KR200334545Y1 - Holding Structure for Rising a Work of Vice - Google Patents

Abstract

The present invention relates to a workpiece floating prevention structure of the vise, having a predetermined length, the workpiece 2 is placed on the upper surface, the base body portion 10 is formed with a guide rail portion 11 in the longitudinal direction, and Fixed jaw (20) fixed to one end of the upper surface of the base body portion 10 to support and bite one side of the workpiece (2), and movable horizontally to the upper surface of the base body portion (10) Movable jaw (30) is mounted so as to be fixed to the movable jaw (30), and is mounted on the guide rail portion 11 of the base body portion (10) is guide rail portion (11) In the slider 40 is moved horizontally along the screw and the screw bar 50 coupled to the slider 40 to move the slider 40 horizontally, the slider 40 is the base The spring member 60 is mounted on the guide rail portion 11 of the body portion 10. The moving jaw 30 moves by the reaction force by the self restoring force of the spring member 60, thereby grasping the workpiece 2, thereby changing the direction of the force to be injured, thereby restraining the injury of the workpiece 2 as much as possible. .

Therefore, when the worker bites and fixes the workpiece 2 to the vise, the worker can grasp and fix the workpiece 2 with a sufficient pressing force so that the workpiece 2 does not escape during processing, thereby preventing a safety accident during operation.

In addition, when the workpiece 2 is firmly grasped and fixed between the moving jaw 30 and the fixed jaw 20, the floating phenomenon does not occur and an operator can accurately and precisely process the workpiece 2.

Therefore, it is a very useful design that can increase the safety of the operator and improve the work efficiency by minimizing the defective rate during precision machining.

Description

Holding Structure for Rising a Work of Vice}

The present invention relates to a workpiece floating prevention structure of the vise, more specifically, it is designed to prevent the floating around the center of the body of the workpiece when the workpiece is strongly identified by moving jaws and fixed jaws.

In general, a vise is a tool for fixing a position for processing or finishing a workpiece, and a vise is divided into a manual vise and a hydraulic vise.

And, the vise has a predetermined length, as shown in Figure 1, the workpiece 2 is placed on the upper surface, the base body portion 10 formed with a guide rail portion 11 in the longitudinal direction;

A fixed jaw 20 fixed to one end of the upper surface of the base body 10 to support and bite one side of the workpiece 2;

A movable jaw 30 mounted on the upper surface of the base body 10 to move horizontally;

A slider 40 fixed to the moving jaw 30 and seated on the guide rail portion 11 of the base body portion 10 to move horizontally along the guide rail portion 11;

It is composed of a screw bar 50 coupled to the slider 40 to rotate to move the slider 40 horizontally.

That is, when the operator puts the workpiece (2) to be processed on the upper surface of the base body portion 10 and rotates by coupling the handle 51 to the screw bar 50, the screw bar 50 is coupled to Slider 40 is to move horizontally along the guide rail 11 of the base body portion (10).

Therefore, the moving jaw 30 fixed to the slider 40 moves horizontally in the direction of the fixed jaw 20 from the upper surface of the base body portion 10 so as to strongly grasp and fix the work piece 2.

However, the above-mentioned conventional vise has a problem in that the work is compressed and floated around the center of the body when the work is strongly clamped between the fixed jaw and the moving jaw, as shown in FIG. will be.

In addition, as mentioned above, the floating phenomenon of the workpiece was caused by a closed end that is impossible to precise and precise machining of the workpiece due to the error of the dimensions, parallelism and perpendicularity when machining the workpiece.

In addition, in most cases, the degree of injury of the workpiece is virtually indistinguishable from the operator's eyes, and in order to prevent the injury of the workpiece, when the workpiece is identified by weakening the grasp of the moving jaw and the fixed jaw, There was a problem that there is a risk of a safety accident.

The purpose of the present invention is to detect the workpieces between the fixed jaws by moving the moving jaws, and to prevent the floating phenomenon that occurs when the workpieces are pressurized around the center of the body. To provide a workpiece floating prevention structure of the vise capable of precise and precise machining.

