KR20050039174A - Power increase device for vise - Google Patents

Abstract

The present invention relates to a vise booster, which is mounted inside the moving shaft (3) of the vise (1) for moving the movable body (2) is supported on one side, the body portion formed with a coupling hole (11) in the center ( 10 and one end protrudes a predetermined length on one surface of the body portion 10 and the other end protrudes to the other surface of the body portion 10, and the coupling hole 11 to move to the other surface of the body portion 10 when pressed. Press plate 20 coupled to the), the pressing plate member 30 is connected to the other surface of the body portion 10 to be elastically supported, and the pressing plate member 30 and the body portion ( In the configuration provided between the 10 and the increase means 40 for pushing the pressing plate member 30, when the pressing hole 20 is pressed,

The pressing member 20 is provided with a wear preventing member 21 between the pressing shaft 4 which presses the pressing member 20, so that the pressing shaft 4 is attached to the wear preventing member 21. Since this contact presses the pressure port 20, it prevents abrasion of the pressure port 20 and prevents damage caused by the impact generated when the pressure shaft 4 contacts.

Therefore, it is a very useful invention which can increase the durability of a power booster and can improve the marketability of the vise 1.

Description

Power increase device for vise}

The present invention relates to a vise booster, and more particularly, it is invented to increase the durability by attaching a wear preventing member to the pressure port of the vise booster.

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.

In addition, the manual vice is usually used to fix the position by biting the workpiece that can be trimmed by hand, the size of the workpiece to be processed or trimmed is small, low precision, and used to bury the workpiece at a weak pressure.

In addition, the hydraulic vise is used to fix the position by applying a strong pressure to the workpiece that requires a higher precision than the manual vise

However, the hydraulic vise as described above was a phenomenon that the hydraulic pressure is momentarily buffered when a strong impact is applied to the workpiece held in the movable body, so that the position of the workpiece cannot be maintained.

In addition, since the movable body is usually manufactured by processing a cast material, the structure of the hydraulic chamber formed in the movable body is not dense or when a fine bubble is formed, the hydraulic pressure leaks and the pressure for pressurizing the workpiece gradually decreases. That's what happened.

Therefore, the phenomenon that the workpiece is moved without maintaining a fixed position during processing occurs, there is a problem that the machining precision of the workpiece is lowered.

On the other hand, in order to solve the above-mentioned problem, as shown in FIG. 1, the movable body 2 mounted inside the moving shaft 3 of the vise 2 for moving the movable body 2 moves the workpiece. The increasing force device 100 to increase the force to bite fixed is proposed.

In addition, the booster 100 is mounted inside the moving shaft 3 of the vise 1 for moving the movable body 2 to support one surface thereof, and the body portion 10 having the coupling hole 11 formed at the center thereof. Wow;

One end protrudes a predetermined length on one surface of the body portion 10 and the other end protrudes to the other surface of the body portion 10 and is coupled to the coupling hole 11 so as to move to the other surface of the body portion 10 when pressed. A pressure port 20;

A pressure plate member 30 connected to the other surface of the body portion 10 at a predetermined interval and elastically supported;

It is provided between the pressing plate member 30 and the body portion 10 is composed of a boosting means 40 for pushing the pressing plate member 30 when the pressing hole 20 is pressed.

That is, when the moving shaft 3 of the vise 1 on which the booster device 100 is mounted is rotated by the handle 5, the movable body 2 moves to the workpiece side to bite the workpiece, and the handle 5 in this state. When further rotates, the pressing shaft (4) provided in the moving shaft (3) is advanced while rotating to press the pressure port (20) of the booster device 100, the pressure port (20) is pressurized body portion ( 10, the pressure means 40 is operated to push the pressure plate member 30 to expand with a strong pressure, which in turn increases the force that the movable body 2 bites and fixes the workpiece.

However, in the conventional vise booster, as described above, the pressurizing shaft provided inside the moving shaft of the vise moves forward to pressurize the pressure port, thereby actuating the increasing means to strongly increase the force that the movable body bites and fixes the workpiece. There was a closed end in which abrasion occurs in the pressure port in contact with the pressure shaft is the pressure is generated.

That is, the pressure port has a problem that one end is in contact with the pressure shaft is abrasion and impact is generated, so that durability is lowered and broken when used for a long time, and when the damage caused by wear occurs, the pressing force of the pressure port pressed by the pressure shaft is lowered There was a closure that caused the mobile body to weaken the force that bites the workpiece.

An object of the present invention is to provide a wear-resistant member at one end of the pressure port that is in contact with the pressure shaft is abrasion and impact to prevent damage caused by abrasion and impact generated during contact to increase the durability, the movable body is a workpiece even during long-term use It is to provide a vise booster device that does not lower the force to hold the clamp.

