CN214280404U - POGO PIN inserting machine - Google Patents

Abstract

The utility model discloses a POGO PIN needle inserting machine, which comprises a frame, a first feeding device, a second feeding device, a needle inserting device, a material removing device, a riveting device, a bending device and a shaping device; a first material conveying groove and a second material conveying groove are arranged on the rack; the pin inserting device moves back and forth between the output end of the first material conveying groove and the second material conveying groove; the material removing device, the riveting device, the bending device and the shaping device are all arranged on the rack and located beside the second material conveying groove, and are sequentially arranged along the second material conveying groove. Through being provided with the contact pin device, removing material device, riveting device, bending device and shaping device, make it can accomplish simultaneously that the terminal is pegged graft, peel off the material area, with terminal riveting target in place, bend terminal and plastic bend angle etc. multichannel processes, can realize pegging graft terminal equipment finished product production of bending, improved the efficiency of production greatly, not only greatly reduced equipment cost and cost of labor, production process is also more simple and efficient.

Description

POGO PIN inserting machine

Technical Field

The utility model relates to a connector equipment field technique especially indicates a POGO PIN insertion machine.

Background

Along with the popularization of electronic products, the electric connector obtains more and more extensive application, the production and processing of electric connector is also more and more important, when pegging graft the terminal into the plastic in current course of working, need experience the cooperation of multichannel process and just can accomplish, lead to production efficiency lower, and degree of automation is not high, the process of multichannel difference simultaneously need use the equipment of many differences, not only the cost is higher, and the production process is also comparatively loaded down with trivial details, consequently, it solves above-mentioned problem to be necessary to design a new technical scheme.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a POGO PIN needle inserting machine, and it can effectively solve current POGO PIN needle inserting mode production efficiency low, degree of automation is not high, the processing cost is big and the loaded down with trivial details problem of production process.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a POGO PIN insertion machine which characterized in that: the riveting and pressing device comprises a rack, a first feeding device, a second feeding device, a pin inserting device, a material removing device, a riveting and pressing device, a bending device and a shaping device; the rack is provided with a first material conveying groove for conveying the material belt terminal and a second material conveying groove for conveying plastic; the first feeding device is arranged on the rack, and the output end of the first feeding device is communicated with the input end of the first material conveying groove; the second feeding device is arranged on the rack, and the output end of the second feeding device is communicated with the input end of the second conveying chute; the pin inserting device is arranged on the rack and is positioned at an output end opening of the first material conveying groove, and the pin inserting device moves back and forth between the output end of the first material conveying groove and the second material conveying groove; the material removing device, the riveting device, the bending device and the shaping device are all arranged on the rack and located beside the second material conveying groove, and the material removing device, the riveting device, the bending device and the shaping device are sequentially arranged along the second material conveying groove.

As a preferable scheme, the first feeding chute and the second feeding chute are arranged in parallel.

As a preferred scheme, the rack is also provided with a feeding device, the feeding device is arranged beside the first material conveying groove and positioned in front of the pin inserting device, and the feeding device comprises a feeding disc and a first driving mechanism; the feeding tray is rotatably arranged beside the first material conveying groove and partially extends into the first material conveying groove, and a plurality of clamping teeth matched with the clamping holes on the material belt terminal are arranged at intervals on the periphery of the feeding tray; the first driving mechanism is arranged on the rack and drives the feeding plate to rotate.

As a preferred scheme, the pin inserting device comprises a movable seat, a material cutting rod and a second driving mechanism; the movable seat can be movably arranged at the output end of the first material conveying groove and the side of the second material conveying groove back and forth, a first containing groove is formed in the movable seat, and the first containing groove is communicated with the output end of the first material conveying groove; the cutting rod is fixed on the rack and clamped between the output end of the first material conveying groove and the movable seat, a cutter is arranged at the lower end of the cutting rod, and the position of the cutter corresponds to the position of the material belt; the second driving mechanism is arranged on the frame and drives the movable seat to move back and forth.

As a preferred scheme, the material removing device comprises a material removing plate, a third driving mechanism and a waste material box; the material removing plate can be movably arranged right above the second material conveying groove up and down, a plurality of clamping grooves are formed at the lower end of the material removing plate at intervals, and the clamping grooves are matched with terminals in the material belt; the third driving mechanism is arranged on the frame and drives the material removing plate to move up and down; the waste material box is arranged on the frame and is positioned under the second material conveying groove and the material removing plate.

As a preferable scheme, the riveting device comprises a riveting plate and a fourth driving mechanism, and the riveting plate can be movably arranged beside the second material conveying groove back and forth; the fourth driving mechanism is arranged on the frame and drives the riveting plate to move back and forth.

As a preferred scheme, the bending device comprises a support, a bending plate and a fifth driving mechanism; the bracket is arranged on the frame, and an annular movable groove is formed in the bracket; the bending plate can be arranged beside the second material conveying groove in an upward and turnover mode, the lower end of the bending plate is abutted to the second material conveying groove, the upper end of the bending plate can be movably arranged in the movable groove back and forth, a plurality of first grooves are concavely arranged on the surface of the lower end of the bending plate, and the first grooves are matched with the terminals; the fifth driving mechanism is arranged on the rack and drives the upper end of the bending plate to move back and forth.

