KR20220001797U - Multiple regular divisional Floating Jaw - Google Patents

Abstract

The present invention relates to a clamp-type multiple equal division floating jaw.
Clamp type multi-division floating with a tilting function according to the present invention, a base provided to be concentric with the chuck, three or more sliding jaws provided on the base and moving in the inner and outer diameter directions of the chuck, Each of the sliding jaws is coupled to enable a tilting function, and includes a floating jaw that directly contacts the object to be processed. The floating jaw is a floating jaw body coupled to the sliding jaw, a first end including a first protruding contact portion and a second protruding contact portion at both ends respectively provided so as to be tiltable at both ends of the floating jaw body It characterized in that it comprises a floating jaw, and a second end floating jaw including third and fourth projecting contact portions respectively provided at both ends.
According to the present invention as described above, there is an advantage of minimizing the deformation amount of the ring gear by fixing the outer diameter of the ring gear by using the tilting function. In addition, since a plurality of protruding contact portions are located at a position where the outer diameter of the ring gear is evenly divided, deformation of the ring gear is minimized during clamping, thereby maximizing the effect of maintaining the outer diameter of the ring gear.

Description

Multiple regular divisional Floating Jaw of clamp method with tilting function

The present invention inserts a gear into a jaw used in a computer numerical control (CNC: Computer Numerical Control) (hereinafter referred to as CNC) processing device, and then sets a floating jaw of a fixed split clamp method. It relates to a multi-segment floating jaw used to cut a surface to be machined of a gear by rotating a chuck equipped with the floating jaw and moving a tool mounted on a CNC machining apparatus.

After clamping the gear using a soft jaw in a general CNC machining device, when the inner diameter of the gear is finished, the inner diameter of the finished gear is restored to an ellipse due to the restoration phenomenon during unclamping. There is a problem in that the concentricity of the outer diameter varies a lot, resulting in a high defect rate.

In order to solve this problem, Korean Patent Registration No. 10-0934954 discloses a ring-type object rotatably provided on one side of a processing device capable of processing at least one of surface roughing, finishing, and drilling. a rotary table, a plurality of chucks supporting a ring-shaped workpiece on one side of an upper surface of the rotary table, and a movement force means provided in a number corresponding to the plurality of chucks to force linear reciprocating motion of the chucks; A plurality of distance detection sensors (sensors) for measuring the distance from one side of the movement force means to the inner circumferential surface of the ring-shaped processing object, and the measurement distance measured by the plurality of distance detection sensors and a preset distance by comparing the Although a concentric adjustment device for a ring-shaped processing object is disclosed, characterized in that it includes a control unit for controlling the operation of the movement forcing means, when such a special chuck is applied, there is a problem in that the cost is greatly increased compared to a general chuck.

A general sliding jaw is characterized in that, as shown in Korean Patent Registration No. 10-1472268, the sliding jaw slides the object to be processed inward and at the same time pulls the outer surface of the object to be processed inward while firmly fixing it. .

In the case of a soft jaw for ring processing as in Republic of Korea Registration Utility Model No. 20-0472903, there are few parts in contact with the processing object and because the processing object is fixed so as not to move, the inner and outer diameters of the object to be processed are reduced due to the restoration phenomenon of the object to be processed after processing. A phenomenon in which the concentricity varies greatly occurs.

Republic of Korea Patent Registration No. 10-0934954 Republic of Korea Patent Registration No. 10-1472268 Republic of Korea Registered Utility Model No. 20-0472903

Before explaining the problem to be solved by the present invention, first of all, the machining process of ring gear will be explained. It proceeds in the order of heat treatment, and finally finishing (inner diameter/plane) after heat.

In the process of finishing after heat, thermal deformation of the ring gear occurs, and the ring gear machined in a circular shape undergoes heat treatment and is deformed into an oval shape.

When the ring gear deformed into an ellipse is seated on the jaw designed as a garden, the ring gear forcibly maintains the garden when the jaw grabs the outer diameter of the ring gear.

After processing the inner diameter of the ring gear into a circle in the state of being maintained forcibly, when the ring gear is taken out of the jaw, the ring gear is transformed into an ellipse again due to the restoration phenomenon, and the inner diameter also does not form a circle.

