KR100639411B1 - Clearance prevention structure of jaw for hydraulic chuck - Google Patents

Abstract

A structure for preventing a jaw gap of a hydraulic chuck is provided to prevent noise and damage due to collision of a jaw member and a wedge plunger by sticking the jaw member to the wedge plunger without a gap. A structure for preventing a jaw gap of a hydraulic chuck includes a chuck housing(10), a jaw member(20), and a wedge plunger(30). A movement inclination boss(21) of the jaw member forms a mounting recess(22) on a contact surface making contact with a movement inclination guide surface(32) formed in a jaw engaging recess(31) of the wedge plunger. A gap preventing member(40) is resiliently supported by the mounting recess.

Description

Clearance Prevention Structure Of Jaw For Hydraulic Chuck}

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

2 is a cross-sectional view showing the configuration of the present invention.

Figure 3 is a cross-sectional view showing a coupling state of the wedge plunger and the encounter member of the present invention

4 is a schematic view showing a general hydraulic chuck system

Figure 5 is a cross-sectional view showing a conventional hydraulic chuck configuration

* Description of the major symbols in the drawings *

1: Hydraulic Chuck 2: Hydraulic Cylinder

3: hydraulic unit 4: directional control valve

5: hydraulic pump 6: storage tank

10: chuck housing 11: workpiece insertion hole

12: Encounter guide groove 20: Encounter member

21: moving slant projection 22: mounting groove

30: wedge plunger 31: encounter coupling groove

32: moving slope guide surface 40: play prevention member

41: pressure bar 42: support spring

43: hanging bar

 The present invention relates to a jaw gap prevention structure of the hydraulic chuck more specifically, when the jaw is coupled to the wedge plunger, there is no play between the gap between the invention to contact the operating surface more securely and securely secure the workpiece It is.

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

As shown in FIG. 5, 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 are radially formed with the workpiece insertion hole 11. A chuck housing 10 formed to penetrate outwardly;

It is coupled to the housing 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 movement inclined projection 21 Jaw member 20 is projected;

The jaw is coupled to the rear surface of the chuck housing 10, the outer surface of the jaw member 20 is coupled to the moving mirror projections 21 and the moving inclination guide surface 32 corresponding to the movement inclination projections 21 is formed. Coupling groove 31 is formed, it is composed of a wedge plunger 30 is connected to the hydraulic cylinder is operated.

That is, when the wedge plunger 30 moves back and forth by the operation of the hydraulic cylinder, the jaw member 20 coupled to the jaw engaging groove 31 of the wedge plunger 30 moves the inclined guide surface 32. Along with the moving inclination protrusion 21 is to be tightened in the direction to bite the workpiece, or to be unfolded in the unwinding direction.

However, the conventional hydraulic chuck is a state in which the jaw coupling groove is larger than the size of the moving inclination protrusion so that the jaw coupling groove of the wedge plunger is coupled to the jaw coupling groove of the wedge plunger so that the moving inclination protrusion is coupled to the jaw coupling groove. In the meantime, there was a small gap between them.

Therefore, when the jaw member is operated by the movement of the wedge plunger before and after, the noise may be generated by the play, or the state in which it is fixed by biting the workpiece is unstable. There was a problem that greatly degrades the working stability.

An object of the present invention is to prevent the gap between the encounter member is coupled to the wedge plunger so that the encounter member operates smoothly without noise, and can safely and firmly bite the workpiece during operation to increase work precision and safety It is to provide a hydraulic clearance chuck structure.

The object of the present invention is a workpiece insertion hole 11 that can insert a workpiece in the center of the body is drilled, the workpiece insertion hole 11 and a plurality of radial guide grooves 12 are formed so as to penetrate outwardly A chuck housing 10;

Is coupled to the guide 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 21 Jaw member 20 is projected;

The jaw is coupled to the rear surface of the chuck housing 10, the outer inclined movement projection 21 of the jaw member 20 is coupled to the jaw formed with a movement inclined guide surface 32 corresponding to the inclined projection 21 In the hydraulic chuck (1) consisting of a wedge plunger (30) which is connected to the hydraulic cylinder (2) is formed and the coupling groove 31 is formed,

The moving inclination protrusion 21 of the jaw member 20 forms a mounting groove 22 on a contact surface which is in contact with the moving inclined guide surface 32 formed in the jaw coupling groove 31 of the wedge plunger 30. The clearance preventing member 40 in the groove 22 is achieved by being coupled in an elastically supported state.

That is, when the moving inclination protrusion 21 of the jaw member 20 is coupled to the jaw coupling groove 31 of the wedge plunger 30, the play preventing member 40 elastically supported is formed of the jaw coupling groove 31. While the safety inclination is in close contact with the guide surface 32, there is no gap between the jaw coupling groove 31 and the moving inclination projection 21 of the jaw member 20.

