JP3086480U - Jig for assembly - Google Patents

Abstract

(57) [Summary] (With correction) [PROBLEMS] To provide an assembling jig for automatically continuously combining and transporting each part included in a connector. SOLUTION: An assembling jig comprises a plurality of bases B and a first base.
A first supply device for mounting a first part of a connector on a base using a feeding unit, and a first supply unit for mounting a second part of the connector on a base using a second feeding unit;
A second supply device 2 installed in a part storage unit, and a third supply device 3 installed using a third feeding unit to install the third part of the connector on the second part on the first part on the base. A fourth supply device 4 for hanging the fourth part of the connector on the third localization part of the third part using the fourth feeding part to localize the second part and the third part on the first part; And a fifth supply device 5 that installs the fifth part of the connector to the third part using the fifth feeding unit.

Description

[Detailed description of the invention]

[0001]

[Field to which the invention belongs]

 The present invention relates to an assembling jig, and more particularly, to an assembling jig that performs continuous automation and transport of each part included in a connector.

[0002]

[Prior art]

 When assembling between many parts and each part of a connector with a small size, the jigs required for each part must have the most ideal accuracy, and the process design between each jig must be reliable. Only under consistent circumstances could the assembly process for an ideal connector be completed.

[0003]

[Problems to be solved by the invention]

 Therefore, an object of the present invention is to provide an assembling jig that performs continuous automatic combination and transport for each part included in the connector.

[0004]

[Means for Solving the Problems]

 In order to solve the above-mentioned problems and achieve a desired object, assembly is performed by applying to a connector including a first part, a second part, a third part, a fourth part, and a fifth part. The assembly jig of the present invention has a plurality of bases and at least one first feeding portion, and a first supply device for setting the first parts on the base using the first feeding portion. A second supply device having at least one second feeding unit and using the second feeding unit to place the second part in the accommodation part of the first part on the base; A third feeding device that has a feeding unit and installs the third part on the second part on the base using the third feeding unit; and a fourth feeding unit and an auxiliary part. The third part on the second part is moved using the auxiliary part, and the fourth part is placed on the third localization part of the third part using the fourth feeding section, and the second part is moved. And the third part is localized on the first part A fifth supply device having a fourth feeding device, a fifth feeding portion, and a fifth part placed on the third part using the fifth feeding portion; and removing the connector from the base. And a sixth supply device for use.

[0005]

[Embodiment of the invention]

 Hereinafter, a preferred embodiment of the present invention will be described with reference to the drawings.

FIGS. 1A to 1C show the disassembled, assembled and assembled drawings of the connector C. FIG.

In FIG. 1A, the connector C includes a first part C1, a second part C2, a third part C3, a fourth part C4, and a fifth part C5 (dustproof parts). Performs assembling of the first part C1, the second part C2, the third part C3, the fourth part C4, and the fifth part C5 by a continuous method. The structure, assembling order, and mutual connection of the combined parts of the connector C will be described below.

[0008] The first part C1 is a hollow cylindrical part made of metal or plastic, and the first part C1 includes an accommodating portion c100. The accommodating portion c100 is a hole for passing the first part C1. The second part C2 is an elastic part (such as a spring), and the second part C2 is installed in the accommodating portion c100 of the first part C1. The third part C3 is a cylindrical shaft part made of metal or plastic, and the third part C3 is used as a ferrule or a hand-held part of the connector C. The third part C3 has a convex edge c300, a third localized portion c301, and both ends c302 and c303, and the convex edge c300 and the third localized portion c301 are located between both ends c302 and c303. The three parts C3 are set on the first part C1 by passing the end c302 through the second part C2. The fourth part C4 is a spring, and the fourth part C4 is provided with a crossover part c400, and the fourth part C4 is installed on the third part C3 by the crossover part c400.