As the ring gear is restored to an ellipse, the inner diameter is also transformed into an ellipse, and the concentricity of the inner and outer diameters do not match, which causes defects. We want to solve this by clamping multiple.

In addition, the first end floating jaw and the second end floating jaw are provided so that the floating jaw clamping the ring gear has a double tilting function, thereby reducing the force and pressure applied to the outer diameter of the ring gear to force the ring gear into a circular shape. By not creating

According to a feature of the present invention for achieving the object as described above, the multiple equal division floating jaw may include a base (base) provided on the upper portion of the chuck (chuck).

In addition, the multi-division floating jaw may include three or more sliding jaws that are provided on the base and move in the center and outer diameter directions of the chuck.

In addition, the multi-proportionally divided floating jaw may include a floating jaw provided on each of the sliding jaws to fix the object to be processed.

The multi-segment floating jaw may use a first coupling member such that the sliding jaw and the floating jaw are coupled to each other so that the floating jaw can have a tilting function.

The floating jaw may include a floating jaw body coupled to the sliding jaw, a first end floating jaw and a second end floating jaw each provided at both ends of the floating jaw body.

The first end floating jaw and the second end floating jaw may have a function of doubly tilting the ring gear, which is the object to be processed, in the multiple equal division floating jaw.

The multi-divided floating jaws include a first protruding contact portion and a second protruding contact portion respectively provided on both ends of the first distal floating jaw, and a third protruding contact portion and a fourth protruding portion provided at both ends of the second distal floating jaw, respectively. Contacts may be included.

The multi-division floating jaw may use a second coupling member so that when the floating jaw and the first end floating jaw and the second end floating jaw are coupled, the first end floating jaw and the second end floating jaw can have a tilting function. have.

The first coupling member and the second coupling member may include a bush, a bolt, and a nut.

The multi-division floating jaw may include a locator provided on the chuck to place the object to be processed.

The clamp-type multiple equal division floating jaw with a tilting function according to the present invention has the following effects.

In the present invention, it is possible to fix the outer diameter of the ring gear by using a multi-segment floating jaw having a tilting function. The multi-segment floating jaw completely fixes the ring gear while maintaining the outer diameter shape so that the chuck of the CNC machining device does not slip when rotating. In addition, it may have the advantage of minimizing the deformation amount of the ring gear during finishing after heat.

In the present invention, a plurality of distal protruding contact portions are located at positions where the outer diameter of the object to be processed is evenly divided to fix the ring gear, which is the object to be processed, so that deformation of the ring gear is minimized, thereby sufficiently fixing the ring gear while maintaining the outer diameter.

Due to these effects, the concentricity of the inner and outer diameters after machining the ring gear in the post-heat finishing machining process is identical, thereby greatly reducing the occurrence of defective products.

1 is a plan view for explaining the configuration of a clamp-type multiple equal division floating jaw having a tilting function according to an embodiment of the present invention.
Figure 2 is a right side view for explaining the configuration of a clamp-type multiple equal division floating jaw having a tilting function according to an embodiment of the present invention.
3 is a three-dimensional view for explaining a sliding jaw that is a component of a clamp-type multi-equal division floating jaw having a tilting function according to an embodiment of the present invention.
4 is a plan view for explaining a floating jaw, which is a component of a clamp-type multiple equal division floating jaw having a tilting function according to an embodiment of the present invention.
5 is a three-dimensional view illustrating a part of a floating jaw to explain a floating jaw that is a component of a clamp-type multi-equal division floating jaw having a tilting function according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of a clamp-type multiple equal division floating jaw having a tilting function according to the present invention will be described with reference to the drawings.

1 to 5 show an embodiment of a clamp-type multi-segment floating jaw having a tilting function according to the present invention.

The present invention provides a tilting function to prevent defects related to the concentricity of the inner and outer diameters of the ring gear after finishing due to thermal deformation that is inevitably generated during final machining by heat-treating a ring-shaped gear with a thin tooth width and thickness. It is about an excitation clamp method of multiple equal division floating jaws.

In addition, the present invention can clamp the ring gear at uniform intervals by dividing the outer diameter of the ring gear evenly, and enables double tilting, thereby minimizing the deformation of the ring gear even when clamping the ring gear, which is the processing object 60 . It is about a clamp-type multi-segment floating jaw with the characteristics that can do it.

