KR101352486B1 - Quick change chuck - Google Patents

Abstract

The present invention relates to a quick change chuck and, specifically, to a quick change chuck which enables users to rapidly replace a jaw of a hydraulic chuck for each gripping structure. The present invention includes a chuck housing (10), a guider block (20), a slider block (30), a block transfer member (40), a shaft mounting member (40), a jaw member (60), a wedge plunger (70), and a jaw separation unit (80).

Description

Quick Change Chuck

The present invention relates to a quick change chuck, and more particularly, it is invented so that the jaws of a suitable hydraulic chuck can be quickly replaced according to the workpiece to be gripped.

In general, a hydraulic chuck is a device for fixing a workpiece to be processed during machining of a workpiece to be processed by rotation of the workpiece so that the workpiece is supported by an inner diameter and an outer diameter by a plurality of jaws radially protruding from the chuck housing.

As shown in FIG. 1, the hydraulic chuck has a workpiece insertion hole 11 ′ through which a workpiece can be inserted in the center of the body, and a plurality of jaw guide grooves 12 radially with the workpiece insertion hole 11 ′. A chuck housing 10 'formed to penetrate outwardly;

It is coupled to the guide guide groove 12 'of the chuck housing 10' is tightened toward the center of the chuck housing 10 'or moves toward the outside of the chuck housing 10' and tilted to be tilted at the rear side. A jaw member 30 'from which the inclined protrusion 32' protrudes;

It is coupled to the rear surface of the chuck housing (10 '), the moving inclined projection 32' of the jaw member 30 'is coupled to the outside, the moving inclined projection 32' corresponding to the inclined projection surface ( A jaw coupling groove 41 'is formed, and a wedge plunger 40' is connected to a hydraulic cylinder and operated.

That is, when the wedge plunger 40 'moves back and forth by the operation of the hydraulic cylinder, the jaw member 30' coupled to the jaw engaging groove 41 'of the wedge plunger 40' is the inclined moving surface. Due to the moving inclination protrusion 32 'that is pushed along the 41a', it is tightened in the direction of biting and fixing the workpiece, or, in the opposite direction, unfolded in the unwinding direction.

And, the jaw member (30 ') is a situation that the operator is used to replace according to the workpiece to be fixed.

However, the hydraulic chuck is a jaw plunger is directly coupled to the wedge plunger, when the jaw plunger is separated from the shelf when the jaw plunger is removed from the shelf when the jaw member is replaced with a suitable one according to the workpiece, the jaw member is replaceable. Will be.

Therefore, there is a problem in that it is not easy to replace the appropriate jaw member according to the workpiece to be worked by the worker.

The present invention has been made in order to solve the conventional problems as described above, the object is to simply remove the jaw member from the chuck housing in the state that the chuck housing is mounted on the shelf to replace the appropriate jaw member according to the workpiece It is to provide a quick change chuck that can be easily replaced by reducing the overall work time and increasing productivity and work efficiency.

In order to achieve the above object,

A workpiece insertion hole 11 is formed in the body to insert and position the workpiece. The workpiece insertion hole 11 communicates with the workpiece insertion hole 11 to form a plurality of jaw guide grooves 12 in a radial manner. ;

It is installed in the chuck housing 10, the slide groove 21 is formed at the bottom toward the front side of the chuck housing 10, the fitting hole 22 is provided on the upper surface of the slide groove 21 A guider block 20;

It is installed in the slide groove 21 of the guider block 20, the jaw fixing concave-convex portion 32 is formed one side is inclined toward the front side of the chuck housing 10, this jaw fixing concave portion (32) A slider block 30 having an assembly groove 31 at the rear of the slider block 30;

The body is fitted into the assembly groove 31 of the slider block 30, a cam shaft rotation hole 41 is formed in the center of the body, and the side through hole 42 is further formed inside one side of the cam shaft rotation hole 41. It is formed, the block transfer member provided with an elastic member (S) is provided with a fixing pin 43 protruding through the jaw fixing concave-convex portion 32 of the slider block 30 in the side through hole (42) ( 40);