The object of the present invention is mounted inside the moving shaft (3) of the vise (1) for moving the movable body (2) is supported on one side, the body portion 10 is formed with a coupling hole (11) in the center;

One end protrudes a predetermined length on one surface of the body portion 10 and the other end protrudes to the other surface of the body portion 10 and is coupled to the coupling hole 11 so as to move to the other surface of the body portion 10 when pressed. A pressure port 20;

A pressure plate member 30 connected to the other surface of the body portion 10 at a predetermined interval and elastically supported;

In the pressure plate member 30 and the body portion 10 is provided between the pressurizing device 20, the pressurizing plate 20 is configured to increase the pressure plate member 30 to move,

The pressure port 20 is achieved by being provided with a wear preventing member 21 between the pressing shaft 4 for pressing the pressure port 20.

That is, the pressing shaft 4 is in contact with the wear preventing member 21 protruding to the pressing hole 20 to a predetermined length, so that the pressing means 20 is operated to operate the boosting means 40. It is possible to prevent damage and breakage caused by abrasion and impact generated while the shaft 4 is in direct contact with the pressure port 20.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

Figure 2 is a perspective view showing an embodiment of the present inventors' power-up device, showing an example consisting of a roller that is pushed by the pressure port and the guide plate is coupled to the roller sliding sliding movement.

FIG. 3 is a cross-sectional view showing an operating state of the booster shown in FIG. 2, in which the pressurization tool is pressed by the pressurization shaft, and the roller of the booster means is moved to move the pressurizing plate member.

Figure 4 is a state diagram showing an embodiment of the present invention, showing the state in which the present inventors mounted on the moving shaft of the vise for moving the movable body.

Hereinafter, as shown in FIGS. 2 to 3, the body portion 10 of the vise booster of the present invention has a cylindrical shape, and a coupling hole 11 penetrated from one surface to the other surface is formed at the center of the body.

In addition, the other surface is formed with an inclined portion 12 having an inclined surface 12a from the upper side and the lower side to the center of the body. 13 are formed, respectively, and the first and second guide plates 41 and 42, which will be described later, are fitted in the first guide grooves 13 so as to be rollable.

In addition, at one end of the coupling hole 11 of the body portion 10, a predetermined length protrudes on one surface of the body portion 10, and the other end is formed in a cone shape, and a pressing hole protruding to the other surface of the body portion 10 ( 20) is coupled to move when pressed.

On the other hand, the body portion 10 is connected to the pressing plate member 30 so as to be elastically supported at predetermined intervals on the other surface, and the pressing plate member 30 is the first guide groove 13 of the body portion 10 The second guide grooves 31 are respectively formed at positions corresponding to the second guide grooves 31 so that the other ends of the first and second guide plates 41 and 42, which are fitted into the first guide grooves 13 and roll, are movable. do.

In addition, when the pressing hole 20 is pressed between the body portion 10 and the pressing plate member 30, the increasing means 40 for pushing the pressing plate member 30 is provided.

In addition, both ends of the boosting means 40 are fitted into the first and second guide grooves 13 and 31 so as to be slidable, respectively, and the installation holes 41a are drilled at predetermined intervals and slide to a predetermined length. The first guide plate 41 in which the moving groove 41b is opened in the moving direction:

Both ends are fitted in the first and second guide grooves 13 and 31 so as to be slidably overlapped with the first guide plate 41, respectively, and the positions of the mounting holes 41a formed in the first guide plate 41 are provided. The second guide plate 42 in which the moving groove 42b is opened in the sliding movement direction with a predetermined length, and the installation hole 42a is drilled at the position of the moving groove 41b formed in the first guide plate 41. ;

 Both ends are rotatably coupled to the mounting holes 41a of the first guide plate 41, respectively, and rotate to the moving grooves 42b of the second guide plate 42 via the mounting holes 41a, respectively. A first roller 43 coupled to slide;

Both ends are rotatably coupled to the movement grooves 41b of the first guide plate 41, respectively, and are rotatably coupled to the installation holes of the second guide plate 42 through the movement grooves 42a, respectively. It is composed of a roller (44).

That is, when the worker rotates the handle 5 in the state in which the said power device is mounted in the moving shaft 3 of the vise 1 which moves the movable body 2, as shown in FIG. ) Is moved to bite the workpiece, and when the handle 5 is further rotated in this state, the pressing shaft 4 coupled to the moving shaft 3 rotates to move forward to press the pressing hole 20.

Then, when the pressure shaft 4 is in contact with one end of the pressure port 20 to press the pressure port 20, the pressure port 20 is moved while the pressure port 20 is moved to the left side of the drawing cone The end of the shape is pushed up and down in contact with the first and second rollers 43 and 44. In this case, the first and second rollers 43 and 44 are in contact with the cone portion of the pressure port 20, and the rolling motion and the gap between the first and second guide plates 41 are upward. Slide 31), the second guide plate 42 is moved downward along the first and second guide grooves (13) (31).

In addition, since the first and second guide plates 41 and 42 slide and move, the first and second rollers 43 and 44 are spaced apart, so that the first and second rollers 43 and 44 are moved. The pressing plate member 30 is moved a predetermined length in the moving direction of the movable body 2 while moving along the inclined portion 12 of the body portion 10.

