KR101421982B1 - Apparatus for automatically producing ring-dusts for automobile - Google Patents

Abstract

An apparatus for producing a ring-dust for an automobile automatically comprises a number of pinch roller parts which comprise a driving roller and a support roller to support both sides of a band type metal plate and are arranged in a line along a transportation direction of the metal plate. A roller cross section of the driving roller and the support roller supporting and transporting the metal plate of each pinch roller part has an angle equal to or above 90 degrees and equal to or less than 180 degrees. The pinch roller parts include: a bent part which bends the metal plates by a fixed width along the length direction by arranging a roller cross section supporting the metal plate to decrease along the transportation direction of the metal plate; a cutting part for cutting the metal plate by a fixed interval transported by a cutter of a cutter member by installing the cutter member comprising the cutter at one side in a cutter frame; and an annular processing part which comprises a number of guide rollers supporting one side of the metal plate by being arranged around a circular member in order the circular member and the metal plate to be guided along an outer circumference of the circular member, and makes the metal plate be processed in an annular shape as going along the outer circumference of the circular member.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic ring-

More particularly, the present invention relates to an automobile ring dust automatic production apparatus capable of reducing manufacturing time while reducing manufacturing cost because there is little loss of material.

Currently, there is a ring dust (1) which is used as a single part in the wheel part of an automobile. Such an automotive ring dust 1 will be described with reference to FIG. 1. The automotive ring dust 1 has a circular shape and includes a horizontal portion 1a and a vertical portion 1b bent to the horizontal portion 1a. Such a ring dust for automobile has a circular portion located inside the vertical portion 1b in order to form the inner circumference of the ring dust 1 in a metal plate having a width larger than the outer diameter of the ring dust 1, Cut by punching and then punched out by a circular press in order to form the outer periphery of the ring dust 1, and then the ring-shaped circular plate is bent.

However, in this conventional manufacturing process, since the circular portion located inside the vertical portion 1b is cut to form the inner periphery of the ring dust 1, 90% or more of the raw material becomes a loss of the material There is a problem.

Therefore, in order to solve such a problem, an automatic production apparatus for ring dust in Patent Registration No. 1298064 has been developed by the present applicant. In Patent Registration No. 1298064, since the continuous strip-shaped metal plate material is continuously machined by the respective components arranged in a line on the main frame, the manufacturing time is shortened, And the high-quality ring dust can be mass-produced.

However, the bending portion for bending the metal plate in Patent Registration No. 1298064 includes a bending guide member disposed to face each other as shown in FIG. 6 of the patent and a bending rail member, so that the bending portion of the metal plate S, The portion of the metal sheet S that is bent in a state where it is supported by the bending guide member is gradually bent while advancing on the side surface of the bending rail member. However, at this time, the metal plate member is bent by the bending guide member, causing a slight tilting phenomenon, which is not smoothly conveyed.

Accordingly, it is an object of the present invention to provide a ring dust automatic manufacturing apparatus for automobile which can solve the problem of the above-mentioned prior art, which is the problem of the prior art, and which can produce the ring dust efficiently while smoothly transferring the metal plate, .

The apparatus for automatically manufacturing a ring dust for automobiles according to the present invention comprises drive rollers and support rollers for respectively supporting both sides of a strip-shaped metal plate for manufacturing a ring dust, and a plurality of pinch- Wherein each of the pinch roller portions has an angle of 90 degrees or more and 180 degrees or less with respect to a roller end of a driving roller and a supporting roller for supporting and conveying the metal plate member, A bending portion arranged to be sequentially decreased along the direction of conveyance of the metal plate and bending the metal plate in a longitudinal direction by a predetermined width;

A cutter member having a cutter at one side thereof mounted on the cutter frame and cutting the metal plate conveyed by the cutter of the cutter member at regular intervals;

And a plurality of guide rollers disposed around the circular member such that the metal plate material is guided along the outer circumferential surface of the circular member to support one surface of the metal plate material, wherein the metal plate material contacts the outer circumferential surface of the circular member And an annular tapered portion which is formed in the annular shape so as to be rounded.

Each of the pinch roller portions of the bent portion is further provided with a pneumatic cylinder in which one end of the cylinder rod is connected to the support roller so that the support roller is moved to a position at which the metal plate is supported and released.

The pinch roller unit may further include a proximity sensor for sensing the movement of the sensor dog moved together with the movement of the cylinder rod of the pneumatic cylinder so that the operation of the pneumatic cylinder is controlled by the sensing signal of the proximity sensor .