Eccentric shaft 52 of the lower body is fitted to the cam shaft rotation hole 41 of the block transfer member 40, the separation prevention pin 53, the elastic member (S) is included on one side of the eccentric shaft (52) A shaft mounting member (50) fitted into the side through hole (42) in the cam shaft rotation hole (41) of the block transfer member (40);

It is coupled to the tightening toward the center of the chuck housing 10 in the housing guide groove 12 of the chuck housing 10 or to move toward the outside of the chuck housing 10, the engaging fixing recess 32 A jaw member (60) formed with an inclined movement guide portion (61) at a rear surface thereof;

A wedge plunger (70) mounted in the chuck housing (10) so as to be movable forward and backward and connected with the guider block (20) and moving together with the guider block (20);

One side is coupled to the shaft mounting member 50, the other side is exposed to the operation groove 81 to the outside of the chuck housing 10 to insert a tool to rotate the shaft mounting member 50, the eccentric shaft 52 ) Is composed of a jaw separation means (80) for rotating along the camshaft rotation hole (41).

In addition, the shaft mounting member 50 is rotatably coupled to the cam shaft rotation hole 41 of the block transfer member 40, the counterclockwise rotation of the shaft mounting member 50 The release preventing pin 53 protrudes from the side through hole 42 formed in one side of the cam shaft rotation hole 41, and the release preventing pin 53 is fixed to the side through hole 42. It is engaged with the inner end of the shaft mounting member 50 and the block transfer member 40 is fixed to the bite state.

In addition, while the shaft mounting member 50 and the block transfer member 40 are locked, the shaft mounting member 50 is further rotated counterclockwise so as to be eccentric about the rotating shaft 51 coupled to the guider block 20. As the shaft 52 is further rotated, the slider block 30 including the block transfer member 40 in the bite state is configured to be in an unwinded state to retreat in the rotation direction.

In addition, when the shaft mounting member 50 and the block transfer member 40 are locked, the fixing pin 43 passing through the slider block 30 is pressed into the inner end of the fixing pin 43. With the release preventing pin 53 caught in the side through-hole 42 being inserted into the eccentric shaft 52, the shaft mounting member 50 is rotated clockwise so that the eccentric shaft 52 rotates the cam shaft. It is achieved by being configured in an assembled state placed at the initial position of the hole 41.

The present invention through the above-described problem solving means, by moving the slider block including the block transfer member fixed to the jaw member to the jaw separation means by simply separating the jaw member in the state where the chuck housing is mounted on the shelf and other jaw members It can be replaced with.

Therefore, it is a very useful invention that can quickly and simply replace the jaw member according to the workpiece to be fixed by the worker can significantly increase work convenience and work efficiency.

1 is an exploded perspective view illustrating a conventional hydraulic chuck.
Figure 2 is a perspective view showing the shape of the present invention quick change chuck.
Figure 3 is an exploded perspective view of the present invention quick change chuck.
4 is an exploded perspective view showing a configuration of the present invention.
5 is a perspective view showing a coupled state of FIG.
6a to 6c are cross-sectional views showing an operating state in accordance with the rotation of the jaw separation means.
Figures 7a to 7b is a cross-sectional view showing the configuration of the quick change chuck of the present invention.
8 is a schematic diagram illustrating a typical hydraulic chuck system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The quick change chuck of the present invention is invented so as to quickly replace the jaws of a suitable hydraulic chuck according to the workpiece to be gripped, and the chuck housing 10 in which a large number of the guide guide grooves 12 are radially inserted and the workpiece is inserted. , A guider block 20 installed in the chuck housing 10, a slider block 30 installed in the guider block 20, and a body fitted to the slider block 30 and having a camshaft at the center of the body. Block mounting member 40, the rotation hole 41 is formed, the shaft mounting member 50, the eccentric shaft 52 of the lower body is fitted into the cam shaft rotation hole 41 of the block transport member 40, A jaw member 60 coupled to the jaw guide groove 12 of the chuck housing 10 and engaged with the slider block 30, and mounted inside the chuck housing 10, moves together with the guider block 20. The wedge plunger 70 and the shaft mounting member 50 are rotated so that the eccentric shaft 52 rotates the cam shaft. Along the hole 41 consists of a jaw separation means 80 that moves the rotation.

