KR100449446B1 - Apparatus for forming a stepped portion on an enlarged rivet - Google Patents

Abstract

Disclosed is an expansion pipe rivet tuck forming apparatus. The expandable rivet jaw forming apparatus includes a die and a punch. The die has a rivet receiving groove that is shorter than the expansion rivet and has a jaw receiving groove formed therein. The punch has a striking surface that strikes the expandable rivets received in the rivet receiving grooves of the die. The expandable rivet is received in the rivet receiving groove of the die, and in this state, the jaws are formed in the shank of the expandable rivet by punching the head of the expandable rivet.

Description

Expansion Rivet Tuck Forming Equipment {APPARATUS FOR FORMING A STEPPED PORTION ON AN ENLARGED RIVET}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an expandable rivet jaw forming apparatus, and more particularly, to an apparatus for forming a jaw in a rivet that is deformed by expansion.

Generally, rivets are mainly used when joining two plates. The rivet consists of a shank and a head formed on one side of the shank. After inserting the rivet having such a structure into the hole formed in the plate, the plate is connected to each other by the deformed rivet by hitting and deforming the head of the rivet while supporting the shank.

Instead of the above-mentioned general hitting rivets, rivets using an expansion method have been used in recent years. A conventional expandable rivet is shown in FIG. As shown in Fig. 1, the expandable rivet has the shank 1 and the head 2 as basic elements similar to the hitting rivet structure described above, but penetrates the shank 1 and the head 2 along the axial direction. It further has a bore (3: bore) formed. The expansion-type rivet of such a structure is inserted into the hole of the board | plate material 4, as shown in FIG. 2, and then the expansion member 5 which has a diameter slightly longer than the diameter of the bore 3 is inserted in the bore 3. The rivets are then expanded so that the two plates 4 are connected to each other.

The conventional expansion-type rivet described above has the advantage that the rivet deformation is made only by a simple operation of inserting the expansion-member 5 into the bore 3. However, since the expansion-type rivet inserted in the hole of the board | plate material 4 does not receive support in the axial direction, it was often detached from the hole during deformation operation.

In addition, the shank 1 is deformed by the force applied from the expansion member 5 to the shank 1 of the expansion-type rivet along the radial direction, and is in close contact with the inner wall of the hole. At this time, the shank 1 located inside the hole may be in close contact without forming a gap in the hole inner wall. However, the lower end of the shank 1, that is, the opposite side of the head 2, protruding downward from the hole, can only be deformed in a manner that it unfolds along the radial direction. Therefore, the lower end of the shank 1 is not in close contact with the bottom surface of the plate 4 to form a gap, there is a problem that the connection strength between the plate 4 is weak.

A first object of the present invention is to provide a device for forming a jaw in a rivet that prevents the expansion rivet from being separated from a hole of a plate, which is devised to solve the problem of the conventional expansion rivet.

It is a second object of the present invention to provide an apparatus for forming a jaw in a rivet so that the shank portion protruding from the hole is firmly adhered to the bottom surface of the plate after being deformed by expansion pipe.

1 is a view showing a conventional expandable rivet.

Figure 2 is a cross-sectional view showing a state in which the two plates combined with a conventional expansion-type rivet.

3 to 9 are cross-sectional views sequentially illustrating a process of forming an expansion-type rivet before forming a jaw in the rivet with the expansion-type rivet jaw forming apparatus according to the present invention.

10 is a cross-sectional view showing an expandable rivet jaw forming apparatus according to the present invention.

Fig. 11 is an enlarged detailed cross sectional view showing a rivet receiving groove of a die which is a main part of the present invention.

12 to 15 are cross-sectional views sequentially showing a process of molding the jaw in the expansion-type rivet with a molding apparatus according to the present invention.

16 to 18 are cross-sectional views sequentially illustrating a method of joining two plates with an expandable rivet having jaws molded in accordance with the present invention.

