KR102079159B1 - screw manufacturing apparatus - Google Patents

Abstract

The present invention relates to a screw manufacturing apparatus of a new structure which is allowed to be able to effectively identify and separately discharge a cracked semi-finished product. The screw manufacturing apparatus according to the present invention is further provided with a semi-finished product inspection means (C) for inspecting a semi-finished product (2) in a forging machine (A). The semi-finished product inspection means (C) applies an impact to the semi-finished product (2) discharged from the forging machine (A) and inspects whether a crack is generated in the semi-finished product (2) by using vibration generated from the semi-finished product (2). Thereafter, the cracked semi-finished product (2) is separated and discharged separately, thereby having an advantage of being able to prevent screw manufacturing using the cracked semi-finished product (2).

Description

Screw manufacturing apparatus

The present invention relates to a screw manufacturing apparatus of a new structure that can effectively check the semi-finished product is cracks are discharged separately.

Generally, the screw used when fixing an object is comprised of the head part 1a and the thread part 1b extended from the said head part 1a, and the threaded part formed in the circumferential surface as shown in FIG.

And, as shown in Figure 2, the screw manufacturing apparatus for manufacturing the screw 1, the forging machine (A) for manufacturing and discharging the semi-finished product, and the semi-finished product discharged from the forging machine (A) to process the screw It consists of a screw processing machine (B) to manufacture and discharge.

The forging machine (A) is formed by cutting the long iron wire to a certain length and then forming a head portion in the forging method on one end of the cut iron wire, the head portion 2a and the rod-shaped extension extending from the head portion (2a) It is configured to manufacture and discharge the semi-finished product 2 composed of the parts 2b.

The screw machine (B) aligns the semi-finished product 2 discharged from the forging machine (A), and then pressurizes the circumferential surface of the extension (2b) of the semi-finished product (2) to form a thread.

On the other hand, such a screw manufacturing apparatus, when manufacturing the semi-finished product (2) by using the forging machine (A), cut the wire at a high speed, and hit the end of the cut wire to form the head portion (2a) semi-finished product By manufacturing (2), a large impact on the semi-finished product (2) may be strong, so that the semi-finished product (2) may be cracked, and the screw completed by using the semi-finished product (2) in which the crack is generated may also be defective. have.

In particular, if the semi-finished product 2, which is cracked, is supplied to the threading machine B, the semi-finished product 2 is broken in the process of forming a thread in the semi-finished product 2, so that a dropping part is generated. The dropping part is caught inside the threading machine (B), causing a problem that the threading machine (B) may be damaged.

Therefore, in recent years, when cracks are generated in the semi-finished product 2 manufactured and discharged in the forging machine A, a method of separately detecting the crack-produced semi-finished product 2 has been studied. No effective method has been developed.

Patent No. 10-0281572,

The present invention is to solve the above problems, it is an object of the present invention to provide a screw manufacturing apparatus of a new structure that can be effectively discharged by separately identifying the semi-finished product (2) is generated.

