KR102195308B1 - cold forging apparatus - Google Patents

Abstract

The present invention relates to a straightener unit (B) having a new structure which can be easily repaired and maintained. A cold forging device according to the present invention has advantages that a component (6) is stored inside an outer case (11) when the component (6) used for repair and maintenance of the straightener unit (B) is placed on the bottom inside the outer case (11) and a door is closed, so that damage to the component (6) or the straightener unit (B) by touch of a moving worker to the component for repair (6) can be prevented.

Description

Cold forging apparatus {cold forging apparatus}

The present invention relates to a cold forging apparatus of a new structure that is easy to maintain.

In general, a cold forging device used to manufacture a product such as a short shaft or tubular member or bolt by processing a wire, as shown in Figs. 1 and 2, the wire 1 is wound around the circumferential surface. A supply unit (A) for supplying the wire (1) provided with the supplied reel (2), a straight line unit (B) for straightening the wire (1) released from the supply unit (A), and the straight line It consists of a processing unit (C) that manufactures a product by processing the wire (1) straight out of the unit (B).

The linear unit (B) is provided in the body (3), the transfer roller (4) provided in the body (3) to transfer the wire (1) to the rear, and the wire (1) provided in the body (3) It is composed of a plurality of forming rollers (5) that are in close contact with the circumferential surface of the wire (1) to be transferred to the rear in a straight line, and the wire (1) released from the winding roll passes through the forming roller (5) It is configured to be unfolded.

On the other hand, in such a linear unit (B), the forming roller 5 presses the outer circumferential surface of the wire 1 in various directions to straighten the wire 1, and the transfer roller 4 has a circumferential surface of the wire ( As it is in close contact with the circumferential surface of 1) and transfers the wire (1) to the rear, a strong pressure is applied to the molding roller (5) and the transfer roller (4), as well as abrasion on the molding roller (5) and the transfer roller (4). Occurs, and must be frequently maintained.

However, in order to maintain the molding roller 5 and the transfer roller 4 of the linear unit B, the operator takes the parts 6 stored in a separate place and repairs the parts 6 that have failed. It is necessary to replace it with a new one, but this process has a very cumbersome problem.

On the other hand, some workers stack up parts for repair (6) in advance on the upper surface of the body (3) of the straight unit (B), and use the parts (6) placed on the upper surface of the body (3) when maintenance is required. In this case, while the operator is moving, the parts (6) stacked on the main body (3) fall to the floor and are damaged, or the parts (6) are damaged by the straight unit (B). The wire (1) was damaged by colliding with the wire (1) passing through the wire (1), or a failure occurred in the linear unit (B).

Therefore, there is a need for a new method to solve this problem.

Registered Patent No. 10-0641799,

An object of the present invention is to solve the above problems, and to provide a cold forging apparatus having a new structure that is easy to maintain.

The present invention for achieving the above object, the supply reel (2) is provided with the wire (1) wound on the circumferential surface of the supply unit (A) for supplying the wire (1), and the supply unit (A Cold forging comprising a straight unit (B) for straightening the wire (1) released from the straight line (B), and a processing unit (C) for manufacturing a product by processing the wire (1) straight out from the straight unit (B) In the device, the straight unit (B) is provided with a door (11b) on one side and a through hole (11a) through which the wire (1) passes is formed on the front and rear surfaces so that the wire (1) passes through the inside in the front and rear. The outer case 11, a plurality of supports 12 provided to be spaced from the outer case 11 in the front-rear direction, and the wire 1 are provided on the support 12 and driven by a driving motor. The wire (1) is in close contact with the circumferential surface of the wire (1) provided on the support (12) and transferred to the rear by the transfer roller (15) A cold forging device comprising a plurality of unfolding forming rollers 13 and 14, and a cylinder 11c is connected to the door 11b to fix the door 11b in an open or closed state. Is provided.