-Explanation of symbols for the main parts of the drawing-

100: die 110: die housing

120: guide block 130: rivet storage block

132: rivet storage groove 144: jaw storage groove

140: support block 200: punch

210: punch head 211: punch receiving groove

214: hitting surface 300: holding pin

310: tension spring 320: stop pin

400: stripping tube 410: stripping pin

In order to achieve the above-mentioned first and second objects of the present invention, the expansion-type rivet jaw forming apparatus according to the present invention is shorter than the expansion-type rivets and has a die having a rivet receiving groove formed with a tuck receiving groove, and the rivet receiving of the die And a punch for hitting the expandable rivets received in the grooves to form jaws in the shank.

The die includes a cylindrical die housing, a guide block, a rivet receiving block, and a support block. The guide block is movably disposed in the cylinder of the die housing. The rivet receiving block is movably disposed in front of the guide block facing the punch. The rivet receiving block has a rivet receiving groove. The support block is movably disposed inside the guide block to support the rivet receiving block. The support block has a jaw receiving groove in communication with the rivet receiving groove.

The punch has a striking surface that strikes the head of the expandable rivet. The hitting surface of the punch is formed with a head receiving groove for receiving the head of the expansion rivet.

On the other hand, the molding apparatus according to the present invention further includes a means for transferring the expandable rivet to the die and returning the punch to its original position. The means is movably disposed inside the punch, and is fixedly installed on a holding pin for holding the pipe-shaped rivets and transferring them to the die, and a tension spring and die for elastically supporting the holding pins in the die direction to tension the holding pins during punching operation. And a stop pin that supports the spring in the compression direction.

Further, the molding apparatus of the present invention further includes a means for removing the expansion-type rivets in which the rivet jaws are molded from the die. The stripping means includes a stripping tube that is movably supported by the die and protrudes in the punch direction through the rivet receiving groove, and at least one stripping pin that strikes the stripping tube in the punch direction.

According to the configuration of the present invention described above, when the expansion-type rivet is delivered to the die by the holding pin and received in the rivet receiving groove, and the punch subsequently hits the head of the expansion-type rivet, the rivet shorter than the expansion-type rivet As the shank of the expansion-type rivet is deformed by the accommodation groove, the expansion-type rivet jaw is formed by being accommodated in the jaw accommodation groove.

Hereinafter, with reference to the accompanying drawings will be described in detail a rivet tuck forming apparatus according to a preferred embodiment of the present invention.

3 to 9 are cross-sectional views sequentially illustrating a process of forming an expansion-type rivet before forming the jaw in the rivet with the expansion-type rivet jaw forming apparatus according to the present invention, Figure 10 is an expansion-type rivet jaw forming according to the present invention 11 is a detailed cross-sectional view showing an enlarged rivet receiving groove of a die which is a main part of the present invention, and FIGS. 12 to 15 show a process of forming a jaw in an expansion-type rivet with a molding apparatus according to the present invention. 16 through 18 are cross-sectional views sequentially illustrating a method of connecting two plates with an expansion-type rivet having jaws molded according to the present invention.

First, a process of forming an expansion-type rivet having no jaw will be sequentially described with reference to FIGS. 3 to 9.

With reference to FIG. 3, the thin tubular material S is conveyed through the holes of the cutting die 10. The material S to be conveyed is stopped by the stopper 11. In this state, the raw material S is cut into the desired length by the knife 12, and becomes the raw material R1 having the length for the expansion-type rivet.

Then, referring to FIG. 4, the cut material R1 is supported by the first die 21. When the first punch 31 strikes the material R1, a preliminary head shape is formed in the material R1. Subsequently, as shown in FIG. 5, the second punch 32 strikes the material R1 supported by the first die 21, whereby the material R1 has a complete head shape. Is molded into. Then, referring to FIG. 6, the second punch 32 moves backward while holding the material R2.

Subsequently, as shown in FIG. 7, the raw material R2 is transferred to the second die 22 while being supported by the second punch 32. The material R2 supported by the second die 22 is punched by the drilling pin 40 to be molded into the material R3 having a bore formed from the sink end. Then, as shown in FIG. 8, the third punch 33 punctures the head of the workpiece R3 supported by the second die 22, whereby the workpiece R3 receives a bore through the head and the sink. It is molded into an expansion pipe rivet (R4) having. When this forming operation is completed, the expanded rivet R4 is removed from the second die 22 as shown in FIG. 9.