The present invention for achieving the above object is formed by cutting the iron wire to a certain length and then forming the head portion (2a) in the forging method on one end of the cut iron wire extending from the head portion (2a) and the head portion (2a) A thread is formed on the outer circumferential surface of the extension part 2b of the forging machine A for manufacturing and discharging the semi-finished product 2 composed of the rod-shaped extension part 2b and the semi-finished product 2 discharged from the forging machine A. In the screw manufacturing apparatus comprising a screw processing machine (B), further comprising a semi-finished product inspection means (C) for inspecting the semi-finished product 2 discharged from the forging machine (A), the semi-finished product inspection means (C) A guide rail 10 extending in the front-rear direction and guided so that the semi-finished product 2 discharged from the forging machine A moves to be aligned in a line with the head portion 2a facing upward, and then discharged to the rear; It is provided on the guide rail 10 and transported rearward along the guide rail 10 The screw sensing means 20 for sensing the semi-finished product 2, and the head portion 2a of the semi-finished product 2 provided on the rear end of the guide rail 10 and conveyed backward along the guide rail 10 Price means (30) for price) and vibration sensing means for measuring vibration generated in the head portion (2a) of the semi-finished product (2) priced by the price means (30) and priced by the price means (30) 40, an air blower 50 provided at one rear side of the guide rail 10 to blow the semi-finished product 2 discharged to the rear of the guide rail 10 laterally, and the guide rail 10. And a discharge means (60) provided at the rear of the other side and discharging laterally the semi-finished product (2) blown laterally by the air blower (50), the screw detecting means (20) and the vibration detecting means ( A control means (80) for receiving a signal of 40 and controlling the operation of the air blower (50); The guide rail 10 extends inclined downward to the rear and is provided with a pair of guide bars 11 laterally spaced apart from each other, a connecting bar 12 interconnecting the guide bars 11, and the connecting bar. When the semi-finished product 2 is supplied to the upper side of the guide bar 11, including a support bar 13 extending downward from the (12) and fixed to the bottom surface, the semi-finished product 2 is the head portion (2a) The extension part 2b is caught by the upper surface of the guide bar 11 and is configured to be transported backward along the inclination of the guide bar 11 in a state extending downward, and the screw detecting means 20 is the connection bar. The guide rail 10 includes a support part 21 extending upwardly from both sides of the 12, and a light emitting part 22 and a light receiving part 23 provided to face each other on an adjacent surface of the support part 21. When the head portion 2a of the semifinished product 2 conveyed backward along the line passes between the light emitting portion 22 and the light receiving portion 23, Since the light output from the light portion 22 is not covered by the head portion 2a and is not received by the light receiving portion 23, the semi-finished product 2 can sense that the light passes between the light emitting portion 22 and the light receiving portion 23. The price means 30 is composed of a support 31 provided above the middle portion of the guide bar 11 and a bar shape extending in the front and rear directions, and the middle portion is formed by the rotation shaft 32a. The price member 32 is rotatably coupled to the support 31 in the up and down direction, and the elastic member 33 is connected to the price member 32 and elastically presses the front end of the price member 32 to rotate downward. And a rotation means (34) provided on the support (31) to press the rear end of the price member (32) downward so that the front end of the price member (32) rotates upward. 34) press the rear end of the price member 32 to the lower side and then release After the front end of the price member 32 is raised is lowered by the elasticity of the elastic member 33 is transferred to the rear along the guide rail 10 to pass through the position of the screw detecting means 20 ( It is configured to hit the upper surface of the head portion (2a) of 2), the vibration sensing means 40 is provided in the price member 32 when the price member 32 strikes the head portion (2a) price member ( It is configured to detect the vibration transmitted to 32, the discharge means 60 is provided with a support frame 61 to extend in the vertical direction on the other rear of the guide rail 10, and the support frame 61 It is provided in the upper and lower end of the guide roller 62 is rotated by a drive motor, the circulation belt 63 of the rubber material coupled to the circumference of the guide roller 62, and the inside of the circulation belt 63 The semifinished product 2 blown by the air blower 50 has two of the circulation belts 63. It includes a magnet member 64 to be attached to the surface, the control means 80 receives the signal of the screw sensing means 20 is discharged from the forging machine (A) is rear along the guide rail (10) When it is detected that the semi-finished product 2 transferred to the position of the screw detecting means 20 reaches the position of the screw detecting means 20, the price of the semi-finished product 2 by sensing the vibration generated in the semi-finished product 2 by price 30 If it is detected that the crack has occurred in the semi-finished product (2) is determined that the crack is generated by operating the air blower 50 to discharge the cracked semi-finished product (2) to the discharge means (60) A screw manufacturing apparatus is provided.

Screw manufacturing apparatus according to the invention is further provided with a semi-finished product inspection means (C) for inspecting the semi-finished product (2) in the forging machine (A), the semi-finished product inspection means (C) is a semi-finished product discharged from the forging machine (A) ( 2) and the crack was generated in the semi-finished product 2 using the vibration generated in the semi-finished product 2, and then the cracked semi-finished product 2 is separated and discharged separately to generate cracks. There is an advantage that can be prevented to manufacture the screw using the semi-finished product (2).

