KR100939830B1 - Cnc relieving lathe - Google Patents

Abstract

PURPOSE: A Computer Numerical Control relieving lathe is provided to continuously and easily produce a hob by installing a shock absorber. CONSTITUTION: A CNC relieving lathe(100) is composed of body horizontal moving tables(10), body longitudinal moving units(20), and a worktable(50). The body longitudinal moving unit is composed of a support unit, a body longitudinal moving table, a ball screw, and a rotating unit. The ball screw is formed between the support unit and the body longitudinal moving table. The rotating unit is composed of a screw, a pulley, a screw belt, and an encoder. The screw belt powers the screw belt. The encoder senses the rotation of the ball screw. The worktable is longitudinally slid on the top of the body longitudinal moving table by a cam actuating unit(30) and a restoring spring.

Description

CNC Relieving Lathes {ＣNC RELIEVING LATHE}

The present invention relates to a CNC lifting lathe for machining a hob, and more particularly, the X axis responsible for the rotation of the workpiece, the Y axis responsible for the feed direction of the tool, and the longitudinal feed of the tool. It is possible to automatically control hobs designed differently according to specifications and processing conditions because it can automatically control 4 control axes consisting of Z-axis and V-axis which is responsible for relief of hob edge. In addition, since the Y-axis that is responsible for conveying is configured with a ball screw that is moved back and forth by the rotary actuator, the undercut can be easily machined, and the movable table, which performs relief by cam and return spring, The shock absorbing shock absorber is designed for machining the hob that is continuously repeated according to the operation of the cam operating part. The present invention relates to reel CNC lathe living things do not crowd.

Generally, tools that can cut gears include hobs, pinion cutters, and rack curds. Among them, hobs can cut spur gears, helical gears, and worm gears. In addition to being a cutting tool, the cutting efficiency is better than other gear cutting tools.

In addition, the hob can be regarded as having made a lot of cutting edges on the thread by processing the flute, which is a groove among the threads, and such hobs are material cutting, material cutting, reference plane grinding, flute milling, keyway slotting, relief turning, heat treatment. It is completed through various processes such as internal diameter grinding, side grinding, relief grinding, and quality inspection.In general, one of the most time-consuming processes in the hob manufacturing process is the relief turning process. It was urgent to develop a machine or manufacturing process in charge.

However, the hob's relief turning process is not capable of turning continuously, unlike ordinary screws, but the intermittent relief for each hob edge must be performed in the order of yellow, medium, and finishing using a rack-type tool. However, since such work is performed through a general-purpose machine, not only the worker who does not take repetitive skills has a problem that the hob is difficult to be processed, but even when the hob is completed, it must be manufactured differently according to specifications and processing conditions. There was a problem that it was difficult to properly match the shape of the hob.

In addition, since there was no way to exclude the edge negotiation between the grinding wheel and the hob edge generated when the relief surface was ground in the relief grinding process, there was a problem that the undercut process must be performed through a separate secondary processing after the relief grinding.

The CNC relief lathe of the present invention for achieving the above object is installed between the headstock installed on the bed to support the rotation of the workpiece, the tailstock formed to face the headstock, and is sandwiched between the headstock and the tailstock CLAIMS What is claimed is: 1. A CNC relieving lathe for forming a tool post on which a tool for processing a rotating workpiece is installed to process a hob, comprising: a main body left and right moving table mounted on a bed and moving left and right; A support part coupled to the upper side of the main body left and right moving table, a main body front and rear movement table coupled to a cam operating part configured at one side and a nut coupled to the other side, and configured between the support part and the body front and rear movement table. The main body front and rear consisting of a ball screw coupled to the rotation, the screw pulley for rotating the ball screw, a screw belt for driving the screw pulley according to the drive of the front and rear operation motor, and a rotary operating portion consisting of an encoder for detecting the rotation of the ball screw. Eastern; The slide is coupled to the upper portion of the main body front and rear movement table constituted by the main body front and rear movement unit, the front and rear movement table sliding movement forward and backward by the cam operating unit configured in the front and the return spring configured in the rear, the upper part of the processing is fixed It is characterized by a table;

The CNCN releasing lathe of the present invention is responsible for the X-axis, which is responsible for the rotation of the workpiece, the Y-axis, which is responsible for the infeed direction of the tool, the Z-axis, which is responsible for the longitudinal feeding of the tool, and the relief processing of the hob edge. Since four control axes consisting of V axis can be controlled automatically at the same time, there is an advantage that it is easy to process the hobs designed differently according to specifications and processing conditions. The ball screw that moves back and forth by means of the front and back makes it easy to process the undercut, and the movable table, which makes relief work by the cam and the return spring, is equipped with a show bar that mitigates the impact of the back and forth movement. According to the invention is a useful invention that does not overdo the machinery even in the machining operation of the continuously repeated hob.

