KR101855882B1 - Caulking device for detent lever - Google Patents

Abstract

Disclosed is a caulking device for a detent lever. The caulking device for a detent lever of the present invention comprises: a pressing tool portion receiving power of a motor portion to be rotated, protruding downwardly from a head portion moving in the vertical direction by operation of a spindle portion, and caulking an upper end of a shaft coupled to a detent plate; a mounting portion located at the bottom of the pressing tool portion and constraining horizontal movement of the detent plate; and a caulking support portion located at the bottom of the mounting portion and supporting the shaft coupled to the detent plate.

Description

Catching device for detent lever (CAULKING DEVICE FOR DETENT LEVER)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a calking device for a detent lever, and more particularly, to a calking device for a detent lever capable of automatically assembling a detent lever used in an automatic transmission.

Generally, a DETENT LEVER is provided for accurate positioning of the speed change stage by the automatic transmission. The selection of the number of steps according to the shift of the automatic transmission is determined by the groove position of the part called a detent lever.

The detent lever is attached to the automatic transmission in a state where the shaft to be the rotating shaft is assembled. In the case of the conventional detent lever, the shaft is inserted into the detent plate, and the screw is fastened and fixed with the pin.

Conventionally, since the detent lever is manually manufactured, the productivity deteriorates. Therefore, there is a need for improvement.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2005-0051390 (published on June, 2005, entitled "Detent Lever Assembly Device").

It is an object of the present invention to provide a calking device for a detent lever capable of automatically assembling a detent lever used in an automatic transmission.

A corking device for a detent lever according to the present invention includes: a pressing tool portion which is caught by a motor portion and rotates and projects downward from a head portion which is moved up and down by an operation of a spindle portion, And a caulking support portion which is positioned below the pressing tool portion and which rests a horizontal movement of the detent plate and a caulking support portion which is positioned below the mounting portion and supports the shaft coupled to the detent plate.

The mounting portion includes a mounting metal mold portion forming a groove in a shape corresponding to the detent plate, and a position adjusting pin member protruding upward from the mounting metal mold portion and protruding upward from the detent plate mounted on the mounting metal mold portion .

The caulking supporting portion includes a support driving portion positioned below the mounting portion and supplying power in a horizontal direction, a horizontal moving portion connected to the support driving portion and moving in a horizontal direction and having a moving slope, And a support guide portion for guiding the up and down movement of the support pressing portion and the support pressing portion supporting the lower side of the shaft coupled to the detent plate.

The horizontal moving part is formed in a wedge shape and horizontally moved by the operation of the supporting driving part to move the supporting pressing part upward and the moving slope is provided on the upper side of the horizontal moving part facing the lower side of the supporting pressing part, .

The caulking supporting part may further include a movement detecting sensor part provided at a position facing the movement path of the horizontal moving part and measuring the position of the horizontal moving part and delivering the measured value to the control part.

The detent lever calking device according to the present invention is characterized in that the detent plate is inserted into the mounting die portion and then the caulking operation is performed by inserting the shaft to restrict the movement of the detent plate to thereby reduce the defect rate of the detent lever, Since the shaft can be automatically assembled to the detent plate, the productivity can be improved.

Further, since the lower side of the shaft located inside the mounting die portion is stably supported by the operation of the caulking supporting portion, the shaking of the shaft during the caulking operation of the shaft can be prevented, and the defective rate of the product can be reduced.

1 is a perspective view of a caulking apparatus for a detent lever according to an embodiment of the present invention.
2 is a perspective view illustrating a mounting portion according to an embodiment of the present invention.
3 is a front view showing a state in which a caulking device for a detent lever according to an embodiment of the present invention is installed.
4 and 5 are perspective views illustrating a caulking support according to an embodiment of the present invention.
FIG. 6 is a perspective view explaining an essential part of a caulking portion according to an embodiment of the present invention.
7 is a perspective view showing a cross section of a support pressing portion according to an embodiment of the present invention.
8 is a side view of a caulking apparatus for a detent lever according to an embodiment of the present invention.
FIG. 9 is a cross-sectional view schematically illustrating a state in which a caulking support is supported to support a shaft according to an embodiment of the present invention.
10 is a perspective view illustrating an exploded view of the fixed frame part, the movable frame part, and the elastic pressing part according to an embodiment of the present invention.
11 is a perspective view illustrating a detent lever according to an embodiment of the present invention.

