KR20180137737A - Double clamping jig for power vise - Google Patents

Abstract

The present invention provides a double clamping jig for a power vise, wherein a workpiece double support block coupled to a double clamp slider is coupled to move in a high strength body to clamp and fixate two workpieces at the same time for productivity of the workpieces to be improved. According to an appropriate embodiment of the present invention, the double clamping jig for a power vise is installed in the high strength body to clamp and support two workpieces between a fixing tank and an operating tank at the same time by rotation control of a screw shaft, and comprises: a double clamp slider inserted and coupled to slide and move in a longitudinal direction of the high strength body; and a workpiece double support block coupled to an upper portion of the double clamp slider to be fixated.

Description

Double clamping jig for power vise}

[0001] The present invention relates to a clamp jig to be applied to a power vise for clamping a workpiece, and more particularly to a clamp jig for clamping two workpieces simultaneously by movably coupling a workpiece double support block coupled with a double- So that the productivity of the workpiece can be improved.

In general, vice has mechanical vise and hydraulic vise. First, mechanical vice is tightened by tightening force of screw. Especially when tightening with big torque, hammer is used to tighten the handle by impact, It is impossible to know at what degree the workpiece is securely tightened as the workpiece is tightened and loosened by using the hammer. When the workpiece is impacted by the hammer, the workpiece or the vise is damaged by the excessive impact load, It has troublesome problems. Second, the hydraulic vise uses the same force as the jack using the force of the fluid. However, when there is dirt on the packing or slight damage or abrasion during operation, the hydraulic pressure falls and naturally Despite the fact that the clamping is released and there is a risk of operation, it has a high price.

As a background of the present invention for solving this, a 'shift power vise' has been proposed as a registered utility model registration number 0113617. This can increase the clamping force by increasing the power through the planetary gears and the sun gear, but there is a limit in which only one workpiece can be clamped.

As another background art of the present invention, there has been proposed a registration vest registration No. 20-0322322, 'Vice with a force application device'. The clamping device includes a main body having a fixing clamp on an upper side thereof, a variable clamp installed on the inside of the main body so as to face the fixing clamp, and a moving unit connected to the variable clamp to move the fixed clamp. It is possible to minimize the occurrence of errors when precision processing is performed, thereby improving the quality of the processed product and reducing the defect rate.

However, the latter background technology has a limit in which only one workpiece can be clamped, which limits the productivity of the workpiece.

Registered utility model registration number room 0113617 Registered Utility Model Registration No. 20-0322322

The present invention provides a power vise double clamp jig capable of clamping two workpieces simultaneously by clamping a workpiece double support block coupled to a double clamp slider movably in a high rigid body, thereby increasing the productivity of the workpiece. It has its purpose.

A power vise double clamp jig according to a preferred embodiment of the present invention includes:

A jig for a power vise double clamp which is provided on a high rigid body and simultaneously clamps and supports two workpieces between the fixed jaw and the movable jaw by rotating the screw shaft,

A double-clamp slider slidably coupled to the high-rigidity body in the longitudinal direction;

And a workpiece double support block fixedly coupled to the upper portion of the double clamp slider.

Further, the workpiece double support block is fixed to the double clamp slider by bolts.

The double-clamp slider includes a latching jaw which is engaged with the slider-coupling groove of the high-rigidity body, a latching groove formed on the upper surface in a direction perpendicular to the longitudinal direction of the screw shaft, And a screw nut receiving groove which is recessed with a radius larger than that of the inner diameter portion is constituted.

Further, the double clamp slider and the workpiece double support block are assembled through engagement between the engaging groove formed in a direction perpendicular to the longitudinal direction of the screw shaft and the engaging jaw, so that rotation of the workpiece double support block during machining of the workpiece is suppressed do.

Further, the present invention is further characterized in that the stapler further comprises a staple plate for providing a stitch for hanging the workpiece on the workpiece double support block.