The method of forming the expansion pipe rivet (R4) is as described above, hereinafter will be described in detail with reference to the accompanying drawings, forming apparatus according to the present invention for forming a jaw in expansion pipe rivet (R4).

10 shows a molding apparatus according to the invention. Referring to FIG. 10, the molding apparatus according to the present invention includes a die 100 and a punch 200. The punch 200 is advanced back and forth toward the die 100 by a predetermined transfer mechanism, for example, a hydraulic cylinder.

The die 100 is movably disposed in front of the die housing 110, the guide block 120 movably disposed in the die housing 110, and the guide block 120 facing the punch 200. Rivet receiving block 130 and the guide block 120 includes a support block 140 is movable to support the rivet receiving block 130.

The die housing 110 is cylindrical with a cylinder 111. The guide block 120 is also a cylindrical shape having a cylinder 121, and is movably disposed inside the cylinder 111 of the die housing 110. On the other hand, the guide block 120 is moved to the right when hit by the punch 200, the structure for controlling the movement displacement of the guide block 120 is provided. This structure includes a spherical stopper 112 installed on the inner wall of the cylinder 111 of the die housing 110. A stop groove 122 in which the stopper 112 is movably received is formed on the outer circumferential surface of the guide block 120. Therefore, since the left and right inner walls of the stop groove 122 is caught by the stopper 112, the left and right displacement of the guide block 120 is limited to the width of the stop groove 122.

The rivet receiving block 130 is disposed to be movable on the front surface of the guide block 120. The rivet receiving block 130 has a front side facing the punch 200 and a rear side facing the opposite direction of the punch 200. Concave groove 131 is formed on the rear of the rivet receiving block (13).

The rivet receiving block 130 has a rivet receiving groove 132. The rivet receiving groove 132 is formed through the center of the rivet receiving block 130 is in communication with the concave groove 131.

Here, the jaw is formed in the shank of the expansion-type rivet by the shape of the rivet receiving groove 132, the structure of the rivet receiving groove 132 for this is shown in detail in FIG. Referring to FIG. 11, since the rivet receiving groove 132 must accommodate the expanded rivet R4 formed through the above-described process, the rivet receiving groove 132 has a shape corresponding to that of the expanded rivet R4. That is, the rivet receiving groove 132 has a head receiving groove 133 and the shank receiving groove 135. On the other hand, the jaw receiving groove 144 in communication with the shank receiving groove 135 is formed in the support block 140.

Further, the axial length d ₂ of the rivet receiving groove 132 should be shorter than the axial length d ₁ of the expandable rivet R4. The reason is that when hitting the head of the expansion-type rivet R4 with the punch 200, the length of the rivet receiving groove 132 d ₂ in order to be accommodated in the jaw receiving groove 144 while the end of the shank is deformed. It is due to be shorter than the length d ₁ of the tubular expansion rivet (R4).

The support block 140 is disposed to be movable in the guide block 120. The support block 140 has a shank support portion 143 protruding from the portion facing the punch 200 to support the shank end of the expandable rivet R4. The jaw receiving groove 144 is formed in the shank support 143. The shank support part 143 enters into the concave groove 131 of the rivet receiving block 130 and abuts against the inner wall of the concave groove 131. That is, the punching operation of the punch 200 is made in the state in which the shank support part 143 supported the shank edge part of the expansion-shaped rivet R4.

In addition, the support block 140 has a cylinder 141 formed along the inner center. A bore 142 communicating with the cylinder 141 is formed through the shank support 143. That is, the bore 142 is exposed toward the punch 100. Rivet stripping pipe 400 is fitted to the bore 142 to be movable. The rivet stripping pipe 400 enters the cylinder 141 of the support block 140, and a cylindrical head portion 401 having a diameter corresponding to the diameter of the cylinder 141 is integrally formed at the entry portion thereof. . In the head portion 401, the hole of the rivet removal pipe 400 is continuously formed. That is, the head part 401 is movably fitted to the cylinder 141, and the rivet removal pipe 400 is movably fitted to the bore 142, so that the entire rivet removal pipe 400 is supported by the support block 120. It is possible to move along the center direction. Three stripping pins 410 for moving the head portion 401 of the rivet stripping pipe 400 in the direction of the punch 200 to move in the cylinder 141 are shown. Is placed. As a device for moving the stripping pin 410 from side to side, well-known techniques such as a hydraulic cylinder or a motor may be employed.