1 is a side cross-sectional view showing the configuration of a conventional vise.

Figure 2 is a schematic diagram showing the injury phenomenon caused by a conventional vise.

Figure 3 is a side cross-sectional view showing a configuration of the present invention.

Figure 4 is a front sectional view of the vise of the present invention.

* Description of the major symbols in the drawings *

1-vise 2-workpiece

10-Base body part 11-Guide rail part

20-Fixed Encounter 30-Moving Encounter

40-Slider 41-Guide protrusion

50-screw bar 60-spring member

61-leaf spring

An object of this invention has a predetermined length, the base body portion 10, the workpiece 2 is placed on the upper surface, the guide rail portion 11 is formed in the longitudinal direction;

A fixed jaw 20 fixed to one end of the upper surface of the base body 10 to support and bite one side of the workpiece 2;

A movable jaw 30 mounted on the upper surface of the base body 10 to move horizontally;

A slider 40 fixed to the moving jaw 30 and seated on the guide rail portion 11 of the base body portion 10 to move horizontally along the guide rail portion 11;

In the configuration consisting of a screw bar (50) coupled to the slider (40) to rotate to move the slider (40) horizontally,

The slider 40 is achieved by mounting the spring member 60 to the guide rail portion 11 of the base body portion 10.

That is, the spring member 60 which is compressed up and down with the guide rail portion 11 of the base body portion 10 is mounted on the slider 40, and the compressed spring member 60 has a restoring force to be restored to its original state. The reaction force is generated by the reaction force, the moving jaw 30 is moved to grasp (tighten) the workpiece 2 and to change the direction of the force to rise to suppress the injury of the workpiece (2) as much as possible.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a side cross-sectional view showing a configuration of the present invention, a spring mounting groove is formed in the lower guide protrusion of the slider, showing a state in which the leaf spring is mounted on the spring mounting groove.

4 is a front sectional view of the vise of the present invention, in which guide protrusions protrude on both sides of the slider, and the lower side of the guide protrusion shows a state in which the leaf springs are compressed in the guide rail portion of the base body portion, respectively.

3 and 4, the base body portion 10 of the vise (1) of the present invention as shown in Figure 3 and the upper surface is made of a flat surface to place the workpiece (2) and the moving jaw 20 to be described later The work piece 2 is grasped and fixed by 30, and a guide rail portion 11 is formed in the longitudinal direction to guide the horizontal movement of the slider 40.

In addition, the guide grooves 41 of the slider 40 to be described later are coupled to both side surfaces of the guide rail portion 11 to form a sliding groove 11a for sliding the slider 40 horizontally.

In addition, a fixing jaw 20 for supporting one side of the work piece 2 mounted on the upper surface is mounted at the end of the upper surface of the base body portion 10 in a fixed state.

In addition, one end of the upper surface of the base body portion 10 is equipped with a moving jaw 30 which moves horizontally by the slider 40 to be described later.

On the other hand, the guide rail portion 11 of the base body portion 10 is embedded with a screw bar 50 having a predetermined length is mounted, one end is protruded to the outside of the base body portion 10 so that the worker protrudes The handle 51 is coupled to one end so as to rotate.

In addition, the screw bar 50 is coupled to the slider 40 to which the moving jaw 30 is fixed. The guide rail part 11 of the base body part 10 is rotated by the rotation of the screw bar 50. Move along.

In addition, the guide protrusion 41 protrudes on both sides of the slider 40 to be coupled to the sliding groove 11a formed in the guide rail portion 11 of the base body portion 10 along the sliding groove 11a. Go sliding.

That is, after placing the workpiece (2) to be processed between the fixed jaw 20 and the moving jaw (30) mounted on the base body portion 10 and rotates the handle 51 screw bar 50 is rotated While the slider 40 is moved horizontally along the guide rail portion 11, and the moving jaw 30 is also fixed as the slider 40 moves horizontally, the workpiece 2 is firmly grasped and fixed. This is the same as the conventional configuration.

