KR20180001042A - Clinching apparatus - Google Patents

Abstract

The present invention relates to a clinching apparatus, and specifically relates to a clinching apparatus capable of clinching bonding a plate material by using clinching punches of both side punching units and a clinching die of a die unit. To this end, the clinching apparatus according to one embodiment of the present invention comprises: a C type frame installed on a front end of a robot arm; both side punching units installed to be corresponding to each other on both end portions of the C type frame to drive each clinching punch with respect to an outer surface of the plate material; and a die unit installed at the center of the C type frame and driving each clinching die cam-operated by forward and backward force of a cylinder to be supported on an each inner surface of the plate material by corresponding to each clinching punch of the both side punching units.

Description

CLINCHING APPARATUS

The present invention relates to a clinching apparatus, and more particularly to a clinching apparatus capable of performing a clinching bonding of a plate material by using a clinching punch of a double-sided punching unit and a clinching die of a die unit.

Generally, a bumper in a vehicle is elastically deformed at a low speed and medium speed collision of an automobile to prevent physical damage of the vehicle. When a bumper collides with another automobile or a fixed body, the bumper absorbs the impact, And at the same time, to minimize the deformation of the vehicle body.

The bumper includes a bumper beam unit which is mounted on the rear sides of the bumper beam disposed in the vehicle width direction from the front and rear of the vehicle and is fixed to the vehicle side member.

A lower stiffener unit for protecting the pedestrian is mounted under the bumper beam thus constructed.

Such a vehicle lower stiffener unit functions to absorb a lower shock generated when a vehicle collides with a front end of the vehicle and prevent a pedestrian from entering the lower portion of the vehicle when colliding with the pedestrian, thereby preventing a greater danger.

Conventionally, when assembling a stiffener bracket in a closed section of a bumper beam manufactured by aluminum extrusion, it was assembled through MIG welding (Metal Inert Gas welding), but there were many quality problems such as welding, appearance and separation.

In the case of applying the clinching joint, which is a mechanical joint, it is necessary to study the clinching apparatus which can perform the clinching bonding in the closed section due to the problem of the closed section and the difficulty in the assembly application on the assembly structure of the die assembly section .

The matters described in the background section are intended to enhance the understanding of the background of the invention and may include matters not previously known to those skilled in the art.

An embodiment of the present invention provides a clinching apparatus capable of performing a clinching bonding of a plate material by using a clinching punch of a double-sided punching unit and a clinching die of a die unit.

According to an embodiment of the present invention, there is provided a clinching apparatus comprising: a C-shaped frame mounted on a distal end of a robot arm; A pair of punching units provided at both ends of the C-shaped frame in correspondence with each other to drive respective clinching punches to the outer surface of the plate material; And a die unit which is installed at the center of the C-shaped frame and drives each of the clinching dies, which are operated by the forward and backward forces of the cylinders, to be supported on the respective inner surfaces of the plate members corresponding to the respective clinching punches of the both- Can be provided.

The punching unit may include: a punch cylinder installed at both ends of the C-shaped frame in directions corresponding to each other; And a clinching punch integrally formed at the tip of each working rod of the punch cylinder.

Further, the die unit includes: a cam cylinder installed at a center of the C-shaped frame toward the space between the punching units; A sliding block which is installed through a fixed frame at the tip of the cam cylinder and through which a sliding hole toward the both side punching unit passes is formed and in which a cam actuating hole penetrating through the center of the sliding hole at a right angle toward the cam cylinder is formed, ; Side cam sliders which are respectively provided on both sides of the sliding holes and on which cam surfaces are formed on the surfaces corresponding to each other and slide-driven toward the both-side punching unit; A cam fixed to a leading end of an operating rod of the cam cylinder in a state of being in contact with each cam surface of the cam slider in the cam working hole to cam the both cam sliders by driving the cam cylinder; And a clinching die integrally formed on each end surface of the both side cam sliders in correspondence with both side clinching punches of the both side punching units.

Further, the die unit may further include restoring means provided between the sliding block and the both-side cam slider, for providing a restoring force to each cam slider.

The restoring means may include a restoring spring supported at one end of the supporting end of the cam slider in a state of being fitted to each of the cam sliders; And a spring cover installed on both sides of the sliding block and supporting the other end of the restoration spring.

Further, the mutually corresponding surfaces may be inclined cam surfaces formed by inclined surfaces of a certain section; And a parallel cam surface connected to the inclined cam surface and corresponding to each other in parallel.