On the other hand, the stop pin 320 is inserted into the hole of the rivet stripping pipe 400. The stop pin 320 is fixed to the die housing 110 and has a function of returning the punch 200 to its original position, which will be described later. That is, the rivet stripping pipe 400 moves in a state where the stop pin 320 is fitted therein.

10, the structure of the punch 200 is demonstrated. The punch 200 has a cylindrical punch head 210. The punch head 210 has a flat striking surface 124 that substantially strikes the head of the expandable rivet R4. That is, the striking surface 124 is disposed to face the front surface of the rivet receiving block 130 at a predetermined interval. Since the expandable rivet R4 already has the head formed through the previous process, the striking surface 124 has the head receiving groove 211 which receives the head of the expandable rivet R4. In other words, the head of the expansion-shaped rivet R4 is not deformed by the hit by the hitting surface 124.

Bore 213 is formed along the central direction of punch head 210 from striking surface 124. The bore 213 has a centerline that coincides with the centerline of the bore 122 of the stationary die block 120. The bore 213 is in communication with a cylinder 212 formed inside the punch head 210. The cylinder 212 has a longer diameter than the bore 213. The holding pin 300, which holds the expansion-type rivet R4 and delivers it to the die 100, is movably fitted to the bore 213. The holding pin 300 has a diameter enough to fit in the bore of the expandable rivet R4.

The holding pin 300 enters the cylinder 212, and the head part 301 is integrally formed at the entered portion. The head portion 301 of the holding pin 300 has a diameter longer than the diameter of the bore 213, so that it is not separated through the bore 213. A tension spring 310 that elastically supports the head portion 301 of the holding pin 300 in the die 100 direction is disposed in the cylinder 212.

Here, the rivet stripping pipe 400 has an inner diameter through which the holding pin 300 can enter. In addition, the rivet stripping pipe 400 has an outer diameter corresponding to the outer diameter of the expansion-type rivet R4. Thus, the rivet stripping tube 400 is pressed into the shank end of the expansion rivet R4.

Hereinafter, a process of forming the jaw in the expansion-type rivet with the molding apparatus according to the present embodiment configured as described above will be described in detail with reference to FIGS. 12 to 15.

First, referring to FIG. 12, the rivet stripping pipe 400 is advanced to the left by the stripping pin 410 and protrudes toward the punch 200 from the rivet receiving groove 132. In addition, the guide block 120, the rivet receiving block 130 and the support block 140 is also advanced to the left. In this state, the expanded rivet R4 molded in the previous process is fitted to the holding pin 300.

The punch 200 advances in the die 100 direction. First, the expansion-type rivet (R4) is in contact with the rivet stripping pipe 400, the expansion-type rivet (R4) that does not receive any external force from the rear is reversed on the holding pin 300, the expansion of the expansion-type rivet (R4) The head is accommodated in the head receiving groove 211 of the striking surface 214.

Meanwhile, the holding pin 300 is moved forward after entering the rivet stripping pipe 400 and is blocked by the stop pin 320 to prevent further advancement. However, the punch 200 continues to move to the right, so that the punch head 210 accommodates the expansion-type rivet R4 in the rivet receiving groove 132 of the rivet receiving block 130. At this time, as shown in Figure 13, because the length d ₁ of the expansion rivet (R4) is longer than the length d ₂ of the rivet receiving groove 132, the shank end of the expansion rivet (R4) is in the shank receiving groove 135 Although accommodated and supported by the shank support 143, the head does not fully enter the head receiving groove 133 of the rivet receiving groove 132 but slightly protrudes to the left.

On the other hand, since the expansion-type rivet (R4) continues to push the rivet stripping pipe 400, the rivet stripping pipe 400 is pushed to the right while pushing the stripping pin 410. At this time, the holding pin 300 blocked by the stop pin 320 is no longer advanced, the tension spring 310 is compressed. That is, the holding pin 300 may move to the left along the bore 213, and the stop pin 320 may enter the bore 213.