The quick change chuck configured as described above, as shown in FIG. 2, the jaw member 60 is radially coupled to the chuck housing 10 so as to move forward and backward of the wedge plunger 70 embedded in the chuck housing 10. By the jaw member 60 is moved to the center side of the chuck housing 10 to tighten the workpiece, or move to the outside of the chuck housing 10 is opened to operate to be able to release the gripped state.

Referring to the configuration of the quick change chuck in more detail, as shown in Figure 3 and 5, the chuck housing 10 is a workpiece insertion hole 11 that can be placed by inserting the workpiece into the body is drilled, A plurality of jaw guide grooves 12 are formed radially in communication with the workpiece insertion hole 11.

The jaw guide groove 12 is coupled to the jaw member 60 to be described later to be guided to move toward the center and the outside of the workpiece insertion hole 11, the jaw guide groove 12 in the chuck housing 10 A guider coupling hole is formed through which the guider block 20 is penetrated from the front to the rear of the guider.

The guider engaging hole is shaped into a long hole shape according to the left and right movement of the guider block 20 to be described later to facilitate the movement of the guider block 20.

In addition, a guider block 20 is installed in the inner guider coupling hole of the chuck housing 10, and the guider block 20 has a slide groove 21 formed at a lower side toward the front side of the chuck housing 10. A fitting hole 22 is provided on the upper surface of the slide groove 21.

In addition, the lower moving groove 23 is formed to be inclined at the lower end of the guider block 20 so that the inclined guide protrusion 71 formed at the outer diameter of the wedge plunger 70 is fitted, so that the front of the wedge plunger 70 can be fitted. Then, the guide protrusions (71) are inserted into the guider block 20 is moved according to the left, right.

The slide block 21 of the guider block 20 is installed to allow the slider block 30 to move forward and backward, and the slider block 30 has one side toward the front side of the chuck housing 10. An inclined jaw fixed portion 32 is formed on the bent surface, and an assembly groove 31 is provided to the rear of the jaw fixed portion 32.

In addition, the block transfer member 40 is fitted into the assembly groove 31 of the slider block 30, the block transfer member 40 has a cam shaft rotation hole 41 is formed in the center of the body, the cam shaft rotation hole A side through hole 42 is further formed at an inner side of the 41, and the fixing pin 43 protrudes through the jaw fixing protrusions 32 of the slider block 30 in the side through hole 42. It is provided including this elastic member (S).

An eccentric shaft 52 of the shaft mounting member 50 is fitted into the cam shaft rotation hole 41 of the block transfer member 40, and an elastic member S is separated from one side of the eccentric shaft 52. The prevention pin 53 is provided so that the separation prevention pin 53 is fitted into the side through hole 42 in the cam shaft rotation hole 41 of the block transfer member 40.

In addition, the jaw member 60 is coupled to move toward the center of the chuck housing 10 or move toward the outside of the chuck housing 10 in the jaw guide groove 12 of the chuck housing 10, the jaw member The rear surface of the (60) is inclined to the jaw movement guide portion 61 is engaged with the jaw fixed concave-convex (32).

Therefore, the wedge plunger 70 mounted in the chuck housing 10 so as to be movable forward and backward has a state connected to the guider block 20 and moves along the front and rear of the wedge plunger 70. As the 20 moves left and right, the jaw moving guide portion 61 engaged with the jaw fixing protrusions and recesses 32 can be moved up and down.