Further, in order to restrict the free movement of the double clamp slider in the slider coupling groove of the high rigidity body, a stopper hole formed vertically through the center of the upper surface of the double clamp slider; A ball inserted into the stopper hole and positioned at a lower portion thereof; A pressing spring inserted into the stopper hole and contacting the top of the ball; And a spring bolt screwed to the stopper hole and pushing the pushing spring to push the ball against the threaded shaft of the screw shaft.

Further, in order to limit the free movement of the double clamp slider in the slider engagement groove of the high rigidity body, a stopper hole formed vertically through the center of the upper surface of the double clamp slider; A stopper hole inserted into the stopper hole and disposed at a lower portion of the stopper hole, the stopper hole having a thread to be engaged with a threaded shaft of a screw shaft; A pushing spring inserted into the stopper hole and abutting on the upper surface of the fluidizing chamber; And a spring bolt screwed to the stopper hole to press the pushing spring so as to couple the thread of the fluidizing chamber to the threaded shaft of the screw shaft.

In addition, the workpiece double support block may further include a setting protrusion protruding toward the movable chamber so that an interval between the movable block and the movable plate may be set to zero.

According to the power vise double clamp jig of the present invention, the workpiece double support block coupled with the double clamp slider is disposed between the fixture and the movable assembly so as to be movable in the high rigidity body, so that the two workpieces can be clamped at the same time So that the productivity of the cutting process of the workpiece can be increased.

In addition, the workpiece double support block is engaged with the double clamp slider so as to be rotatably inhibited, so that stable and highly accurate cutting can be performed. In addition, when the setting projection is further formed in the workpiece double support block, there is an advantage that the interval between the workpiece and the movable tool can be set to zero.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of a power vice to which a double clamp jig according to the present invention is applied.
2 is a plan view of Fig.
3 is a sectional view taken along the line AA in Fig.
4 is a sectional view taken along line BB of Fig.
Fig. 5 is an exploded perspective view of the double-clamping slider and the workpiece double support block applied to Fig. 1; Fig.
Figure 6a is a bottom perspective view of the workpiece double support block shown in Figure 5;
Figure 6b is a modified perspective view of the workpiece double support block shown in Figure 6a.
FIG. 7 is an assembled perspective view of the double-clamping slider and the workpiece double support block shown in FIG. 5;
8 is a state in which a stiffening plate is additionally installed on the workpiece double support block of Fig.
9 and 10 are sectional views of various embodiments of a double clamp slider applied to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

The power vise 10 to which the double clamp jig is applied according to the embodiment of the present invention is provided with a high rigidity body 12 as shown in Figs. The high rigidity body 12 has an opening 121 opened upward and a slider engagement groove 122 formed in the opening 121 so as to face the longitudinal direction.

A fastener (14) is coupled to the high rigid body (12) for clamping one side of the first work (1). The fastening jig 14 is coupled to one side of the upper surface of the high rigidity body 12 through a coupling of a key 13 and fixed by bolts 15.

A screw nut (16) is provided on the high rigidity body (12). The screw nut (16) is slidably coupled to the slider coupling groove (122) of the high rigidity body (12). Thus, the screw nut 16 is linearly moved along the longitudinal direction to the high rigidity body 12.

A screw shaft (18) is screwed to the screw nut (16). The screw nut (16) is located in the opening (121) of the high rigidity body (12). Therefore, the screw nut 16 moves in the forward and backward directions in accordance with the rotational direction of the screw shaft 18. [

And a movable tank 20 is disposed on the side facing the fixed tank 14. [ The movable tank 20 is provided for clamping one side of the second work 2. The movable tank 20 is coupled to the screw nut 16 through a key 19 and fixed by bolts 21. The movable tank 20 moves linearly while being guided by the slider coupling groove 122 in the high rigidity body 12 integrally with the screw nut 16 in accordance with the rotation direction of the screw shaft 18, The spacing is adjusted.

And a lifting device 22 supported on the side of the high rigidity body 12 and coupled with the screw shaft 18. The lifting device 22 may be a mechanical lifting device, which is a known example in the field of power vise technology. The mechanical lifting device is described in Japanese Patent Application Laid-Open No. 2004-255555 and No. 10-1049620, and detailed description of the structure and operation will be omitted.