As shown in the figure, the clamp-type multi-equal division floating jaw having a tilting function according to the present invention includes a base 100 coupled to the chuck 1, sliding jaws 200 provided in the base 100, and tilting. It may include a floating jaw 300 that is coupled to each of the sliding jaws 200 to enable a function, and directly contacts the object 60 to be processed.

The base 100 is provided in at least three so as to be concentric with the upper portion of the chuck 1, the sliding jaws 200 are respectively provided on the upper portion of the base 100, and the chuck 1 can move in the direction of the center and outer diameter of

That is, the base 100 may be positioned on the lower side of the sliding jaw 200 , and the floating jaw 300 may be positioned on the upper side of the sliding jaw 200 .

A coupling groove may exist in the base 100 , and a through hole for coupling may exist in the sliding jaw 200 and the floating jaw 300 .

The base 100 , the sliding jaw 200 , and the floating jaw 300 may be coupled using the coupling groove and the through hole as a first coupling member 410 .

As shown in FIG. 3 , one end of the upper surface of the sliding jaw 200 may be a flat surface, the central portion may be an inclined surface that has an inclination to increase, and the other end may be a flat surface. And at the other end, the sliding jaw jaw 230 may be formed to have the highest height in the sliding jaw 200 . The sliding jaw jaw 230 may have a shape to accommodate one side of the floating jaw 300 while having a little clearance.

The sliding jaw 200 has three through-holes, and the depths of each of the through-holes may be different from each other.

The sliding jaw 200 includes a sliding jaw first through hole 220 formed in a plane of the upper surface closest to the center of the chuck 1, a sliding jaw second through hole 221 formed in an inclined central portion of the upper surface, and It may have a sliding jaw third through hole 222 formed in the plane of the farthest upper surface.

A half of the sliding jaw second through hole 221 in the central portion of the sliding jaw 200 is formed in the plane of the upper surface of the sliding jaw 200 closest to the center of the chuck 1, and the other half may be formed on the upper surface of the inclined central portion whose inclination increases as it moves away from the center of the chuck 1 .

The sliding jaw third through hole 222 of the sliding jaw 200 furthest from the center of the chuck 1 has the deepest depth among the three through holes, and the first coupling member 410 is used. It can serve to combine with the floating tank 300 .

* The floating jaw 300 is aligned with the sliding jaw jaw 230 at one end of the upper surface of the sliding jaw 200, and the first in the sliding jaw third through hole 222 of the sliding jaw 200. It may be coupled to the sliding jaw 200 using a coupling member 410 .

As shown in FIG. 4 , the floating jaw 300 includes a floating jaw body 301 coupled to the sliding jaw 200 , and a first floating jaw body provided at both ends of the floating jaw body 301 , respectively. It may consist of a jaw 302 and a second distal floating jaw 303 .

In addition, since the surface of the floating jaw body 301 facing the object 60 is a circular ring gear, the inner side is concave so as to have a curvature corresponding to the arc shape of the ring gear. can have

A coupling groove for coupling with the sliding jaw 200 is formed in the center of the floating jaw body 301, and the first end floating jaw 302 and the both ends of the floating jaw body 301 are Through holes for coupling with the second end floating jaw 303 may be formed, respectively.

In the center of the first end floating jaw 302 and the second end floating jaw 303 , there are through holes for coupling with the floating jaw body 301 , and at both ends of the floating jaw body 301 . The through hole of each of both ends of the floating jaw body 301 and the through hole in the center of each of the first floating jaw 302 and the second floating jaw 303 are inserted between the respective coupling grooves formed. The first end floating jaw 302 and the second end floating jaw 303 may be coupled to the floating jaw body 301 by means of a hole.

In addition, the first end floating jaw 302 and the second end floating jaw 303 may be coupled to both ends of the floating jaw body 301 using a second coupling member 420 .

