JPH0432218Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field The invention relates to a vertical vise that fixes and holds a workpiece to a machine tool, and in particular, the movable jaw moves up and down using a dowel against the vise body. It's about structure.

Problems to be Solved by the Prior Art and Ideas The structure of this type of vertical vise shown in FIG. 5 is generally known. That is, 1 is a vice main body, and this vice main body 1 is formed with guide protrusions 2 that project from side to side. On the other hand, the movable jaw 3 is formed with a guide recess 4 into which the guide protrusion 2 is fitted, and by fixing a guard 5 to the movable jaw 3 with a bolt 6, the movable jaw 3 can be moved up and down to prevent it from coming off the vise body 1. I'm starting to do that. However, in this case, the gaps between the vise body 1, movable jaw 3, and pad 5 are determined by the machining accuracy, so gaps inevitably occur.
The gap cannot be adjusted, and the movable jaw 3 is misaligned with respect to the fixed jaw, making it impossible to accurately grip the workpiece.

Therefore, as something that can adjust the gap,
A structure as shown in Figure 6 was devised.
That is, in this case, the gib 7 is provided and the bolt 6 is
This is an attempt to adjust the gap by pressing the movable jaw 3 against the vise body 1.
However, this device has the problem that the gap between the gib 7 and the movable jaw 3 is received by the tip of the bolt 6, which creates a gap and makes the structure extremely unstable.

The present invention was developed with attention to the above points, and it is possible to adjust the sliding gaps between the dowel and the vise body, and between the vise body and the movable jaw, and to stabilize the movable jaw with respect to the vise body. To provide a structurally stable vertical vise that does not shake relative to a vise body even if the moving stroke of a moving jaw is long.

Means for Solving the Problems According to the present invention, the above problems can be solved by screwing one end of the movable jaw onto a screw having a full thread that is pivotally connected to the upper and lower parts of the vise body, and At least a pair of guide recesses are formed in the vertical direction in the guide recess, a bent part of the guard is fitted into the guide recess, and an adjustment bolt is screwed diagonally to the movable jaw from the bent part side. This problem can be solved by using a vertical vise that is fixed to the movable jaw with a fixing bolt from the flat side of the gold.

Function: The guard has a bent part, and the adjustment bolt is screwed diagonally to the moving jaw from the bent part side, so when this adjustment bolt is tightened, the moving jaw and the guard are respectively attached to the vise body side. There will be no gap between the movable jaw and the guard against the vise body. Therefore, as the screw rotates, the movable jaw stably moves up and down along the guide recess.

Embodiments Hereinafter, the present invention will be explained based on embodiments shown in the drawings.

The vise body 10 made of cast iron or the like has an approximately rectangular prism shape in appearance, and has a flange portion 1 at the bottom thereof.
1, and is fixed by bolts 13 to a rotating base 12 of the machine tool. This flange portion 11
Fixed jaws 14, 14 are integrally protruded from four sides parallel to the long axis of the vise body 10 above and adjacent to the vise body 10. Fixed jaws 15, 15 made of hardened and ground alloy tool steel are attached to the upper surface of each fixed jaw 14, 14 by bolts 16.

Further, a support block 17 made of carbon steel or the like is attached above the vise body 10 at a position facing each of the fixed jaws 14, 14, and between this support block 17 and the fixed jaws 14, 14 side, a support block 17 is installed from above. A screw 18, which is fully threaded down to the bottom, is rotatably attached. The upper end of the screw 18 is connected to a rotation driving means (not shown) such as a reversible motor.

Reference numeral 19 denotes a movable jaw, and as shown in FIGS. 3 and 4, one end of the movable jaw is attached so as to be threadedly engaged with the screw 18. As the screw 18 rotates, the movable jaw 19 moves up and down. It's getting old. A movable mouthpiece 20 made of hardened and ground steel is attached to the lower surface of the movable jaw 19 that faces the fixed jaw 14 .

