KR101008853B1 - Hydraulic chuck - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to a hydraulic chuck, and more particularly, to invents a contact surface of a soft jaw suitable for a specific diameter to be processed in an arc shape with a more rapid and accurate dimension.

In the configuration of the present invention, the work insertion hole 11 that can insert the workpiece in the center of the front of the body is drilled, the rear of the operating space to accommodate the various instruments with a diameter larger than the factory insertion hole 11 ( 18) is formed, the chuck housing 10 in which a plurality of jaw guide grooves 12 are dug in a uniformly divided position toward the center of rotation, and an operating hole 19 is drilled outward from the body; The slide guide grooves 12 of the chuck housing 10 are slidably assembled to each other, so that the inclined movement grooves 21 are inclined in both sides and the slide grooves 29 in the longitudinal direction are screwed in the front direction. A master jaw 20 having a connection member 22 which is perforated 28 so as to be slidably movable, and having a first catching jaw 23 and a second catching jaw 24 stepped to the bottom of the rear surface; A wedge pin (25) fitted with an inclined cam (25a) in the moving inclined groove (21) of the master jaw (20) and moving the master jaw (20) up and down in a direction moving forward and backward by hydraulic pressure; The bolt 33 is screwed into the screw hole 28 in the connection member 22 to the front surface of the master jaw 20, and the inner part protrudes toward the workpiece insertion hole 11 side of the chuck housing 10 so as to close the workpiece. Soft jaw 30 to directly bite and fix; The guide groove 41 of the long hole is dug in the installation longitudinal direction on the outside, and is slidably installed from the outside of the factory inserting hole 11 of the chuck housing 10 to the left and right of the master jaw 20. A mastering 40 which is caught by the first locking jaw 23 and the second locking jaw 24, respectively, and controls the biting position; An eccentric shaft 52 rotatably assembled in the operation hole 19 of the chuck housing 10 and eccentrically formed at the end thereof is fitted into the guide groove 41 of the master ring 40, and is separated from the installation state. Mastering conveying lever 50 is formed to prevent the departure portion 51 to prevent; A wedge plunger (60) fastened by a pin (61) at the rear ends of the wedge pins (25); The wedge plunger 60 is composed of a connecting member 70 for screwing the hydraulic pipe 71 and each so as to slide left and right together by the hydraulic device.

Soft jaws, hydraulic chucks, jaws, mastering, feed levers

Description

Hydraulic Chuck

TECHNICAL FIELD The present invention relates to a hydraulic chuck, and more particularly, to invents a contact surface of a soft jaw suitable for a specific diameter to be processed in an arc shape with a more rapid and accurate dimension.

In general, a hydraulic chuck is a device for fixing a workpiece when the workpiece is rotated and processed so that a plurality of soft jaws radially protruding from the chuck housing are supported and fixed at the outer diameter of the workpiece.

As shown in FIG. 6, the hydraulic chuck has a workpiece insertion hole 11 through which a workpiece can be inserted in the center of the body, and has a large number of jaw guide grooves 12 radially with the workpiece insertion hole 11. Chuck housing 10 formed to penetrate outwardly,

The chuck housing 10 is coupled to the guide groove 12 of the chuck housing 10 is tightened toward the center of the chuck housing 10 or moved toward the outside of the chuck housing 10, the inclined moving inclined projection ( 4, the jaw member (3) protruded,

It is coupled to the rear surface of the chuck housing 10, the moving inclined protrusion 4 of the jaw member 3 is coupled to the outside, the jaw protrusion coupling groove formed with a guide surface corresponding to the moving inclined protrusion 4 ( 5) is formed, it is composed of a wedge flanger (6) which is connected to the hydraulic cylinder to operate.

That is, when the wedge flanger 6 moves back and forth by the operation of the hydraulic cylinder, the jaw member 3 coupled to the jaw protrusion coupling groove 5 of the wedge flanger 6 is pushed along the guide surface. Due to the moving inclined projections 4 are tightened in the direction of biting and fixing the work or in the unwinding direction.

On the other hand, the jaw member (3) is coupled to the jaw guide groove, the master jaw (20) protruding the moving inclination projection (4) coupled to the wedge plunger (6), and is coupled to the master jaw (20) It consists of the soft jaw 30 holding a workpiece.