Subsequently, the punch head 210 advances by pushing the guide block 120, the rivet receiving block 130, and the entire support block 140 to the right. At this time, the guide block 120 is pushed back only by the width of the stop groove 122 by the stopper 112.

In this state, the state in which the punch head 210 continues to advance further and hits the head of the expansion rivet R4 is shown in FIG. Referring to FIG. 14, the head of the expansion-type rivet R4 is accommodated in the head receiving groove 211 of the striking surface 214, so that the head of the expansion-type rivet R4 is hit upon being hit by the punch head 210. Is hardly deformed. On the other hand, the shank end of the expandable rivet R4 is supported by the shank support 143, and thus is deformed by the force provided from the punch head 210. At this time, the shank end of the expansion rivet (R4) is not deformed to the right side blocked by the shank support portion 143 can be deformed only in the direction of the jaw receiving groove (144). Thus, as shown in Fig. 14, the jaw P protrudes along the radial direction at the shank end of the expandable rivet R4, thereby forming the expandable rivet R5 having the jaw.

As such, when molding of the expansion-type rivet R5 is completed, as shown in FIG. 15, the operation of returning the punch 200 to the original position and the operation of removing the expansion-type rivet R5 from the die 100 are performed. This is done at the same time. First, as described above, the holding pin 300 is pushed by the stop pin 320 so that the tension spring 310 is compressed. Therefore, when the force pushing the punch 200 is removed, the tension spring 310 is extended.

Meanwhile, three stripping pins 410 are advanced to push the stripping pipe 400 toward the punch 200. Therefore, the punch 200 cannot move in the die 100 direction, and the restoring force of the tension spring 310 acts only in the direction of reversing the punch 200. By this operation, the punch 200 is returned to the original position.

When the punch 200 returns to its original position, the expansion-shaped rivet R5 in which the jaw P is formed is fitted to the stop pin 320. In this situation, since the stripping pin 410 pushes the stripping pipe 400 as described above, the stripping pipe 400 pushes the shank end of the expandable rivet R5 to remove it from the stop pin 320.

Hereinafter, an operation of firmly joining the two plate members by using the expansion pipe-type rivet R5 having the jaw P molded by the molding apparatus according to the present invention will be described in detail with reference to FIGS. 16 to 18.

Referring to FIG. 16, two plate members having an expansion member M having a diameter longer than the diameter of the expansion rivet R5 in the bore of the expansion rivet R5 and having the expansion rivet R5 overlapped with each other ( Insert into the holes of K1, K2). Then, the jaw P is located at the bottom of the lower plate K2.

In this state, as shown in FIG. 17, when the expansion member M is pulled upward, the bore of the expansion-type rivet R5 expands and deforms. At this time, since the expansion member (M) is first to strongly press the bottom of the jaw (P), the jaw (P) is deformed along the radial direction. That is, the expansion-type rivet R5 has an upper head formed first, and a lower head formed by deforming the jaw P by expansion pipe. Therefore, as shown in FIG. 18, when the expansion member M is completely removed from the bore, the deformed jaw P is firmly adhered to the bottom of the lower plate K2, and the upper surface of the upper plate K1 The deformed head is tightly pressed. In other words, the two plates K1 and K2 are firmly joined by an expansion-type rivet R5 having a double head.

As described above, according to the present invention, a jaw can be formed in the expansion-type rivet that can combine the two plates in a strong pressing manner from above and below to prevent the rivets from being separated from the plates or from being tightly adhered to the plates. It becomes the number.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

Claims (16)