Since an inwardly recessed groove is formed on one side of the first end floating jaw 302 on the surface facing the ring gear, which is the object 60, both ends may protrude. Both protruding ends of the first distal floating jaw 302 are defined as a first protruding contact portion 304 and a second protruding contact portion 305 . In addition, since the second end floating jaw 303 has the same configuration and shape as the first floating end floating jaw 302 , both protruding ends of the second end floating jaw 303 are formed as third protruding contact portions. 306 and a fourth protruding contact 307 .

The first to fourth protruding contact portions 304 , 305 , 306 , and 307 may clamp the ring gear, which is the workpiece 60 .

In this case, a locator 50 may be provided to match the heights of the processing object 60 and the floating tank 300 . The locator 50 is coupled to the upper portion of the chuck 1 and is located at an outer diameter portion of the chuck 1 between the bases 100, and the locator 50 has a convex shape with a central portion protruding. can

The locator 50 has through holes for coupling with the chuck 1 formed at both ends of the locator 50, respectively, and the upper surface of the central portion with a high height of the locator 50 is the object 60 This may be a contacting portion.

That is, the object 60 is in contact with the upper surface of the central portion of the locator 50 , and the first to fourth protruding contact portions 304 , 305 , 306 and 307 of the floating jaw 300 are the The object to be processed 60 may be clamped.

The first coupling member 410 includes a first coupling member bolt 411 , a first coupling member nut 412 and a first coupling member bush 413 , and the sliding jaw 200 and the floating jaw body 301 may be combined.

In addition, the second coupling member 420 is composed of a second coupling member bolt 421, a second coupling member nut 422, and a second coupling member bush (not shown), the floating jaw body 301 and the The first end floating jaw 302 and the second end floating jaw 303 may be combined, respectively.

The first coupling member bolt 411 may have a fine play in the screw body of the bolt between the bolt head (wide end of the bolt) and the screw thread of the bolt (between the trough and the trough of the screw). Therefore, even when the first coupling member bolt 411 and the second coupling member bolt 421 are maximally coupled, there is a play between the sliding jaw 200 and the floating jaw 300, so that the floating jaw ( 300) has fluidity and can perform a tilting function.

When coupling the first floating jaw 302 and the second floating jaw 303 to the left and right both ends of the floating jaw body 301, the second coupling member bolt 421 is the first Like the coupling member bolt 411, the first end floating jaw 302 and the second end floating jaw 303 coupled with the floating jaw body 301 by having a fine play in the screw body of the bolt also perform a tilting function. can do.

When the sliding jaw 200 moves toward the center of the chuck 1 to clamp the object 60 , the floating jaw 300 coupled to the sliding jaw 200 may also move together. .

The workpiece on the first to fourth protruding contact portions 304 , 305 , 306 and 307 of the first floating jaw 302 and the second floating jaw 303 coupled to the floating jaw 300 . 60 is in contact so that the first to fourth contact portions 304 , 305 , 306 , and 307 may clamp the ring gear as the object 60 .

Accordingly, the floating jaw 300 may be characterized as having two first and second distal floating jaws 302 and 303 and first to fourth projecting contacts 304 , 305 , 306 and 307 . .

When clamping the ring gear, which is the workpiece 60 , using the first to fourth protruding contact portions 304 , 305 , 306 and 307 , the ring gear is provided with three floating jaws 300 . The first to fourth protruding contact portions 304 , 305 , 306 and 307 can clamp the ring gear with uniform force by evenly dividing the outer diameter of the ring gear into 12 portions.

Since the floating jaw 300, the first end floating jaw 302 and the second end floating jaw 303 have a tilting function, it is clamped without deformation of the outer diameter of the ring gear, which is the object to be processed (60). In this state, the chuck 1 rotates and the mounted tool moves to cut the inner diameter and upper surface of the ring gear, which is the object 60 .

Therefore, in the multi-part floating jaw according to the present invention, the amount of deformation of the ring gear can be minimized by fixing the ring gear, which is the object 60 , so that the ring gear is not forcibly rounded during finishing machining after opening. That is, the multi-equal division floating jaw according to the present invention can maintain the inner diameter of the ring gear after the post-heat finishing process by fixing the outer diameter so that the elliptical state of the ring gear is not disturbed.

When the ring gear is taken out from the floating jaw 300 after finishing machining after heat, the outer diameter of the ring gear in a natural state is maintained, so that the machined inner diameter and concentricity are matched, thereby significantly reducing the occurrence of defective products.