In addition, the jaw member 3 is used by the operator to replace the jaw member (3) that can be fixed to the center of the chuck exactly according to the size and shape of the workpiece to be fixed.

However, the hydraulic chuck is a jaw member directly coupled to the wedge plunger to replace the jaw member with an appropriate one to fix the work, and to replace the soft jaw according to the work piece, or to adjust the position of the master. It was necessary to separate and combine the soft jaws from the jaws.

In addition, while the bite fixing part, which is the lower end of the soft jaw, is conventionally small in width, it is easy to hold an angled workpiece when fixing the workpiece, while in the process of catching a circular workpiece, the frictional force with the workpiece is small. By fixing with force, a cut in the shape of the bite fixing part of the workpiece may be generated.

Recently, custom chucks for mounting and machining only workpieces of a certain diameter have been widely used.

In other words, only a cylindrical workpiece of one predetermined diameter is required to tighten the soft jaw, and then a custom diameter chuck for machining the outer diameter while rotating rapidly is required.

In the case of the conventional custom diameter type chuck, the arc shape of the soft jaw is processed into an approximate arc shape.

Therefore, there was a problem that the tightening force is weak and the fine traces are severely generated due to the arc-shaped processing that does not exactly match the workpiece of the diameter to be processed.

The object of the invention is that the mastering is located on the catching jaw of the master jaw, the bite fixing part of the soft jaw is processed to the outer diameter and the exact dimensions of the workpiece to increase the friction force in the tightening part to fix the workpiece more stably and firmly. To provide a hydraulic chuck.

SUMMARY OF THE INVENTION An object of the present invention is to provide a soft jaw of a hydraulic chuck which can fix a workpiece without scratches or the like, and can be processed more accurately, thereby improving reliability and marketability.

An object of the present invention, the work insertion hole 11 that can be inserted into the center of the front of the body is drilled, the rear of the operating space to accommodate the various instruments with a diameter larger than the factory inserting hole (11) ( 18) is formed, the chuck housing 10 in which a plurality of jaw guide grooves 12 are dug in a uniformly divided position toward the center of rotation, and an operating hole 19 is drilled outward from the body;

The slide guide grooves 12 of the chuck housing 10 are slidably assembled to each other, so that the inclined movement grooves 21 are inclined in both sides and the slide grooves 29 in the longitudinal direction are screwed in the front direction. A master jaw 20 having a connection member 22 which is perforated 28 so as to be slidably movable, and having a first catching jaw 23 and a second catching jaw 24 stepped to the bottom of the rear surface;

A wedge pin (25) fitted with an inclined cam (25a) in the moving inclined groove (21) of the master jaw (20) and moving the master jaw (20) up and down in a direction moving forward and backward by hydraulic pressure;

The bolt 33 is screwed into the screw hole 28 in the connection member 22 to the front surface of the master jaw 20, and the inner part protrudes toward the workpiece insertion hole 11 side of the chuck housing 10 so as to close the workpiece. Soft jaw 30 to directly bite and fix;

The guide groove 41 of the long hole is dug in the installation longitudinal direction on the outside, and is slidably installed from the outside of the factory insert hole 11 of the chuck lower housing 10 to the left and right of the master jaw 20. A mastering 40 which is caught by the first locking jaw 23 and the second locking jaw 24, respectively, and controls the biting position;

An eccentric shaft 52 rotatably assembled in the operation hole 19 of the chuck housing 10 and eccentrically formed at the end thereof is fitted into the guide groove 41 of the master ring 40, and is separated from the installation state. Mastering conveying lever 50 is formed to prevent the departure portion 51 to prevent;

A wedge plunger (60) fastened by a pin (61) at the rear ends of the wedge pins (25);

The wedge plunger 60 is achieved by consisting of a connecting member 70 for screwing the hydraulic pipe 71 and each so as to slide left and right together by the hydraulic device.

In the present invention, when the mastering 40 is retracted by the operation of the mastering transfer lever 50, the mastering 40 does not cause an interference in the lowering operation of the master jaw 20, so that the workpiece can be normally grasped. do.