According to another feature of the present invention, the linear unit (B) is provided inside the outer case (11) and is a washing means (20) for washing the circumference of the wire (1) passing through the forming rollers (13, 14). ), and further comprising a linear sensing means 30 provided inside the outer case 11 and detecting a linear state of the wire 1 passing through the washing means 20, and the washing means 20 A through hole (21f) through which the wire (1) passes is formed on the front and rear surfaces, and is located at the rear of the support (12) so that the wire (1) passing through the forming rollers (13,14) is in the front and rear direction. A washing case 21 penetrating into the washing case 21, a washing liquid spraying means 22 provided inside the washing case 21 and spraying a washing liquid to the circumference of the wire 1, and the rear of the washing liquid spraying means 22 A cleaning roll 23 that is provided to be positioned at and is in close contact with the circumferential surface of the wire 1 to clean the circumferential surface of the wire 1, and the cleaning roll 23 is provided at the rear of the wire 1 A fresh water spraying means 24 for spraying fresh water on the circumferential surface, and the water impregnated with the wire 1 by spraying high-pressure air to the circumferential surface of the wire 1 and provided at the rear of the fresh water spraying means 24 And a drying means (25) for removing, and an oil applying means (26) provided at the rear of the drying means (25) to apply oil to the circumferential surface of the wire (1), and the linear sensing means (30) Is a support block 31 located at the rear of the washing case 21 and formed such that a through hole 31a through which the wire 1 passing through the washing means 20 passes through the front and rear surfaces, and the support block First and second light emitting means (32,33) provided at the periphery of the through hole (31a) of (31) to irradiate light to the top and one side of the wire (1), and the through hole (31a) First and second light-receiving sensors (34,35) provided at the periphery and configured to emit light from the first and second light-emitting means (32,33) to receive light reflected from the top and one side of the wire (1) And, provided in front of the first and second light emitting means (32, 33) and the circumferential surface of the wire (1) Oil removal means 36 for scraping off and removing the oil applied to the oil, and a control means for controlling the operation of the oil removal means 36 by receiving signals from the first and second light-receiving sensors (34, 35) ( 37), and an alarm means (38) connected to the control means (37), the oil removing means (36) is coupled to the upper and lower sides of the through hole (31a) so as to be mutually liftable, and a semicircular shape on the adjacent surface A pair of scrapers (36a) having a concave groove (36c) of the scraper (36a), and a lift driving means (36b) connected to the scraper (36a) to lift the scraper (36a) in an adjacent direction, the The control means (37) receives signals from the first and second light-receiving sensors (34,35), emits light from the first and second light-emitting means (32,33), and is reflected from the circumferential surface of the wire (1). When the luminous intensity of light received by the first and second light-receiving sensors (34, 35) is measured, and when the luminous intensity of the measured light is lower than a preset luminous intensity value, the alarm means (38) is operated, and the By controlling the lifting driving means (36b), the oil applied to the circumferential surface of the wire 1 is scraped off by a predetermined length and removed, and signals from the first and second light-receiving sensors (34, 35) are received, and the There is provided a cold forging device, characterized in that, when the first or second light-receiving sensor (34, 35) does not detect the part where the oil has been removed from the wire (1), the alarm means (38) is operated. .

In the cold forging apparatus according to the present invention, when the part 6 used for maintenance of the straight unit B is placed on the inner bottom surface of the outer case 11 and the door is closed, the inside of the outer case 11 Since the part 6 is accommodated, there is an advantage that a moving operator can prevent damage to the part 6 or the straight unit B by touching the repair part 6.

