KR20070122340A - Device for absorbing cylindrical elasticity deformation of lathe mounting in machine tool - Google Patents

Abstract

A device for absorbing cylindrical elastic deformation of a lathe chuck for a machining tool is provided to prevent a machined material from being deformed stably by absorbing the machined material with weak rigidity and inferior circularity by elastic deformation of a cylindrical plunger and to increase a gripping range regardless of a size for the machined material without manufacturing a centering guide additionally. A device for absorbing cylindrical elastic deformation of a lathe chuck for a machining tool has a cylindrical plunger(20). The cylindrical plunger is mounted at an inner peripheral surface of a chuck body(10). The cylindrical plunger includes a centering plunger unit(20') and a flexible plunger unit. The centering plunger unit is formed with an O-ring inserting groove(21) at an inner peripheral surface thereof. The flexible plunger unit has an outer periphery portion(29) which is inserted and combined with an inner periphery of the centering plunger unit. The flexible plunger comprises an engaging peg circumference portion(25), a plurality of insertion grooves(26), an engaging peg(27), and a cut portion(28). The engaging peg circumference portion is engaged with a master jaw(30) at a front side. The plural insertion grooves and the engaging peg are formed along a circumferential direction of the engaging peg circumference portion alternately at an even-numbered arrangement. The cut portion is formed by cutting a center portion of the engaging peg. Inferior circularity is absorbed by elastic deformation of the flexible plunger unit in a machined material gripping process.

Description

Device for absorbing cylindrical elasticity deformation of lathe mounting in machine tool}

1 is a main configuration showing a typical chuck for a machine tool,

2 is an exploded perspective view of a lathe chuck for a machine tool according to the present invention;

3 is a combined cross-sectional view of a lathe chuck for a machine tool according to the present invention;

4 is an exploded perspective view of a cylindrical plunger of a lathe chuck according to the present invention;

5 is a cross-sectional view of the cylindrical plunger of the lathe chuck according to the present invention;

6 is a state in which the cylindrical plunger and the master jaw is coupled according to the present invention,

7 is a view showing a state in which the flexible plunger portion of the cylindrical plunger according to the present invention is deformed.

Explanation of symbols on the main parts of the drawings

10: chuck body 20: cylindrical plunger

20a: centering plunger portion 20b: flexible plunger portion

21: O-ring insert groove 22: Pin insertion through hole

23: fixing pin 24: fixing hole

25: coupling jaw circumference 26: fitting groove

27: engaging jaw 28: incision

29: outer peripheral part 30: master jaw

40: top jaw 50: cylinder

The present invention relates to a lathe chuck for a machine tool, in particular a cylindrical elastic deformation of a lathe chuck for a machine tool that can absorb the poor roundness of the workpiece in the process of gripping the workpiece of the lathe chuck to the elastic deformation of the cylindrical plunger to maintain the roundness required for the workpiece. It relates to an absorber.

In general, a machine tool is an automated mechanism that produces large quantities of the same product while continuously machining a workpiece by rotation of a spindle. Such machine tools include lathe chucks such as hydraulic chucks, pneumatic chucks and collet chucks as an accessory device for holding a workpiece of various shapes and materials using a working fluid.

The lathe chuck 100 generally used in a machine tool includes a chuck body 110 forming an outer appearance of a housing, a plunger 120 slidably inserted into the chuck body 110, and the chuck body as shown in FIG. 1. A plurality of master jaw 130 is radially inserted into the 110 and coupled to the plunger 120, a plurality of top jaw 140 coupled to the master jaw 130 to grip the workpiece directly, and the plunger Is coupled to the rear of the 120 is composed of a cylinder 150 for moving the plunger 120 back and forth with respect to the chuck body 110 through the working fluid.

The lathe chuck 100 deforms the gripped workpiece when the top jaw 140 grips the workpiece by sliding of the plunger 120 or the master jaw 130, when the rigidity of the workpiece is weak and the roundness is poor. As a result, it became difficult to precisely process the roundness of the workpiece.

