KR101927226B1 - Pressing Apparatus for welding stud bolt - Google Patents

Abstract

The present invention relates to a pressing apparatus for a welding stud bolt. According to the present invention, a supplied steel wire material is cut, transferred, and pressurized to manufacture a welding stud bolt through the pressing apparatus. More specifically, when pressurizing and fixing a flux ball in a stud bolt, a compression unit is formed to protrude on a surface of a support unit coming in contact with the stud bolt, and when the compression unit pressurizes the proximity of an outer circumferential surface on which the flux ball is pressed and fixated, the stud bolt is compressed and deformed toward the flux ball. Therefore, an outer circumferential surface of the flux ball is surrounded by being pressed and pushed to promote stable fixation, and the compression unit is cut into a plurality of pieces to enable a contact area with the stud bolt to be narrower to provide a greater pressurization force with the same power.

Description

[0001] Welding Stud Bolt [0002]

[0001] The present invention relates to a press-fitting apparatus for manufacturing a welded stud bolt by cutting, transporting and pressing a supplied steel wire material. More particularly, the present invention relates to a press-fit apparatus for pressing a flux ball on a stud bolt, When the pressing portion presses the vicinity of the outer circumferential surface to which the flux ball is press-fitted and fixed, the stud bolt is pressed and deformed toward the flux ball so as to enclose the outer circumferential surface of the flux ball by being pressed and pressed, The present invention relates to a welding stud bolt flux ball infeed device capable of having a larger pressing force even with the same size of force by making the contact area with the stud bolt narrower.

Generally, the welding stud bolt is welded and fixed to the surface of a building steel such as an I-shaped steel or a U-shaped steel to be used for increasing the bonding force between the steel for construction and concrete when casting the concrete.

The welding stud bolt is formed with a connecting groove at its tip end, and an aluminum ball functioning as a current supply terminal (current supply terminal) is connected to the connecting groove, thereby completing the product. This is because the electrical contact between the welding stud bolt and the building steel is good And to prevent the occurrence of sparks.

The welding stud bolt as described above usually inserts the tip of the welding stud bolt into the press fitting device in the final step so as to press the ball into the tip end so that the ball does not come off.

Therefore, Korean Registered Patent No. 10-1536261 (filed on Jul. 2015.07.07) discloses a welding apparatus for pressing a metal ball of a material such as aluminum into a leading end of a welding stud, Preceding documents are published.

However, the above-mentioned prior art has a problem in that the workability such as the necessity of the operator to select defective articles having no metal balls during use is not able to be firmly fixed to the tip of the welding stud.

The present invention is characterized in that when a flux ball is pressed and fixed to a stud bolt, a pressing portion is protruded on a surface of a supporting portion in contact with the stud bolt so that the stud bolt is pressed and deformed toward the flux ball, And the pressing portion is cut into a plurality of portions so that the contact area with the stud bolt is further narrowed, so that the pressing force can be further increased even with a force of the same magnitude, so that the flux ball can be more firmly fixed It has its purpose.

The steel wire material 1 fed to the feeder 100 is transferred to the net conveyer 200. After the steel wire material 1 is cut to a predetermined length, The second conveying unit 220, the third conveying unit, and the fourth conveying unit 240 of the differential conveying unit, and the cut steel wire material 2 is conveyed to the fixed side The third conveying part 230 is provided with a pressing part 300 for pressing the free end opposite to the first conveying part 230 to form a bolt head on the steel wire material 1, A punch 231 is provided so that the groove H can be formed at the side end portion and when the cut steel wire material 2 is conveyed to the fourth conveyance portion 240, And the flux ball B separately supplied to the groove H of the steel wire material 2 cut by the steel balls 2 and 250 is sandwiched therebetween to form the welding stud bolt W, In the stud bolt flux ball press-in device 10, the supply part 100 is made to straighten the steel wire material 1 by passing the wire material 1 wound thereon through the leveling rollers 110 provided as a pair, The flux ball insert 250 is provided with a hollow S-shaped frame 252 having a supply hole 251 formed at an upper portion thereof so that the flux ball B can be supplied, A support portion 253 is formed inside the hollow S of the support portion 252 and a through hole 254 is formed at the center of the support portion and a supply port 255 is formed at the upper portion to communicate with the supply hole 251 A guide bar 256 disposed inside the hollow S of the frame 252 is inserted into the through hole 254 of the support part 253 so that the support part is guided inside the frame, And the supply port 255 of the support portion 253 are communicated with each other, the flux ball B is connected to the tube 253 of the support portion 253 (S) of the frame 252, and one flux ball is received in the concave seating portion 257 provided at the free end of the guide bar 256. [ The cut steel wire material 2 is pressed by the pressing portion 300 and the cut steel wire material 2 pushes the support portion 253 so that the guide bar 256 The flux ball seated on the concave seating portion 257 of the steel wire rod 2 is press-fitted into the groove H of the cut steel wire rod 2 and the contact face F of the support portion 253 contacting the cut steel wire rod 2 A pressing portion 258 which is communicated with the through hole 251 and slantingly protrudes toward the center of the cut steel wire material 2 is formed so that the outer side of the groove H into which the flux ball B is fixed The outer side of the steel wire material 2 cut with the flux ball inserted therein is compressed and deformed toward the flux ball, To secure support not fall at home.