1 is a side view showing a conventional cold forging apparatus,
2 is a side view showing a linear unit of a conventional cold forging device;
3 is a side view showing a cold forging apparatus according to the present invention,
Figure 4 is a side cross-sectional view of a straight unit of the cold forging apparatus according to the present invention,
5 is a front cross-sectional view showing a straight unit of a cold forging apparatus according to the present invention;
6 is a side cross-sectional view showing a straight unit of a second embodiment of a cold forging apparatus according to the present invention;
Figure 7 is a side cross-sectional view showing a washing means provided in the straight unit of the second embodiment of the cold forging apparatus according to the present invention;
Figure 8 is a side cross-sectional view showing a straight line sensing means provided in the straight unit of the second embodiment of the cold forging apparatus according to the present invention;
9 is a plan cross-sectional view showing a straight line sensing means provided in a straight unit of a second embodiment of a cold forging device according to the present invention;
10 is a front cross-sectional view showing a straight line sensing means provided in a straight unit of a second embodiment of the cold forging apparatus according to the present invention;
11 is a front view showing a straight line sensing means provided in the straight unit of the second embodiment of the cold forging apparatus according to the present invention;
12 is a circuit configuration diagram of a straight line detecting means provided in a straight unit of a second embodiment of a cold forging device according to the present invention.
11 and 12 are reference diagrams showing the action of the linear sensing means provided in the linear unit of the second embodiment of the cold forging apparatus according to the present invention.

Hereinafter, the present invention will be described in detail on the basis of the accompanying drawings.

3 to 5 show a cold forging apparatus according to the present invention, a supply unit (A) provided with a supply reel (2) wound around the wire (1) on a circumferential surface to supply the wire (1) And, a straight line unit (B) that straightens the wire (1) unwound from the supply unit (A), and a processing unit that manufactures a product by processing the wire (1) straight out from the straight line unit (B) ( The structure of C) is the same as the conventional one.

And, according to the present invention, the straight unit (B) is provided with a door (11b) on one side, and a through hole (11a) through which the wire (1) is formed on the front and rear surfaces, so that the wire (1) is moved forward and backward. An outer case 11 to penetrate through, a plurality of supports 12 provided to be spaced apart in the front and rear directions inside the outer case 11, and are provided on the support 12 and are driven by a driving motor to The wire (1) is in close contact with the circumferential surface of the transfer roller 15 for transferring (1) to the rear and the wire 1 provided on the support 12 and transferred to the rear by the transfer roller 15 It is composed of a plurality of forming rollers (13, 14) that straighten.

The outer case 11 is configured in the shape of a square box made of metal.

The door (11b) is provided on the right side of the outer case (11), the upper end is hinged to the front of the outer case (11), by rotating the door (11b) upward, the right side of the outer case (11) It is configured to be able to open.

In addition, a cylinder 11c is connected to the door 11b, and the door 11b is configured to be fixed in an open or closed state.

The support 12 is composed of three and is provided to be spaced apart from each other in the front-rear direction on the inner bottom surface of the outer case (11).

The forming rollers 13 and 14 are provided on the upper surface of the support 12 located at the most front, and the circumferential surface is in close contact with both sides of the wire 1, and the first forming roller 13 is located in the middle. It is provided on the side of the support 12 and consists of a second forming roller 14 whose circumferential surface is in close contact with the upper and lower surfaces of the wire 1, the wire 1 being the first and second forming rollers 13 and 14 It should be straightened while passing through.

The transfer roller 15 is provided on the side of the support 12 located at the most rear and is in close contact with the upper and lower surfaces of the wire 1, and is driven by a driving motor to pull the wire 1 to the rear and transfer it. do.

In the cold forging device configured as described above, when the part 6 used for maintenance of the straight unit B is placed on the inner bottom surface of the outer case 11 and the door is closed, the part inside the outer case 11 Since (6) is accommodated, there is an advantage that the moving operator can prevent damage to the parts 6 or the straight unit B by touching the repair parts 6.

6 to 14 show a second embodiment according to the present invention, wherein the linear unit (B) is provided inside the outer case 11 and passed through the forming rollers 13 and 14 ( 1) a washing means 20 for washing the periphery of the outer case 11, and a straight line detecting means 30 for detecting the linear state of the wire 1 that has passed through the washing means 20 This is more equipped.

