
Moreover, the clipping rods are straight rod-shaped, and only a lower end of each clipping rod forms a bending hook portion. Thus, the drawing device of the present invention can be employed in a narrow space.
In addition, the second driving elements are arranged equidistantly to equalize the force for clamping exerted by each clamping position. Also, the numeral co-planar clamping positions help improve stability and safety of operation.
Number | Date | Country | Kind |
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100208463 | May 2011 | TW | national |