KR102010254B1 - Vise - Google Patents

Abstract

The present invention relates to a vise, and is characterized in that a posture of a workpiece held on a workpiece holder can be quickly and precisely adjusted by individually adjusting a plurality of adjustment pins protruding from the workpiece holder so as to push up the workpiece. In particular, damage to the workpiece is capable of being prevented as tapping of the workpiece using a tool to adjust the posture of the workpiece is not necessary, and a more precise posture adjustment is possible than tapping with a tool to change the posture of the workpiece. In addition, the posture of the workpiece while checking the posture of the workpiece in real-time is capable of being adjusted by bringing the workpiece in contact with a measuring instrument such as a dial gauge for checking the posture of the workpiece, thereby greatly improving work convenience.

Description

Vise {VISE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vise, which relates to a vise, a device that allows a workpiece to be sandwiched between two jaws and secured to a workbench.

In order to machine the workpiece mechanically, the workpiece must be fixed to the workbench in a fixed position. Especially when the workpiece is to be precisely machined using precise machining equipment, fixing of such a workpiece is very important.

Work to fix the workpiece to the workbench is done through a vise. The two jaws of the vise can be opened to sandwich the workpiece therebetween and the vise can be tightened to fix the workpiece between the two jaws.

Conventionally, in order to adjust the posture (tilt and height, etc.) of the workpiece fixed to the vise, slightly tighten the vise to fix the workpiece with a weak force, and then finely adjust the posture of the workpiece by tapping the workpiece using a tool such as a hammer. Adjusted. After the posture of the workpiece was adjusted, the vise was firmly tightened so that the workpiece was firmly fixed.

In order to use such a conventional working method, the skill of the operator is very important. The operator has to rely on the experience to adjust the attitude of the workpiece by tapping the workpiece with the operator's senses.

When adjusting the posture of the workpiece by tapping the workpiece with the tool, there is a problem that it takes not only a long time but also several trials and errors to adjust the posture of the workpiece to a desired state.

In addition, the workpiece may be damaged in the process of tapping the workpiece with the tool, and if the work is not completed at one time, the above process must be performed from the beginning, thereby greatly reducing the work efficiency.

In order to confirm that the workpiece fixed to the vise is fixed in the correct posture, a method of precisely measuring the position of the outside of the workpiece (for example, the height of the machining surface) using a dial gauge (or dial indicator) is used.

According to the conventional method, while adjusting the posture of a workpiece by tapping the workpiece with a tool, the dial gauge should be spaced apart from the workpiece so that an impact is not transmitted to the dial gauge.

Therefore, after adjusting the posture of the workpiece with the persimmon, the dial gauge is contacted with the workpiece again to confirm that the posture of the workpiece is correctly adjusted, and again, the dial gauge is separated from the workpiece to reposition the workpiece. Should be.

Republic of Korea Utility Model Registration No. 20-0228144 "Vice for Fixing Workpieces" (registered on October 14, 200)

The present invention has been made to solve the problems of the prior art as described above, it is possible to quickly and precisely adjust the posture of the workpiece without using the conventional method of adjusting the position of the workpiece fixed to the vise with a tool. I would like to propose a new type of vise that makes it possible.

In addition, it is possible to improve the convenience of the workpiece posture adjusting process by enabling the posture of the workpiece to be adjusted while checking the posture of the workpiece in real time using a measuring instrument such as a dial gauge.

