KR101049540B1 - Female thread processing equipment of motor shaft - Google Patents

Abstract

The present invention has been made to solve the problems caused by machining the internal thread on the inner side of the motor shaft of the conventional motor, and comprises a hole processing portion and a screw groove processing portion operated by the operation of the cylinder on both sides, the motor is raised By constructing the chuck to fix the motor to the seating part, the female thread can be machined inside the motor shaft of the assembled and mass-produced motor without disassembling the motor. We want to provide a female thread processing device for a motor shaft that can be imported.

To this end, the present invention, the motor seating portion to which the motor is seated and fixed by the chuck, the motor shaft rotation support portion for supporting the motor shaft seated on the motor seating portion, the hole processing portion for processing the female screw hole in the motor shaft inner portion, the motor The screw groove processing part for processing female thread on the inner side of the shaft, the sliding movement part for moving the hole processing part and the screw groove processing part, the sliding guide part for guiding the sliding movement part, and the forward / reverse cylinder for advancing and reversing the sliding movement part. It is composed.

Motor shaft, female thread processing, female thread processing equipment

Description

FEMALE SCREW TAPPING MACHINE OF MOTOR SHAFT}

The present invention relates to a female screw processing apparatus of a motor shaft, and more particularly, in machining a female screw on an inner circumferential surface of an inner portion of a motor shaft, the hole processing portion for firmly fixing the motor by a chuck and processing a hole in the inner portion of the motor shaft; The screw groove processing part for processing the screw groove on the inner circumferential surface of the machined hole is automatically operated so that the female thread can be easily and easily machined on the inner side of the motor shaft without disassembly of the motor. The female thread processing apparatus of the shaft.

In general, a motor is supplied with rotational power through a motor shaft that is rotated by a rotating unit configured as an essential component of a power unit.

These motors are used in various power devices of the current industrial field, and are used in various types of motors.

On the other hand, the motor is an assembly mass-produced product, and each part of the motor is assembled and mass produced through the assembly line of the production plant. After dismantling again, after processing the female screw on the inner side of the disassembled motor shaft using a female screw processing apparatus, the motor shaft is assembled to the motor and used again.

Accordingly, there is a problem in that a work process is additionally generated by disassembling the assembled mass-produced motor or processing a female screw on the motor shaft again and then reassembling it. There is this.

Of course, in view of these problems, it is possible to directly process the motor shaft of the assembled mass production motor without disassembling the motor, but it is difficult to directly process the female screw inside the motor shaft of the assembled mass production motor, the conventional female thread processing apparatus The furnace has a problem in that the female screw cannot be machined inside the motor shaft while the motor shaft is firmly fixed.

Furthermore, since the loads of the conventional assembled mass production motors are different and the volume of the motors is large, there is a problem that it is difficult to process the female screws on the inner side of the motor shaft by placing a heavy and bulky motor on the conventional female screw processing apparatus.

Looking at the conventional female thread processing device, a female thread processing device, which is registered utility model No. 20-0289597, has been conceived, which is a tab formed in the form of a male thread to process a female thread in a tab construction product, and the tab is once Connected to the main body, the inner end of which is open in the circumferential shape of the sleeve, the main shaft inserted into the sleeve so as to slide along the outer circumferential surface, and fixed up and down at a predetermined position on the outer circumferential surface of the sleeve, One of the gear stages comprising a sleeve operating handle independently coupled to the rotation of the sleeve and designed to exert an operator force in the tapping direction, one or more gears connected to one end of the main shaft to transmit power; A power source connected to the gear through an adapter and formed to surround the outside of the gear stage A magnetic base is fixed to one side of the housing and is connected to the housing to enable vertical adjustment, and a magnetic base composed of a magnet which is magnetically fixed to a handle, a pillar, and a tab construction product.

Such prior art female thread processing apparatus is usually configured to be used to process female threads on small nuts or small articles, and thus, it is difficult to process female threads inside the motor shaft of a bulky and heavy motor. And there is a problem.

In addition, female thread processing apparatuses capable of processing various kinds of female threads have been devised, but there is a problem that the female thread is somewhat inadequate for processing the internal thread inside the motor shaft of a heavy and bulky motor.