In FIG. 1B, when the second part C2 and the third part C3 are sequentially installed on the first part C1, and the fourth part C4 is installed on the third part C3, the method is as follows. (Not shown), the third part C3 and the first part C1 are brought closer to each other, and the third part C3 pushes the second part C2 to move the third localization part c301 of the third part C3 to the first part C1. Get out. At this time, the fourth part C4 is hung on the third orientation part c301 by the mating part c400 to complete the assembling work of the main structure of the connector C (see FIG. 1C).

[0010] The fifth part C5 is a dustproof part that can be selected. After completing the assembly of the first part C1, the second part C2, the third part C3, and the fourth part C4, the fifth part C5 is formed. C5 can be used to cover the end c303 of the third part C3.

See FIG. FIG. 2 shows a plan view of the assembly jig J of the present invention. The assembling jig J includes a machine base B, a plurality of bases b0, a first supply device 1, a second supply device 2, a third supply device 3, a fourth supply device 4, a fifth supply device 5, and a sixth supply device. 6 and a collector 7. The plurality of bases b0 are installed on the machine base B in a circumferentially arranged manner, and the first supply device 1, the second supply device 2, the third supply device 3, the fourth supply device 4, and the fifth supply device The supply device 5, the sixth supply device 6, and the collector 7 are respectively installed adjacent to one side surface of the machine base B, and the first to fifth connectors C to C of the connector C are sequentially provided by the first to sixth supply devices 1 to 6, respectively. The parts C1 to C5 are assembled.

The first part C1, the second part C2, the third part C3, and the fourth part C4 are installed on the material placement devices D1, D2, D3, D4, and D5, respectively, and the material placement devices D1, D2, According to D3, D4 and D5, the first part C1 requiring the first supply device 1 continuously, the second part C2 requiring the second supply device 2, the third part C3 requiring the third supply device 3, The fourth supply device 4 provides the required fourth part C4.

FIGS. 3A to 4B, 5A to 6B, 7A to 8B, 9A to 10B, 11A to 12B, and 13A to 13B respectively show the first to sixth parts of FIG. The steps of assembling the supply devices 1 to 6 and the first to fifth parts C1 to C5 of the connector C and discharging the material will be described. 3A to 4B, 5A to 6B, 7A to 8B, 9A to 10B, 11A to 12B, and 13A to FIG. 3A to FIG. 4B, FIG. 13B, only one base b0 is shown.

See FIGS. 3A-4B. 3A to 4B show a step of installing the first part C1 on the base b0 by the first supply device 1. The base b0 is a hollow cylindrical part, and the base b0 includes a housing part b00, a guide part b01, and a hole b02. Among them, the guide part b01 is set on the accommodation part b00 by the separation method, and the hole b02 is connected to the accommodation part b00.

Please refer to FIG. 3A to FIG. 4B. The first supply device 1 includes a first feeding unit 11 and a track b1. The first feeding unit 11 performs a horizontal and vertical movement supplying operation under the action of a pneumatic cylinder (not shown) or other devices. A plurality of first parts C1 are placed using the track b1, and the first feeding unit 11 grasps the first part C1 on the track b1 and sets the first part C1 on the base b0 while aligning with the guide part b01.

After placing the first part C1 on the base b0, the first measuring device S1 connected to the processor P can measure whether the first part C1 on the base b0 has reached a predetermined position. it can.

See FIGS. 5A to 6B. FIGS. 5A to 6B show a step of setting the second part C2 on the first part C1 on the base b0 in FIG. 4A by the second supply device 2. FIG.

Referring to FIGS. 5A to 6B, the second supply device 2 includes a carrier 20, a second feeding unit 21, and a feed part 22. The carrier 20 performs horizontal and vertical movement supply operations under the action of a pneumatic cylinder (not shown) or other devices, and has two holes 200 and 201 and a feed part 22 on the carrier 20. Then, the plurality of second parts C2 are continuously sent into the hole 200. The second feeding part 21 is a slider that can slide and move in the hole 200, and sends the second part C 2 in the hole 200 to the hole 201 by feeding of the second feeding part 21. Then, the second part C2 passes through the hole 201 and is set on the first part C1 (see FIG. 6A) on the base b0 at the guide part b01. At this time, one side surface (lower side) of the second part C2 contacts the first part C1.