In order to solve the above problems, the present invention, the upper portion is a workpiece mounting portion for mounting the workpiece, the first through hole recessed upwardly from the lower surface and the first through hole is passed through the workpiece holder in the first through the first cylinder Three or more adjustment pin accommodation holes are formed in the vertical through-hole shape including a second through-hole formed in a diameter smaller than the diameter of the study and having a step at the boundary between the first and the second through-hole, A vise body extending in a horizontal direction from the first through hole of the adjusting pin accommodation hole to form a bolt accommodation hole in the form of a female threaded hole communicating with the outside; A fixing jaw fixedly provided at an upper side of the vise body; A movable jaw provided on the other side of the upper part of the vise body so as to be paired with the fixed jaw, the movable jaw disposed to move forward and backward toward the fixed jaw with the workpiece holder therebetween; A retraction screw which is rotatably provided on the vise body to advance and retract the movable jaw; An adjusting pin body provided to protrude and retract in the vertical direction along the second through hole, and formed at a lower end of the adjusting pin body and accommodated in the first through hole, but having a lower convex portion at a lower end thereof. An adjusting pin comprising an adjusting pin head having a bolt contact in the form of; An adjusting bolt which is screwed to the bolt receiving hole and is provided to be advanced in a horizontal direction, and has an adjusting pin contact formed at one end thereof inclinedly contacting the bolt contacting part; An elastic member accommodated in the first through-hole and elastically presses the adjusting pin downward while being supported by the step and the adjusting pin head; Characterized in that comprises a.

In the above, the adjustment pin contact portion is a cone shape protruding toward the bolt contact portion, it is preferable that the adjustment bolt is a tanned bolt that is accommodated so that the other end is completely inserted into the bolt receiving hole.

By using the vise according to the present invention as described above, the posture of the workpiece mounted on the workpiece holder can be quickly and precisely adjusted by individually adjusting a plurality of adjustment pins which protrude into the workpiece holder to push up the workpiece. have.

In particular, since it is not necessary to tap the workpiece by using the tool to adjust the posture of the workpiece, it is possible to prevent the damage of the workpiece, and finer posture adjustment is possible than when changing the posture of the workpiece by tapping the tool.

In addition, it is possible to adjust the posture of the workpiece while checking the posture of the workpiece in real time by contacting the workpiece with a measuring instrument such as a dial gauge for confirming the posture of the workpiece, thereby greatly improving the convenience of work.

1 is a perspective view of a vise according to an embodiment of the present invention;
Figure 2 is an exploded perspective view of the vise of Figure 1,
3 is a plan view of the vise of FIG. 1;
4 is a cross-sectional view along the AA direction of the vise of FIG. 3;
5 is a sectional view taken along line BB of the vise of FIG. 3;
6 is a conceptual cross-sectional view showing a state of use of the vise of FIG.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted for simplicity of explanation, and like reference numerals designate like parts throughout the specification. When any part of the specification is to "include" any component, this means that it may further include other components, except to exclude other components unless otherwise stated.

1 is a perspective view of a vise according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the vise of FIG. 1, FIG. 3 is a plan view of the vise of FIG. 1, and FIG. 4 is a cross-sectional view in the AA direction of the vise of FIG. 3. 5 is a cross-sectional view taken along the BB direction of the vise of FIG. 3.

Vise according to an embodiment of the present invention, the vise body 100, fixed jaw 110, movable jaw 200, forward and backward screw 300, adjustment pin 400, elastic member 430, adjustment bolt ( 500).

A viscous body 100 in the form of a cuboid is provided. The upper portion of the vise body 100 is a workpiece holder 101 for mounting the workpiece. The fixing jaw 110 is integrally provided at one upper side of the vise body 100. Vise body 100 and the fixing jaw 110 is formed integrally with the 'b' shaped structure.

A rail groove 120 for guiding the movable jaw 200 is formed in the vise body 100 to allow the movable jaw 200 to slide toward the fixed jaw 110. The rail groove 120 extends in the horizontal direction on the upper portion of the vise body 100 and is formed in a concave groove shape.

On one side of the vise body 100 in the horizontal direction, a retreating screw mounting hole 130 for rotatably mounting the retreating screw 300 to be described later is formed. Advance screw mounting hole 130 is formed to pass through the horizontal direction toward the rail groove (120).

Around the retreat screw mounting hole 130, after the retreat screw 300 is mounted in the retreat screw mounting hole 130, a pair of fixing pins 350 for inserting the separation of the retreat screw 300 can be inserted. A pair of fixing pin insertion holes 140 are formed in the vertical direction so that the fixing pin insertion holes 140 are shown in dashed lines in FIG. 5.