Therefore, since the pressure plate member 30 is expanded with a strong pressure, the strong pressure is transmitted to the movable body 2 holding the workpiece to firmly bite the workpiece, thereby fixing the position. Patent Application No. 10-2003-0040313 The same as the configuration of the "Vise booster device", the boosting means 40 is accompanied by a strong pressure in the interval between the body portion 10 and the pressure plate member 30 It is noted that any configuration that extends is included in the configuration of the present invention.

On the other hand, the biggest feature of the present invention is the wear between the pressurizing port 20 and the pressurizing shaft (4) for pressurizing by the pressurizing shaft (4) of the vise 1 to operate the increasing means 40 as described above The prevention member 21 is provided so as to prevent abrasion generated while the pressure shaft 4 is in contact.

In addition, the wear preventing member 21 is fixedly coupled to at least one of the pressing device 20 or the pressing shaft 4 for pressing the pressing device 20, and pressurizes the wear preventing member 21. It is attached to the sphere 20 and the pressing shaft 4, respectively, when the pressing shaft 4 pressurizes the pressing sphere 20, the wear preventing member mounted on the pressing sphere 20 and the pressing shaft 4, respectively It is preferable to allow the 21 to be in contact so as to prevent all of the wear occurring on both sides of the pressure port 20 and the pressure shaft 4.

In addition, one side of the pressing hole (20) in contact with the pressing shaft 4 is pressed to form a coupling groove (20a) is coupled to the wear preventing member 21 is forcibly fitted to wear the coupling groove (20a) The prevention member 21 is coupled and fixed to protrude to a predetermined length by an interference fit, and the wear prevention member 21 is inserted into the one end of the pressing shaft 4 for pressing the pressure port 20 by interference fit. The groove 4a is formed to be coupled and fixed to the insertion groove 4a so that the wear preventing member 21 protrudes to a predetermined length by small insertion.

That is, in order to operate the boosting means 40 as described above, the handle 5 is rotated to advance the pressing shaft 4 so that the end of the pressing shaft 4 is provided between the pressing holes 20. Since the pressure member 20 is pressed in contact with the prevention member 21, it is possible to prevent abrasion from occurring in the pressure port 20 and to prevent damage caused by the pressurizing impact.

The wear preventing member 21 is made of cobalt, which is a binding metal mainly composed of tungsten carbide, and cemented carbide, which is a small alloy.

That is, the cemented carbide is very high in hardness, excellent in wear resistance, and is not damaged or damaged by the shock generated when the pressing shaft 4 is moved forward and in contact, and wear is not generated by the contact. Will increase the durability of.

According to the configuration of the present invention described above, since the pressure port for pushing and operating the boosting means is provided with a wear preventing member, the pressure preventing member is in contact with the pressure preventing member to press the pressure port, thereby preventing wear of the pressure port and The damage caused by the impact generated during the contact is prevented from occurring.

Therefore, it is a very useful invention which can increase the durability of a power booster and can improve the marketability of a vise.

1 is a cross-sectional view showing a conventional vise booster mounted on the vise.

Figure 2 is a perspective view showing one embodiment of the present inventors power booster.

3 is a cross-sectional view showing an operating state of the booster shown in FIG.

Figure 4 is a use state diagram showing one embodiment of the present invention.

* Description of the major symbols in the drawings *

1-Vise 2-Moving Body

3-moving shaft 4-pressing shaft

5-Handle 10-Body

11-engagement hole 12-slope

13-1st guide groove 20-Pressing hole

21-Wear prevention member 30-Pressure plate member

31-2nd guide groove 40-Reinforcement means

41-1st guide plate 42-2nd guide plate

43-1st roller 44-2nd roller

Claims (3)

A body part (10) mounted inside the moving shaft (3) of the vise (1) for moving the movable body (2), the one side being supported, and the coupling hole (11) formed at the center thereof; One end protrudes a predetermined length on one surface of the body portion 10 and the other end protrudes to the other surface of the body portion 10 and is coupled to the coupling hole 11 so as to move to the other surface of the body portion 10 when pressed. A pressure port 20; A pressure plate member 30 connected to the other surface of the body portion 10 at a predetermined interval and elastically supported; In the pressure plate member 30 and the body portion 10 is provided between the pressurizing device 20, the pressurizing plate 20 is configured to increase the pressure plate member 30 to move, The pressurizing device 20 is a vise booster, characterized in that the wear preventing member 21 is provided between the pressing shaft (4) for pressing the pressing device (20). The method of claim 1, wherein the wear preventing member 21 is dug the coupling groove (20a) in the pressing hole 20, and excavated the insertion groove (4a) in the pressing shaft (4) for pressing the pressing hole (20) Vibration-enhancing device for vise characterized in that it is coupled and fixed to protrude to a predetermined length by the interference preventing member (21). The strength of the vice according to any one of claims 1 to 3, wherein the wear preventing member 21 is made of tungsten carbide mainly made of cobalt as a bonding metal and cemented carbide. Device.