As shown in FIG. 7, the washing means 20 is located at the rear of the support 12 and the wire 1 passing through the forming rollers 13 and 14 passes through the inside in the front and rear direction. (21), a washing liquid spraying means (22) provided inside the washing case (21) and spraying a washing liquid to the circumference of the wire (1), and positioned at the rear of the washing liquid spraying means (22), A cleaning roll 23 that is in close contact with the circumferential surface of the wire 1 to clean the circumferential surface of the wire 1, and is provided at the rear of the cleaning roll 23 to provide fresh water on the circumferential surface of the wire 1 A fresh water spraying means 24 for spraying, and a drying means provided at the rear of the fresh water spraying means 24 and spraying high-pressure air on the circumferential surface of the wire 1 to remove water from the wire 1 ( 25), and an oil application means 26 provided at the rear of the drying means 25 to apply oil to the circumferential surface of the wire 1.

The washing case 21 is made of a waterproof synthetic resin material, and is provided on the bottom surface of the outer case 11 so as to be located behind the support 12, and two or three partition walls ( 21a), the internal space is the first washing chamber 21b in the front, the second washing chamber 21c in the middle, the drying chamber 21d in the rear, and the coating chamber 21e behind the drying chamber 21d. It is divided into

At this time, through holes 21f through which the wire 1 passes are formed in the front and rear surfaces of the cleaning case 21 and the diaphragm.

The washing liquid spraying means 22 includes a pair of first spray nozzles 22a provided to be located above and below the wire 1 in the first washing chamber 21b, and a washing liquid is stored therein. Consisting of a washing liquid storage container 22b connected to the first injection nozzle 22a through a first supply pipe 22c and a first supply pump 22d provided in the first supply pipe 22c, the first supply When the pump 22d is operated, the washing liquid stored in the washing liquid storage container 22b is pressurized and sprayed at high pressure on the upper and lower surfaces of the wire 1 passing through the first washing chamber 21b through the first injection nozzle 22a.

At this time, the washing liquid is a mixture of detergent and water.

The cleaning roll 23 is located in the interior of the first cleaning chamber 21b at the rear of the first spray nozzle 22a, and consists of four, and is in close contact with each of the upper and lower sides and the left and right sides of the wire 1 It is provided so as to be rotated by a driving motor and configured to remove foreign substances attached to the circumferential surface of the wire 1.

The fresh water spraying means 24 includes a pair of second spray nozzles 24a provided to face the upper and lower surfaces of the wire 1 in the second washing chamber 21c, and fresh water is stored therein. 2 Consisting of a fresh water reservoir 24b connected to the second spray nozzle 24a through a supply pipe 24c, and a second supply pump 24d provided in the second supply pipe 24c, the second supply pump When (24d) is driven, the fresh water stored in the fresh water reservoir 24b is pressurized and supplied to the second spray nozzle 24a, thereby removing the washing liquid and foreign matter remaining on the circumferential surface of the wire 1.

The drying means 25 includes a pair of air injection nozzles 25a provided to face the upper and lower surfaces of the wire 1 in the drying chamber 21d, and the air injection nozzle ( It is composed of an air compressor 25b connected to 25a), and supplies high-pressure air to the air injection nozzle 25a so that air is injected to the circumferential surface of the wire 1 through the air injection nozzle 25a, Blow off the water on the circumferential surface of the wire 1, that is, fresh water.

The oil applying means 26 is provided inside the coating chamber 21e, is in close contact with both sides of the wire 1 and rotates by a driving motor, and the oil is stored therein. The oil reservoir (26b), the base end is connected from the oil reservoir (26b), the tip is a third supply pipe (26c) extending upward of the coating roller (26a), and the middle portion of the third supply pipe (26c) It is composed of a provided third supply pump 26d, and when the third supply pump 26d is driven, the oil stored in the oil reservoir 26b is supplied to the coating roller 26a through the supply pipe, and the coating roller ( 26a) is sufficiently wetted with oil, and when the coating roller 26a is rotated by the driving motor, the oil embedded in the coating roller 26a is applied to the entire circumferential surface of the wire 1.