On the other hand, the technology has been proposed to improve the processing roundness of the workpiece of poor roundness by developing a special chuck installed with a plurality of hydraulic cylinder on the lathe chuck 100, these special chucks may cause the shaking of the workpiece during machining Of course, only the chuck can work only because the shape and dimensions of the workpiece had a disadvantage that cannot be reused.

As such, the conventional lathe chuck 100 used in the past has almost never been reused every time a workpiece is changed because most systems developed for the purpose of improving roundness are made only for one workpiece. In addition, since there is no centering function of the workpiece, a separate centering guide was made and used, thereby limiting the centering error and the use range.

Accordingly, an object of the present invention is to solve the problems of the conventional lathe chuck described above, and absorbs the workpiece having a low rigidity and poor roundness by the elastic deformation of the cylindrical plunger in the operation of the lathe chuck so that the workpiece deformation hardly occurs. The present invention provides a cylindrical elastic deformation absorber of a lathe chuck for a machine tool, which can be stably maintained and can increase the gripping range irrespective of the size of the workpiece since there is no need to manufacture a separate centering guide.

The present invention for achieving the object as described above, the chuck body with a plurality of master jaws slide coupled to the front surface, a cylindrical plunger mounted on the inner circumferential surface of the chuck body, and coupled to the back of the plunger and the front and rear of the plunger In the lathe chuck for machine tools for holding a workpiece through a plurality of top jaw mounted to the master jaw, the cylindrical plunger, the centering plunger portion is formed with a groove for inserting the O-ring along the inner peripheral wall; A circumferential surface is inserted into and coupled to the inner circumference of the centering plunger portion, and includes a coupling jaw circumference portion engaged with the master jaw in front thereof, wherein the plurality of fitting grooves and coupling jaws are arranged in an even number along the circumferential direction of the coupling jaw circumference portion. It is formed alternately, consisting of a flexible plunger portion having a cut-out portion in the center of the engaging jaw, the workpiece A defect in the complete round gripping process is adapted to absorb the elastic deformation in the flexible plunger portion.

According to the cylindrical elastic deformation absorbing device of the lathe chuck for a machine tool according to the present invention, the centering is required by the workpiece easily absorbed by the elastic deformation in the cylindrical plunger consisting of the centering plunger portion and the flexible plunger portion during gripping the workpiece. It is possible to maintain and to precisely round the workpiece.

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

Figure 2 is an exploded perspective view of a lathe chuck for a machine tool according to the present invention, Figure 3 is a cross-sectional view of the coupling of the lathe chuck for a machine tool according to the invention, Figure 4 is an exploded perspective view of a cylindrical plunger of the lathe chuck according to the present invention.

Shelf chuck according to the present invention, as shown in Figure 2, a plurality of master jaw 30 is slide-coupled to the front and the cylindrical plunger mounted on the inner circumferential surface of the chuck body (10) 20) and a cylinder 150 engaged with the rear surface of the cylindrical plunger 20 to advance the plunger 20 forward and backward.

The chuck body 10 is equipped with a master jaw 30 as shown in Figure 3 is to be coupled to the cylindrical plunger 20, a plurality of top jaw 40 is mounted to the master jaw (30) It is intended to hold the workpiece.

The chuck body 10 has a mounting space portion 12 is formed in the center of the body, a plurality of fitting grooves 14 are formed radially on the front of the body. Here, the fitting groove 14 is T-shaped.

The master jaw 30 is a member inserted into and fitted into the fitting groove 14 of the chuck body 10, and a protrusion piece 32 coupled to the cylindrical plunger 20 is formed at a lower portion of the chuck body 10. Protrusion bar 34 is coupled to the jaw 40 is formed on the front. Here, the body of the master jaw 30 is T-shaped to be coupled to the fitting groove 14 of the chuck body 10. Further, the bottom portion of the projection piece 32 of the master jaw 30 is formed to be inclined at an angle of 9 to 11 degrees from the rear to the front.