After installing the second part C2 on the first part C1 on the base b0, the second measuring device S2 connected to the processor P ensures that the second part C2 is on the first part C1 on the base b0. Can be measured.

See FIGS. 7A-8B. 7A to 8B show a step of installing the third part C3 on the second part C2 on the first part C1 on the base b0 in FIG. 6A by the third supply device 3. Before installing the third part C3 on the second part C2 on the first part C1 on the base b0, the guide part b01 of the base b0 shown in FIGS. 7A to 8B is removed.

7A to 8B, the third supply device 3 includes a third feeding unit 31 and a track b3. The third feeding unit 31 performs a supply operation of horizontal and vertical movement under the action of a pneumatic cylinder (not shown) or another device. A plurality of third parts C3 are placed using the track b3, and the third feeding unit 31 grasps the third part C3 on the track b3 and places the third part C3 on the first part C1 on the base b0 on the second part C2. To be installed. In this method, the end c302 of the third part C3 is installed on the second part C2 through the second part C2. At this time, the protruding edge c300 comes into contact with the second part C2.

After the third part C3 is set on the base b0, it is measured whether or not the third part C3 on the base b0 has reached a predetermined position by a third measuring device S3 connected to the processor P. be able to.

See FIGS. 9A to 10B. 9A to 10B, the fourth supply device 4 places the fourth part C4 on the third part C3 on the second part C2 on the first part C1 on the base b0 in FIG. 8A. Is shown.

9A to 10B, the fourth supply device 4 includes a fourth feeding part 41 and an auxiliary part 42, of which the fourth feeding part 41 and the auxiliary part 42 are pneumatic cylinders (not shown) or Reciprocate under the action of other devices.

When the fourth feeding part 41 hangs the fourth part C4 on the third localization part c301 of the third part C3, first, the auxiliary part 42 uses the first part C1 and the second part C2 on the second part C2. Press down on the three parts C3 and install. As described above, the end c302 of the third part C3 is made to be adjacent to one side surface of the hole b02 by the guide of the housing part b00, and the fourth feeding part 41 moves along the hole b02. The mating part c400 of the fourth part C4 is hung on the third localization part c301 to be localized. At this time, the movement of the third part C3 brings the second part C2 into a compressed state.

After the fourth part C4 is installed on the third part C3 on the base b0, the fourth measuring device S4 connected to the processor P places the fourth part C4 on the base b0 at a predetermined position. Can be measured.

See FIGS. 11A to 12B. 11A to 12B show a step of installing the fifth part C5 on the third part C3 on the second part C2 on the first part C1 on the base b0 in FIG. 10A by the fifth supply device 5. .

11A to 12B, the fifth supply device 5 includes a fifth feeding unit 51, another auxiliary part 52, and a track b5. Among them, the fifth feeding part 51 and another auxiliary part 52 reciprocate under the action of a pneumatic cylinder (not shown) or other devices, and a plurality of fifth parts C5 are placed using the truck b5. .

When the fifth feeding part 51 installs the fifth part C5 on the third part C3 on the second part C2 on the first part C1 on the base b0 in FIG. 10A, the method is as follows. After grasping the first part C1 set on the base b0 by the auxiliary part 52, the fifth part C5 is moved by using the fifth feeding part 51 to be localized on the end c303 of the third localization part c301. To complete the assembly process of the connector C.

After the fifth part C5 is installed on the third part C3 on the base b0, the fifth measuring device S5 connected to the processing device P places the fifth part C5 on the base b0 at a predetermined position. Can be measured.

See FIGS. 13A and 13B. 13A and 13B show before and after the connector C completed in FIG. 12B is moved to the collector 7 by the sixth supply device 6 of the assembly jig J of the present invention.