A device for shaping a jaw in an expandable rivet having a head and shank, A die having a rivet receiving groove having a length shorter than the expansion-type rivet, and a jaw receiving groove communicating with the rivet receiving groove; And And a punch for hitting an expansion-type rivet received in the rivet receiving groove of the die to form a jaw in the shank. The method of claim 1 wherein the die is A die housing having a cylinder; A guide block movably disposed in a cylinder of the die housing; A rivet accommodating block disposed on the front surface of the guide block facing the punch and having the rivet accommodating groove; And And a support block disposed in the guide block to be movable to support the rivet accommodating block and having the jaw accommodating groove. 3. The expansion-type rivet jaw according to claim 2, wherein a stopper is provided on an inner wall of the cylinder of the die housing, and a stop groove is formed on an outer circumferential surface of the guide block to accommodate the stopper and limit the movement distance of the guide block. Forming device. According to claim 2, wherein the rear surface of the rivet receiving block is formed with a concave groove communicating with the rivet receiving groove, the shank support is received in the concave groove for supporting the shank of the expansion-type rivets protruding from the support block Expanded rivet jaw forming apparatus, characterized in that the jaw receiving groove is formed in the shank support. The apparatus of claim 1, wherein the punch has a striking surface striking the head of the expanding rivet, and a head receiving groove is formed in the striking surface for receiving the head of the expanding rivet. 2. The apparatus of claim 1, further comprising means for delivering the expandable rivet to the die and returning the punch to its original position. The method of claim 6, wherein the means A holding pin movably disposed within the punch to transfer the expansion-type rivet to a die; A tension spring that elastically supports the holding pin in the die direction; And And a stop pin fixed to the die to enter the holding pin and to support the holding pin in a direction compressing the tension spring during a punching operation. 8. The method of claim 7, wherein a bore in which the holding pin is movably disposed is formed in the punch, a cylinder in communication with the bore and the tension spring is disposed is formed in the punch, wherein the cylinder is longer than the bore. Expanded rivet tuck forming apparatus having a diameter. 9. The apparatus of claim 8, wherein the holding pin has a diameter that does not fall out through a bore and is integrally formed with a head connected to the tension spring. The apparatus of claim 1, further comprising means for removing the jaw-shaped expandable rivet from the die. The method of claim 10, wherein the stripping means A stripping tube movably disposed in the die to support the shank of the expansion-type rivet and protrude in a punch direction through the rivet receiving groove; And Expandable rivet jaw forming apparatus comprising at least one stripping pin for hitting the stripping pipe in the punch direction. 12. The method of claim 11, wherein the stripping pipe is arranged to be movable and the bore communicating with the rivet receiving groove is formed in the support block, the cylinder in communication with the bore is formed in the support block is formed in the support block, Expandable rivet jaw forming apparatus, characterized in that the cylinder has a longer diameter than the bore. 13. The apparatus according to claim 12, wherein the stripping tube has a diameter that does not fall out through a bore and is integrally formed with a head hit by the stripping pin. A device for shaping a jaw in an expandable rivet having a head and shank, A die housing having a cylinder; A guide block movably disposed in a cylinder of the die housing; A rivet receiving groove movably disposed on the front surface of the guide block and configured to receive the expansion-type rivet, the rivet receiving groove having a length shorter than that of the expansion-type rivet; A support block movably disposed in the guide block to support the rivet accommodating block and having a jaw accommodating groove communicating with the rivet accommodating groove of the rivet accommodating block; A punch having a striking surface for striking the head of the expandable rivet, and a head receiving groove formed at the striking surface for receiving the head of the expandable rivet; A holding pin movably disposed in the punch to transfer the expansion-type rivet to the rivet receiving groove of the rivet support block; A tension spring that elastically supports the holding pin in the direction of the rivet receiving block; A stop pin which is fixed to the die housing and enters the holding pin during a punching operation to support the holding pin in a direction compressing the tension spring; A stripping tube movably disposed on the support block to support the shank of the expansion-type rivet, protrude in the punch direction through the rivet receiving groove, and the stopper pin disposed therein; And And at least one stripping pin for removing the expansion pipe-type rivet having a jaw from the rivet receiving groove by striking the stripping pipe in the punch direction. 15. The expansion-type rivet jaw according to claim 14, wherein a stopper is provided on an inner wall of the cylinder of the die housing, and a stop groove is formed on an outer circumferential surface of the guide block to accommodate the stopper to limit the movement distance of the guide block. Forming device. 15. The method according to claim 14, wherein the rear surface of the rivet receiving block is formed with a concave groove communicating with the rivet receiving groove, the shank support portion accommodated in the concave groove to support the shank of the expansion-type rivet protruding from the support block Expanded rivet jaw forming apparatus, characterized in that the jaw receiving groove is formed in the shank support.