The top jaw 40 serves as a member engaged with the protruding bar 34 of the master jaw 30.

The cylinder 50 is coupled to the cylindrical plunger 20 through an attachment plate 52 to function to advance and retract the cylindrical plunger 20 inside the extension member 10 ′ of the chuck body 10. .

As the elastic deformation absorbing means of the lathe chuck according to the present invention, the cylindrical plunger 20 is inserted into and coupled to the centering plunger portion 20 'and the centering plunger portion 20', as shown in FIG. 2 ". As shown in Figs. 2 and 3, the centering plunger portion 20 'and the flexible plunger portion 20 " As it is inserted into (12), elastic deformation occurs in the flexible plunger portion 20 "as it moves forward and backward by the cylinder 50, so as to absorb a poor source in the process of holding the workpiece.

Here, it is preferable that the rear outer diameter D1 of the flexible plunger portion 20 "forms a tolerance of 0.03 to 0.18 mm smaller than the inner diameter D2 of the centering plunger portion 20 '. Further, the flexible plunger portion 20 Coupling jaw circumferential portion 25 of ") preferably has a tolerance of 0.1-0.3 mm smaller than the inner diameter of the chuck body 10.

The centering plunger portion 20 'is formed with an O-ring inserting groove 21 along an inner circumferential surface thereof, and a plurality of pin-inserting through-holes 22 are formed on the outer circumferential wall at predetermined intervals. The outer diameter of the flexible plunger portion 20 "is inserted into the inner diameter of the centering plunger portion 20 ', and the pin insertion through-hole 22 of the centering plunger portion 20' is flexible through the fixing pin 23. The fixing holes 24 formed in the plunger portion 20 "are connected to each other and fixed.

The flexible plunger portion 20 ″ has an outer circumferential portion 29 inserted into the inner circumference of the centering plunger portion 20 ′ and is coupled to the engaging jaw circumference portion 25 engaged with the master jaw 30 at the front side thereof. Equipped with.

The coupling jaw circumferential portion 25 has a plurality of fitting grooves 26 and coupling jaws 27 are alternately formed in an even arrangement along the circumferential direction, and a cutout portion 28 in which a central portion of the coupling jaw 27 is cut off. It is supposed to have The fitting groove 26 of the coupling jaw circumference 25 has an inclined surface 26a inclined at a predetermined angle from the rear to the front. In the fitting groove 26 of the coupling jaw circumference 25, the projection piece 32 of the master jaw 30 slides along the inclined surface 26a. Here, the inclined surface 26a of the fitting groove 26 of the coupling jaw circumferential portion 25 is formed at an angle of 7 to 13 ° so that the projection piece 30 of the master jaw 30 slides.

On the other hand, the flexible plunger portion 20 "has a plurality of grooves 29a formed in the longitudinal direction of the outer circumferential portion 29 so as to be in line with the cutout portion 28 of the engaging jaw 27. The engaging jaw 27 Incision 28 of the) is preferably extended to the groove (29a).

Hereinafter, the operation of the cylindrical elastic deformation absorber of the lathe chuck according to the present invention will be described with reference to FIGS. 6 and 7.

As shown in FIG. 6, when the centering plunger portion 20 ′ moves in the Z direction by the cylinder 50, the projection piece 26 of the fitting groove 26 and the master jaw 30 of the flexible plunger portion 20 ″. By 32, it contracts or extends in the X direction (radial direction) according to the inclination of the inclined surface 26a.

Accordingly, the fitting groove 26 of the flexible plunger portion 20 "operates on each plunger in which elastic strain such as a cantilever is cut while a circular deformation occurs according to the movement amount of the master jaw 30, thereby causing the master jaw 30 to be cut. Since it is transmitted to, the roundness of the workpiece held in the top jaw 40 is improved.