Hereinafter, a calking device for a detent lever according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

Further, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view of a caulking device for a detent lever according to an embodiment of the present invention, FIG. 2 is a perspective view illustrating a mounting portion according to an embodiment of the present invention, and FIG. 4 and 5 are perspective views illustrating a caulking support according to an embodiment of the present invention. FIG. 6 is a perspective view of a caulking support according to an embodiment of the present invention. FIG. 7 is a perspective view showing a cross section of a support pressing portion according to an embodiment of the present invention, and FIG. 8 is a side view of a caulking device for a detent lever according to an embodiment of the present invention. FIG. 9 is a cross-sectional view schematically showing a state in which a caulking support unit is operated to support a shaft according to an embodiment of the present invention, and FIG. 10 is a cross- Shout Is a perspective view showing the decomposition pressure portion, Figure 11 is a perspective view showing a detent lever in accordance with one embodiment of the present invention.

1 to 11, a caulking apparatus 1 for a detent lever according to an embodiment of the present invention includes a spindle unit 10, a motor unit 16, a head unit 18, The movable frame portion 40, the guide portion 50, the elastic pressing portion 60, the rivet guide portion 70, the mounting portion 80, and the fixing frame portion 20, the pressing tool portion 30, And a caulking support 90.

The detent lever 2 is a part used for selecting the number of stages in accordance with the shift of the automatic transmission, and the shaft 5 is riveted to the detent plate 3.

The spindle portion 10 is composed of a spindle body 12 and a spindle rod 14 and the spindle body 12 is fixed to the lower side of the motor portion 16. The spindle rod 14, which is moved to the lower side of the spindle body 12, is moved in the vertical direction. The fixed frame portion 20 is fixed to the spindle rod 14 and moves up and down in association with the vertical movement of the spindle rod 14. [ The spindle unit 10 according to one embodiment operates in a hydraulic cylinder manner and a spindle rod 14 is installed at the lower end of the spindle body 12 and is moved in the vertical direction toward the lower side where the mounting portion 80 is installed. The spindle rod 14 according to one embodiment extends under the motor portion 16 and extends downwardly of the spindle body 12 through the spindle body 12.

The motor unit 16 is fixed to the upper side of the spindle unit 10 and supplies rotational force for rotating the pressing tool unit 30. [ The head portion 18 is connected to the lower side of the spindle rod 14 and moves up and down together with the spindle rod 14 and rotates together with the pressing tool portion 30 by the power supply of the motor portion 16.

The support body portion 19 extends in the vertical direction and the spindle portion 10 and the mounting portion 80 are fixed to the frame projecting laterally of the support body portion 19. [

The fixed frame portion 20 is fixed below the spindle rod 14 of the spindle portion 10 and extends to both sides of the spindle rod 14. [ The fixed frame portion 20 according to one embodiment includes a fixed frame body 22 and a fixed wing portion 26.

The stationary frame body 22 is a ring-shaped frame which is installed in a shape to surround the spindle rod 14 of the spindle portion 10. The fixed frame body 22 includes a first fixed frame member 23 connected to the fixed wing portion 26 and installed to surround one side of the spindle rod 14 and a second fixed frame member 23 configured to surround the other side of the spindle rod 14 And a first fixing frame member 23 fixed to the first fixing frame member 23. The fixed frame body 22 is fixed to the spindle rod 14 and fixed wings 26 are connected to both sides of the fixed frame body 22.

The fixed wing portion 26 extends to both sides of the fixed frame body 22 and has holes on both sides through which the guide portion 50 penetrates.

The pressing tool portion 30 is rotated by receiving the power of the motor portion 16 and is protruded to the lower side of the head portion 18 which is moved up and down by the operation of the spindle portion 10 and is coupled to the detent plate 3 The upper end of the shaft 5 is caulked. Since the pressing tool portion 30 is inclined with respect to the vertical virtual line, the upper end of the shaft 5 can be caulked when the pressing portion 30 is rotated by the power of the motor portion 16. The configuration in which the pressing tool portion 30 is rotated by the motor portion 16 and the operation of the spindle portion 10 are well known to those of ordinary skill in the art of designing a caulking machine, and a detailed description thereof will be omitted.