When the mastering 40 is advanced by the operation of the mastering transfer lever 50, the mastering 40 causes the interference of the lowering operation of the master jaw 20 to be caught by the primary catching jaw 23. Only the lowering and in this state the soft jaw (30) is cut to the desired diameter.

Therefore, the bite fixing portion 31 of the soft jaw 30 can be cut into the inner diameter corresponding to the outer diameter of the object to be processed by the bite.

Here, the stop ball 60 is mounted on the departure preventing portion 51 of the mastering transfer lever 50 at positions where the mastering 40 is most deeply advanced and retracted toward the master jaw 20. The groove 55 is excavated so that the feed lever control bolt 53 is fitted with the stop ball 60 and the spring 61 at the rear surface of the body of the chuck housing 10 so as not to be separated.

According to the configuration of the present invention, the master ring 40 can be adjusted to the left and right position, the first locking jaw 23 to the outer diameter of the master ring 40 after the master ring 40 is moved to the position of the master jaw 20 In the tightening position to be caught by the), the bite fixing portion 31 of the soft jaw 30 is cut into the inner diameter corresponding to the outer diameter of the object to be processed with a bite.

Therefore, since the bite fixing part 31 of the soft jaw 30 contacts in the same arc shape as the outer diameter and shape of the target workpiece, it is possible to accurately grasp the center of the workpiece.

In addition, when the mastering 40 is retracted, it does not interfere with the lowering of the master jaw 20 so that the workpiece can be completely grasped normally.

In addition, it is a very useful invention that the contact area of the bite portion is large, the tightening force is improved and the stability is improved by improving the frictional force and the reliability and the merchandise are improved.

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

1 is an exploded perspective view of a hydraulic chuck according to the present invention, which shows a state in which a chuck housing, a master jaw, a soft jaw, a mastering, and a mastering transfer lever are disassembled.

2 is a cross-sectional view of an initial state in which the soft jaw of the present invention is coupled to the chuck housing.

3 is a cross-sectional view of cutting the soft jaws in a state in which the mastering is placed on the first catching jaw of the master jaws by limiting the falling depth of the soft jaws by rotating the mastering feed lever of the present invention.

Figure 4 is a cross-sectional view of a state in which the soft jaw fixed the workpiece in the state in which the master jaw feed lever is returned to the initial state and the position of the master jaws is located on the secondary catching jaw and there is no interference in the falling depth of the master jaws.

Fig. 5 is a side view showing a state in which the lower bite fixing portion of the soft jaw of the present invention is molded in the same state as the outer diameter of the workpiece.

Hereinafter, as shown in FIG. 1, the chuck housing 10 is provided with a workpiece insertion hole 11 through which a workpiece can be inserted and positioned in the center of the body, and has a diameter greater than that of the factory insertion hole 11 at the rear. The working space 18 is formed to accommodate various instruments, for example, a wedge plunger or a hydraulic pipe 71, a connecting member 70, and the like with a large diameter.

Then, a plurality of jaw guide grooves 12 are dug around the tip outer circumferential surface toward the center of rotation so that the master jaw 20 can be slidably assembled.

The shape of the jaw guide groove 12 is open to the shape of the front portion is opened in the dovetail or square shape, the master jaw 20 is designed to be slidable in the corresponding shape is fitted.

The operation hole 19 is drilled inwardly to the outside of the body of the chuck housing 10 so that the mastering rotary lever 50 is fitted to selectively operate the mastering 40 back and forth as will be described later.

Both side surfaces of the master jaw 20 fitted into the jaw guide groove 12 are formed with a moving inclined groove 21 inclined to a predetermined angle, and inclined cam 25a integrally formed with the wedge pin 25 at the same inclination angle. This is assembled together.

Accordingly, when the connecting member 70 connecting the hydraulic pipe 71 and the wedge plunger 60 is reversed by the hydraulic device, the wedge pins 25 connected to the wedge plunger 60 with the pins 61 are retracted. When moved in the direction of (left in FIG. 4), the position of the inclined cam 25a is moved so that each master jaw 20 is tightened toward the center of the chuck housing 10.