At this time, the oil is a rust preventive oil having a high viscosity and excellent ability to reflect light, to prevent contamination of the wire 1, and light irradiated from the first and second light emitting means (32, 33) to be described later It functions to increase the reflectivity reflected from the surface of (1).

Accordingly, while the wire 1 passes through the cleaning means 20, foreign substances and the like attached to the circumferential surface are removed, and then the wire 1 is supplied to the linear sensing means 30 in a state where new oil is applied.

At this time, the first and second washing chambers 21b and 21c of the washing case 21 and lower portions of the application chamber 21e are formed with outlets, which are not shown, so that the washing liquid and fresh water sprayed by the washing liquid spraying means 22 The fresh water sprayed by the injection means 24 and the oil supplied by the oil application means 26 are configured to be discharged to the outside through the outlet.

As shown in Figs. 8 to 12, the straight line sensing means 30 is located at the rear of the washing case 21, and a through hole 31a through which the wire 1 passing through the washing means 20 passes. ) Is provided on the support block 31 formed on the front and rear surfaces, and the through hole 31a of the support block 31 to irradiate light on the top and one side of the wire 1 The light emitting means (32, 33) and the through hole (31a) is provided at the periphery of the light emitted from the first and second light emitting means (32, 33) and reflected from the top and one side of the wire (1). It is provided in front of the first and second light-receiving sensors (34,35) for receiving light, and the first and second light-emitting means (32,33), and scratches the oil applied to the circumferential surface of the wire (1). An oil removal means (36) to remove and remove, and a control means (37) for receiving signals from the first and second light-receiving sensors (34,35) and controlling the operation of the oil removal means (36), and the control It consists of an alarm means (38) connected to the means (37).

The support block 31 is formed in a rectangular block shape made of a metal material, and is fixed to the bottom surface of the outer case 11.

The first and second light emitting means 32 and 33 use an LED lamp that is provided with a lens and irradiates light to a narrow area of the upper surface and one side of the wire 1.

When the first and second light-receiving sensors 34 and 35 are irradiated by the first and second light-emitting means 32 and 33 to receive light reflected on the circumferential surface of the wire 1, the intensity of the received light is Is measured and the measured luminous intensity value is transmitted to the control means 37.

The oil removing means 36 is coupled to the upper and lower sides of the through hole 31a so as to be mutually liftable, and a pair of scrapers 36a having a semicircular concave groove 36c formed on the adjacent surface thereof, and the scraper It is connected to (36a) is composed of a lifting drive means (36b) for lifting the scraper (36a) in the adjacent direction.

The scraper (36a) is composed of a rubber material having elasticity, and when the wire (1) is raised in a direction adjacent to each other in a state in which it is transferred to the rear, the concave groove (36c) is in close contact with the upper and lower surfaces of the wire (1). As a result, it is configured to scrape off and remove the oil applied to the circumferential surface of the wire 1.

The lift driving means (36b) is provided on the support block (31) and is connected to the scraper (36a) so that the scraper (36a) is raised and lowered according to the control signal of the control means (37). Use.

When the wire (1) passed through the washing means (20) passes through the through hole (31a) of the support block (31), the control means (37) comprises the first and second light-receiving sensors (34,35) By receiving a signal of and measuring the intensity of light reflected from the circumferential surface of the wire 1, the linear state of the wire 1 is monitored.

That is, when the wire 1 is in a straight state, the light irradiated from the first and second light emitting means 32 and 33 is reflected on the top or side surfaces of the wire 1 and the first and second light receiving sensors ( 34,35) at normal light intensity.