The movable frame portion 40 has a central hole portion 43 through which the pressing tool portion 30 is inserted. The movable frame portion 40 may be formed in a variety of shapes within the lower side of the fixed frame portion 20.

The movable frame portion 40 according to one embodiment includes a movable frame body 42 in which a center hole portion 43 is formed at a center and a movable frame body 42 extending to both sides of the movable frame body 42, And a moving blade portion 45 having a hole.

The movable frame body 42 has a plate shape extending in the horizontal direction, and a center hole portion 43 is provided at the center of the movable frame body 42. Therefore, the pressing tool portion 30 is installed downward through the center hole portion 43. [

The guide portion 50 is provided so as to extend upward from both sides of the movable frame portion 40 and penetrate through the fixed frame portion 20. [ The guide portion 50 according to an embodiment is formed in a bar shape. The lower side is fixed to the moving blade portion 45, and the upper side extends upwardly through the fixed blade portion 26. The guide portion 50 according to one embodiment includes a guide bar 52 and a guide fixing member 54.

The guide bar 52 is formed in a bar shape and is installed in the vertical direction passing through the stationary vanes 26 and the moving vanes 45. The lower end of the guide bar 52 is installed through the moving blade 45 and is fastened to the bolt-shaped guide fixing member 54. Since the head of the guide fixing member 54 is larger than the hole formed in the movable blade 45, the lower end of the guide bar 52 is prevented from moving to the upper side of the movable blade 45. The upper side of the guide bar 52 is hooked on the fixed blade portion 26 because the upper side of the guide bar 52 is provided with the shape of the engaging portion larger than the hole provided in the fixed blade portion 26.

The elastic pressing portion 60 is provided on the outer side of the guide portion 50 in a coiled shape and presses the movable frame portion 40 downward by a predetermined pressing force. The elastic pressing portion 60 according to one embodiment is a coil spring provided on the outer side of the guide portion 50. The upper side of the elastic pressing portion 60 is in contact with the fixed blade portion 26, And the lower side contacts the moving blade portion 45 and presses the moving blade portion 45 downward.

The rivet guide portion 70 is fixed to the lower side of the center hole portion 43 of the movable frame portion 40 and moves together with the movable frame portion 40 with a hole through which the pressing tool portion 30 passes. Further, the rivet guide portion 70 is moved downward together with the movable frame portion 40 to abut on the upper side of the detent plate 3 to restrain the downward movement, so that the movable frame portion 40 is also restrained from moving downward. The rivet guide portion 70 may be formed of a urethane or rubber material or may be formed of a material having elasticity.

A mounting portion 80 for assembling the detent plate 3 and the shaft 5 is provided on the lower side of the pressing tool portion 30. The mounting portion 80 is located below the pressing tool portion 30 and can be deformed into various shapes within the technical idea of restricting the horizontal movement of the detent plate 3. [

The mounting portion 80 according to one embodiment includes a mounting mold portion 82 that forms a groove in a shape corresponding to the detent plate 3 and a mounting mold portion 82 that protrudes upward from the mounting mold portion 82, And a position adjusting pin member 84 which protrudes upwardly through the detent plate 3 mounted on the detent plate 3.

The mounting portion 80 is formed in a disc shape and is fixed to the rotating processing table 99, so that it is rotated together with the processing table 99. A caulking support 90 is positioned below the processing table 99.

On the inside of the mounting die portion 82 The mounting inner groove portion 86 is formed in the vertical direction. The mounting inner side groove portion 86 forming the groove portion into which the shaft 5 is inserted is provided inside the mounting metal mold portion 82 and the mounting support member 88 is movable up and down below the mounting inner side groove portion 86 Respectively. The lower end of the shaft 5 is positioned above the mounting support member 88 and the mounting support member 88 is moved upward by the operation of the pressing portion 100 of the caulking supporting portion 90 so that the lower end of the shaft 5 Stable support. The pressing portion 100 of the caulking support 90 can stably support the lower end of the shaft 5 directly without the configuration of the mounting support member 88. [

The caulking supporting portion 90 is located below the mounting portion 80 and supports the lower portion of the shaft 5 coupled to the detent plate 3 so that the lowering and shaking of the shaft 5, . The caulking support 90 according to an embodiment includes a support driving part 92, a horizontal moving part 96, a support pressing part 100, a support guide part 105, an elastic return part 107, And a movement detection sensor unit 125.