And an operating handle (24) detachably connected to the lifting device (22) for operating the rotating direction of the screw shaft (18). The clamping interval according to the size of the workpieces 1 and 2 can be adjusted while rotating the screw shaft 18 in the forward and reverse directions via the force-applying device 22 in accordance with the rotational direction of the operation handle 24. [

The double clamp jig of the present invention comprises a double clamp slider (26) and a workpiece double support block (28).

The double clamp slider 26 is assembled to the high rigidity body 12. The double clamp slider 26 is coupled to the slider engagement groove 122 of the high rigidity body 12 with a locking step 26a. Therefore, the double clamp slider 26 is slidable in the longitudinal direction along the slider engagement groove 122 of the high rigidity body 12. 5, the double-clamp slider 26 has an engaging groove 261 formed on the upper surface in a direction perpendicular to the longitudinal direction of the screw shaft 18, a semi-circle having a radius larger than the outer diameter of the screw shaft 18 And a screw nut receiving groove 263 having a larger radius than the inside diameter portion 262 is formed.

The workpiece double support block 28 is provided on the upper surface of the double clamp slider 26 through bolts 29.

The double clamp slider 26 and the workpiece double support block 28 are assembled through engagement between the engaging groove 261 formed in the direction perpendicular to the longitudinal direction of the screw shaft 18 and the engaging step 281 desirable. Therefore, rotation of the workpiece double support block 28, which receives the rotational force during the cutting operation of the workpiece, is inhibited by the double clamp slider 26 through engagement between the engagement groove 261 and the engagement step 281.

Further, as shown in FIG. 7, the needle plate 30 may further be provided to provide a clamping force for hanging the workpiece on the workpiece double support block 28. [ At this time, the height of the clamping plate 30 is formed lower than the workpiece double support block 28 to provide a clamping force.

As another example, the workpiece double support block 28 may be further provided with a setting protrusion 28a protruding toward the movable chamber 20 so as to set the gap with the movable chamber 20 to zero (0 mm) .

Meanwhile, in order to restrict the free movement of the double clamp slider 26 in the slider engagement groove 122 of the high rigidity body 12, two types can be implemented.

9, a stopper hole 262a formed vertically through the center of the top surface of the double clamp slider 26, a ball 263 inserted into the stopper hole 262a and located at the bottom, A pressing spring 264 which is inserted into the stopper hole 262a and is in contact with the upper portion of the ball 263 and a pressing spring 264 which is screwed into the stopper hole 262a, And a spring bolt (265) for pushing the spring bolt (265) against the threaded boss of the spring (18).

In this case, when the spring bolt 265 is tightened and the pressing spring 264 is compressed, the ball 263 is positioned on the threaded shaft of the screw shaft 18, so that the double clamping slider 26 can not move itself . Of course, when the workpiece double support block 28 is forcibly moved, the ball 263 rides over the threaded shaft of the screw shaft 18, so that the free movement restriction of the double clamp slider 26 is released.

10, a stopper hole 262a formed in the center of the top surface of the double clamp slider 26 in a vertical direction and a stopper hole 262a inserted in the stopper hole 262a to be positioned at the lower side, A pushing spring 264 which is inserted into the stopper hole 262a and is in contact with the upper surface of the fluid chamber 271 and a stopper hole 262a which is threadedly coupled to the stopper hole 262a And a spring bolt 265 that presses the pushing spring 264 to couple the thread of the fluid chamber 271 to the threaded shaft of the screw shaft 18.

In this case, when the spring bolt 265 is tightened and the pressing spring 264 is compressed, the moving directional area 271 is threadedly engaged with the threaded shaft of the screw shaft 18 so that the double clamping slider 26 can move The state becomes absent. Of course, when the workpiece double support block 28 is forcibly moved, the diaphragm 271 rides over the threaded shaft of the screw shaft 18, so that the free movement restriction of the double clamp slider 26 is released.

2, a first workpiece 1 is disposed between the fixture 14 and the workpiece double support block 28, and a second workpiece 1 is disposed between the workpiece double support block 28 and the movable tank 20, (2). Of course, the arrangement positions of the first workpiece 1 and the second workpiece 2 may be changed.