In FIG. 13A and FIG. 13B, the sixth supply device 6 has a sixth feeding part 61, and the sixth feeding part 61 grasps the connector C after the assembling process is completed and transports it to the collector 7. Moving.

As described above, the present invention has been disclosed in a preferred embodiment. However, the present invention is not intended to limit the present invention, and the technical idea of the present invention can be easily understood by those skilled in the art. Since appropriate changes and modifications can naturally be made in the scope, the scope of protection of the utility model right must be determined based on the claims and the equivalent area.

[0034]

[Effect of the invention]

 With the above configuration, the present invention has the following advantages. This invention provides a system that enables continuous supply by assembling and transporting each part included in the connector, and its automated process can effectively reduce manufacturing costs and increase production efficiency. Therefore, the industrial use value is high.

[Brief description of the drawings]

FIG. 1A is an exploded sectional view of a connector C. FIG.
(B) is a cross-sectional view when the connector C of FIG. 1A is half combined. (C) is a cross-sectional view when the connector C of FIG. 1A is completely combined.

FIG. 2 is a plan view of a combination jig J. FIG.

FIG. 3A is a cross-sectional view before the first supply device 1 of the assembly jig J installs a first part C1 in a connector C on a base b0. The plurality of first parts C1 are supported by the track b1. (B) is the first of FIG. 3A.
FIG. 4 is a cross-sectional view when the supply device 1 grips a first part C1.

FIG. 4A is a cross-sectional view when the first supply device 1 of FIG. 3B moves a first part C1 to a base b0.
(B) shows the base b in FIG. 4A by the first measuring device S1.
FIG. 7 is a cross-sectional view before measurement is performed on a first part C1 installed on a top 0.

FIG. 5 (A) shows the second supply device 2 of the assembling jig J according to the present invention using the second part C2 in the connector C in FIG.
FIG. 3 is a cross-sectional view before installation on a first part C1 in FIG.
(B) shows that the second supply device 2 passes the second part C2 through the path 20.
FIG. 2 is a cross-sectional view when moving to 1.

6A is a cross-sectional view after the second supply device 2 in FIG. 5B has installed the second part C2 on the second part C2 in FIG. 5B. FIG. 6B shows the result obtained by using the second measuring device S2 in FIG.
The second part C2 on the first part C1 on the inside base b0
FIG. 3 is a cross-sectional view before measurement.

FIG. 7A shows a third part C3 in a connector C of a third supply device 3 of an assembly jig J according to the present invention.
It is sectional drawing before installing in the 1st part C1 and the 2nd part C2 in A. (B) is a sectional view when the third supply device 3 grips the third part C3.

8A is a diagram illustrating a state in which the third supply device 3 in FIG. 7B converts the third part C3 into the first part C1 and the second part C2 in FIG. 7B.
It is sectional drawing after putting in. (B) shows the third measuring device S
FIG. 3 is a cross-sectional view for measuring the first part C1 on the base b0 and the third part C3 on the second part C2 in FIG. 8A.

9A is a cross-sectional view before the fourth supply device 4 of the assembling jig J according to the present invention installs the fourth part in the connector C on the third part C3 in FIG. 8A. . The fourth supply device 4 includes a fourth feeding unit 41 and an auxiliary part 42. FIG. 9B shows that the fourth feeding unit 41 of the fourth supply device 4 in FIG.
It is sectional drawing at the time of installing the part C4 in the 3rd part C3.

FIG. 10A is a cross-sectional view after the fourth supply device 4 in FIG. 9B has installed the fourth part C4 on the plate part on the third part C3. (B) shows a continuation of FIG. 10A, in which the fourth measuring device S4 connected to the processor P measures whether or not the fourth part C4 on the base (b0) has reached a predetermined position. It is sectional drawing.