The support driving unit 92 is positioned below the mounting unit 80 and supplies power in the horizontal direction to move the horizontal moving unit 96. The support drive unit 92 according to one embodiment includes a support drive body 93 operated by hydraulic or pneumatic pressure and a support drive rod 94 protruded from the support drive body 93 and connected to the horizontal movement unit 96 . The horizontal moving part 96 is moved in the left and right direction by the movement of the supporting driving rod 94 and the supporting pressing part 100 is moved up and down.

The horizontal moving part 96 is connected to the support driving part 92 and is moved in the horizontal direction and may be formed in various shapes within the technical idea of the moving inclined surface 97. The horizontal moving part 96 according to an embodiment is formed in a wedge shape and horizontally moved by the operation of the supporting driving part 92 to move the supporting part 100 upward. A moving inclined surface 97 is provided on the upper side of the horizontal moving part 96 facing the underside of the supporting pressing part 100 to support the lower part of the supporting part 100. Therefore, the supportive pressing part 100 can be moved up and down only by moving the horizontal moving part 96 leftward and rightward.

Since the horizontal moving part 96 and the supporting pressing part 100 are inclinedly contacted with each other, the protruding height of the supporting pressing part 100 can be adjusted according to the position of the horizontal moving part 96 supporting the supporting pressing part 100.

The support presser portion 100 is vertically moved by the movement of the horizontal movement portion 96 and may be formed in various shapes within the technical idea of supporting the lower end of the shaft 5 coupled to the detent plate 3. [ The support presser 100 according to one embodiment includes a support presser rod 101, a support presser body 102, and a lower slope 103. The support pressing rod 101 is formed in a cylindrical shape and extends in the vertical direction. A support pressing body 102 is connected to the lower side of the support pressing rod 101. A lower portion of the support body 102 having a rectangular parallelepiped shape is inclined at a slope corresponding to the moving slope 97 of the horizontal movement portion 96 A lower inclined surface 103 is provided. The lower inclined surface 103 and the moving inclined surface 97 are in surface contact with each other and the lower inclined surface 103 is pushed by the movement of the moving inclined surface 97 in the horizontal direction so that the supporting pressing rod 101 is moved up and down.

The support guide portion 105 guiding the upward and downward movement of the support presser portion 100 has a frame shape having a hollow inside. In the inside of the rectangular support guide portion 105, there is provided a hole that is vertically penetrated, and the cross-sectional shape of the hole is rectangular, thereby restricting rotation of the support pressing body 102.

The elastic return portion 107 connects the support guide portion 105 and the support press portion 100 and various types of return devices can be used within the technical idea of moving the support press portion 100 in a state in which the external force is removed. have. The elastic return portion 107 according to one embodiment includes a return guide bar 108, a returning elastic member 109, a support bracket 110, and a coupling bracket 112.

The return guide bar 108 is formed in a bar shape and extends in the vertical direction and is installed in a standing state. The lower portion of the rod-shaped return guide bar 108 is provided with a protruding portion protruding like a head of the bolt.

The support bracket 110 is fixed to the side surface of the support guide portion 105. The return guide bar 108 is provided through the support bracket 110 protruding outward of the support guide part 105 and the lower side of the return guide bar 108 is caught by the support bracket 110 so that the upward movement is restricted .

 The returning elastic member 109 using the coil spring is installed in a wound form on the outer side of the return guide bar 108. The upper side of the returning elastic member 109 abuts the lower side of the support bracket 110 and the lower side of the returning elastic member 109 is caught by the lower projection of the return guide bar 108. [

The coupling bracket 112 is fixed to the upper side of the support pressing body 102 and forms a plate shape extending in the horizontal direction. The upper side of the return guide bar 108 passes through the support bracket 110 and is fixed to the engagement bracket 112. Therefore, the coupling bracket 112 is moved up and down together with the supporting pressure portion 100, and the return guide bar 108 having the upper end fixed to the coupling bracket 112 is also moved up and down.

The support stopper 120, which restrains the horizontal movement portion 96 from being moved a predetermined distance, includes a stop bracket 122 and an adjustment screw 123. The stop bracket 122 fixed to the moving path of the horizontal moving part 96 is fixed at a position facing the horizontal moving part 96. [ A stop bracket 122 is installed in the movement path of the horizontal moving part 96 to restrain the horizontal moving part 96 which has moved upward from the supporting pressing part 100 to be moved further. The adjustment screw 123 installed horizontally through the stop bracket 122 is threaded and fastened to the stop bracket 122. The length of the adjustment screw 123 protruding from the stop bracket 122 can be adjusted by turning the adjustment screw 123 so that the stop position of the horizontal movement part 96 is precisely set by the rotation of the adjustment screw 123 can do.