Looking at the configuration of the present invention for solving the above problems are as follows.

CNC lathe of the present invention is installed in the bed (1) as shown in Figures 1 to 4, the headstock (2) for supporting the rotation of the workpiece and is formed opposite to the headstock (2) cylinder ( The tailstock 3 supporting the other side of the workpiece (not shown) rotated and supported by the main shaft 2 by the operation of S) by being moved to the left and right, and the main shaft (2) installed above the processing table 50. ) And a tool table 6 provided with a common tool for processing a workpiece sandwiched between the tailstock and the tail stock 3, the main body left and right moving table 10, the main body front and rear moving part 20, and a processing table ( 50).

First, the main body left and right movement table 10 is moved left and right on the bed (1) due to the operation of the cylinder (not shown) under the control of the control unit C, coupled to a conventional lead screw (not shown) that is rotated It is.

In addition, the main body front and rear movement unit 20 is coupled to the upper portion of the main body left and right movement table 10 and moved back and forth, coupled to the upper side of the main body left and right movement table 10 to move the body left and right movement table 10 The support part 21, the main body front and rear movement table 23, the ball screw 24, and the rotation operation part 29 provided in the upper part of the said support part 21 are comprised.

Here, the main body front and rear movement table 23 is configured to be spaced apart from the upper side of the support portion 21, one side is coupled to the cam operating portion 30, the other side of the nut 22 is coupled to the ball screw 24 ) Is configured.

The ball screw 24 is configured between the support part 21 and the main body front and rear movement table 23, and is coupled to the nut 22 configured at the other side of the main body front and rear movement table 23.

In addition, the rotary actuator 29 is formed to be coupled to the rear of the ball screw 24, the screw belt 27 is driven by the drive of the front and rear operation motor 26 to drive the screw pulley 27 The ball screw 24 is rotated according to the driving of the screw pulley 27, and the end of the ball screw 24 has an encoder 28 for detecting the rotation of the ball screw 24. . Therefore, when the ball screw 24 is rotated, the main body before and after the movement table 23 is constantly in accordance with the rotation direction of the ball screw 24 by the nut 22 integrally coupled to the body movement table 23. Forward or reverse operation takes place.

In addition, the cam operating portion 30 is coupled to the front of the main body front and rear movement table 23 as described above, and constitutes a cam shaft 31 coupled to the front of the body front and rear movement table 23, and the cam The shaft 31 is coupled to a cam pulley 32 which is driven by the cam motor 33. In this case, the cam pulley 32 is driven by the cam belt 34 coupled to the cam motor 33, and the cam belt 34 is connected to the cam motor 33 as another cam pulley. Can be combined.

In addition, the cam 35 is coupled to the end of the cam shaft 31, the cam 35 is continuously rotated in accordance with the rotation of the cam motor 33, wherein the cam 35 of The shape is formed eccentrically so that the machining table 50 can be moved back and forth.

At this time, the cam eccentric rotation angle of the cam 35 is in the shape of gradually increasing cam at 0 ° to 320 °, and at 320 ° to 0 °, the cam 35 is gradually decreasing in shape. The backward movement of the machining table 50 occurs at the rotation angle of 0 ° to 320 °, and the forward movement of the machining table 50 occurs at the rotation angle of the cam 35 at 320 ° to 0 °.

In addition, the machining table 50 is slidably coupled to the upper portion of the main body front and rear movement unit 20 to move forward and backward. The cam 35 of the cam operation unit 30 configured at the front by configuring the cam contact unit 51 on one side is formed. ), The return spring 40 is formed in the other direction, so that the machining table 50 that moves forward and backward in accordance with the shape of the cam 35 is moved by the elastic force of the return spring 40. Close to 35).

The cam case 36 is formed around the cam 35 by being bolted and formed integrally with the machining table 50, and a space part in which the cam 35 is stored is formed. Here, the cam case 36 is composed of a lower cam case 36a which is coupled to the processing table 50 as a whole and slides back and forth, and a cover 36b that covers the outside of the lower cam case 36a. At this time, one side of the cover 36b is in close contact with the cam contact portion 51 of the machining table 50 which is configured to be in close contact with the cam 35, the cam case 36 in motion with the machining table 50 It is desirable to prevent noise and shock.

In addition, the front side of the cam operation unit 30 may be configured to further include a shock absorber 60 to mitigate the impact of the front and rear movement of the processing table 50, wherein the showbar 60 is a cam motor ( 33, the cushioning portion may be in close contact with the cam case 36 formed integrally with the machining table 50, thereby achieving an easy buffering effect.