Also, the cam may be inclined at a center of the cam surface, And first and second parallel surfaces connected to both sides of the inclined surface.

In another embodiment of the present invention, a C-shaped frame mounted on a tip of a robot arm; A pair of punching units for driving a clinching punch with respect to an outer surface of the plate by punch cylinders provided at both ends of the C-shaped frame in directions corresponding to each other; And a pair of punching units provided in the center of the C-shaped frame for actuating both cam sliders by driving the cam cylinder in the sliding block, And a die unit that is driven to be supported on each inner surface of the plate material.

The embodiment of the present invention can improve the assemblability between the plate materials by using the clinching punches of the double-sided punching unit and the clinching die of the die unit, and solve the quality problems such as welding, appearance and separation .

In addition, effects obtainable or predicted by the embodiments of the present invention will be directly or implicitly disclosed in the detailed description of the embodiments of the present invention. That is, various effects to be predicted according to the embodiment of the present invention will be disclosed in the detailed description to be described later.

1 is a view showing a clinching apparatus according to an embodiment of the present invention.
2 is a block diagram of a sliding block according to an embodiment of the present invention.
3 is a view showing a cam and both side cam sliders according to an embodiment of the present invention.
FIGS. 4 and 5 are views sequentially illustrating a method of cleaning according to an embodiment of the present invention.

The operation principle of the embodiment of the clinching apparatus according to the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory of various embodiments for effectively illustrating the features of the present invention. Therefore, the present invention should not be limited to the following drawings and descriptions.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

In order to efficiently explain the essential technical features of the present invention, the following embodiments will appropriately modify, integrate, or separate terms to be understood by those skilled in the art to which the present invention belongs , And the present invention is by no means thereby limited.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a clinching apparatus according to an embodiment of the present invention, FIG. 2 is a view showing a sliding block according to an embodiment of the present invention, FIG. 3 is a cross- Side cam slider.

Referring to FIG. 1, a clinching apparatus 100 according to the present invention is a device for joining a first plate 300 and a second plate 310 together. At this time, the first plate 300 may be a plate including a closed section. For example, the first plate 300 may be a bumper beam manufactured by aluminum extrusion in a vehicle, and the second plate 310 may be a stiffener bracket.

The clinching apparatus 100 includes a C-shaped frame 120, a punching unit 130 and a die unit 140.

One side of the C-shaped frame 120 is mounted on the tip of the robot arm 110.

The punching unit 130 is provided corresponding to both ends of the C-shaped frame 120, and drives each of the clinching punches 137 against the outer surface of the plate material.

The punching unit 130 includes a punch cylinder 133 and a clinching punch 137.

The punch cylinders 133 are installed at one end and the other end of the C-shaped frame 120 and are installed in directions corresponding to each other. That is, the punch cylinder 133 can be installed on both sides with the die unit 140 at the center. The punch cylinder 133 can drive the clinching punch 137 in the direction in which the first plate 300 and the second plate 310 are located.

The punch cylinder 133 can be operated by pneumatic or hydraulic pressure.

The clinching punch 137 is connected to the first actuating rod 135 of the punch cylinder 133. That is, the clinching punch 137 is integrally formed at the tip of the first operating rod 135 of the punch cylinder 133.

The clinching punch 137 operates in accordance with the driving of the punch cylinder 133. [ That is, the clinching punch 137 operates toward the die unit 140 to join the first plate 300 and the second plate 310 by the first operating rod 135 of the punch cylinder 133 .

The die unit 140 is installed at the center of the C-shaped frame 120 and is connected to the clinching punch 137 of the punching unit 130 by a clinching die 200 which is operated by the cam- To be supported on the inner surface of the plate member.

The die unit 140 includes a cam cylinder 150, a sliding block 170, a cam 160, a cam slider 180, a restoration means 190 and a clinching die 200.

The cam cylinder 150 is installed between the punching units 130 at the center of the C-shaped frame 120. The cam cylinder 150 actuates the cam 160 to move the cam sliders 180 on both sides.

The cam 160 is fixed to the tip of the second actuating rod 155 of the cam cylinder 150 while being in contact with the cam surface 183 of the cam slider 180 inside the sliding block 170. [ The cam 160 cams the cam slider 180 by driving the cam cylinder 150.

The cam 160 is composed of an inclined plane 163, a first parallel plane 165, and a second parallel plane 167 as shown in Fig.