1 is a perspective view showing an example of a general screw,
Figure 2 is a side view showing a conventional screw manufacturing apparatus,
Figure 3 is a side view showing a screw manufacturing apparatus according to the present invention,
Figure 4 is an enlarged side view of the semi-finished product inspection means of the screw manufacturing apparatus according to the present invention,
Figure 5 is an enlarged side cross-sectional view of the main portion of the semi-finished product inspection means of the screw manufacturing apparatus according to the present invention;
6 is a cross-sectional view showing a cross section taken along the line DD of FIG. 5;
FIG. 7 is a cross-sectional view illustrating a cross section taken along the line EE of FIG. 5;
8 is a rear side view showing the air blower and the discharge means of the semi-finished product inspection means of the screw manufacturing apparatus according to the present invention;
9 is a circuit configuration of the semi-finished product inspection means of the screw manufacturing apparatus according to the present invention,
10 to 12 is a reference diagram showing the action of the semi-finished product inspection means of the screw manufacturing apparatus according to the present invention.

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

3 to 12 illustrate a screw manufacturing apparatus according to the present invention. After cutting the wire to a certain length, the head portion 2a is formed by a forging method on one end of the cut wire, and the head portion 2a and the head are formed. Forging machine (A) for manufacturing and discharging the semi-finished product (2) consisting of a rod-shaped extension (2b) extending from the section (2a), and the extension of the semi-finished product (2) discharged from the forging machine (A) ( 2b) It is the same as the conventional one comprised of the screw machine B which forms a thread in the outer peripheral surface.

At this time, the forging machine (A) has a discharge port is formed in the rear, it is configured to discharge the semi-finished product (2) manufactured through the discharge port one by one.

In addition, the screw manufacturing apparatus according to the present invention is further provided with semi-finished product inspection means (C) for inspecting the semi-finished product 2 discharged from the forging machine (A).

In detail, the semi-finished product inspection means (C) is extended in the front and rear direction and the semi-finished product (2) discharged from the forging machine (A) moves so that the head portion (2a) is aligned in a line in the upward direction Guide rail 10 for guiding to be discharged to the rear, screw sensing means 20 for sensing the semi-finished product (2) provided on the guide rail 10 to be transported to the rear along the guide rail 10, and the guide Price means (30) provided on the rear end of the rail (10) to price the head portion (2a) of the semi-finished product (2) transported to the rear along the guide rail (10) and the price means (30) Vibration sensing means 40 for measuring the vibration generated in the head portion (2a) of the semi-finished product 2 is priced by the price means 30, and provided on one side of the rear of the guide rail (10) Blow out the semi-finished product 2 discharged to the rear of the guide rail 10 in the lateral direction The air blower 50 and the discharge means 60 is provided on the other side of the rear of the guide rail 10 and discharged in the lateral direction the semi-finished product (2) blown laterally by the air blower (50) and Is provided on the rear lower side of the guide rail 10, the first collecting barrel 71 for collecting the semi-finished product 2 discharged to the rear of the guide rail 10 and provided in the lower side of the discharge means (60) And receiving a signal from the second collecting container 72 for collecting the semi-finished product 2 discharged to the lower side of the discharge means 60, the screw detecting means 20 and the vibration detecting means 40, and the air blower. Control means (80) for controlling the operation of the (50).

The guide rail 10 extends to be inclined downward to the rear, and a pair of guide bars 11 laterally spaced apart from each other, a connecting bar 12 connecting the guide bars 11 to each other, and the connection It consists of a support bar 13 extending downward from the bar 12 and fixed to the bottom surface.

As shown in FIGS. 5 and 6, the guide bar 11 has a high-strength circular shape, and the lateral spacing is wider than the diameter of the extension part 2b and the diameter of the head part 2a. It is configured narrower than, the front end portion is configured to be connected to the lower side of the outlet formed in the rear of the forging machine (A).

Therefore, when the semi-finished product 2 processed in the forging machine A is supplied to the upper side of the space between the guide bars 11 through the outlet, the semi-finished product 2 is the head portion 2a is the guide bar 11 The extension part 2b is caught on the upper surface of the bottom) and is transported backward along the inclination of the guide bar 11, and then discharged backward and collected in the first collecting container 71.