Each fixing pin insertion hole 140 is formed so that a portion of the fixing pin insertion hole 140 is overlapped with the advance screw mounting hole 130 in a state disposed perpendicular to the advance screw mounting hole 130. In addition, the fixing pin 350 is inserted into the fixing pin insertion hole 140 through the lower surface of the vise body 100, the fixing pin insertion hole 140 is extended upward from the lower surface of the vise body 100 Is formed.

Vise body 100 is formed with six adjustment pin receiving hole 150 of the vertical through-hole communication with the workpiece holder 101 is formed. The adjusting pin accommodation hole 150 is where the adjusting pin 400 is retractably received in the vertical direction. Six adjustment pin receiving holes 150 are formed side by side in two rows in the vise body (100).

The adjusting pin receiving hole 150 penetrates upward from the lower surface of the vise body 100 toward the workpiece holder 101 from the first through part 151 and the first through part 151. It consists of a second through-hole 152 is formed.

The first through hole 151 is where the elastic member 430 for elastically pressing the adjustment pin 400 is inserted. The first through part 151 has a larger diameter than the second through part 152, and a step 153 is formed at the boundary between the first through part 151 and the second through part 152. The step 153 serves to support the end of the elastic member 430 accommodated in the first through part 151.

The vise body 100 is formed with a female threaded bolt-shaped hole 160 extending in the horizontal direction from the lower end of the adjustment pin receiving hole 150 (specifically, the lower end of the first through-hole 151). The bolt receiving hole 160 is formed to communicate with the outside through the side of the vise body (100). The adjustment bolt 500 is screwed to the bolt receiving hole 160 so that it can be advanced along the bolt receiving hole 160.

The other side of the upper portion of the vise body 100 is provided with a movable jaw 200 paired with the fixed jaw 110. The movable jaw 200 is disposed to be retractable toward the fixed jaw 110 with the work holder 101 interposed therebetween and serves to fix the workpiece mounted on the work holder 101 to the vise body 100. .

The movable jaw 200 is a sliding block 210 that is slidably coupled to the rail groove 120 and the movable jaw that is formed integrally with the upper side of the sliding block 210 to hold and fix the workpiece together with the fixing jaw 110. It consists of a body 220. In the sliding block 210, the advance screw coupling hole 211 is formed so that the forward screw 300 can be screwed.

When the sliding block 210 of the movable jaw 200 is coupled to the rail groove 120, the movable jaw 200 may be slidably moved in the horizontal direction toward the fixed jaw 110.

The vise body 100 is provided with a retraction screw 300 for advancing and moving the movable jaw 200. The advance screw 300 is a vice tightening means for advancing the movable jaw 200 toward the fixed jaw 110 to fix the workpiece between the fixed jaw 110 and the movable jaw 200.

One end of the retreat screw 300 is a male screw portion 310 of the male screw type for being screwed into the retreat screw coupling hole 211, the other end of the retreat screw 300 is inserted into the retreat screw mounting hole 130 to rotate It is a rod-shaped rotary support 320 that is possibly supported.

On the outer circumferential surface of the rotary support 320, a fixing pin locking groove 321 is formed to prevent the retreating screw 300 from leaving the vise body 100 by being caught by a pair of fixing pins 350. The flange 330 is formed at the end of the rotary support 320 so as to be caught on one side of the vise body 100 after the retreat screw 300 is mounted to the retreat screw mounting hole 130.

That is, the retraction screw 300 is a flange 330 that is caught on one side of the vise body 100 by passing through a pair of fixing pins 350 and the fastening screw mounting hole 130 is inserted into the fixing pin engaging groove 321. By rotatable to the vise body 100 is installed.

In addition, the other end of the retreat screw 300 is formed with a tool fastening portion 340 of the hexagonal bolt head to rotate the retreat screw 300 using a tool. When the fastening screw 300 is rotated by fastening the tool to the tool fastening unit 340, the movable jaw 200 can be easily advanced.

The adjusting pin 400 is inserted into the adjusting pin receiving hole 150 of the vise body 100. The adjustment pin 400 protrudes into the workpiece holder 101 in the state accommodated in the adjustment pin accommodation hole 150 to adjust the posture of the workpiece mounted on the workpiece holder 101, more specifically, the inclination and height of the workpiece. Make it adjustable.