Accordingly, when machining the internal thread inside the motor shaft of a heavy and bulky motor, there is an urgent need for a processing device capable of processing the internal thread inside the motor shaft of a directly assembled and mass-produced motor without disassembling the motor. .

The present invention has been made to solve the problems caused by machining the internal thread on the inner side of the motor shaft of the conventional motor, and comprises a hole processing portion and a screw groove processing portion operated by the operation of the cylinder on both sides, the motor is raised By constructing the chuck to fix the motor to the seating part, the female thread can be machined inside the motor shaft of the assembled and mass-produced motor without disassembling the motor. The object is to provide a female thread processing apparatus for a motor shaft which can be imported.

The female thread processing apparatus of the motor shaft of the present invention as a means for achieving the above object, the motor is a female thread is processed on the inner shaft of the motor shaft, is hinged by a hinge pin to secure both sides of the support plate of the seated motor and the tightening bolt is configured Motor seats coupled to the upper surface of the chuck respectively; The motor shaft fixing unit is inserted and fixed to the motor shaft of the motor seated on the motor seating portion, the pulley is fitted to the outside of the motor shaft fixing portion, and connected to the pulley and the belt by rotating the pulley and the motor shaft fixing portion A motor shaft rotation support part composed of a driving motor for rotating the motor shaft inserted into the motor shaft fixing part; A hole processing part configured on a front surface of the motor shaft rotation support part to process a female screw hole on an inner side of the motor shaft rotated by the motor shaft rotation support part; A screw groove processing unit for processing a female screw on an inner circumferential surface of the female screw hole of the inner side of the motor shaft processed by the hole processing unit, in which a hole is horizontally located on one side of the hole processing unit; A sliding moving part having a hole groove part and a screw groove processing part respectively coupled to a front side and a moving groove part formed at a rear side thereof; A sliding guide part inserted into the moving groove part of the sliding moving part to guide the sliding moving part to the left or right by moving the moving groove part to the left / right side; A forward / backward cylinder including a cylinder rod configured to be in close contact with the side of the sliding movement part is included to move the sliding movement part left or right along the sliding guide part.

Since the female screw processing apparatus of the motor shaft of the present invention is mounted on the motor seat directly without disassembly in the state where a heavy and bulky motor is assembled and mass produced, the female screw is processed inside the motor shaft by the hole processing portion and the screw groove processing portion. Workability and productivity of the internal thread machining are greatly improved.

In addition, as the female shaft is directly processed while the motor shaft of the assembled and mass-produced motor is connected and assembled without disassembly of the motor, there is no need to disassemble or reassemble the motor, which greatly reduces the process and greatly improves practicality and processability. do.

In addition, since the motor seated on the motor seat and the female thread is machined on the inner side of the motor shaft is firmly fixed by the chuck, the flow rate of the motor is prevented during machining so that the defective rate is prevented.

In addition, since the female thread hole and the female thread are automatically machined inside the motor shaft by the first and second contact stoppers and the first and second control parts, the workability is greatly improved, thereby reducing the processing time and greatly improving the productivity.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings.

In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

1 is a perspective view showing a female screw processing apparatus of the motor shaft of the present invention, Figure 2 is a block diagram showing the main components of the female screw processing apparatus of the motor shaft of the present invention, Figure 3 is a hole processing part that is a constituent portion of the female screw processing apparatus of the motor shaft of the present invention. 4 is a configuration diagram showing a state in which the female thread hole is processed by, Figure 4 is a configuration diagram showing a state in which the hole processing portion and the screw groove processing portion, which is a constituent part of the female thread processing apparatus of the motor shaft of the present invention is moved to the left, Figure 5 Fig. 6 is a block diagram showing a state in which a female screw is processed by a screw groove processing unit, which is a constituent part of the female screw processing apparatus of the inventors' motor shaft. It is a block diagram.

As shown, the female thread processing apparatus of the present invention supports the motor seat 10 on which the motor M is seated, and the motor shaft M1 of the motor M seated on the motor seat 10. The motor shaft rotation support part 20, the hole processing part 30 which processes a female screw hole in the inner side of the motor shaft M1, the screw groove processing part 40 which processes a female thread in the inner side of the motor shaft M1, and the hole processing part ( 30) and the sliding moving part 50 for moving the screw groove processing part 40, the sliding guide part 60 in which the sliding moving part 50 is guided, and the forward / backward for moving the sliding moving part 50 forward and backward. The reverse cylinder 70 is comprised.