However, when the wire 1 does not form a straight line, and the middle portion of the wire 1 is bent in the lateral direction or the vertical direction, as shown in FIGS. 13 and 14, the vertical direction or the lateral direction of the wire 1 The position is changed, and accordingly, the light irradiated from the first or second light emitting means 32 and 33 is reflected on a portion other than the upper and side surfaces of the wire 1 and thus the first or second light-receiving sensor ( 34, 35) is prevented from being reflected, and the luminous intensity of light measured by the first or second light receiving sensors 34 and 35 is lowered.

At this time, when the luminous intensity of light measured by the first or second light-receiving sensors 34 and 35 is lowered to a preset luminous intensity or less, the control means 37 is bent without forming a straight line. It is determined that it is determined that, by operating the alarm means 38, the operator is informed that a defect has occurred in the operation of the molding rollers 13 and 14.

In addition, the control means 37 controls the elevating driving means 36b of the oil removing means 36 at a preset cycle to scrape off and remove the oil applied to the circumferential surface of the wire 1 by a predetermined length. .

That is, since the wire 1 is continuously transferred backward by the transfer roller 15, the scraper 36a is raised and lowered in a direction adjacent to each other, as shown by a dotted line in FIG. ) Is in close contact with the circumferential surface of the wire 1, the oil applied to the circumferential surface of the wire 1 by the scraper 36a is caught by the scraper 36a and removed, and after a preset time elapses, When the scrapers 36a are raised and lowered in a direction separated from each other, the oil applied to the circumferential surface of the wire 1 is removed by a predetermined distance (for example, 10 mm).

And, the control means (37) receives the signals of the first and second light-receiving sensors (34, 35) and when the oil is removed from the wire (1) is not detected, the alarm means (38). By operating, it notifies the operator that an abnormality has occurred in the first or second light-receiving sensors 34 and 35.

That is, since the wire 1 is coated with oil, the reflectance at which the light irradiated from the first and second light emitting means 32 and 33 is reflected from the circumferential surface of the wire 1 increases, and thus, Bright light is received by the first and second light-receiving sensors 34 and 35.

In addition, when a part of the oil applied to the wire 1 is removed by using the oil removing means 36, the oil from the circumferential surface of the wire 1 irradiated by the first and second light emitting means 32 and 33 In the removed portion, the reflectance of light is lowered, and accordingly, the luminous intensity of light received by the first and second light emitting means 32 and 33 is lowered.

On the other hand, since the wire (1) is transferred to the rear at a constant speed, the control means (37) is the portion of the wire (1) from which oil has been removed by the oil removing means (36), the first and second light emission. It is possible to know the time to reach the position where the light of the means 32 and 33 is irradiated.

And, even if the portion from which the oil is removed from the wire 1 reaches the position where the light of the first and second light emitting means (32, 33) is irradiated, the first and second light receiving sensors (34, 35) When the luminous intensity of the measured light is not lowered, it may be determined that an abnormality has occurred in the first or second light-receiving sensors 34 and 35.

In this case, the control means 37 may notify the operator in real time that an abnormality has occurred in the first or second light-receiving sensors 34 and 35 by operating the alarm means 38.

In the cold forging apparatus configured as described above, the linear unit (B) uses the washing means 20 and the linear sensing means 30 to determine the linear state of the wire 1 passing through the forming rollers 13 and 14. By monitoring, there is an advantage of monitoring in real time that an abnormality has occurred in the linear unit B, including the forming rollers 13 and 14, and at the same time monitoring the malfunction of the linear sensing means 30. .