The cutter includes a bevel gear driven by a motor and a rotation guide member coupled to the upper side of the drive gear of the bevel gear. The cutter member is coupled to the upper side of the driven gear of the bevel gear, Is supported on the outer peripheral surface of the cutter member and is conveyed as the rotation guide member and the cutter member are rotated, and the metal plate material is cut at a predetermined interval by the cutter of the cutter member .

The conveying pinch roller unit includes a drive roller and a support roller for supporting both sides of the metal plate and between the bent part and the cutout part. The conveying pinch roller unit conveys the metal plate.

In addition, a ramp is formed around the outer circumferential surface of the circular member so that the metal plate member transported on the outer circumferential surface of the circular member is moved to the upper portion of the circular member.

Industrial Applicability According to the present invention, there is provided an automobile ring dust automatic production apparatus in which loss of material is scarce, manufacturing cost is reduced, manufacturing time is shortened, and productivity is improved.

Also, according to the present invention, there is provided an apparatus for automatically producing ring dust for automobiles in which a metal plate is smoothly transported and cut and processed so that manufacturing costs are reduced while ring dust is produced quickly.

1 is a perspective view showing an automotive ring dust produced by the apparatus of the present invention,
2 is a plan view of an automatic ring dust automatic production apparatus for an automobile according to the present invention,
Figure 3 is a front view of Figure 2,
Fig. 4 is a front view of the first pinch roller portion in Fig. 2,
Fig. 5 is a side view of the first pinch roller portion of Fig. 4,
Fig. 6 is a partial side view of the second pinch roller portion in Fig. 2,
Fig. 7 is a partial side view of the third pinch roller portion in Fig. 2,
FIG. 8 is a partial side view of the fourth pinch roller portion in FIG. 2,
Fig. 9 is a partial side view of the fifth pinch roller portion in Fig. 2,
Fig. 10 is a partial side view of the sixth pinch roller portion in Fig. 2,
Fig. 11 is a plan view of the guide roller portion in Fig. 2,
FIG. 12 is a front view of the cutting portion in FIG. 2,
Fig. 13 is a plan view of the annular tread in Fig. 2,
14 is a front view of the annular tread in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an automobile ring dust automatic production apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

2 is a front view of the first pinch roller unit in Fig. 2, Fig. 5 is a front view of the first pinch roller unit in Fig. 4, Fig. 3 is a front view of the first pinch roller unit in Fig. FIG. 6 is a partial side view of the second pinch roller portion in FIG. 2, FIG. 7 is a partial side view of the third pinch roller portion in FIG. 2, FIG. 8 is a partial side view of the fourth pinch roller portion in FIG. FIG. 10 is a partial side view of the fifth pinch roller portion in FIG. 2, FIG. 10 is a partial side view of the fifth pinch roller portion in FIG. 2, FIG. 11 is a plan view of the guide roller portion in FIG. FIG. 13 is a plan view of the annular tread in FIG. 2, and FIG. 14 is a front view of the annular tread in FIG.

An automatic ring dust automatic production apparatus for an automobile according to a preferred embodiment of the present invention comprises an introduction guide portion 10 which is respectively installed on a main frame 20 along the traveling direction of a metal plate material for manufacturing a ring dust, A guide roller unit 200, a conveying pinch roller unit 250, a cut unit 300, and an annular work unit 400 (see FIGS. 2 and 3).

First, the introduction guide unit 10 is for introducing and conveying a strip-shaped metal plate S used for manufacturing ring dust into the apparatus of the present invention, (S) is supported and continuously supplied.

The bent portion 100 is for continuously bending the metal sheet S fed from the introduction guide portion 10 along a longitudinal direction thereof by a predetermined width and is arranged in a line along the feeding direction of the metal sheet S And each of the pinch roller portions has an angle of 90 degrees or more and 180 degrees or less with respect to the roller cross section of the driving roller and the supporting roller for supporting and transporting the metal plate member, Are sequentially reduced along the conveying direction of the metal sheet S so as to bend the metal sheet S by a predetermined width in the longitudinal direction.

As shown in FIGS. 2 to 5, the first pinch roller unit 110 of the plurality of pinch roller units includes a roller frame 11 mounted on the upper surface of the main frame 20, A support roller 15 provided on the upper portion of the roller frame 11 so as to face the drive roller 12 and a support roller 15 which is installed on the upper side of the roller frame 11 And a pneumatic cylinder 16 for moving the pneumatic cylinder.

The roller frame 11 is composed of upper and lower plates 11a and 11b and a plurality of vertical columns 11c formed therebetween. A pneumatic cylinder 16 is provided on the upper surface of the upper plate 11a, A sensor bracket provided with an upper and a lower proximity sensor 18 is connected. The vertical column 11c is provided with a lifting plate 17 which is moved along the column and a supporting roller 15 is provided below the lifting plate 17. The upper and lower sensor dogs (19).