The motor seating part 10 has a motor M on which an internal thread is processed on the inner side of the motor shaft M1, and is hinged by a hinge pin 11 to fix both sides of the support plate M2 of the motor M seated. The chucks 13 hinged and the tightening bolts 12 are coupled to both sides of the upper surface, respectively.

Accordingly, the support plate M2 of the motor M seated on the motor seating part 10 is fixed by the chuck 13 to be firmly supported. The chuck 13 is the motor seating part 10. By being hinged by the hinge pin 11 fastened to the), not only can be rotated to the support plate (M2) side, but also using the tightening bolt 12 configured in the chuck 13 of the motor (M) The support plate M2 may be tightly fixed to the upper surface of the motor seat 10 by tightening the support plate M2, so that the motor M may be firmly supported.

The motor shaft rotation support unit 20 includes a motor shaft fixing unit 21 in which a motor shaft M1 of the motor M seated on the motor seating unit 10 is inserted and fixed, and the motor shaft fixing unit 21 is fixed. A motor inserted into the motor shaft fixing portion 21 by rotating the pulley 22 and the motor shaft fixing portion 21 by being connected to the pulley 22 and the pulley 22 and the belt 23 fitted to the outside of the pulley 22. It consists of a drive motor 24 for rotating the shaft M1.

Accordingly, the motor shaft M1 of the motor M is inserted into and fixed to the inside of the motor shaft rotation support 20, and is supported by the pulley 22 connected to the drive motor 24 and the belt 23. When the driving motor 24 is rotated, the pulley 22 is rotated so that the rotation of the motor shaft fixing portion 21 coupled with the pulley 22 is performed, so that the machining of the inner portion of the motor shaft M1 is performed. .

That is, when the motor shaft fixing portion 21 is rotated by the rotation of the drive motor 24 and the rotation of the motor shaft M1 proceeds, the hole processing portion 30 or the screw groove processing portion 40 rotates the motor. Since it pulls in to the shaft M1 side, the internal thread is processed on the inner side of the rotating motor shaft M1.

The hole processing portion 30 is formed on the front surface of the motor shaft rotation support portion 20 to process the female screw hole 31 on the inner side of the motor shaft M1 rotated by the motor shaft rotation support portion 20. The first drawing part 32 protruding toward the front side of the sliding moving part 50 and the first drawing part 32 are formed at the front end of the first drawing part 32, and the female screw hole 31 is formed at an inner side of the motor shaft M1. A hole processing tab 33 for machining a hole and a rear side of the first draw-out part 32 to advance the first draw-out part 32 to the motor shaft M1 or to retreat from the motor shaft M1. It consists of a first cylinder (34).

Therefore, when the motor shaft M1 is rotated by the rotation of the motor shaft fixing part 21, the advance of the first draw-out part 32 in which the hole processing tab 33 is operated through the first cylinder 34 is performed. It is inserted into the motor shaft M1 which is rotated by the movement, and the female screw hole 31 is machined inside the motor shaft M1.

The screw groove processing part 40 is located at one side of the hole processing part 30 in a horizontal direction with the hole processing part 30, and a female screw hole inside the motor shaft M1 processed by the hole processing part 30 ( 31) By processing the female screw 41 on the inner circumferential surface, the second lead-out portion 42 and the second lead-out portion 42 protruding toward the front side of the sliding movement portion 50, the motor is configured A thread groove tab 41 for processing the female thread 41 on the inner circumferential surface of the female thread hole 31 formed in the inner side of the shaft M1, and the second lead-out part located at the rear side of the second lead-out part 42. The second cylinder 44 is configured to advance 42 to the motor shaft M1 or to retreat from the motor shaft M1.

The screw groove machining part 40 also has the screw groove machining tab 43 in the process of continuously rotating the motor shaft M1 in which the female screw hole 31 is processed on the inner side by the rotation of the motor shaft fixing part 21. ) Is inserted into the motor shaft M1 rotated by the forward movement of the second draw-out part 42 operated through the second cylinder 44 so that the female screw 41 is provided on the inner side of the motor shaft M1. Processed.