On the other hand, when the hydraulic pipe 71 is advanced to the hydraulic pressure of the hydraulic device, the wedge plunger 60 screwed with the connecting member 70 is moved forward with the wedge pin 25, the master jaw (20) in contrast to the above Is opened toward the outside of the chuck housing (10).

The soft jaws 30 are fastened to the screw holes 28 by bolts 33 by the connecting members 22 on the front surface of the master jaws 20.

Therefore, when the soft jaw 30 together with the master jaw 20 is moved toward the center of the work insertion hole 11 at the same time, respectively, the work is gripped and fixed or released.

That is, the master jaw 20 is inserted into the inclined cam (25a) of the pin wedge 25 in the moving inclined groove 21, the hydraulic pipe 71 is advanced by the hydraulic force of the hydraulic device, the wedge plunger 60 and The wedge pin 25 is fastened to the pin 61 is moved forward along the guide guide groove 12 of the chuck housing 10, the master jaw 20 and the soft jaw 30 is tightened in the direction to bite and fix the workpiece. Is moved in the direction.

On the contrary, when the hydraulic pressure of the hydraulic device is applied, the hydraulic device moves to open the tightened state of the workpiece.

Here, the first catching jaw 23 and the second catching jaw 24 are formed to be stepped inward from the bottom of the rear surface of the master jaw 20, and connected to the outside of the workpiece insertion hole 11 of the chuck housing 10. The mastering 40 is positioned to be slid left and right by being guided to the horizontal portion of the member 70.

The mastering 40 is a guide groove 41 of the long hole on one side of the outer diameter is dug in parallel with the direction of movement of the wedge pin 25, the mastering transfer to the assembly hole 19 is dug into the chuck housing 10 The lever 50 is fitted and assembled.

The mastering feed lever 50 is protruded and formed into a small diameter so that the eccentric shaft 52 is eccentric at its end and is fitted into the guide groove 41 of the master ring 40.

Therefore, according to the direction in which the user rotates the mastering transfer lever 50, the eccentric shaft 52 is linearly slidably moved in the state in which the eccentric shaft 52 is fitted in the guide groove 41.

That is, when the mastering 40 is to grasp the workpiece normally, it is located on the left side as shown in FIG.

In this case, since the right end of the mastering 40 is located in the secondary catching jaw 24, when the master jaw 20 and the soft jaw 30 are operated in the tightening direction by the operation of the hydraulic device as described above, Will not interfere.

Then, when the master groove 40 is moved to the right as shown in FIG. 3 while the guide groove 41 assembled to the eccentric cam 52 is rotated by rotating the mastering feed lever 50. The end is positioned on the primary catching jaw 24 of the master jaw 20.

In this case, when the master jaw 20 and the soft jaw 30 are operated in the tightening direction by the operation of the hydraulic device, the first catching jaw 24 of the master jaw 20 is caught in the upper right portion of the mastering 40. In this state, the cutting tool (B) is used to cut the inner diameter of the soft jaw (30).

In this way, cutting the inner diameter of the soft jaw 30 by cutting the inner diameter of the soft jaw 30 to the same size as the outer diameter of the workpiece to be grasped, thereby improving the grasping force in the grasping state and scratches on the workpiece in the bite state. This is to grasp in good condition without this.

In addition, the transfer lever control bolt 53 is a stop ball 60 and a spring 61 at the rear of the body of the chuck housing 10 in order for the operator to recognize the position where the mastering transfer lever 50 is moved forward or backward from side to side. After inserting the screw is fastened so as not to fall off.

The mastering transfer lever 50 is dug out the groove 55 so that the stop ball 60 can be seated at the position where the mastering 40 is most deeply advanced and retracted toward the master jaw 20. .

Therefore, when rotating the mastering transfer lever 50, the mastering 40 is to be able to sense the forward or backward position sensory.

4 and 5, in order to normally process the workpiece in the biting fixing portion 31 of the soft jaw 30, first, the eccentric shaft 52 is rotated by rotating the mastering feed lever 50 in the original position direction. It is rotated in the state fitted in the guide groove 41 and the right end of the master ring 40 is retracted to the position of the secondary locking jaw (24).