The ovalization of the outer diameter of the ring gear, which is the object to be processed 60, compensates for the clearance of the tooth width with the mating counterpart gear, and the average value of the outward and inward deviations from the circle determines the degree of circle. degree may be acceptable. However, since the inner diameter of the ring gear is a contact surface fitted to the crankshaft of the engine and a very precise circular shape is required, the inner diameter of the ring gear requires precise machining and should not be deformed.

Therefore, in order to fix the elliptical state of the outer diameter of the ring gear, which is the object 60 , without disturbing it, the multi-equal division floating jaw of the tilting structure according to the present invention may be used.

If the number of contact points to which the ring gear, which is the processing object 60, is clamped is small, the force applied to the ring gear is concentrated in a part of the floating jaw according to the present invention rather than dispersed, so that the elliptical state may be disturbed. Because of this size, it may be made to have as many contacts as possible.

In order to uniformly clamp a large portion of the outer diameter of the ring gear so that the force applied to the outer diameter of the ring gear is distributed and transmitted, the plurality of protruding contact portions 304, 305, 306 and 307 are all in their natural state. It may have a tilting structure to maintain the outer diameter of the ring gear, which is the processing object 60 .

The first to fourth protruding contact portions 304 , 305 , 306 and 307 of the first floating jaw 302 and the second floating jaw 303 are attached to the ring gear as the workpiece 60 . Clamping by contact, in the present invention, three floating jaws 300 can be clamped by dividing the ring gear into 12 parts.

The clamp-type multi-equal division floating jaw according to the present invention uses a tilting function to fix the outer diameter of the ring gear, which is the processing object 60, to minimize the restoration amount of the ring gear, so that the deformation amount of the ring gear after finishing after heating , and a plurality of protruding contact portions are located at equally divided positions to minimize deformation of the ring gear during clamping, thereby maximizing the effect of maintaining the outer diameter of the ring gear.

As a result of finishing the ring gear after opening the ring gear using a general soft jaw, more than 90% of the concentricity of the outer diameter compared to the inner diameter was defective. As a result of normal machining after opening the ring gear using

1. Chuck 50. Locator
60. Object to be processed 100. Base
200. Sliding jaw 220. Sliding jaw 1st through hole
221. Sliding jaw 2nd through hole 222. Sliding jaw 3 through hole
230. Sliding jaw jaw
300. Floating Jaw 301. Floating Jaw Body
302. Floating jaw at first end 303. Floating jaw at second end
304. First projecting contact 305. Second projecting contact
306. Third projecting contact 307. Fourth projecting contact
410. First coupling member 411. First coupling member bolt
412. First engaging member nut 413. First engaging member bush
420. Second coupling member 421. Second coupling member bolt
422. Second coupling member nut

Claims (5)

a base provided on an upper portion of the chuck so as to be concentric with the chuck;
three or more sliding jaws provided on the base and moving in the center and outer diameter directions of the chuck;
Each of the sliding jaws to enable a tilting function, and a floating jaw for directly contacting the object to be processed,
The floating jaw is:
a floating jaw body coupled to the sliding jaw; and
A first end floating jaw having a first protruding contact portion and a second protruding contact portion at both ends, respectively, respectively provided so as to be able to tilt at both ends of the floating jaw body, and a second end provided at both ends, respectively A clamp-type multiple equidistant floating jaw comprising a second distal floating jaw comprising a third protruding contact portion and a fourth protruding contact portion. The method of claim 1,
Clamp-type multi-segment floating jaw, characterized in that it comprises a first coupling member for coupling the floating jaw to the sliding jaw so that the tilting function is possible. The method of claim 1,
Clamp-type multi-segment floating jaw, characterized in that it includes a second coupling member for coupling the first end floating jaw and the second end floating jaw to the floating jaw body so that a tilting function is possible. 4. The method of claim 2 or 3,
The first coupling member and the second coupling member are a clamp-type multiple equal division floating jaw, characterized in that it is composed of a bush, a bolt and a nut. The method of claim 1,
A clamp-type multi-segment floating jaw, which is provided on the chuck and includes a locator on which the object to be processed is placed.

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