The movement detection sensor unit 125 is installed at a position facing the movement path of the horizontal movement unit 96 and measures the position of the horizontal movement unit 96 and transmits the measurement value to the control unit. The movement detection sensor unit 125 according to an embodiment is installed in a horizontal direction through a sensor bracket 126 and a sensor bracket 126 which are fixed on a side facing the horizontal movement unit 96, And a detection sensor 127 for measuring a position before the horizontal moving part 96 pushes up the support press part 100 and a position where the support push part 100 pushes up the support press part 100 and contacts the support stopper 120. [

The detection sensor 127 is installed to penetrate the stop bracket 122 in the horizontal direction and detects the movement of the horizontal movement part 96 by irradiation of light and transmits the measurement value to the control part.

Hereinafter, the operating state of the caulking device 1 for a detent lever according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The detent plate 3 and the shaft 5 are coupled to each other and located inside the mounting die portion 82. Since the position adjusting pin member 84 is installed through the detent plate 3, it is possible to prevent the detent plate 3 from being misassembled.

When the spindle portion 10 is operated and the spindle rod 14 moves downward, the fixed frame portion 20 mounted on the spindle rod 14 also moves downward, so that the guide portion 50 and the movable frame portion 40 And the rivet guide portion 70 also move downward. At this time, the pressing tool portion 30, which is moved downward by the operation of the motor portion 16, is in a rotating state.

The rivet guide portion 70 where the elastic deformation is made abuts against the upper side of the detent plate 3, and the downward movement is restrained. The detent plate 3, which is pressed upward by the rivet guide portion 70, is also restrained from moving inside the mounting die portion 82.

Also, the caulking supporting portion 90 is operated to support the lower side of the shaft 5 vertically inserted into the mounting portion 80 so that the shaft 5 can be supported at a predetermined position.

The caulking support 90 supports the lower end of the shaft 5 coupled to the detent plate 3 using the driving force of the cylinder so as to restrain the movement of the shaft 5 during the caulking operation.

More specifically, the support drive unit 92 is operated to move the support drive rod 94 in the horizontal direction to move the horizontal movement unit 96 in the direction of the support stopper 120. The supporting press portion 100 abutting on the moving inclined surface 97 moves upward along the support guide portion 105 and the support presser rod 101 directly supports the lower end of the shaft 5 or the mounting support member 88 The upper end of the shaft 5 can be stably supported before the caulking operation.

When the support drive rod 94 returns to the support drive body 93 again, the operation of the elastic return portion 107 also moves the support portion 100 downward as well. The movement of the horizontal moving part 96 is measured by the movement detecting sensor part 125 and the measured value is transmitted to the control part.

On the other hand, when the height of the take-out pushing rod 101 for supporting the lower end of the shaft 5 is adjusted, the adjustment screw 123 is rotated to adjust the stop position of the horizontal movement part 96, The protrusion height can be adjusted.

The pressing tool portion 30 caulks the upper end of the shaft 5 coupled to the detent plate 3 in a state in which the lower end of the shaft 5 is stably supported by the operation of the caulking supporting portion 90. [ The pressing tool portion 30 is formed in a pipe shape and rotates inside the rivet guide portion 70 installed in a raised state, so that the caulking operation of the shaft 5 can be stably performed.

The rivet guide portion 70 is constrained to move downward together with the movable frame portion 40 and the fixed frame portion 20 is moved downward together with the spindle rod 14 to stop the movement at the set position. The distance between the fixed frame portion 20 and the movable frame portion 40 is reduced during the caulking operation of the shaft 5 so that the guide bar 52 protrudes upward from the fixed frame portion 20, The pressing portion 60 is compressed.

Since the movable frame portion 40 and the rivet guide portion 70 can stably support the operation of the elastic pressing portion 60 by the operation of the guide portion 50 and the elastic pressing portion 60, The caulking operation is also performed stably and the occurrence of cracks at the upper end of the shaft 5 on which the caulking is performed is reduced.