The driving roller 12 is provided on the lower plate of the roller frame 11 and rotates by the motor 13 to convey the metal plate S. The center portion is formed smaller in diameter than both sides, And the roller section of the central portion of the drive roller 12 on which the metal plate material is supported and supported is 165 °. A motor 13 is connected to one end of the rotating shaft 12a of the driving roller 12 and a timing pulley 14 is connected to another pinch roller unit by a timing belt.

The supporting roller 15 is installed on the lower portion of the lifting plate 17 and supports the upper surface of the metal plate S. The supporting roller 15 is formed such that its central portion is larger in diameter than both sides, The center of the support roller 15 supports the upper surface of the metal plate S at an angle of 165 °.

The pneumatic cylinder 16 is provided on the upper surface of the upper plate 11a of the roller frame 11 so as to move the support roller 15 up and down. The cylinder rod 16a of the pneumatic cylinder 16 is located below the upper plate 11a And its end portion is coupled to the upper portion of the lifting plate 17. As a result, as the cylinder rod 16a of the pneumatic cylinder 16 is drawn in and out, the lifting plate 17 coupled with the cylinder rod 16a is moved up and down along the vertical column 11c, ) Support or release the metal plate (S). The upward and downward movement positions for supporting or releasing the metal plate S by the support roller 15 are such that the upper and lower proximity sensors 18 move the upper and lower sensor dogs 19 provided on the lift plate 17 And stopping the cylinder rod 16a.

The second pinch roller unit 120 supports and feeds the metal plate S conveyed from the first pinch roller unit 110. The configuration of the second pinch roller unit 120 is similar to that of the first pinch roller unit 110, The roller end faces of the drive roller 12 and the support roller 15 of the second pinch roller portion 120 are supported by the second pinch roller portion 120 as shown in FIG. The metal plate S having passed through the metal plate 120 has a bent angle of 150 degrees.

Similarly, the roller end surface of the third pinch roller portion 130 is 135 degrees (FIG. 7), the roller end surface of the fourth pinch roller portion 140 is 120 degrees (FIG. 8) The roller section is 105 degrees (Fig. 9), and the sixth pinch roller section 160 is 90 degrees (Fig. 10).

Accordingly, the metal sheet S to be conveyed is bent at 90 degrees as it passes through the sixth pinch roller portion 160 from the first pinch roller portion 110.

The guide roller unit 200 guides the conveying of the bent metal sheet S as shown in FIG. 11, and is disposed opposite to the guide roller unit 200 to guide both sides of the bent portion of the sheet metal S And a pair of guide rollers 210 and 220 for supporting the guide rollers. The guide rollers 210 and 220 are disposed opposite to each other with the metal sheet S being conveyed therebetween. In this embodiment, the guide rollers 210 and 220 are disposed on both sides of the metal sheet.

The conveying pinch roller unit 250 is for conveying the sheet metal S conveyed through the guide roller unit 200 to the cutter 300 as shown in FIGS. And the detailed description thereof will be omitted here.

The cutting unit 300 cuts the bent metal sheet S fed by the feeding pinch roller unit 250 at regular intervals as shown in FIG. 12 and includes a motor 310 and a motor 310 A rotation guide member 320 coupled to the upper side of the driving gear 345 of the bevel gear 340 and a bevel gear 340 coupled to the upper side of the driven gear 350 of the bevel gear 340, Member 360 as shown in FIG.

The rotation guide member 320 is supported by a metal plate S bent to one side of the outer circumferential surface of the rotation guide member 320 and is coaxially coupled to the upper side of the driving gear 345 of the bevel gear 340, And a stepped seating surface 321 is formed on an outer peripheral surface of the rotation guide member 320 in the circumferential direction so that the bent metal sheet S is seated on the seating surface 321 and is conveyed.

The bevel gear 340 is coupled to the upper side of the main frame 20 and rotates the rotation guide member 320 and the cutter member 360 by the driving force of the motor 310. The bevel gear 340 includes a driving gear 345, The driven pulley 330 formed at one end of the rotating shaft 341 of the driving gear 345 is connected to the driving pulley of the motor 310 by a belt So that the rotational force of the motor 310 is transmitted to the bevel gear 340. The driven gear 350 is mounted on the cutter frame 370.

The cutter member 360 is for supporting and cutting the bent metal plate S supported and supported by the rotation guide member 320. The cutter member 360 is disposed coaxially on the upper side of the driven gear 350 of the bevel gear 340 And a cutter 361 for cutting the bent metal plate S is provided at one side of the outer circumferential surface of the cutter member 360. The cutter 361 rotates together with the driven gear 350 as the driven gear 350 rotates.