At this time, a cutting blade 211 for cutting the steel wire material 1 is formed inside the first transfer part 210.

The cut portion 258 is formed with a cut-out groove 259 so as to be cut into a plurality of cut portions.

Accordingly, the net difference sending unit 200 is moved by a connecting link driven by a separate driving device.

A first conveying unit 220 and a second conveying unit 220 are provided at the side of the pressurizing unit 300. The first conveying unit 220 and the second conveying unit 220 press the cut steel wire material, A second pressing frame 320 is formed to press the cut steel wire material held in the third conveyance unit 230 and a cut wire material The third pressing frame 330 is formed.

Accordingly, in the present invention, when the flux ball is pressed and fixed to the stud bolt, the pressing portion is protruded and formed on the surface of the supporting portion in contact with the stud bolt so that the stud bolt is pressed and deformed toward the flux ball when the flux ball is press- And the pressing portion is cut into a plurality of openings so that the contact area with the stud bolt is further narrowed, so that the pressing force can be increased even with the force of the same size.

FIG. 1 through FIG. 7 are views sequentially illustrating the use state of the welding stud bolt flux ball infeeding apparatus according to the present invention,
8 is an exemplary view showing a supply unit according to the present invention,
9 to 11 are views showing a net difference sending part and a pressing part according to the present invention,
12 and 13 are views showing punches provided inside the third conveyance unit according to the present invention,
14 and 15 are views showing an example of a flux ball insert provided inside the fourth transfer part according to the present invention,
16 and 17 are views showing an example of a support according to the present invention,
18 is an illustration showing that the cut steel wire material according to the present invention is fixed to the flux ball,
19 is a view showing that a guide bar according to the present invention is formed with a vacuum suction part to suck and fix the flux ball;
20 and 21 are views showing an example in which a hydraulic buffer is provided inside the frame according to the present invention,
22 is a photograph of an actual product of a welding stator bolt to which a flux ball according to the present invention is crimped and fixed.

As shown in FIGS. 1 to 22, the present invention comprises a feeder 100, a net conveyer 200, and a presser 300.

In the present invention, the steel wire material 1 supplied to the supply part 100 is transferred to the net conveying part 200, and the steel wire material 1 is cut into a predetermined length, Is sequentially transported along the first conveyance part 210, the second conveyance part 220, the third conveyance part and the fourth conveyance part 240 of the net difference conveyance part so as to be discharged. The cut steel wire material 2 is fixed during conveyance And the third conveying part 230 is provided with a steel wire material 2 cut in the inner side, and a pressing part 300 for pressing the free end, which is the opposite side of the steel wire material 1, to form a bolt head on the steel wire material 1. [ The punch 231 is provided so that the groove H can be formed at the engaging side end of the fourth conveyance unit 240. When the cut steel wire material 2 is conveyed to the fourth conveyance unit 240, And the flux ball B separately fed to the groove H of the steel wire material 2 cut by the body 250 is inserted into the stud bolt W to manufacture the welding stud bolt W The ideal welding relates to a press-in ball stud bolts flux device 10.

At this time, the cut steel wire material 2 can be transferred from the first transferring part 210 to the fourth transferring part 240 in various ways such as a usual binding method.

The supply unit 100 is a device for straightening the steel wire material 1 by passing the wire material 1 wound around the leveling rollers 110 provided as a pair of upper and lower parts, Shaped frame 252 in which a supply hole 251 is formed at an upper portion so that the ball B can be supplied and a side of the frame 252 is closed and a hollow portion S of the frame 252 is provided, A through hole 254 is formed at the center of the support portion and a supply port 255 is formed at the upper portion to communicate with the supply hole 251. The hollow portion 252 of the frame 252, The guide bar 256 is inserted into the through hole 254 of the support part 253 so that the support part is guided inside the frame and the feed hole 251 of the frame and the feed port 253 of the support part 253 The flux ball B flows into the through hole 254 of the support portion 253 and the guide bar 256 is free And an elastic spring for fixing the inner side surface of the hollow S and the supporting portion of the frame 252 is formed, When the cut steel wire material 2 is pressed by the pressing portion 300, the cut steel wire material 2 pushes the support portion 253, and the flux ball 253, which is seated on the concave seating portion 257 of the guide bar 256, Is inserted and fixed in the groove (H) of the cut steel wire material (2).