As shown in FIGS. 5 and 6, the screw detecting means 20 faces the support part 21 extending upward from both sides of the connection bar 12 and the adjacent surface of the support part 21. It is composed of a light emitting portion 22 and a light receiving portion 23 provided.

The light emitter 22 is configured to irradiate light to the light receiver 23, and the light receiver 23 is configured to receive light emitted from the light emitter 22.

Therefore, as shown in FIG. 10, when the head portion 2a of the semifinished product 2 conveyed backward along the guide rail 10 passes between the light emitting portion 22 and the light receiving portion 23, Since the light output from the light emitting part 22 is not covered by the head part 2a and is not received by the light receiving part 23, the semi-finished product 2 detects the passage between the light emitting part 22 and the light receiving part 23. can do.

5 and 7, the price means 30 is composed of a support 31 provided on the upper side of the middle portion of the guide bar 11, a bar shape extending in the front and rear direction, the middle portion of the rotating shaft A price member 32 coupled to the support member 31 so as to be rotatable in the up and down direction by a 32a, and elastically connected to the price member 32, such that the front end of the price member 32 is rotated downward. Composed of an elastic member 33 for pressurizing, and a rotating means 34 provided on the support 31 to press the rear end of the price member 32 downward so that the front end of the price member 32 is rotated upward. do.

The support 31 has a vertical portion 31a extending from the both sides of the connecting bar 12 to the upper side of the guide bar 11, a horizontal portion 31b connected to the upper end of the vertical portion 31a, It consists of a pair of support plates 31c provided to be spaced apart from each other in the central portion of the upper surface of the horizontal portion (31b).

The price member 32 is made of elastic carbon steel material, the front end portion is formed with a spherical price portion (32b).

In addition, the rotation shaft 32a is positioned longer than the distance from the rotation shaft 32a to the front end of the price member 32 compared to the distance from the rotation shaft 32a to the rear end of the price member 32, It is rotatably coupled to the support plate 31c.

The elastic member 33 is coupled to the outer side of the rotation shaft 32a and both ends are connected to the price member 32 and the support 31, respectively, the torsion spring for pressing the tip portion of the price member 32 to rotate downward To use

The rotation means 34 is coupled to the servo motor 34a provided to extend laterally on the support 31 and the drive shaft of the servo motor 34a, and the rear end portion of the price member 32 is located at one side of the outer circumferential surface thereof. The pressing portion 34c for pressing downward is composed of a protruding rotary block 34b.

Accordingly, as shown in FIG. 10, when the rotary block 34b is rotated by the servo motor 34a, the pressing part 34c presses the rear end of the price member 32 downward to prevent the price member 32. As the front end is raised, and as shown in FIG. 11, when the rotary block 34b is further rotated, the pressing part 34c is separated from the rear end of the price member 32, and thus, the elastic member ( 33, the front end of the price member 32 is rotated downward, so that the price portion 32b of the price member 32 moves the upper surface of the head portion 2a of the semi-finished product 2 transferred along the guide rail 10. Price.

On the other hand, vibration generated when the price portion 32b strikes the upper surface of the head portion 2a of the semifinished product 2 is transmitted to the price member 32.

The vibration sensor is provided in the middle portion of the price member 32, the vibration transmitted to the price member 32 when the price portion 32b strikes the upper surface of the head portion 2a of the semi-finished product 2, That is, the pattern of vibration is measured.

As shown in FIGS. 5 and 12, the air blower 50 has an injection nozzle 51 provided to face the left side of the rear side of the guide rail 10 and air connected to the injection nozzle 51. Composed of a compressor 52, the semi-finished product is discharged to the rear of the guide rail 10 by being operated by the control signal of the control means 80 to inject high-pressure air to the left through the injection nozzle 51 It is configured to blow (2) to the left.

5 and 12, the discharge means 60, the support frame 61 provided to extend in the vertical direction on the other rear side of the guide rail 10, and the upper and lower ends of the support frame 61 The guide roller 62 is provided in the rotation by the drive motor, the circulation belt 63 of the rubber material coupled to the circumference of the guide roller 62, and is provided inside the circulation belt 63 The semi-finished product 2 blown by the air blower 50 is composed of a magnet member 64 to be attached to the circumferential surface of the circulation belt (63).