In addition, the sliding movement unit 50, the hole processing unit 30 and the screw groove processing unit 40 are respectively coupled to the front and the movement groove 51 is formed on the rear, the movement of the sliding movement unit 50 Left or right along the sliding guide part 60 which is guided to the inside of the groove 51 to move the sliding groove 50 to the left or right by moving the moving groove 51 to the left / right. Direction, thereby positioning the hole processing portion 30 and the screw groove processing portion 40 on the motor shaft M1 that is fixedly supported and rotated by the motor shaft fixing portion 21, thereby providing an inner portion of the motor shaft M1. Machining of the female screw hole 31 and the female screw 41 is made.

At this time, according to the sliding guide portion 60 is moved to the left or right side of the sliding movement unit 50, the cylinder rod 71 is in close contact with the forward / backward cylinder 70 is configured, The sliding moving part 50 may be moved to the left or right by the sliding guide part 60.

As described above, the motor shaft M1 is rotated in a state where the motor M seated on the motor seat 10 is firmly fixed by the chuck 13, and the hole processing portion is formed inside the motor shaft M1. The hole machining tab 33 of the thread 30 and the thread groove tab 43 of the thread groove processing part 40 are sequentially inserted, so that the female thread 41 can be automatically machined inside the motor shaft M1. The workability of processing the internal thread on the inner side of the shaft is improved, and the motor does not have to be disassembled, resulting in an improvement in productivity and shortening of the processing time.

In addition, a first contact stopper 81 and a second contact stopper 82 are further configured in the hole processing part 30 and the screw groove processing part 40, respectively, The first cylinder 34 and the second contact with the first contact stopper 81 or the second contact stopper 82 to control the forward / backward movement of the hole machining part 30 and the screw groove machining part 40, respectively. The first control unit 80 which is electrically connected to the cylinder 44 is further configured.

In addition, the end of the sliding guide portion 60 is moved to the left / right side along the sliding guide portion 60 by the forward / backward operation of the cylinder rod 71 of the forward / backward cylinder 70. The second control unit 90 may be further configured to be electrically connected to the forward / backward cylinder 70 so as to interfere with the left movement of the sliding movement unit 50 and return to the right direction.

As described above, the hole processing tabs of the hole processing portion 30 introduced into the inner portion of the rotated motor shaft M1 are formed by the first and second contact stoppers 81 and 82 contacting the first control unit 80. 33) and the insertion length of the thread groove tab 43 of the screw groove part 40 can be controlled, and the hole machining tab 33 is drawn into the inner part of the motor shaft M1 to which the hole tab 33 rotates. When the one-contact stopper 81 comes into contact with the first control unit 80, the drawing of the hole-processing tab 33, which has been drawn in, is stopped and separated from the motor shaft M1. When the second contact stopper 81 comes into contact with the first control part 80 while the second contact stopper 81 contacts the first control part 80, the insertion of the screw groove processing tab 43 is stopped to stop the motor. Since the operation | movement which isolate | separates from the shaft M1 is made, the female screw 41 by the set depth is processed in the inner part of the motor shaft M1.

In addition, the operation of the cylinder rod 71 of the forward / reverse cylinder 70 is controlled through the second control unit 90 so that the hole processing unit 30 and the screw groove processing unit 40 are rotated. Is located on the side of the female thread hole 31 and the female thread 41 is processed, and after the machining is completed, the position of the hole processing portion 30 and the screw groove processing portion 40 from the motor shaft (M1) Restore to the original position completely off.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

1 is a perspective view showing a female screw processing apparatus of a motor shaft of the present invention.

It is a block diagram which shows the structural part of the female thread processing apparatus of the motor shaft of this invention.

3 is a configuration diagram showing a state in which a female thread hole is processed by a hole processing portion, which is a constituent portion of the female thread processing apparatus of the motor shaft of the present invention.

4 is a configuration diagram showing a state in which the hole processing portion and the screw groove processing portion, which are components of the female thread processing apparatus of the motor shaft of the present invention, are moved to the left side.