The contact surface F of the support portion 253 abutting the cut steel wire material 2 is provided with a press contact portion 253 which is communicated with the through hole 251 and is inclined so as to be narrowed toward the center of the cut steel wire material 2 258 are formed so that the outer side of the steel wire material 2 cut by cutting the outer side of the groove H into which the flux ball B is fixed is internally compressed and deformed toward the flux ball, As shown in FIG.

A cutting blade 211 for cutting the steel wire material 1 is formed on the inner side of the first transfer part 210 and the cutting length can be cut to 53 mm to 205 mm depending on the standard.

The cut portion 258 may be formed by cutting the steel wire material 2 cut by the cutting portion 258 due to the cutting gap 259 (The pressing force of the pressing portion), and the portion of the welding stud bolt W of the welding stud bolt 259 is not pressurized

Further, due to the pressurization of the pressing portion 258, the welding stud bolt surrounds the outer peripheral surface of the flux ball B, and the portion of the cutting groove 259 does not wrap the flux ball (does not protrude to cover the flux ball) Since the welding fluid can flow to the flat part where the cutting groove is pressed, the user can apply it to the work of predicting the direction of the flow of the welding fluid.

In addition, the net difference sending unit 200 is moved by a connecting link L driven by a separate driving device D.

In order to form a bolt head on each cut steel wire material (2) sandwiched by the net conveying part (200), a cut wire material pressed on the second conveyance part (220) is pressed on one side of the pressing part A second presser frame 320 is formed to press the cut steel wire material held in the third transferring unit 230 and a cutter 320 A third pressing frame 330 for pressing the steel wire material is formed.

That is, the cut steel wire material 2 is pressurized three times (from the first press mold to the third press mold) by the presser 300 among the sequentially conveyed in the net difference conveyor 200, A shape is formed.

The guide bar 256 is formed with a suction hole i1 at the center so that the flux ball B seated on the concave seating portion 257 is not separated from the through hole 254 of the support portion 253, A separate vacuum suction unit i2 is formed to allow air to be sucked through the vacuum suction unit.

In other words, the vacuum suction unit i2 sucks air through the suction hole i1 formed inside the guide bar 256 so that the flux ball B can not be separated from the concave seating part 257, If the impact force is applied by the pressurizing unit 300, it can be fixed to the groove H of the cut steel wire material 2 by the suction force.

At this time, the suction hole i1 is formed so as to penetrate not only the guide bar 256 but also the concave seating portion 257.

In order to prevent the elastic spring and the guide bar 256 from being damaged by the excessive pressing force when the supporting part 253 is pressed by the cut steel wire material 2, And a piston-shaped hydraulic shock absorber 260 is provided inside the shock absorber groove G. As shown in FIG.

More specifically, the cushioning portion 260 is configured such that when the support portion 253 is pressed by a steel wire material (pressurizing portion) cut by a certain amount of fluid inside the cylinder body 261 and the fluid is moved to one side The pressurizing part moves the fluid to one side by pushing the stopper 263 protruding downward from the pushing part 262. The cylinder body 261 in which the fluid is contained is pressed against the pressurizing part 262, Since the fluid is not incompressible and there is no more space for the fluid to move because the one side 262 is blocking one side, the support 253 can no longer move even if pressed by the cut steel wire material 2, So that the stroke (range) in which the support can move can be set.

 A rubber packing 264 is formed in a portion of the pressure applying hole 262 which is in contact with the fluid so as to prevent the fluid from leaking. A restoring spring 265 is provided on the other side of the rubber packing 264, Is formed and returns to its original position before being pressed by the resilient restoring force of the restoring spring even if the pushing part is fed by the pressing part 300. [

The buffer groove G and the hydraulic buffer 260 may be formed on the frame 252 and the buffer groove G may be formed to allow the hydraulic buffer 260 to be inserted therein Of course, a space corresponding to a stroke in which the latching hole 263 of the pressure applying hole 262 can move is further formed, and the fluid uses ordinary oil used for a hydraulic brake or the like.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