The adjusting pin 400 is retracted in the vertical direction while passing through the second through part 152 of the adjusting pin accommodation hole 150 and provided with the adjusting pin body 410 so as to protrude into the workpiece holder 101. Is formed on the lower end of the adjusting pin body 410 is made of the adjusting pin head 420 accommodated in the first through hole 151 of the adjusting pin receiving hole 150.

The adjusting pin head 420 is larger in diameter than the adjusting pin body 410 to support the end of the elastic member 430. In addition, the adjusting pin head 420 is formed with a bolt contact portion 421 for the adjustment bolt 500 is in contact.

The bolt contact portion 421 is formed in a hemisphere shape convex downward. This form is intended to allow the bolt contact portion 421 to always be in contact with the adjustment bolt 500 in an inclined posture, even if the adjustment pin 400 is rotated.

The hemispherical bolt contact portion 421 protruding downward is in contact with the adjusting bolt 500 accommodated in the bolt receiving hole 160 so that the adjusting pin 400 can smoothly retreat according to the advancing of the adjusting bolt 500. do.

The elastic member 430 is a general coil spring having both ends supported by the step 153 and the adjustment pin head 420 in a state accommodated in the first through part 151. The elastic member 430 elastically presses the adjustment pin 400 downward to allow the adjustment pin 400 to descend when the adjustment bolt 500 retreats in the horizontal direction.

The adjusting bolt receiving hole 160 of the vise body 100 is accommodated in a state in which the adjusting bolt 500 is screwed to the adjusting bolt receiving hole 160. The adjusting bolt 500 is formed in the form of a male screw so that the adjusting bolt 500 can be screwed into the adjusting bolt receiving hole 160 that is a female screw hole.

One end of the adjustment bolt 500 is formed with an adjustment pin contact portion 510 inclined contact with the bolt contact portion 421 of the adjustment pin 400. The adjustment pin contact portion 510 of the present embodiment is in the form of a cone protruding toward the bolt contact portion 421. The cone-shaped adjustment pin contact portion 510 is to allow the adjustment pin contact portion 510 to always contact the bolt contact portion 421 in an inclined posture even when the adjustment bolt 500 is rotated.

The adjusting bolt 500 of this embodiment is a tanned bolt in which no bolt head is formed at the other end. The adjustment bolt 500, which is a tanned bolt, is accommodated so that the other end is completely inserted into the adjustment bolt receiving hole 160 and does not protrude to the outside of the vise body 100. Therefore, the adjustment bolt 500 can be prevented from being manipulated by mistake.

One end of the adjustment bolt 500 is provided with an adjustment pin contact portion 510 inclined downward toward the bolt contact portion 421 in order to contact the bolt contact portion 421 of the adjustment pin 400.

The adjustment pin contact portion 510 of the present embodiment is in the form of a cone protruding toward the bolt contact portion 421. The structure of the adjustment pin contact portion 510 as described above is to maintain the inclined posture of the adjustment pin contact portion 510 in contact with the bolt contact portion 421 even when the adjustment bolt 500 is rotated.

The other end of the adjustment bolt 500 is formed with a tool fastening portion 520 to rotate the adjustment bolt 500 using a tool. Tool fastening part 520 of the present embodiment is a hexagon wrench groove to insert the hexagon wrench to rotate the adjustment bolt 500.

When the adjusting bolt 500 is rotated by using a tool to advance the adjusting bolt 500 toward the adjusting pin head 420 of the adjusting pin 400, the bolt contact part 421 contacting the adjusting pin contact part 510 is moved. The adjustment pin 400 is moved upward to counter the elastic force of the elastic member 430 by receiving a force upward.

When the adjustment pin 400 is moved upwards and the upper end of the adjustment pin 400 protrudes into the workpiece holder 101, the workpiece seated on the workpiece holder 101 can be pushed upward.

On the contrary, when the adjusting bolt 500 is retracted by rotating the adjusting bolt 500, the adjusting pin 400 is moved downward by the elastic force of the elastic member 430 so that the workpiece is seated on the work holder 101 again. .

6 is a conceptual cross-sectional view showing a state of use of the vise of FIG.