The inclined surface 163 is formed at a center of the cam 160 by a predetermined inclined surface. The inclined plane 163 becomes narrower from the first parallel plane 165 to the second parallel plane 167.

The inclined surface 163 can contact the inclined cam surface 185 of the cam slider 180. [

The first parallel surface 165 is connected to one side of the inclined plane 163 and the second parallel plane 167 is connected to the other side of the inclined plane 163.

The width of the first parallel surface 165 is different from the width of the second parallel surface 167. That is, the width of the first parallel surface 165 may be greater than the width of the second parallel surface 167.

The second parallel face 167 can contact the parallel cam face 187 of the cam slider 180.

The sliding block 170 is installed and fixed to the front end of the cam cylinder 150 through a fixing frame 157.

The sliding block 170 is formed with a sliding hole 173 and a cam actuating hole 175 as shown in Fig.

The sliding holes 173 are formed in the sliding block 170 so as to penetrate toward the punching units 130 on both sides.

Inside the sliding hole 173, cam sliders 180 on both sides are located.

The cam actuating hole 175 is formed inside the sliding block 170. In other words, the cam actuating hole 175 is formed through the center of the sliding hole 173 toward the cam cylinder 150.

The cam 160 and the cam slider 180 on both sides are located inside the cam actuating hole 175.

The cam slider 180 is installed on both sides of the sliding hole 173 and drives toward the punching unit 130 on both sides. That is, the cam slider 180 is slidably driven toward the clinching punch 137 of the punching unit 130 by the cam 160 operated by the cam cylinder 150.

The cam surfaces 183 are formed on the cam sliders 180 on both sides as shown in Fig.

The cam surface 183 is composed of an inclined cam surface 185 and a parallel cam surface 187 as shown in Fig.

The inclined cam surface 185 is formed as a plane inclined at a predetermined interval. The inclined cam surface 185 is in contact with the inclined surface 163 of the cam 160.

The parallel cam surface 187 is connected to the inclined cam surface 185 and is formed in parallel. This parallel cam surface 187 is in contact with the second parallel surface 167 of the cam 160.

The restoration means 190 is installed between the sliding block 170 and the cam slider 180 as shown in Fig. The restoring means 190 provides restoring force to the cam slider 180 when driven by the cam 160. [

The restoration means 190 includes a restoring spring 193 and a spring cover 195.

The restoring spring 193 is formed to be fitted to the cam slider 180. The restoring spring 193 may be formed along the circumference of the cam slider 180.

One end of the restoring spring 193 is supported on the supporting end of the cam slider 180. [ The restoring spring 193 provides an elastic force to the cam slider 180.

The spring cover 195 is installed on the side surface of the sliding block 170. The spring cover 195 is fixed to the sliding block 170 through the bolt 189.

Although the spring cover 195 is described as being fixed to the sliding block 170 through the bolt 189, the present invention is not limited thereto. If the spring cover 195 can be fixed to the sliding block 170 The method is irrelevant. For example, the spring cover 195 may be fixed to the sliding block 170 by welding.

The spring cover 195 supports the other end of the restoring spring 193.

The clinching die 200 is formed corresponding to the clinching punch 137 of the punching unit 130. The clinching die 200 is integrally formed on the distal end surface of the cam slider 180.

The clinching die 200 is driven by the clinching punch 137 of the punching unit 130 by the forward and backward force of the cam slider 180.

FIGS. 4 and 5 are views sequentially illustrating a method of cleaning according to an embodiment of the present invention.

4, when the punch cylinder 133 is operated, the clinching punching 137 formed on both sides of the C-shaped frame 120 is performed by the first operating rod 135 connected to the punch cylinder 133, (Not shown).

When the cam cylinder 150 is operated, the cam 160 is driven toward the cam slider 180 by the second operating rod 155 connected to the cam cylinder 150. [ At this time, the first parallel surface 165 of the cam 160 may be in contact with the parallel cam surface 187 of the cam slider 180.

The cam slider 180 is then driven by the cam 160 toward the clinching punch 137.

The clinching die 200 is driven toward the clinching punching 137 by the cam slider 180. That is, the clinching die 200 is driven by the cam slider 180 to contact the inner surface of the first plate 300.

At this time, the restoring spring 193 of the restoring means 190 is formed in a compressed state by the movement of the cam slider 180.

5, a clinching punch 137 is driven by a first actuating rod 135 connected to a punch cylinder 133 to be inserted into a clinching die 200.

Accordingly, the first plate material 300 and the second plate material 310 are bonded by a clinching method using a clinching punching 137 and a clinching die 200.