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

1 is an exploded perspective view showing the configuration of the hydraulic chuck of the present invention, showing a state in which the chuck housing, the jaw member, the wedge plunge, and the play preventing member are separated.

Figure 2 is a cross-sectional view showing the configuration of the present invention, showing that the play preventing member is elastically supported by the spring member in the mounting groove is in close contact with the movement slope guide surface.

Figure 3 is a cross-sectional view showing a coupling state of the wedge plunger and the jaw member of the present invention, showing a state in which the jaw member is operated according to the movement of the wedge plunger before and after the wedge plunger is completely in contact with the play prevention member.

4 is a schematic view schematically showing a general hydraulic chuck system, showing a system in which the hydraulic chuck is operated by the operation of the hydraulic cylinder.

1 to 2, the chuck housing 10 of the hydraulic chuck 1 according to the present invention has a workpiece insertion hole 11 through which a workpiece can be inserted and positioned in the center of the body. A plurality of jaw guide grooves 12 are formed in communication with the work insertion hole 11 and are dug in the radial direction from the center of the work insertion hole 11.

The jaw guide groove 12 is penetrated through the work insertion hole 11 to the outside of the chuck housing 10, and a rail groove 12a is dug in the side to guide the guide rail 23 protruding to the side of the jaw member 20. ) Is inserted and inserted.

 The jaw guide groove 12 is coupled to the jaw member 20 to be described later to guide to move toward the center and the outside of the workpiece insertion hole (11).

The jaw member 20 is coupled to the jaw guide groove 12, and the jaw member 20 has a guide rail 23 fitted into the rail groove 12a of the jaw guide groove 12 to protrude from the side. The master jaw (20a) protruding the moving inclination protrusion 21 inclined at a predetermined angle on the rear of the body;

The master jaw 20a is fixed to the front surface, one end of which is formed of a soft jaw 20b protruding toward the workpiece insertion hole 11 side of the chuck housing 10 to directly bite and fix the workpiece.

 The moving inclination protrusion 21 has an angle inclined to open toward the outside of the chuck housing 10 so as to retract the wedge plunger 30 when coupled to the jaw coupling groove 31 of the wedge plunger 30 to be described later. When the jaw member 20 is tightened toward the center of the chuck housing 10, the jaw member 20 to move toward the outside of the chuck housing 10 when moving forward.

That is, the master jaw (20a) is a moving inclined projection 21 is coupled to the jaw coupling groove 31 and contact the wedge plunger 30 while biting the workpiece along the jaw guide groove 12 of the chuck housing 10 It moves to tighten in the fixing direction, or moves to open to release the tightening state of the workpiece, so that it is manufactured with sufficient rigidity that is not damaged by the friction or the load generated when tightening the workpiece.

And the soft jaw (20b) is coupled to the master jaw (20a) to move together in accordance with the movement of the master jaw (20a) to directly bite the work piece to fix the work hard enough to fix the degree of damage to the outside of the work piece It is manufactured to have rigidity.

On the other hand, the wedge plunger 30 is connected to the hydraulic cylinder (2) to move back and forth inside the chuck housing (10).

The wedge plunger 30 has a jaw coupling groove 31 to which the moving inclination protrusion 21 of the jaw member 20 is coupled to the outer circumferential surface thereof, and the lower surface of the wedge plunger 31 is the moving inclination protrusion. The inclined angle of (21) is formed with a moving inclined guide surface 32 having an angle corresponding to.

The biggest feature of the present invention is to form a mounting groove 22 which is dug toward the moving inclined guide surface 32 of the encounter coupling groove 31 in the moving inclination protrusion 21 of the jaw member 20 and the mounting groove 22. The gap preventing member 40 is coupled to the elastically supported state.

The gap preventing member 40 includes a pressure bar 41 which is excavated in the longitudinal direction on the outer circumferential surface thereof so as to be movable into the mounting groove 22.

A support spring 42 mounted in the mounting groove 22 to elastically support the pressure bar 41;

It is composed of a locking pin 43 penetrated to the side of the moving inclined protrusion 21 and passed through the movement limiting groove 41a of the pressure bar 41 coupled to the mounting groove 22.

In addition, the pressure bar 41 is formed with a sliding inclined surface 41b inclined at an angle in which one surface in contact with the moving inclined guide surface 32 has an angle corresponding to the moving inclined guide surface 32.

That is, when the moving inclination protrusion 21 of the jaw member 20 is coupled to the jaw coupling groove 31 of the wedge plunger 30, the pressure bar 41 elastically supported by the support spring 42 protrudes. By being in close contact with the moving inclined guide surface 32, there is no gap between the moving inclined protrusion 21 and the jaw coupling groove 31.

The pressure bar 41 is in contact with the moving inclined guide surface 32 through the inclined sliding inclined surface 41b having the same angle as the moving inclined guide surface 32, thereby stably supporting the jaw member 20 without a gap. And the jaw member 20 will be able to operate smoothly.