Looking at the operation of the present invention according to the configuration as described above are as follows.

First, one side of the workpiece is fixedly supported on the main shaft 2, and then, the cylinder S is operated to fix the other side of the workpiece to the tailstock 3, and then, the tool 6 is a common tool. By installing it, complete the basic preparation.

After that, after the operator sets the program according to the specifications of the hob and the machining conditions, the hob can be processed by operating the CNC release lathe 100 of the present invention by operating the operation panel 4.

Hereinafter, the operation according to the hob processing will be described.

First, when the setting of the CNC relief lathe 100 of the present invention and the machine is operated, the main body left and right moving table 10 and the main body front and rear moving part 20 move forward, backward, left and right, respectively, according to the setting values of the program. The machining end point of the tool installed on the base 6 is set to zero at the start end point of the workpiece to be machined.

Then, the main shaft 2 is rotated so that the workpiece fixed between the main shaft 2 and the tailstock 3 rotates at a constant speed, and at the same time, the cam operating portion 30 operates to operate the machining table ( 50) the movement before and after repeatedly occurs, and the movement of the main body left and right movement table 10 at a constant speed from the right to the left at the same time occurs so that the tool processes the workpiece.

In addition, when the machining table 50 is reversed by the cam operating portion 30 to process the workpiece, the entire backward movement of the main body front and rear movement unit 20 occurs at the point where the reverse of the machining table 50 ends. It becomes possible to undercut the rear end of the hob blade. Subsequently, the processing table 50 and the main body front and rear movement unit 20 move forward simultaneously to achieve continuous processing of the hob in such a way that the processing table 50 suddenly exits without being caught by the hob blade.

The operation according to the hob processing as described above will be described in more detail with reference to FIGS. 5 to 8.

First, the forward and backward movement of the machining table 50 is generated by the rotation of the cam 35 configured in the cam operating portion 30, and at the same time the workpiece is continuously rotated in accordance with the rotation of the main shaft 2, The main body left and right movement table 10 is generated while the movement of moving from right to left continuously occurs, first, as shown in Figure 5 when the cam motor 33 is rotated is coupled to the cam motor 33 The cam belt 34 drives the cam pulley 32, and the cam shaft 31 rotates accordingly, so that the cam 35 rotates continuously. In this case, the shape of the cam 35 Since it is formed in an eccentric shape, the machining table 50 installed in close contact with the cam 35 moves backward along the eccentric rotation of the cam 35, and the tool starts machining the hob.

And, as described above, while the reverse operation of the machining table 50, the screw belt 27 is operated by the front and rear operation motor 26 configured in the main body front and rear movement unit 20 as shown in FIG. The operation of driving the screw pulley 25 by the screw belt 27 occurs continuously, thereby causing the ball screw 24 to rotate clockwise.

Then, according to the clockwise rotation of the ball screw 24, the main body front and rear movement table 23 is reversed by the nut 22 engaging the ball screw 24, wherein the body front and rear movement table 23 ) Is connected to the cam operating part 30, so that the entire body back and forth moving part 20 makes the reverse, and at this time, since the processing table 50 achieves continuous backward, the tool installed on the processing table 50 The rear end of the hob blade can be deeply processed by reversing by the depth and the depth where the reverse speed of the main body forward and backward movement table 23 and the reverse speed of the machining table 50 are added.

In addition, the reverse of the processing table 50 and the main body front and rear movement table 23 as described above is stopped at the same time, after which the operation of the tool is advanced immediately due to the above-described reverse operation as shown in FIG.

Further, the forward movement of the tool is performed by rotating the ball screw 24 counterclockwise as the counterclockwise rotation of the front and rear operation motor 26 causes the main body front and rear movement table 23 to advance, and the cam 35. In this case, the return spring 40 is pushed forward by pushing the machining table 50, and the forward speed of the main body forward and backward movement table 23 and the forward speed of the machining table 50 are added to advance rapidly. Therefore, the hob can be easily machined without damaging the tool by the workpiece. Afterwards, as shown in FIG. 8, the operation of the forward and backward motors is stopped and the motor is advanced by the machining table until one rotation of the cam is completed. Is completed. In this case, the rotation of the ball screw 24 is sensed by the encoder 28, and the front and rear operation motor 26 is controlled by the encoder 28, so that the rotation direction and the rotation amount of the ball screw 24 are constant. Will be decided.

In addition, the above-described operation is an operation that occurs to process one hob blade per rotation of the headstock (2), the machining table 50 is an operation to reverse the cam 35 in the rotation angle of 0 ° ~ 320 ° At the rotational angle of 320 ° to 0 °, the cam 35 moves forward.