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 or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

100: clinching device
110: robot arm
120: C-shaped frame
130: punching unit
137: clinching punch
150: cam cylinder
157: Fixed frame
160: Cam
170: Sliding block
173: Sliding hole
175: Cam operating hole
180: cam slider
200: clinching die

Claims (12)

In the clinching apparatus,
A C-shaped frame mounted on a distal end of the robot arm;
A pair of punching units provided at both ends of the C-shaped frame in correspondence with each other to drive respective clinching punches to the outer surface of the plate material; And
A die unit installed at the center of the C-shaped frame and driving each of the clinching dies which are operated by the forward and backward forces of the cylinders to be supported on the respective inner surfaces of the plate members corresponding to the respective clinching punches of the both-side punching unit;
. ≪ / RTI > The method according to claim 1,
The two-side punching unit
A punch cylinder installed at both ends of the C-shaped frame in directions corresponding to each other; And
A clinching punch integrally formed at the tip of each working rod of the punch cylinder;
Wherein the clamping device comprises: The method according to claim 1,
The die unit
A cam cylinder installed at a center of the C-shaped frame toward the space between the pair of punching units;
A sliding block which is installed through a fixed frame at the tip of the cam cylinder and through which a sliding hole toward the both side punching unit passes is formed and in which a cam actuating hole penetrating through the center of the sliding hole at a right angle toward the cam cylinder is formed, ;
Side cam sliders which are respectively provided on both sides of the sliding holes and on which cam surfaces are formed on the surfaces corresponding to each other and slide-driven toward the both-side punching unit;
A cam fixed to a leading end of an operating rod of the cam cylinder in a state of being in contact with each cam surface of the cam slider in the cam working hole to cam the both cam sliders by driving the cam cylinder; And
A clinching die integrally formed on each end surface of the both side cam sliders so as to correspond to both side cleansing punches of the both side punching units;
Wherein the clamping device comprises: The method of claim 3,
The die unit
Further comprising restoring means provided between the sliding block and the both-side cam slider, for providing restoring force to each cam slider. 5. The method of claim 4,
The restoration means
A restoring spring which is held on the supporting end of the cam slider at one end in a state of being fitted to each of the cam sliders; And
A spring cover installed on both sides of the sliding block to support the other end of the restoration spring;
Wherein the clamping device comprises: The method of claim 3,
The mutually corresponding surfaces
An inclined cam surface formed by inclining a predetermined section; And
Parallel cam surfaces connected to the inclined cam surfaces and corresponding to each other in parallel;
And a cleaning device for cleaning the wafer. The method according to claim 6,
The cam
An inclined surface formed at a central portion of the inclined surface;
First and second parallel surfaces connected to both sides of the inclined surface, respectively;
And a cleaning device for cleaning the wafer. A C-shaped frame mounted on a distal end of the robot arm;
A pair of punching units for driving a clinching punch with respect to an outer surface of the plate by punch cylinders provided at both ends of the C-shaped frame in directions corresponding to each other; And
And a pair of clamping punches provided on both sides of the C-shaped frame for moving the clamping die between the pair of punching units, To be supported on each inner surface of the die unit;
. ≪ / RTI > 9. The method of claim 8,
The sliding block
Wherein a sliding hole is formed through the fixing frame at the front end of the cam cylinder and is directed to both punching units, and the sliding hole is formed through the center of the sliding hole at a right angle toward the cam cylinder. Device. 10. The method of claim 9,
Side cam slider
Wherein the sliding surfaces are respectively provided on both sides of the sliding hole, and the cam surfaces are formed on the surfaces corresponding to each other, and slide-driven toward the both-side punching unit. 11. The method of claim 10,
The die unit
A cam fixed to a leading end of an operating rod of the cam cylinder in a state of being in contact with each cam surface of the cam slider in the cam working hole to cam the both cam sliders by driving the cam cylinder;
A clinching die integrally formed on each end surface of the both side cam sliders so as to correspond to both side cleansing punches of the both side punching units; And
Restoring means provided between the sliding block and the both-side cam slider, for providing a restoring force to each cam slider;
Further comprising: a clamping device for clamping the clamping device. 12. The method of claim 11,
The restoration means
A restoring spring which is held on the supporting end of the cam slider at one end in a state of being fitted to each of the cam sliders; And
A spring cover installed on both sides of the sliding block to support the other end of the restoration spring;
Wherein the clamping device comprises:

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