In addition, even if the jaw member 20 is separated from the jaw coupling groove 31, the pressure bar 41 is caught by the engaging pin 43 is limited by the length of the protruding by the elastic force of the support spring 42 is not separated out. It can be kept coupled to the mounting groove (22).

 When the wedge plunger 30 is coupled as shown in FIG. 3 when the wedge plunger 30 is retracted by the operation of the hydraulic cylinder 2, the moving inclination protrusion 21 of the jaw member 20 moves toward the inclined plane. (32) to move to the jaw member 20 is to tighten the workpiece.

In addition, when the wedge plunger 30 is advanced by the operation of the hydraulic cylinder 2, the moving inclination protrusion 21 of the jaw member 20 moves on the moving inclined guide surface 32 so that the jaw member 20 is opened. In this case, the workpiece is released in the bite state, and the hole into which the workpiece is inserted is widened so that the insertion hole can be adjusted according to the size of the workpiece.

4, the wedge plunger 30 is connected to the hydraulic cylinder 2 through the draw bar 2a, as shown in FIG.

The hydraulic cylinder 2 is operated by a hydraulic unit 3 composed of a directional valve 4, a hydraulic pump 5, and a storage tank 6.

That is, the hydraulic chuck 1 is mounted at the front of the main shaft of the lathe, the hydraulic cylinder 2 connected to the wedge plunger 30 and the draw bar 2a is installed at the rear of the hydraulic chuck 1, and the hydraulic cylinder ( 2) is connected to the hydraulic unit (3) for supplying the hydraulic pressure therein.

The hydraulic unit (3) operates the hydraulic pump (5) to enter the fluid stored in the storage tank (6) into the hydraulic cylinder (2) via the directional valve (4) to move the piston of the hydraulic cylinder (2) will be.

When the piston of the hydraulic cylinder 2 moves in this way, this force is transmitted to the wedge plunger 30 through the draw bar 2a so that the wedge plunger 30 moves back and forth to grip the workpiece 20 by the workpiece. It will be moved to tighten or move apart.

 The fluid opposite to the pressurized side of the hydraulic cylinder 2 is recovered to the storage tank 6 via the directional valve 4, and the leaking fluid from the hydraulic cylinder 2 is transferred to the storage tank 6 through the drain port and the drain hose. It is to be noted that this is the same as a conventional hydraulic chuck system and this is included in the configuration of the present invention.

According to the configuration of the present invention described above, the jaw member 20 is completely in close contact with the wedge plunger 30 without any noise due to the collision between the jaw member 20 and the wedge plunger 30 while the hydraulic chuck is operated. This can prevent damage.

In addition, the jaw member 20 is to be firmly fixed to the workpiece by the jaw member 20 by moving in the direction of tightening or spreading correctly according to the forward, backward movement of the wedge plunge.

Therefore, it is a very useful invention to increase the durability of the working environment and the hydraulic chuck and to ensure that the work is firmly fixed without moving during the operation and to ensure the safety of the operator.

Claims (3)

The workpiece insertion hole 11 for inserting a workpiece in the center of the body is drilled, and the chuck housing 10 is formed such that the workpiece insertion hole 11 and a plurality of radial guide grooves 12 penetrate outwardly. ; Is coupled to the guide 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 21 Jaw member 20 is projected;  The jaw is coupled to the rear surface of the chuck housing 10, the outer inclined movement projection 21 of the jaw member 20 is coupled to the jaw formed with a movement inclined guide surface 32 corresponding to the inclined projection 21 In the hydraulic chuck (1) consisting of a wedge plunger (30) which is connected to the hydraulic cylinder (2) is formed and the coupling groove 31 is formed, The moving inclination protrusion 21 of the jaw member 20 forms a mounting groove 22 on a contact surface which is in contact with the moving inclined guide surface 32 formed in the jaw coupling groove 31 of the wedge plunger 30. The encounter clearance prevention structure of the hydraulic chuck, characterized in that the clearance prevention member 40 is coupled to the groove 22 in an elastically supported state. The method of claim 1, wherein the clearance preventing member 40 is a pressure bar (41) is provided in the longitudinal direction on the outer circumferential surface of the pressing bar 41 is movably coupled into the mounting groove (22); A support spring 42 mounted in the mounting groove 22 to elastically support the pressure bar 41; A hydraulic pressure, characterized in that composed of a locking pin 43 is passed through the side of the moving inclined protrusion 21 and fixed through the movement limiting groove 41a of the pressure bar 41 coupled to the mounting groove 22. Chuck encounter prevention structure of chuck. The method according to claim 2, wherein the pressure bar 41 is characterized in that one surface which is in contact with the moving inclined guide surface 32 is formed as a sliding inclined surface 41b having an angle corresponding to the moving inclined guide surface 32. Encounter gap prevention structure of hydraulic chuck.

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