Since the detent plate 3 is provided inside the mounting portion 80 which is a buried mold and the position adjusting pin member 84 is provided through the detent plate 3, Thereby preventing the shaft 5 from shaking. Therefore, since the shaft 5 is coupled at right angles to the detent plate 3, the defect rate of the product can be reduced.

After the caulking operation is completed, the spindle rod 14 is moved upward, so that the fixed frame portion 20, the movable frame portion 40, and the pressing tool portion 30 are moved to the upper side of the detent plate 3. At this time, since the movable frame portion 40 is moved downward by the elastic force of the elastic pressing portion 60, the distance between the fixed frame portion 20 and the movable frame portion 40 can maintain the initial state distance.

As described above, according to the present invention, since the detent plate 3 is inserted into the mounting die portion 82 and then the shaft 5 is inserted to perform the caulking operation, the movement of the detent plate 3 is restricted, The defective ratio can be reduced and the shaft 5 of the detent lever 2 can be automatically assembled to the detent plate 3, thereby improving the productivity.

Further, since the lower side of the shaft 5 positioned inside the mounting mold portion 82 is stably supported by the operation of the caulking support portion 90, the shaking of the shaft 5 during the caulking operation of the shaft 5 is prevented, It is possible to maintain the perpendicularity between the tent plate 3 and the shaft 5, thereby reducing the defect rate of the product.

Also, since the shaft 5 of the detent lever 2 used in the automatic transmission can be automatically assembled to the detent plate 3, the productivity can be improved.

The pressing tool portion 30 for pressing the shaft 5 is installed through the rivet guide portion 70 mounted on the movable frame portion 40 so that the caulking operation of the pressing tool portion 30 is guided, Since the caulking is stably performed, it is possible to reduce the defective operation rate and improve the quality of the product.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined by the appended claims. will be. Accordingly, the true scope of the present invention should be determined by the following claims.

1: Catching device for detent lever
2: detent lever 3: detent plate 5: shaft
10: spindle part 12: spindle body 14: spindle rod 16: motor part 18: head part 19: support body part
20: fixed frame part 22: fixed frame body 23: first fixed frame member 24: second fixed frame member 26: fixed wing part 30:
40: moving frame part 42: moving frame body 43: center hole part 45: moving wing part
50: guide portion 52: guide bar 54: guide fixing member
60: elastic pressing portion 70: rivet guide portion
80: mounting portion 82: mounting die portion 84: positioning pin member 86: mounting inner groove portion 88: mounting support member 99:
The present invention relates to a locking device for locking and unlocking a locking cushion of a cushioning support, comprising: a cushion support portion; a cushion support portion; a support driving portion; The present invention relates to an elastic restoring portion for elastically restoring a retracted elastic member to a restricting portion of an elastic restoring portion,

Claims (5)

A pressing tool portion which is rotated by receiving the power of the motor portion and projects to the lower side of the head portion which is moved up and down by the operation of the spindle portion to caulk the upper end of the shaft coupled to the detent plate;
A mounting portion positioned below the pressing tool portion and restraining horizontal movement of the detent plate; And
And a caulking support positioned below the mounting portion and supporting the shaft coupled to the detent plate,
Wherein the mounting portion includes: a mounting mold portion forming a groove in a shape corresponding to the detent plate; And
And a position adjusting pin member protruding upward from the mounting die portion and projecting upward through the detent plate mounted on the mounting die portion,
The caulking support portion includes a support driving portion positioned below the mounting portion and supplying power in a horizontal direction;
A horizontal moving part connected to the support driving part and moved in a horizontal direction and having a moving slope;
A supporting abutment portion that is moved up and down by the movement of the horizontal movement portion and supports a lower side of the shaft coupled to the detent plate; And
And a support guide portion for guiding the up and down movement of the support pushing portion.
delete delete The method according to claim 1,
The horizontal moving part is formed in a wedge shape and horizontally moved by the operation of the supporting driving part to move the supporting pressing part upward and the moving inclined surface is provided on the upper side of the horizontal moving part facing the lower side of the supporting pressing part And supports the lower portion of the support pressing portion.
5. The method of claim 4,
And a movement detection sensor unit installed at a position facing the movement path of the horizontal movement unit and measuring the position of the horizontal movement unit and delivering the measurement value to the control unit. Calking device for tent levers.

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