In addition, the jaw separating means 80 is coupled to the shaft mounting member 50, the jaw separating means 80, the operating groove 81 is exposed to the outside of the chuck housing 10, the tool is inserted into the shaft mounting The member 50 is rotated so that the eccentric shaft 52 rotates along the cam shaft rotation hole 41.

In the above, the shaft mounting member 50 and the jaw separating means 80 is coupled to each other having an uneven portion, the wrench groove which can be rotated by the operator using a hexagon wrench to the other side of the jaw separating means 80 The shaft mounting member 50 is rotated in the same direction by the rotation of the jaw separating means 80.

An embodiment of the quick change chuck of the present invention configured as described above will be described in detail with reference to FIGS. 6 to 7.

First, FIG. 6A illustrates an initial state in which the jaw member 60 is not assembled. In the state where the slider block 30 including the block transfer member 40 is coupled to the guider block 20 inside the chuck housing, the block is assembled. An eccentric shaft 52 of the shaft mounting member 50 is fitted into the cam shaft rotation hole 41 of the transfer member, and the jaw separating means 80 is coupled to the shaft mounting member 50.

At this time, the release preventing pin 53 provided on one side of the eccentric shaft 52 is positioned inside the eccentric shaft 52 in a state in which the elastic member S is compressed by the cam shaft rotating hole 41.

6A, when the jaw separating means 80 is rotated approximately 90 degrees counterclockwise as in FIG. 6B, the eccentric shaft 52 of the shaft mounting member 50 may rotate the cam shaft rotating hole 41. While moving along, the release preventing pin 53 protrudes toward the side through hole 42 with elasticity of the elastic member S from the side through hole 42 formed on one inner surface of the cam shaft rotation hole 41. The release preventing pin 53 is caught in the hole 42.

Therefore, the shaft mounting member 50 in which the release preventing pin 53 is caught by the cam shaft rotation hole 41 of the block transfer member 40 is fixed in a state rotated approximately 90 degrees counterclockwise.

Then, as shown in FIG. 6C, when the shaft mounting member 50 is further rotated about 20 degrees counterclockwise, the eccentric shaft 52 including the release preventing pin 53 fixed to the side through hole 42 is provided. The block transfer member 40 is moved backward in the rotational direction so that the slider block 30 to which the block transfer member 40 is coupled is moved along the slide groove 21 of the guider block 20.

In addition, when the slider block 30 is moved backward, the return spring 24 further provided in front of the guider block 20 is compressed to remove the rotational force applied to the shaft mounting member 50. The return spring 24 pushes the guider block 20 forward.

That is, FIG. 6A is an initial state in which the rotating shaft 51 is coupled, and FIGS. 6B and 6C rotate the rotating shaft 51 to block transfer in a state in which the block transfer member 40 and the eccentric shaft 52 are fixed. The slider block 30 including the member 40 shows a state of moving before and after.

And, in order to release the fixed state of the eccentric shaft 52 as shown in FIG. 6b by pressing the end of the fixing pin 43 exposed through the slider block 30 to the inside, When the inner end rotates the eccentric shaft 52 in the clockwise direction while moving the release preventing pin 53 into the eccentric shaft 52, the state is returned to the state as shown in Figure 6a.

Therefore, as shown in FIG. 6C, the eccentric shaft 52 is rotated as far as possible in the counterclockwise direction so that the slider block 30 is moved backward. Is coupled, and when the position of the jaw member 60 is fixed, when the force applied to the eccentric shaft 52 is released, the slider block 30 moves forward with the elasticity of the return spring 24 as shown in FIG. 6B. While the original position is to be coupled to the irregularities of the rear surface of the jaw member (60).

That is, FIG. 7A illustrates a state in which the jaw moving guide portion 61 of the jaw member 60 is fixed to the jaw fixing uneven portion 32 of the slider block 30 in the engaged state as shown in FIG. 6B. FIG. 7B illustrates a state in which the jaw member 60 may move to be tightened in the direction of fixing the work or may be opened to release the tightened state of the work by the operation of FIG. 6C.