A. Supply unit B. Straight unit
C. Processing unit 1. Wire
11. Outer case 12. Support
13,14. Forming roller 15. Transfer roller
16. Buffering member 20. Washing means
30. Straight line detection means

Claims (2)

A supply unit (A) that is provided with a supply reel (2) on which a wire (1) is wound around the circumferential surface to supply the wire (1), and
A straight line unit (B) for straightening the wire (1) unwound from the supply unit (A),
In the cold forging apparatus comprising a processing unit (C) for manufacturing a product by processing the wire (1) straightened in the straight line unit (B),
The linear unit (B) is
A door 11b is provided on one side and a through hole 11a through which the wire 1 passes is formed on the front and rear surfaces so that the wire 1 passes through the inside in the front and rear, and the outer case 11
A plurality of supports 12 provided to be spaced apart from each other in the front and rear directions inside the outer case 11,
A transfer roller 15 provided on the support 12 and driven by a driving motor to transfer the wire 1 to the rear,
Includes a plurality of forming rollers (13, 14) provided on the support (12) and in close contact with the circumferential surface of the wire (1) transferred to the rear by the transfer roller (15) to straighten the wire (1) and,
A cylinder 11c is connected to the door 11b, and the door 11b is configured to be fixed in an open or closed state,
The linear unit (B) is
A cleaning means (20) provided inside the outer case (11) and for cleaning the periphery of the wire (1) passing through the forming rollers (13, 14),
It is provided inside the outer case (11) and further comprises a straight line detecting means (30) for detecting a linear state of the wire (1) passed through the washing means (20),
The washing means 20
A through hole (21f) through which the wire (1) passes is formed on the front and rear surfaces, and is located at the rear of the support (12) so that the wire (1) passing through the forming rollers (13, 14) is moved inside A washing case 21 passing through,
A washing liquid spraying means (22) provided inside the washing case (21) and spraying a washing liquid to the circumference of the wire (1),
A washing roll 23 provided to be positioned at the rear of the washing liquid spraying means 22 and in close contact with the peripheral surface of the wire 1 to clean the peripheral surface of the wire 1;
A fresh water spraying means 24 provided at the rear of the washing roll 23 to spray fresh water on the circumferential surface of the wire 1;
A drying means (25) provided at the rear of the fresh water spraying means (24) and spraying high-pressure air onto the circumferential surface of the wire (1) to remove water from the wire (1);
And an oil applying means 26 provided at the rear of the drying means 25 to apply oil to the circumferential surface of the wire 1,
The linear sensing means 30 is
A support block 31 positioned at the rear of the washing case 21 and formed so that a through hole 31a through which the wire 1 passing through the washing means 20 passes through the front and rear surfaces,
First and second light emitting means (32, 33) provided at the periphery of the through hole (31a) of the support block (31) to irradiate light to the upper surface and one side of the wire (1),
First and second light is provided at the circumference of the through hole 31a to emit light from the first and second light emitting means 32 and 33 to receive light reflected from the top and one side of the wire 1 Light-receiving sensors (34,35),
An oil removing means 36 provided in front of the first and second light emitting means 32 and 33 and for scraping off and removing oil applied to the circumferential surface of the wire 1;
A control means (37) for receiving signals from the first and second light-receiving sensors (34, 35) and controlling the operation of the oil removing means (36),
It includes an alarm means (38) connected to the control means (37),
The oil removal means 36
A pair of scrapers (36a) which are coupled to each other so as to be lifted up and down in the inner upper and lower sides of the through hole (31a) and formed with a semicircular concave groove (36c) on the adjacent surface,
It is connected to the scraper (36a) and includes an elevating driving means (36b) for raising and lowering the scraper (36a) in an adjacent direction,
The control means (37) receives signals from the first and second light-receiving sensors (34,35), emits light from the first and second light-emitting means (32,33), and reflects off the circumferential surface of the wire (1). The first and second light-receiving sensors (34, 35) measure the intensity of light received, and when the measured light intensity is lower than a preset intensity value, the alarm means (38) is operated, and By controlling the lift driving means (36b), the oil applied to the circumferential surface of the wire (1) is scraped off by a predetermined length, and signals from the first and second light-receiving sensors (34, 35) are received. The cold forging device, characterized in that, when the first or second light-receiving sensor (34,35) does not detect a portion from which oil has been removed from the wire (1), the alarm means (38) is operated. delete

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