FIG. 11A is a cross-sectional view showing a state before the fifth supply device 5 of the assembly jig J according to the present invention installs the fifth part C5 in the connector C in the third part C3 in FIG. 10A. FIG. 11B is a cross-sectional view when the auxiliary part 52 in FIG. 11A localizes the first part C1 on the base b0 and grasps the fifth part C5 using the fifth feeding unit 51.

FIG. 12A is a diagram illustrating a fifth feeding part 51 in FIG. 11B in which a fifth part C5 is connected to a third part C on a base b0.
FIG. 3 is a cross-sectional view when the device is installed in a position 3; (B) shows the third measurement device installed on the base b0 in FIG. 12A by the fifth measurement device S5.
It is sectional drawing at the time of measuring the 5th part C5 on the part C3.

13A is a cross-sectional view before the sixth supply device 6 of the assembly jig J according to the present invention conveys and moves the completed connector C in FIG. 12A to the collector 7. FIG. (B)
FIG. 6 is a cross-sectional view after the sixth supply device 6 conveys and moves the connector C to the collector 7.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 1st supply device 2 2nd supply device 3 3rd supply device 4 4th supply device 5 5th supply device 6 6th supply device 11 1st feeding part 20 carrier 200 hole 201 hole 21 2nd feeding part 22 feed Parts 31 Third feeding section 41 Fourth feeding section 42 Auxiliary parts 51 Fifth feeding section 52 Auxiliary parts 61 6th feeding section 7 Collector B machine base b0 Base b00 accommodating section b01 Guide section b02 Hole b1 Track b3 Track b5 Truck C connector C1 First part C2 Second part C3 Third part C4 Fourth part C5 Fifth part c100 Housing part c300 Convex edge c301 Third localization part c302 End part c303 End part c400 Hook-up part D1 Material placement device D2 Material placement equipment D3 Material placement device D4 Material placement device D5 Material placement device J Assembly jig P Processor S1 First measuring device S2 Second measuring device S3 Third measuring device S4 Fourth measuring device S5 Fifth measuring device

Claims (11)

[Utility model registration claims] 1. A jig for assembling a connector including a first part having a storage part, a second part, a third part having a third localization part, and a fourth part, wherein the assembly jig comprises at least: A first supply device having one base, at least one first feeding unit, and installing the first part on the base using the first feeding unit; and at least one A second feeding part, wherein the second part is installed in the accommodation part of the first part on the base using the second feeding part.
A third feeder having a third feeder, the third feeder being arranged on the second part on the base using the third feeder, and a fourth feeder. A third part on the second part using the auxiliary part, and a fourth part using the fourth feeding part to move the fourth part to the third part. Hang the second part and the third part on the first
And a fourth supply device for localizing on the part. 2. The apparatus according to claim 1, further comprising a fifth feeding device, wherein the connector further includes a fifth part, wherein the fifth feeding device has a fifth feeding portion, and the fifth feeding device uses the fifth feeding portion. The assembly jig according to claim 1, wherein the fifth part is set on the third part. 3. The assembly jig according to claim 2, wherein said fifth part is a dustproof part. 4. The assembly jig according to claim 1, further comprising a sixth supply device, wherein the connector is removed from the base using the sixth supply device. 5. The assembly jig of claim 4, further comprising a collector, wherein the sixth supply device receives the removed connector using the collector. 6. The apparatus of claim 1, further comprising a collector, wherein the collector is used to receive the connector.
The assembling jig described. 7. The assembly jig according to claim 1, further comprising a guide portion, wherein said guide portion can be installed on said base by a separation method. 8. The assembly jig according to claim 1, wherein said third part further includes a convex edge. 9. The assembly jig according to claim 1, wherein said fourth part is a spring. 10. The assembly jig according to claim 1, wherein said fourth part is a spring having a hooked portion. 11. The assembly jig according to claim 1, further comprising at least one measuring device for measuring whether said first to fourth parts are set at a predetermined position.