This state is a state in which the soft jaw 30 coupled to the master jaw 20 can be further lowered as a result of releasing that the mastering 40 has interfered with the lowering of the master jaw 20. (30) of the bite fixing part (31) can be tightened.

At this time, there is a sufficient clearance for tightening the workpiece between the secondary engaging jaw 24 of the master jaw 20 and the outer diameter of the master ring 40 does not interfere with the tightening operation.

In the present invention having such a configuration, since the bite fixing portion 31 of the soft jaw 30 is machined in accordance with the outer diameter of the workpiece with a simpler size and shape, the bite contact area is improved to increase the frictional force. Can be fixed without damage.

1 is an exploded perspective view of the present invention hydraulic chuck.

Figure 2 is a cross-sectional view of the hydraulic chuck coupled to the inventors of the present invention.

3 is a cross-sectional view of a hydraulic chuck for molding the present invention soft jaw.

4 is a cross-sectional view of a soft jaw of the present invention is molded.

Figure 5 is a side view showing a state of the soft jaw of the present invention.

6 is an exploded perspective view showing a conventional hydraulic chuck.

Explanation of symbols on the main parts of the drawings

10-Chuck Housing 11-Workpiece Insertion Hole

12-Encounter Guide Home 20-Master Encounter

21-Moving bevel groove 22-Connecting member

23-1st Jam Jaw 24-2nd Jam Jaw

30-Soft Encounter 31-Bleeding Government

40-Mastering 41-Guide Groove

50-Mastering feed lever 51-Breakaway prevention part

52-Eccentric Shaft 53-Feed Lever Control Bolt

60-Wedge Plunger 70-Connecting Element

Claims (2)

In the center of the front of the body is inserted into the workpiece insertion hole 11 for inserting the workpiece, the rear of the working space 18 is formed to accommodate a variety of instruments with a diameter larger than the factory insertion hole 11, A chuck housing 10 in which several jaw guide grooves 12 are dug at a uniformly divided position toward the center of rotation, and an operation hole 19 is drilled outwardly on the outside of the body; The slide guide grooves 12 of the chuck housing 10 are slidably assembled to each other, so that the inclined movement grooves 21 are inclined in both sides and the slide grooves 29 in the longitudinal direction are screwed in the front direction. A master jaw 20 having a connection member 22 which is perforated 28 so as to be slidably movable, and having a first catching jaw 23 and a second catching jaw 24 stepped to the bottom of the rear surface; A wedge pin (25) fitted with an inclined cam (25a) in the moving inclined groove (21) of the master jaw (20) and moving the master jaw (20) up and down in a direction moving forward and backward by hydraulic pressure; The bolt 33 is screwed into the screw hole 28 in the connection member 22 to the front surface of the master jaw 20, and the inner part protrudes toward the workpiece insertion hole 11 side of the chuck housing 10 so as to close the workpiece. Soft jaw 30 to directly bite and fix; The guide groove 41 of the long hole is dug in the installation longitudinal direction on the outside, and is slidably installed from the outside of the factory inserting hole 11 of the chuck housing 10 to the left and right of the master jaw 20. A mastering 40 which is caught by the first locking jaw 23 and the second locking jaw 24, respectively, and controls the biting position; An eccentric shaft 52 rotatably assembled in the operation hole 19 of the chuck housing 10 and eccentrically formed at the end thereof is fitted into the guide groove 41 of the master ring 40, and is separated from the installation state. Mastering conveying lever 50 is formed to prevent the departure portion 51 to prevent; Wedge plunger 60 is fastened by the pin 61 at the rear end of the wedge pins 25, Hydraulic chuck, characterized in that the wedge plunger (60) consists of a connecting member (70) for screwing the hydraulic pipe (71), respectively, so as to slide left and right together by the hydraulic device. The stop ball (60) of the mastering transfer lever (50) at the position where the mastering (40) is most deeply advanced and retracted toward the master jaw (20). The groove 55 is excavated so that it can be seated, and the feed lever control bolt 53 is fitted with the stop ball 60 and the spring 61 at the rear of the body of the chuck housing 10 so as to be screwed so as not to be separated. Hydraulic chuck.

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