5 is a configuration diagram showing a state in which a female screw is processed by a screw groove processing unit, which is a constituent portion of the female screw processing apparatus of the motor shaft of the present invention.

Fig. 6 is a configuration diagram showing a state in which female thread processing is completed inside the motor shaft by the female thread processing apparatus of the motor shaft of the present invention.

<Description of the symbols for the main parts of the drawings>

M: Motor M1: Motor Shaft

M2: support plate 10: motor seat

11: Hinge pin 12: Tightening bolt

13: Chuck 20: Motor shaft rotation support

21: motor shaft government 22: pulley

23 belt 24 drive motor

30: hole processing part 31: female thread hole

32: first entry and exit 33: hole processing tab

34: first cylinder 40: screw groove machining

41: female thread 42: second draw-out

43: screw groove machining tab 44: the second cylinder

50: sliding moving part 51: moving groove

60: sliding guide part 70: forward / backward cylinder

71: cylinder rod 80: first control unit

81: first contact stopper 82: second contact stopper

90: second control unit

Claims (5)

The motor M to which the female thread is processed is seated inside the motor shaft M1, and is hinged by the hinge pin 11 to fix both sides of the support plate M2 of the seated motor M, and the tightening bolt 12 is fixed. A motor seat 10 coupled to the configured chuck 13 on both sides of an upper surface thereof; The motor shaft fixing part 21 in which the motor shaft M1 of the motor M seated on the motor seating part 10 is inserted and fixed, and the pulley 22 fitted to the outside of the motor shaft fixing part 21. And a driving motor connected to the pulley 22 and the belt 23 to rotate the pulley 22 and the motor shaft fixing part 21 to rotate the motor shaft M1 inserted into the motor shaft fixing part 21. A motor shaft rotation support portion 20 composed of 24; A hole processing part 30 formed on the front surface of the motor shaft rotation support part 20 to process the female screw hole 31 on the inner side of the motor shaft M1 rotated by the motor shaft rotation support part 20; A female screw 41 is disposed at an inner circumferential surface of the female screw hole 31 inside the motor shaft M1 which is positioned horizontally with the hole processing part 30 at one side of the hole processing part 30 and processed by the hole processing part 30. A screw groove processing part 40 to be processed; A sliding movement part 50 in which the hole processing part 30 and the screw groove processing part 40 are respectively coupled to the front side and the moving groove part 51 is formed on the rear side; Sliding guide for moving the sliding movement unit 50 to the left or right side by entering the inside of the movement groove 51 of the sliding movement unit 50 is moved to the left / right side. Section 60; A forward / reverse cylinder 70 including a cylinder bar 71 configured to be in close contact with the side of the sliding movement unit 50 to move the sliding movement unit 50 to the left or right along the sliding guide unit 60 is included. The female thread processing apparatus of the motor shaft characterized by the above-mentioned. The method of claim 1, The hole processing part 30 includes a first draw-out part 32 configured to protrude toward the front side of the sliding moving part 50; A hole processing tab 33 formed at the front end of the first draw-out part 32 to process the female screw hole 31 on the inner side of the motor shaft M1; A first cylinder 34 positioned at a rear side of the first draw-out part 32 to advance the first draw-out part 32 to the motor shaft M1 or back from the motor shaft M1; Female thread processing apparatus of the motor shaft, characterized in that. The method of claim 1, The screw groove processing portion 40, the second draw-out portion 42 protruding toward the front side of the sliding moving portion 50; A thread groove processing tab 43 formed at a tip end of the second draw-out part 42 to process the female screw 41 on the inner circumferential surface of the female screw hole 31 formed at the inner side of the motor shaft M1; A second cylinder 44 positioned on the rear side of the second draw-out part 42 to advance the second draw-out part 42 to or from the motor shaft M1; Female thread processing apparatus of the motor shaft, characterized in that. delete The method of claim 1, At the end of the sliding guide portion 60, the sliding movement portion moved to the left / right side along the sliding guide portion 60 by the forward / backward operation of the cylinder rod 71 of the forward / backward cylinder 70. And a second control unit (90) electrically connected to the forward / backward cylinder (70) to interfere with the left movement of the (50) to return to the right direction.

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