Six adjustment pins 400 are provided in the vise of the present embodiment, and six adjustment pins 400 are provided to protrude into the workpiece holder 101 while being spaced apart from each other. Therefore, by manipulating each adjustment bolt 500 to project the adjustment pin 400 to the workpiece holder 101, by pushing the various parts of the workpiece 10 mounted on the workpiece holder 101, the workpieces individually The posture of (10) can be changed.

In addition, if the retreat of the adjustment bolt 500 is precisely adjusted, the adjustment pin 400, which is retracted in the vertical direction by the adjustment bolt 500 is also precisely adjusted so that the height of the workpiece 10 is adjusted through this. It can be adjusted precisely.

As shown in FIG. 6, when the mounting surface of the workpiece 10 mounted on the workpiece mounting portion 101 of the vise body 100 is not a horizontal plane (expressed inclined in FIG. 6), the machining surface of the workpiece 10 (FIG. 6). In 6, the height of the adjustment pin 400 must be adjusted individually to fit the upper surface of the workpiece) to a predetermined standard (indicated by a dotted line in FIG. 6). The height of the adjusting pin 400 is adjusted through the adjusting bolt 500 in contact with the adjusting pin 400.

6, the adjustment pin 400 located on the left side of the drawing further protrudes upwards, and the adjustment pin 400 located on the right side of the drawing adjusts the height of each adjustment pin 400 separately so that the workpiece The machined surface of (10) can be easily fitted to a predetermined criterion (dashed line in FIG. 6).

Since the posture adjustment of the work piece 10 can be made even when the dial gauge (not shown) for checking the posture of the work piece 10 is brought into contact with the upper surface of the work piece 10, the posture adjustment is made more quickly and conveniently than in the prior art. You lose.

Conventionally, in order to adjust the posture of the workpiece had to tap the side of the workpiece with a tool, but using the vise according to the present invention can change the posture of the workpiece 10 by a simple operation of tightening or loosening the adjustment bolt 500, Not only is the convenience very excellent, but there is no need to worry about damage to the work piece 10 due to impact.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. .

Therefore, the embodiments described above are to be understood in all respects as illustrative and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

10: workpiece
100: vise body 101: workpiece holder
110: fixing jaw 150: fixing pin receiving hole
151: first through the air 152: second through the air
153: step
160: bolt receiving hole
200: movable jaw
300: advance screw
400: adjusting pin 421: bolt contact
430: elastic member
500: adjusting bolt 510: adjusting pin contact

Claims (2)

The upper part is a workpiece holder for mounting the workpiece, the first through hole recessed upwardly from the lower surface and the second through the workpiece through the workpiece holder in the first through portion formed in a diameter smaller than the diameter of the first through portion Three or more adjustment pin accommodation holes are formed in a vertical through hole shape including a through portion and a stepped portion formed at a boundary between the first through portions and the second through portion. A vise body extending in a direction to form a bolt receiving hole in the form of a female threaded hole communicating with the outside;
A fixing jaw fixedly provided at an upper side of the vise body;
A movable jaw provided on the other side of the upper part of the vise body so as to be paired with the fixed jaw, the movable jaw disposed to move forward and backward toward the fixed jaw with the workpiece holder therebetween;
A retraction screw which is rotatably provided on the vise body to advance and retract the movable jaw;
An adjusting pin body provided to protrude and retract in the vertical direction along the second through hole, and formed at a lower end of the adjusting pin body and accommodated in the first through hole, but having a lower convex portion at a lower end thereof. An adjusting pin comprising an adjusting pin head having a bolt contact in the form of;
An adjusting bolt which is screwed to the bolt receiving hole and is provided to be advanced in a horizontal direction, and has an adjusting pin contact formed at one end thereof inclinedly contacting the bolt contacting part;
An elastic member accommodated in the first through-hole and elastically presses the adjusting pin downward while being supported by the step and the adjusting pin head;
Vise comprising a.
The method of claim 1,
The adjustment pin contact portion is a cone shape protruding toward the bolt contact portion, wherein the adjustment bolt is a vise bolt that is accommodated so that the other end is completely inserted into the bolt receiving hole.

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