That is, according to the present invention, the distance between the acting point of the master jaw 30 and the moment hinge point distance of the flexible plunger portion 20 "with respect to the thrust of the centering plunger portion 20 'and the flexible plunger portion 20", the outer plunger portion ( By the value of the cross-sectional secondary moment I of 29), the elastic deformation δ as in Equation (1) below occurs.

 That is, as shown in Figure 7, when the force (F) is applied to the upper and lower coupling jaw circumferential portion 25 of the flexible plunger portion 20 ", the portion to which the force (F) is applied as shown in the dashed line is contracted At the same time, the portion moved 90 ° from the operating point of the force (F) is an elastic deformation that extends to absorb the roundness defect of the workpiece.

δ = Pℓ ³ /3E.I ............... (1)

In order to precisely manufacture the lathe chuck 100, the thickness t of the fitting grooves 26 of the flexible plunger portion 20 ", the number of grooves, the outer diameter D1 of the flexible plunger portion 20", and the working point must be obtained. It should be designed considering the length (ℓ) of.

According to the cylindrical elastic deformation absorbing device of the lathe chuck for a machine tool according to the present invention as described above, by absorbing the poor source in the elastic plunger in the cylindrical plunger during the gripping process of the workpiece, it is possible to easily maintain the centering required for the workpiece, Precision roundness can be machined on the workpiece. In addition, it is possible to hold various sizes of workpieces by replacing the top jaw without making a separate centering guide as in the past. Therefore, the gripping range of the lathe chuck is widened, which can reduce various additional costs due to the maintenance and repair of machine tools. Will be.

Claims (5)

A plurality of master jaws 30 are slide-coupled to a front surface thereof, a cylindrical plunger 20 mounted on an inner circumferential surface of the chuck body 10, and coupled to a rear surface of the cylindrical plunger 20. In the machine tool lathe chuck which has the cylinder 150 which advances and retracts the plunger 20, and grips a workpiece | work through the several top jaw 40 mounted to the said master jaw 30, The cylindrical plunger 20, A centering plunger portion 20 'having an O-ring insertion groove 21 formed along an inner circumferential surface thereof, The outer circumferential portion 29 is inserted into and coupled to the inner circumference of the centering plunger portion 20 ', and includes a coupling jaw circumference portion 25 engaged with the master jaw 30 at the front, and the coupling jaw circumference portion 25 is provided. A plurality of fitting grooves 26 and engaging jaw 27 are alternately formed in an even arrangement along the circumferential direction of the flexible plunger portion 20 having an incision 28 in which a central portion of the engaging jaw 27 is cut off. "),  Cylindrical elastic deformation absorbing device of a lathe chuck for a machine tool, characterized in that the defective source is absorbed by the flexible plunger portion (20 ") in the process of holding the workpiece. The method of claim 1, The fitting groove 26 of the engaging jaw circumference 25 of the flexible plunger portion 20 "has an inclined surface 26a inclined at a predetermined angle from the rear to the front, and the master jaw 30 on the inclined surface 26a. Cylindrical elastic deformation absorber of the lathe chuck for the machine tool, characterized in that the fitting projection 32 of the) to be slidingly coupled. The method according to claim 1 or 2. The inclined surface 26a of the fitting groove 26 and the projection piece 30 of the master jaw 30 are formed at an angle of 9 to 11 ° to be coupled to each other, the cylindrical elastic deformation of the lathe chuck for machine tool. Absorber. The method of claim 1, Absorption of elastic deformation of the lathe chuck of a machine tool, characterized in that the rear end outer diameter D1 of the flexible plunger portion 20 "has a tolerance of 0.05 to 0.15 mm smaller than the inner diameter D2 of the centering plunger portion 20 '. Device. The method of claim 1, The outer diameter of the coupling jaw circumference 25 of the flexible plunger portion 20 ″ forms a tolerance of 0.1 to 0.2 mm smaller than the inner diameter of the chuck body 10.

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