The cutter 300 is configured such that the driven pulley 330 formed at one end of the rotary shaft 341 of the drive gear 345 of the bevel gear 340 is connected to the drive pulley of the motor 310 by a belt, Is transmitted to the bevel gear 340 and the driving gear 345 of the bevel gear 340 rotates, the rotation guide member 320 rotates. Likewise, as the driven gear 350, which is at an angle of 45 degrees with the drive gear 345 of the bevel gear 340, rotates, the cutter member 360 rotates. The bent metal plate S is supported by the seating surface 321 of the rotation guide member 320 and the outer peripheral surface of the cutter member 360 and is conveyed as the rotation guide member 320 and the cutter member 360 rotate, The metal plate materials S are cut at regular intervals by the cutter 361 formed at one side of the member 360. [ Conventionally, the cutter member is moved in a direction orthogonal to the conveyed metal plate to cut the metal plate. However, in the cut portion of the present invention, the bent metal plate S is rotated by the rotation guide member 320 And the cutter member 360 are supported and transported, and are cut at regular intervals, so that the cutting of the material can be smoothly performed without causing the swelling of the material.

As shown in FIGS. 13 and 14, the annular groove 400 is formed by annularly machining a metal plate S to be transferred into a ring dust finished product. The annular groove 410 includes a circular member 410 disposed at the center, A plurality of guide rollers 420 disposed on the outer circumference of the circular member 410 and an inclined path 440 formed in a spiral shape around the outer circumferential surface of the circular member 410.

The circular member 410 is provided on the main frame 20 and has a circular outer circumferential surface so that the metal plate S which is bent and conveyed is formed into a circular shape while running on the outer circumferential surface of the circular member 410, The rotation of the circular member 410 is transmitted to the rotary member 410 of the circular member 410 by a motor or by a belt connected to the rotary shaft 341 of the drive gear 345 of the bevel gear 340 of the cut member 300, A plurality of guide rollers 430 are disposed in the circumferential direction and a ramp 440 is formed on one side of the outer circumferential surface of the circular member 410. An introducing roller 420 is disposed on one side of the circular member 410 so that a metal plate to be conveyed is supported between the circular member 410 and the introduction roller 420 and is conveyed. The plurality of guide rollers 430 guide the metal sheet S conveyed between the circular member 410 and the introduction roller 420 to be conveyed along the outer circumferential surface of the circular member 410, So as to support one side of the metal plate S. The ramp 440 is used to move the metal plate S to be conveyed to the upper portion of the circular member 410 while being conveyed on the outer circumferential surface of the circular member 410 by the guide roller 430, And is formed in a spiral shape around the outer peripheral surface.

The annular tapered portion 400 is formed so that the bent metal sheet S conveyed by the above configuration is transferred between the circular member 410 and the introduction roller 420 and is guided by a plurality of guide rollers 420 formed adjacent to the outer circumferential surface of the circular member 410, And is formed into an annular shape while rotating on the outer circumferential surface of the circular member 410 by the guide member 430. The metal plate S processed in the annular shape is gradually raised upward by the inclined path 440 to the upper side of the circular member 410 and the metal plate S moved to the upper portion of the circular member 410 is then rotated 400 by the metal plate material S and discharged to one side of the annular tread 400.

Hereinafter, an operation method of the apparatus for automatically manufacturing a ring dust for automobile according to a preferred embodiment of the present invention will be described in detail.

First, when one end of the rolled strip-shaped metal plate S is supplied to the upper portion of the driving roller 12 from the first pinch roller portion 110 of the bending portion 100 through the introduction guide portion 10 4, the cylinder rod 16a is drawn out from the pneumatic cylinder 16 so that the lifting plate 17 coupled to the lower end of the cylinder rod 16a descends along the vertical column 11c. The supporting roller 15 and the lower sensor dog 19 coupled to the lifting plate 17 are also lowered by the descent of the lifting plate 17 and the supporting roller 15 is lifted downward The lower proximity sensor 18 senses the lower sensor dog 19 and the operation of the cylinder 16 is stopped in response to the detection signal of the proximity sensor 18 so that the support roller 15 Stop. The drive roller 12 is rotated by the motor 13 of the first pinch roller unit 10 in the state where the support roller 15 supports the metal plate S so that the band- The metal plate S that has passed through the first pinch roller portion 110 becomes the roller end face of the drive roller 12 and the support roller 15 of the first pinch roller portion 110 by 165 °, The bent angle becomes 150 degrees.