Therefore, when coupling a new jaw member 60 suitable for the workpiece to be machined, the tool is inserted into the jaw separating means 80 exposed to the chuck housing 10 to rotate the shaft mounting member 50 in a new state. When the jaw member 60 is inserted into the jaw guide groove 12 to adjust its position and release the force applied to the shaft mounting member 50, the block transfer member 40 is included by the elastic force of the return spring 24. As the slider block 30 is retracted automatically, the jaw fixing concave-convex portion 32 is coupled to the jaw moving guide portion 61 of the jaw member 60 and the replacement is completed.

The jaw member 60 thus replaced is fixed so as not to fall out of the jaw guide groove 12 by the concave-convex coupling of the jaw fixing concave-convex portion 32 and the jaw moving guide portion 61, and the wedge plunger 70 is a rotary hydraulic cylinder. When the back of the guider block 20 is moved along the lower moving groove 23 by the operation, the guider block 20 is inclined to move to one side, and at the same time, the jaw fixing concave and convex part 32 moves on the inclined surface. The guide portion 61 is to move in the direction of tightening the workpiece.

At this time, since the jaw member 60 is coupled to the jaw guide groove 12 of the chuck housing 10, when the jaw fixing recess 32 moves along the jaw moving guide portion 61 inclined to the rear surface of the jaw member 60. , Will be moved up and down along the inclined surface.

In addition, when the wedge plunger 70 is advanced by the operation of the rotary hydraulic cylinder, the guider block 20 is inclined together to move to the other side at the same time, while the jaw fixing concave and convex part 32 rides the inclined surface and the jaw moving guide part 61 To move in a direction to release the workpiece.

The front and rear movement of the wedge plunger 70 moves the jaw member 60 within a range not separated from the lower moving groove 23 of the guider block 20 so as to bite and fix the workpiece. Is controlled so as not to be separated from the jaw guide groove (12).

As shown in FIG. 8, the hydraulic chuck 1 has a wedge plunger 70 connected to a rotary hydraulic cylinder 2 through a draw bar, and the rotary hydraulic cylinder 2 has a directional valve 4 and a hydraulic pump 5. Is operated by a hydraulic unit (3) consisting of a storage tank (6).

That is, a hydraulic chuck 1 is mounted at the front of the main shaft of the lathe, and a rotary hydraulic cylinder 2 connected to the wedge plunger 70 and a draw bar is installed at the rear of the hydraulic chuck 1, and the rotary hydraulic cylinder 2 is provided. ) To move the piston.

When the piston of the rotary hydraulic cylinder 2 moves in this way, this force is transmitted to the wedge plunger 70 through the draw bar, and the wedge plunger 70 moves back and forth to tighten the jaw member 60 to grip the workpiece. Or to move to open.

Then, the fluid opposite the pressure of the rotary hydraulic cylinder (2) is recovered to the storage tank (6) via the direction switching valve (4), the fluid leaked from the rotary hydraulic cylinder (2) through the drain port and the drain hose storage tank ( Returning to 6), it is the same as the conventional hydraulic chuck system and it is found out that it is included in the configuration of the present invention.

On the other hand, the present invention has been described in detail only with respect to the specific examples described above, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit and scope of the present invention, and such variations and modifications belong to the appended claims. will be.