In this case, the circulation belt 63 includes a diesel passage 63a passing through the upper and lower sides of the guide roller 62, and left and right linear portions 63b and 63c connecting the diesel passage 63a.

The magnet member 64 is provided to be in close contact with the left side of the right straight portion 63c of the circulation belt 63.

Therefore, as shown in FIG. 12, when the semifinished product 2 pushed by the air blower 50 collides with the right side surface of the right straight portion 63c of the circulation belt 63, the semifinished product 2 is a magnet. The member 64 is attached to the right straight portion 63c.

In addition, when the circulation belt 63 is circulated in the clockwise direction, as the right straight portion 63c is lowered, the semifinished product 2 is lowered together, and the semifinished product 2 is lower than the magnet member 64. When lowered, the magnetic force of the magnet member 64 is removed so that the semi-finished product 2 is dropped by its own weight and collected in the second collecting container 72.

Therefore, the semifinished product 2 pushed out laterally by the air blower 50 can be stably collected in the second collecting container 72.

That is, the air blower 50 pushes the semi-finished product 2 by injecting high pressure air in a wide range, so that the semi-finished product 2 pushed out by the air blower 50 is not uniformly popped laterally. As a result, the protruded semi-finished product 2 may not be accurately collected in the second collecting container 72.

At this time, the discharge means 60 is provided on the side where the semi-finished product 2 is pushed out, and after fixing the pushed semi-finished product 2, the discharged to the lower side is pushed laterally by the air blower 50. The semi-finished product 2 can be accurately collected in the second collecting container 72.

The first and second collection cylinders 72 are configured in a general cylindrical shape with an open upper side.

The control means 80 receives the signal of the screw sensing means 20 is discharged from the forging machine (A) and the semi-finished product (2) is conveyed to the rear along the guide rail 10 is the screw sensing means (20) When it is detected that the position of), the price means 30 to detect the vibration generated in the semi-finished product (2) to detect whether a crack occurred in the priced semi-finished product (2).

That is, by using the price member 32 of the price means 30, the vibration generated when the impact product is not cracked, and the vibration generated when the impact product is cracked is different from each other By detecting the difference in vibration in such a product, it is possible to check whether a crack occurs in the product.

At this time, the semi-finished product 2 priced by the price means 30 slides backward through the guide rail 10, and if it is determined that a crack has occurred in the semi-finished product 2, the control means 80 By operating the air blower 50 at the timing that the semi-finished product 2 is discharged to the rear of the guide rail 10, and discharges the semi-finished product 2 is generated to the discharge means (60).

Thus, the semi-finished product 2 discharged to the discharge means 60 is discharged to the lower side according to the operation of the discharge means 60, is collected in the second collecting container (72).

On the contrary, when no crack is generated in the semifinished product 2, the semifinished product 2 is discharged to the rear of the guide rail 10 and collected in the first collecting container 71.

The screw manufacturing apparatus configured as described above is further provided with semi-finished product inspection means (C) for inspecting the semi-finished product (2) in the forging machine (A), the semi-finished product inspection means (C) is semi-finished product (2) discharged from the forging machine (A) ) And inspecting whether cracks have occurred in the semi-finished product 2 by using the vibration generated from the semi-finished product 2, and then the crack-produced semi-finished product 2 is separated and discharged separately. There is an advantage that can be prevented to manufacture the screw using the semi-finished product (2).

A. Forging Machine B. Threading Machine
C. Semi-finished product inspection means

Claims (1)