1 ... steel wire material 2 ... cut steel wire material
100 ... supply part 110 ... leveling roller
200 ... net difference sending 210 ... first sending part
211 ... cutting blade 220 ... second conveying portion
230 ... third transfer part 231 ... punch
240 ... fourth transfer part 250 ... flux ball insert
251 ... feed hole 252 ... frame
253 ... support portion 254 ... through hole
255 ... supply port 256 ... guide bar
257 ... concave seating portion 258 ... pressed portion
259 ... incision groove 260 .. hydraulic buffer
261 ... cylinder body 262 ... pressurizing port
263 ... hook 264 ... rubber packing
265 ... restoring spring 300 ... pressing portion
310 ... first pressing frame 320 ... second pressing frame
330 ... third pressing frame B ... flux ball
D ... drive H ... home
i1 ... Suction hole i2 ... Vacuum suction part
S ... hollow L ... connection link

Claims (5)

The steel wire material 1 supplied to the supply part 100 is transferred to the net difference transfer part 200. After the steel wire material 1 is cut to a predetermined length, The cut steel wire material 2 is conveyed sequentially along the first conveyance unit 210, the second conveyance unit 220, the third conveyance unit and the fourth conveyance unit 240, The third conveying part 230 is provided with a pressing part 300 for pressing the free end of the steel wire material 2 to form a bolt head on the steel wire material 1, The punch 231 is provided to form the groove H and when the cut steel wire material 2 is transferred to the fourth transferring part 240, the flux ball insert 250 provided inside the fourth transferring part And the flux ball B separately fed into the groove H of the steel wire material 2 cut by the welding stud bolt W is inserted into the welding stud bolt W, In the flux ball press-in device 10, the supply part 100 is a device for straightening the steel wire material 1 by passing the wire material 1 wound around the leveling rollers 110 as a pair, The ball insert 250 includes a hollow S-shaped frame 252 having a supply hole 251 formed at an upper portion thereof and closed at one side thereof so that the flux ball B can be supplied. A support portion 253 is formed inside the hollow S of the support portion and a through hole 254 is formed at the center of the support portion and a supply port 255 is formed at the upper portion to communicate with the supply hole 251, The guide bar 256 provided inside the hollow S of the frame 252 is inserted into the through hole 254 of the support part 253 so that the support part is guided inside the frame, Because the supply port 255 of the support portion 253 is in communication with the through hole 254 of the support portion 253 (S) inner side of the frame (252) and the supporting portion are fixed to the concave seating portion (257) provided at the free end of the guide bar (256) The elastic spring is formed, When the cut steel wire material 2 is pressed by the pressing portion 300, the cut steel wire material 2 pushes the support portion 253, and the flux ball 253, which is seated on the concave seating portion 257 of the guide bar 256, And is inserted and fixed in the groove H of the cut steel wire material 2. The contact face F of the support portion 253 contacting the cut steel wire material 2 is communicated with the through hole 251, A pressing portion 258 projecting obliquely so as to narrow toward the center of the work 2 is formed so that the flux ball B of the steel wire material 2 cut by pressing the outside of the groove H into which the flux ball B is fixed So that the flux ball is fixedly supported so as not to fall out of the groove,
A cutting blade 211 for cutting the steel wire material 1 is formed inside the first transfer part 210,
The cut-out portion 258 is formed with a cut-out groove 259 to be cut into a plurality of cut-
The net difference sending part 200 is moved by a connection link L driven by a separate driving device D,
A first conveying unit 220 and a second conveying unit 220 are provided at the side of the pressurizing unit 300. The first conveying unit 220 and the second conveying unit 220 press the cut steel wire material, A second pressing frame 320 is formed to press the cut steel wire material held in the third conveyance unit 230 and a cut wire material The third pressing frame 330 is formed,
The guide bar 256 is formed with a suction hole i1 at the center so that the flux ball B seated on the concave seating portion 257 is not separated from the through hole 254 of the support portion 253, And a separate vacuum suction unit i2 is formed to allow air to be sucked through the vacuum suction unit i2.
A buffer bore G is formed inside the frame 252 and a piston shaped hydraulic bubble buffer 260 is provided inside the buffer bore G. A cylinder When a fluid is formed in the body 261 and the support 253 is pressed by the cut steel wire material, a pushing hole 262 is formed inside the buffer groove G so as to move the fluid to one side. The pushing part 262 pushes the stopper 263 protruding from the lower side of the pushing part 262 to move the fluid to one side. The pushing part 262 is provided with a rubber packing A restoring spring 265 is formed on the other side of the rubber packing 264 around the pressing hole 262 so that even if the pressing hole is pressed by the pressing portion 300, Lt; RTI ID = 0.0 > And returning the welded stud bolt. delete delete delete delete

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