10-Chuck Housing 12-Encounter Guide Home
20-Guider Block 21-Slide Home
23-Lower groove 30-Slider block
31-Jaw fixing recess 31-Assembly groove
40-Block feed member 41-Camshaft rotating hole
42-through-hole 43-retaining pin
50-shaft mounting member 51-rotating shaft
52-Eccentric Shaft 53-Breakaway Pin
60-Jaw member 61-Jaw movement guide part
70-Wedge plunger 71-Guide protrusion
80-encounter separation means

Claims (5)

The workpiece insertion hole 11 is formed in the body to insert and position the workpiece. The workpiece insertion hole 11 communicates with the workpiece insertion hole 11, and the chuck housing 10 in which a plurality of jaw guide grooves 12 are radially formed is provided. ;
It is installed in the chuck housing 10, the slide groove 21 is formed at the bottom toward the front side of the chuck housing 10, the fitting hole 22 is provided on the upper surface of the slide groove 21 A guider block 20;
It is installed in the slide groove 21 of the guider block 20, the jaw fixing concave-convex portion 32 is formed one side is inclined toward the front side of the chuck housing 10, this jaw fixing concave portion (32) A slider block 30 having an assembly groove 31 at the rear of the slider block 30;
The body is fitted into the assembly groove 31 of the slider block 30, a cam shaft rotation hole 41 is formed in the center of the body, and the side through hole 42 is further formed inside one side of the cam shaft rotation hole 41. It is formed, the block transfer member provided with an elastic member (S) is provided with a fixing pin 43 protruding through the jaw fixing concave-convex portion 32 of the slider block 30 in the side through hole (42) ( 40);
Eccentric shaft 52 of the lower body is fitted to the cam shaft rotation hole 41 of the block transfer member 40, the separation prevention pin 53, the elastic member (S) is included on one side of the eccentric shaft (52) A shaft mounting member (50) fitted into the side through hole (42) in the cam shaft rotation hole (41) of the block transfer member (40);
It is coupled to the tightening toward the center of the chuck housing 10 in the housing guide groove 12 of the chuck housing 10 or to move toward the outside of the chuck housing 10, the engaging fixing recess 32 A jaw member (60) formed with an inclined movement guide portion (61) at a rear surface thereof;
A wedge plunger (70) mounted in the chuck housing (10) so as to be movable forward and backward and connected with the guider block (20) and moving together with the guider block (20);
One side is coupled to the shaft mounting member 50, the other side is exposed to the operation groove 81 to the outside of the chuck housing 10 to insert a tool to rotate the shaft mounting member 50, the eccentric shaft 52 Quick change chuck, characterized in that consisting of a jaw separation means (80) to move the rotation along the cam shaft rotation hole (41).
According to claim 1, The shaft mounting member 50, the eccentric shaft 52 is rotatably coupled to the cam shaft rotation hole 41 of the block transfer member 40, the counterclock of the shaft mounting member 50 The release preventing pin 53 protrudes from the side through hole 42 formed on one side of the cam shaft rotating hole 41 in the directional rotation, and the release preventing pin 53 is fixed to the side through hole 42. Quick change chuck characterized in that it is engaged with the inner end of the 43 is configured in the bite state fixed to the shaft mounting member 50 and the block transfer member (40).
The rotating shaft 51 coupled to the guider block 20 by further rotating the shaft mounting member 50 counterclockwise while the shaft mounting member 50 and the block transfer member 40 are locked. Quick change chuck characterized in that the eccentric shaft (52) is further rotated to the center in the unwinding state to retract the slider block (30) including the block transfer member 40 in the rotation direction.
The method according to claim 2, wherein the shaft mounting member 50 and the block transfer member 40 in the locked state, by pressing the fixing pin 43 through the slider block 30 to the inside of the fixing pin 43 The shaft mounting member 50 is rotated in the clockwise direction in a state where the release preventing pin 53, which is caught at the inner end of the side through hole 42, is inserted into the eccentric shaft 52. Quick change chuck characterized in that the assembly is placed in the initial position of the cam shaft rotation hole 41.
The lower movement groove 23 is formed to be inclined at the lower end of the guider block 20 installed in the chuck housing 10, and the outer movement groove 23 is formed at the outer diameter of the wedge plunger 70. The guide protrusion 71 is fitted, and the guider block 20 is guided along the inclined lower moving groove 23 as the wedge plunger 70 moves forward and backward in the chuck housing 10. Quick change chuck characterized by moving left and right.

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