Reference numerals 21 and 21 are pads made of rigid metal. As shown in detail in FIG. 4, the pads 21, 21 have a dogleg shape consisting of a flat portion 21a and a bent portion 21b bent at 45 degrees. The bent portion 21b is formed in the four corners of the vice body 10 in the vertical axis direction.
2, the flat portion 21a abuts against the side surface of the movable jaw 19. Numeral 23 is an adjustment bolt for adjusting the gap between the vise body 10 and the movable jaw 19 and the gap between the vise body 10 and the guard 21. This adjustment bolt 23 is adapted to be screwed into the movable jaw 19 from the bent portion 21b side of the cover 21. In other words, the adjustment bolt 23 is screwed into the movable jaw 19 at an angle of 45 degrees and adjusted. By tightening the bolt 23, the movable jaw 19 is drawn toward the vice body 10, and the guard 21 is also drawn toward the vice body 10. Therefore, in addition to being able to adjust the gap between the vise body 10 and the movable jaw 19, the
The gap between the vise body 10 and the vise body 10 can also be adjusted. After adjusting the gap with the adjustment bolt 23 in this manner, the adjustment bolt 23 is fixed with a lock bolt 24 to prevent it from loosening. Then, the fixing bolt 25 is inserted into the movable jaw 1 from the flat part 21a of the guard 21.
9 and fix the movable jaw 19. Therefore, the corner 19a of the movable jaw 19 exactly matches the intersection angle between the bending angle 21c of the guard 21 and the vice body 10 without any gap, and the movable jaw 1
9 does not shake even when moving up and down, moves up and down accurately even if the up and down stroke is long, and fixes the jaw 14 accurately even over a wide range of workpieces of different sizes.
It becomes possible to hold it in place. In addition, since the adjustment bolt 23 is tightened between the vise body 10 and the movable jaw 19 or the dowel 21, no gap is created, and chips etc. do not enter during machining.
The moving jaw 19 can be moved smoothly.

In this way, the moving jaw 19 moves the screw 1
8 rotates, it moves up and down along the guide recess 22 without wobbling relative to the vice body 10.

In the embodiment shown in the drawings, the fixed jaws 14 and the movable jaws 19 are shown to be provided on four sides of the vise body 10, but the invention is not limited to this, and only one pair or a plurality of jaws may be provided on one side. They may be provided on one surface, or a plurality of pairs may be provided on one surface by forming a plurality of corner portions on one surface.

Effects of the invention As described above, according to the invention, a bent part is provided in which the cover is bent at an angle of 45 degrees, and an adjustment bolt is screwed in from the bent part side so that the angle is 45 degrees with respect to the movable jaw. As a result, the movable jaw and dowel are drawn toward the vise body and can move up and down relative to the vise body without creating any gaps.Even if the vertical stroke is long, it is stable, and the fixed jaw ensures reliable movement. It has the practical effect of being able to grip the workpiece.

[Brief explanation of the drawing]

Fig. 1 is a front view of the vertical vise, Fig. 2 is a plan view of Fig. 1, and Fig. 3 is a - of Fig. 1.
FIG. 4 is an enlarged cross-sectional view taken along the - line in FIG. 1, and FIGS. 5 and 6 are cross-sectional views of main parts of a conventional vertical vise. 10... Vise body, 18... Screw, 1
9...Moving jaw, 21...Batch, 21a...Flat part, 21b...Bending part, 22...Kaid recessed part,
23...adjustment bolt, 25...fixing bolt.

Claims (1)

[Scope of utility model registration request] One end of the movable jaw 19 is screwed onto a fully screwed screw 18 which is pivotally connected to the upper and lower parts of the vice body 10, and at least one pair of guide recesses 22, 22 are provided in the corners of the vice body 10 in the vertical direction.
, and a pad 21 is formed in the guide recesses 22, 22.
The adjusting bolt 23 is fitted into the bent portion 21b of the bending portion 21b, and the adjustment bolt 23 is inserted diagonally from the bent portion 21b side with respect to the movable jaw 19.
At the same time, the flat part 21a of the pad 21
A vertical vise characterized in that it is fixed to a movable jaw 19 from the side with a fixing bolt 25.