Semi-finished product consisting of the head part 2a and the rod-shaped extension part 2b extended from the head part 2a by forming the head part 2a in the forging method in the one end of the cut | disconnected iron wire after cutting to a fixed length. (2) forging machine (A) to manufacture and discharge;
In the screw manufacturing apparatus comprising a threading machine (B) for forming a thread on the outer peripheral surface of the extension (2b) of the semi-finished product 2 discharged from the forging machine (A),
It further comprises a semi-finished product inspection means (C) for inspecting the semi-finished product (2) discharged from the forging machine (A),
The semi-finished product inspection means (C)
A guide rail 10 extending in the front-rear direction and guided so that the semi-finished product 2 discharged from the forging machine A moves to be aligned in a line with the head portion 2a facing upward, and then discharged to the rear;
Screw sensing means 20 provided on the guide rail 10 for detecting the semi-finished product 2 is transported to the rear along the guide rail 10,
Price means (30) is provided on the rear end of the guide rail 10 to price the head portion (2a) of the semi-finished product (2) transported backward along the guide rail (10),
Vibration sensing means 40 for measuring the vibration generated in the head portion (2a) of the semi-finished product 2 is provided in the price means 30 and priced by the price means 30,
An air blower 50 provided at one rear side of the guide rail 10 to blow the semi-finished product 2 discharged to the rear of the guide rail 10 laterally;
Discharge means (60) provided on the other side of the rear of the guide rail 10 to discharge the semi-finished product 2 blown laterally by the air blower (50),
It includes a control means 80 for receiving the signals of the screw detecting means 20 and the vibration detecting means 40 and controls the operation of the air blower 50,
The guide rail 10 extends to be inclined downward to the rear and a pair of guide bars 11 which are laterally spaced apart from each other,
A connection bar 12 interconnecting the guide bar 11;
Including a support bar 13 is fixed to the bottom surface extending downward from the connection bar 12,
When the semi-finished product 2 is supplied to the upper side of the guide bar 11, the semi-finished product 2 has the head portion 2a caught on the upper surface of the guide bar 11 and the extension portion 2b extends downward. Is configured to be transported backward along the inclination of the guide bar 11,
The screw detecting means 20 is
Including the support portion 21 extending upward from both sides of the connecting bar 12, and the light emitting portion 22 and the light receiving portion 23 provided to face each other on the adjacent surface of the support portion 21,
When the head portion 2a of the semi-finished product 2 conveyed backward along the guide rail 10 passes between the light emitting portion 22 and the light receiving portion 23, the light output from the light emitting portion 22 is transmitted. The semi-finished product 2 is configured to detect that the semi-finished product 2 passes between the light emitting part 22 and the light receiving part 23 by being blocked by the head part 2a and not received by the light receiving part 23.
The price means 30
A support 31 provided above the middle part of the guide bar 11;
Price member 32 is composed of a bar shape extending in the front and rear direction and the middle portion is rotatably coupled to the support 31 in the vertical direction by the rotating shaft (32a),
An elastic member 33 connected to the price member 32 and elastically urging the front end of the price member 32 to rotate downward;
It includes a rotating means 34 provided on the support 31 and presses the rear end of the price member 32 to the lower side so that the front end of the price member 32 is rotated upwards,
When the rear end of the price member 32 is pressed down by the pivoting means 34 and then released, the front end of the price member 32 is raised and then lowered by the elasticity of the elastic member 33 to guide the beam. It is configured to hit the upper surface of the head portion (2a) of the semi-finished product 2 is conveyed backward along the 10) passing through the position of the screw sensing means 20,
The vibration detecting means 40 is provided in the price member 32 is configured to detect the vibration transmitted to the price member 32 when the price member 32 strikes the head portion 2a,
The discharge means 60 is
And the support frame 61 provided to extend in the vertical direction on the other rear side of the guide rail 10,
A guide roller 62 provided at upper and lower ends of the support frame 61 and rotated by a driving motor;
A circulation belt 63 made of rubber material coupled to the circumference of the guide roller 62;
A magnet member 64 provided inside the circulation belt 63 to attach the semi-finished product 2 blown by the air blower 50 to the circumferential surface of the circulation belt 63;
The control means 80 receives the signal of the screw sensing means 20 is discharged from the forging machine (A) and the semi-finished product (2) is conveyed to the rear along the guide rail 10 is the screw sensing means (20) When it is detected that the position of) is reached, the price means 30 to detect the vibration generated in the semi-finished product (2) to detect whether a crack has occurred in the priced semi-finished product (2), to the semi-finished product (2) When it is determined that the crack is generated by operating the air blower 50, the screw manufacturing apparatus, characterized in that for discharging the semi-finished product (2) is generated to the discharge means (60).

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