As such, the CNC relief lathe 100 of the present invention can continuously complete the primary processing by machining several hob blades throughout the workpiece by continuously repeating the operation as described above, main body left and right movement table 10 After the primary processing of the workpiece is completed according to the left movement of the), the control unit C controls according to the input program and moves to the point where the tool position is set to zero. In this case, the movement is automatically performed without the tool being caught by the work due to the movement of the body front and rear movement table 23 and the body left and right movement table 10.

In addition, it is possible to complete the relief operation for machining the hob by continuously repeating the above method, and the amount of cutting of the tool is naturally increased as the process is repeatedly performed, so a detailed description thereof will be omitted.

In addition, although not described in the present invention, it is natural that cutting oil is used to prevent friction or load during the CNC relief lathe 100 of the present invention, and a chip tray (not shown) and a lower side of the tool may be used. It is obvious that a drip tray (not shown) may be formed to allow the cutting oil to be circulated, and it will be understood from the appended claims that all such changes without departing from the gist of the present invention fall within the scope of the present patent. .

1 is a schematic view showing a CNC lathe of the present invention.

Figure 2 is a state diagram before the operation of the body before and after the moving portion and the processing table of the present invention.

3 is an enlarged view of a portion A of FIG. 2;

4 is an enlarged view of a portion B of FIG. 2;

5 is a state diagram in which the machining table is moved backward by the cam operating unit of the present invention.

Figure 6 is a state in which the cam operating unit and the main body front and rear movement unit of the present invention is operated so that the machining table and the body front and rear movement table are moved backwards at the same time.

7 is a state diagram in which the machining table is advanced by the return spring of the present invention and the body is moved forward and backward by the body forward and backward moving unit.

8 is a state diagram to be returned to the initial state by the return spring of the present invention.

** Explanation of symbols for main parts of drawings **

C: control unit S: cylinder

1: bed 2: headstock

3: tailstock 4: operation panel

6: tool bar 10: main body left and right moving table

20: body moving back and forth 21: support

22: Nut 23: Main body front and rear movement table

24: ball screw 25: screw pulley

26; Front and rear operation motor 27: Screw belt

28: encoder 29: rotary operation unit

30: cam operating part 31: cam shaft

32: cam pulley 33: cam motor

34: cam belt 35: cam
36: cam case 36a: lower cam case
36b: cover 40: return spring
50: machining table 51: cam contact

delete

60: Showbar 100: CNC relief lathe

Claims (5)

A headstock 2 installed on the bed 1 to support the work piece, a tailstock 3 formed to face the headstock 2, and between the headstock 2 and the tailstock 3. In the CNC releasing lathe for forming a tool post (6) provided with a tool for processing a workpiece to be rotated to rotate the hob, A main body left and right moving table 10 installed on the bed 1 and moving left and right; Support body 21 coupled to the upper side of the main body left and right moving table 10, the main body front and rear movement table 23 is coupled to the cam operating portion 30 is configured on the front side and the nut 22 is coupled to the other side And, between the support portion 21 and the main body front and rear movement table 23, the ball screw 24 coupled to the nut 22, the screw pulley 25 for rotating the ball screw 24, It consists of a screw belt (27) for driving the screw pulley (25) in accordance with the drive of the front and rear operation motor (26), and a rotary operating portion (29) consisting of an encoder (28) for detecting the rotation of the ball screw (24). Body before and after moving unit 20; The main body front and rear movement table 23 is slide-coupled to the upper portion of the body front and rear movement table 23 formed in the main body front and rear movement unit 20, by the cam operating portion 30 configured in the front and the return spring 40 configured in the rear. Sliding movement back and forth in the upper portion of the upper, the tool table (6) is fixed to the upper machining table (50); CNC lifting lathe characterized in that consisting of. delete The method of claim 1, The cam operation unit 30, The camshaft 31 is coupled to the front of the main body front and rear movement table 23 of the main body front and rear movement part 20, the cam pulley 32 coupled to the cam shaft 31, and the cam motor 33 is driven. And a cam belt (34) for driving the cam pulley (32) and a cam (35) coupled to the end of the cam shaft (31) for rotational movement. 4. The cam 35 has a reverse movement of the machining table 50 at a rotation angle of 0 ° to 320 ° of the cam 35, and a forward movement of the machining table 50 is performed by the cam 35. CNC relief lathe characterized by being eccentrically shaped to occur at a rotation angle of 320 ° to 0 °. The CNC lathe according to claim 1, further comprising a shock absorber (60) configured to mitigate an impact caused by the front and rear movement of the machining table (50) in front of the cam operating part (30).

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