The biggest feature of the present invention is mounted on the slider 40, the spring member 60 is compressed with the guide rail portion 11 of the base body portion 10, by the self-resilience of the compressed spring member 60 The generated reaction force is to change the direction of the force to raise the workpiece (2) generated while the moving jaw 30 moves to grasp the workpiece (2).

That is, the spring member 60 is compressed up and down between the slider 40 and the guide rail portion 11, so that the reaction force is lowered from the base body portion 10 by the self restoring force of the compressed spring member 60. That is, it occurs vertically toward the ground.

Then, the moving jaw 30 moves to grasp the work piece 2 while the horizontal force pressing the work piece 2 and the reaction force are combined so that the direction of the force is the lower part of the base body, i.e., the sum of the forces. In other words, it will be converted diagonally toward the ground.

Therefore, from the tightening of the workpiece (2) by the force generated diagonally toward the ground by the sum of the horizontal force pressing the workpiece (2) and the reaction force generated by the spring member 60 as described above It is to suppress as much as possible by offsetting the force rising in the center of the body of the workpiece (2).

On the other hand, the spring member 60 forms a sliding movement groove (11a) in the longitudinal direction on both inner surfaces of the guide rail portion 11 of the base body portion 10, and the sliding on both sides of the slider 40 It is coupled to the moving groove (11a) and protrudes the guide projection 41 formed with a spring seating groove (41a) at the bottom, respectively mounted on both of the spring seating groove (41a) is compressed with the sliding movable groove (11a) Be sure to

In addition, the spring member 60 may use the leaf spring 61 to maintain a constant direction of restoring force when the slider 40 moves, and may be excellent in durability to withstand strong pressing force. .

According to the configuration of the present invention described above, by mounting a spring member that is compressed up and down with the guide rail portion of the base body portion on the slider for moving the moving jaw, the moving jaw moves by the reaction force by the self restoring force of the spring member You can suppress the workpiece as much as possible by reversing the direction of the force you want to rise from.

Therefore, when the worker bites the vise to fix the workpiece, the worker can grasp and fix the workpiece with sufficient pressing force so that the workpiece does not escape during processing, thereby preventing the occurrence of a safety accident during operation.

In addition, when the workpiece is firmly identified and fixed between the moving jaw and the fixed jaw, the floating phenomenon does not occur and the worker can accurately and precisely process the workpiece.

Therefore, it is a very useful design that can increase the safety of the operator and improve the work efficiency by minimizing the defective rate during precision processing.

Claims (3)

A base body portion 10 having a predetermined length, on which the work piece 2 is placed, the guide rail portion 11 being formed in the longitudinal direction; A fixed jaw 20 fixed to one end of the upper surface of the base body 10 to support and bite one side of the workpiece 2; A movable jaw 30 mounted on the upper surface of the base body 10 to move horizontally; A slider 40 fixed to the moving jaw 30 and seated on the guide rail portion 11 of the base body portion 10 to move horizontally along the guide rail portion 11; In the configuration consisting of a screw bar (50) coupled to the slider (40) to rotate to move the slider (40) horizontally, The slider 40 has a spring member 60 is mounted to the guide rail portion 11 of the base body portion 10, the workpiece injury prevention structure of the vise. The method of claim 1, wherein the spring member 60 forms a sliding movement groove (11a) in the longitudinal direction on both inner surfaces of the guide rail portion 11 of the base body portion 10, the slider 40 Both sides of the sliding movement groove (11a) is coupled to the protruding guide projections (41) formed with a spring seating groove (41a) at the bottom, respectively mounted on the spring seating groove (41a) of the two sliding grooves (11a) and the workpiece floating prevention structure of the vise characterized in that it is compressed. The structure of claim 1, wherein the spring member (60) uses a leaf spring (61).