When the screw shaft 18 is rotationally driven to rotate the operation handle 24 in this state, the movable tank 20 moves toward the fixed tank 14 in the same direction with the movement of the screw nut 16, The clamping distance between the workpiece double support block 28 and the workpiece double support block 28 and the clamping distance between the workpiece double support block 28 and the movable tank 20 are narrowed and at the same time the first workpiece 1 and the second workpiece 2 are clamped do. Of course, the first workpiece 1 and the second workpiece 2 are fixed with the high clamping force by the lifting device 22.

Therefore, when the jig 10 for power clamping of the present invention is used on the table of the machine center, two workpieces can be machined at the same time, and productivity is improved. Further, the workpiece double support block 28 is engaged with the double clamp slider 26 so as to be rotatably restrained, so that stable cutting can be performed. In addition, when the setting projection 28a is further formed on the workpiece double support block 28, it is possible to set the gap with the movable chamber 20 to 0 mm (zero).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

12: High rigidity body
14: Fixture
16: Screw nut
18: Screw shaft
20:
22: Strengthening device
24: Operation handle
26: Slider for double clamp
28: Workpiece double support block

Claims (8)

A jig for a power-bias double clamp installed in a high-rigidity body (12) and clamping and supporting two workpieces between a fixing tank (14) and a movable tank (20) by a rotating operation of a screw shaft (18)
A double clamp slider (26) slidably coupled to the high rigid body (12) in the longitudinal direction;
And a workpiece double support block (28) coupled to and fixed to an upper portion of the double clamp slider (26). The method according to claim 1,
Wherein the workpiece double support block (28) is fastened to the double clamp slider (26) with bolts (29). The method according to claim 1,
The double-clamp slider (26)
A locking protrusion 26a coupled to the slider coupling groove 122 of the high rigid body 12, a locking groove 261 formed on the upper surface in a direction perpendicular to the longitudinal direction of the screw shaft 18, An inner diameter portion 262 having a radius larger than the outer diameter of the inner diameter portion 262 and forming a semicircle, and a screw nut receiving recess 263 having a larger radius than the inner diameter portion 262 are formed. Jig. The method according to claim 1,
The double clamp slider 26 and the workpiece double support block 28 are assembled through engagement between the engaging groove 261 formed in the direction perpendicular to the longitudinal direction of the screw shaft 18 and the engaging step 281, So that the rotation of the double work supporting block (28) is suppressed. The method according to claim 1,
Characterized in that the jig for power vise double clamp further comprises a needle plate (30) for providing a clamping jaw (30a) for clamping a workpiece to the workpiece double support block (28). The method according to claim 1,
To limit the free movement of the double clamp slider 26 in the slider engagement groove 122 of the high rigidity body 12,
A stopper hole 262a vertically formed at the center of the upper surface of the double clamp slider 26;
A ball 263 inserted into the stopper hole 262a and positioned at the lower portion;
A pressing spring 264 inserted into the stopper hole 262a and in contact with an upper portion of the ball 263;
And a spring bolt (265) screwed into the stopper hole (262a) and pushing the pushing spring (264) to push the ball (263) against the threaded shaft of the screw shaft (18) Jig for Vice Double Clamp. The method according to claim 1,
In order to restrict the free movement of the double clamp slider 26 in the slider engagement groove 122 of the high rigidity body 12,
A stopper hole 262a vertically formed at the center of the upper surface of the double clamp slider 26;
A moving diaphragm 271 inserted into the stopper hole 262a and located at the lower side and having a screw thread engaging with a threaded shaft of a screw shaft;
A pressing spring 264 which is inserted into the stopper hole 262a and is in contact with the upper surface of the fluid chamber 271;
And a spring bolt 265 which is screwed to the stopper hole 262a and presses the pushing spring 264 to connect the thread of the fluid chamber 271 to the threaded shaft of the screw shaft 18 Jig for power vise double clamp. The method according to claim 1,
The workpiece double support block 28 is further provided with a setting protrusion 28a projecting toward the movable chamber 20 so as to set the gap with the movable chamber 20 to zero. Jig.

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