Similarly, the second pinch roller unit 120 to the sixth pinch roller unit 160 operate in the same manner as the first pinch roller unit 120 to continuously support and feed the fed metal sheet S, And the metal plate S is bent at an angle of 90 degrees when it exits the sixth pinch roller portion 160.

The metal plate S is continuously bent and bent in the longitudinal direction by a predetermined width by the bent portion 100 and is fed to the feed pinch roller portion 250 through the guide roller portion 200 do. When one end of the bent metal plate S is supplied to the upper portion of the driving roller of the conveying pinch roller unit 250, the cylinder rod is drawn out from the pneumatic cylinder like the operation of the first pinch roller unit 110, (S). The process of raising and lowering the support roller is the same as that of the first pinch roller unit 110.

The bent metal sheet S conveyed by the conveying pinch roller unit 250 is supported at the cutter 300 and cut at a predetermined interval while being conveyed. In the cutter 300, the bent metal sheet S The rotation guide member 320 and the cutter member 360 are supported by the seating surface 321 of the rotation guide member 320 and the outer circumferential surface of the cutter member 360 to be conveyed as the rotation guide member 320 and the cutter member 360 rotate, The metal plate materials S are cut at regular intervals by the cutter 361. [ Therefore, the bent metal sheet S is cut at regular intervals every time the cutter member 360 makes one rotation.

The metal plate S cut at regular intervals is conveyed to the annular bill 400 and is guided by a plurality of guide rollers 410 formed adjacent to the outer circumferential surface of the circular member 410, And is formed into an annular shape while rotating on the outer circumferential surface of the circular member 410 by the guide member 430. The metal plate material S processed in the annular shape gradually rises to the upper side of the circular member 410 by the inclined path 440 and thus the metal plate material S processed into the ring dust 1 is transferred to the ring- And is discharged to one side.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention It will be understood that various modifications may be made without departing from the spirit and scope of the invention.

10: introduction guide part 100: bent part
110: first pinch roller unit 120: second pinch roller unit
130: third pinch roller section 140: fourth pinch roller section
150: fifth pinch roller section 160: sixth pinch roller section
200: Guide roller portion 250: Feed pinch roller portion
300: Cutting section 400:

Claims (7)

And a plurality of pinch roller parts arranged in a line along a conveying direction of the metal plate material, each of the pinch roller parts having a driving roller and a supporting roller for supporting both sides of a metal plate material for manufacturing a ring dust, The roller end of the drive roller and the support roller for supporting and conveying the plate member has an angle of 90 to 180 degrees and the plurality of pinch roller portions are formed such that the roller end face of the plate member is sequentially decreased along the conveying direction of the metal plate material A bending portion disposed to bend the metal plate in a longitudinal direction by a predetermined width,
A cutting portion provided with a cutter provided on one side thereof for cutting the metal plate conveyed by the cutter of the cutter member at regular intervals;
And a plurality of guide rollers disposed around the circular member such that the metal plate material is guided along the outer circumferential surface of the circular member to support one surface of the metal plate material so that the metal plate material runs along the outer circumferential surface of the circular member And an annular tapered portion which is formed into an annular shape,
The cutter includes a bevel gear driven by a motor and a rotation guide member coupled to the upper side of the drive gear of the bevel gear. The cutter member is coupled to the upper side of the driven gear of the bevel gear, Wherein the cutter member includes a seating surface formed on an outer circumferential surface of the rotation guide member and an automobile ring supported by the outer circumferential surface of the cutter member and conveyed as the rotation guide member and the cutter member rotate, Dust automatic production equipment. The method according to claim 1,
Wherein each pinch roller portion of the bending portion is further provided with a pneumatic cylinder in which one end of the cylinder rod is connected to the support roller so that the support roller is moved to a position at which the metal plate is supported and released. 3. The method of claim 2,
Wherein each of the pinch roller units further comprises a proximity sensor for detecting the movement of the sensor dog moved together with the movement of the cylinder rod of the pneumatic cylinder so that the operation of the pneumatic cylinder is controlled by the detection signal of the proximity sensor, Automatic production equipment. delete The method according to claim 1,
Further comprising a drive pinch roller unit for transferring the metal plate, the drive roller having a drive roller and a support roller for supporting both sides of the metal plate, between the bent part and the cut part. The method according to claim 1,
Wherein the circular member of the annular groove has an introducing roller at one side thereof to be supported and conveyed between a circular member in which the metal plate is rotated and the introducing roller. The method according to claim 1,
Wherein an inclined path is formed around the outer circumferential surface of the circular member so that the metal plate member transported on the outer circumferential surface of the circular member is moved to the upper portion of the circular member.

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