As a preferable scheme, the shaping device comprises a movable block, a sixth driving mechanism, a movable plate and a seventh driving mechanism; the movable block can be movably arranged beside one side of the second material conveying groove back and forth, one side of the movable block facing the second material conveying groove is provided with a plurality of second grooves, and the second grooves are matched with the terminals; the sixth driving mechanism is arranged on the frame and drives the movable block to move back and forth; the movable plate can be movably arranged beside the other side of the second material conveying groove back and forth; the seventh driving mechanism is arranged on the frame and drives the movable plate to move back and forth.

As a preferred scheme, the rack is also provided with a material receiving device, the material receiving device is arranged at an opening of the output end of the second material conveying groove, and the material receiving device comprises a material receiving disc, an eighth driving mechanism, a material pushing rod and a ninth driving mechanism; the material receiving plate is rotatably arranged at an output end opening of the second material conveying groove, the material receiving plate is vertically arranged, a plurality of second accommodating grooves are formed in the periphery of the surface of the material receiving plate, and the second accommodating grooves are communicated with the output end opening of the second material conveying groove; the eighth driving mechanism is arranged on the rack and drives the material receiving disc to rotate; the material pushing rod moves back and forth among the plurality of second accommodating grooves and is opposite to the openings of the second accommodating grooves; the ninth driving mechanism is arranged on the frame and drives the material pushing rod to move back and forth.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

through being provided with the contact pin device, remove the material device, the riveting device, bending device and shaping device, make it accomplish the terminal simultaneously and peg graft, peel off the material area, with the terminal riveting target in place, bend terminal and plastic bend angle etc. multichannel processes, can realize pegging graft terminal equipment finished product production of bending, the efficiency of production has been improved greatly, and degree of automation is also higher, the cooperation that need not use many different equipment simultaneously, not only greatly reduced equipment cost and cost of labor, the production process is also more simple and efficient.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 2 is a partially assembled schematic view of a preferred embodiment of the present invention;

FIG. 3 is a partial assembly view of another aspect of the preferred embodiment of the present invention;

FIG. 4 is a schematic perspective view of a pin inserting device according to a preferred embodiment of the present invention;

fig. 5 is a schematic perspective view of a feeding device according to a preferred embodiment of the present invention;

FIG. 6 is a schematic perspective view of a material removing device according to a preferred embodiment of the present invention;

fig. 7 is a schematic perspective view of a riveting device according to a preferred embodiment of the present invention;

fig. 8 is a schematic perspective view of a bending apparatus according to a preferred embodiment of the present invention;

fig. 9 is a schematic perspective view of a shaping device according to a preferred embodiment of the present invention;

fig. 10 is a schematic perspective view of a material receiving device according to a preferred embodiment of the present invention.

The attached drawings indicate the following:

10. frame 101, first defeated silo

102. A second material conveying groove 103 and a second accommodating groove

11. Feeding device 111 and feeding tray

112. First drive mechanism 113, latch

12. Material receiving device 121 and material receiving plate

122. Eighth driving mechanism 123 and pushing rod

124. Ninth driving mechanism 20 and first feeding device

30. Second feeding device 40 and pin inserting device

401. First accommodation groove 41 and movable seat

42. Cutting rod 421 and cutter

43. Second driving mechanism 50 and material removing device

501. Clamping groove 51 and material removing plate

52. Third driving mechanism 53, waste box

60. Riveting device 61 and riveting plate

62. Fourth driving mechanism 70 and bending device

701. Movable groove 702 and first groove

71. Support 72, board of bending

73. Fifth driving mechanism 80 and shaping device

801. Second groove 81, movable block

82. Sixth driving mechanism 83 and movable plate

84. Seventh driving mechanism 91, material belt terminal

92. And (3) plastic cement.

Detailed Description

Referring to fig. 1 to 10, a specific structure of a preferred embodiment of the present invention is shown, which includes a frame 10, a first feeding device 20, a second feeding device 30, a pin inserting device 40, a material removing device 50, a riveting device 60, a bending device 70, and a shaping device 80.

A first material conveying groove 101 for conveying the material belt terminal 91 and a second material conveying groove 102 for conveying the plastic 92 are arranged on the rack 10; in this embodiment, the first feeding chute 101 and the second feeding chute 102 are arranged in parallel; the rack 10 is further provided with a feeding device 11, the feeding device 11 is arranged beside the first material conveying groove 101, and the feeding device 11 comprises a feeding tray 111 and a first driving mechanism 112; the feeding tray 111 is rotatably arranged beside the first feeding chute 101 and partially extends into the first feeding chute 101, and a plurality of latch teeth 113 matched with the latch holes on the material strip terminal 91 are arranged at intervals on the periphery of the feeding tray 111; the first driving mechanism 112 is arranged on the frame 10 and drives the feeding tray 111 to rotate; the rack 10 is further provided with a material receiving device 12, the material receiving device 12 is arranged at an output end opening of the second material conveying groove 102, and the material receiving device 12 comprises a material receiving disc 121, an eighth driving mechanism 122, a material pushing rod 123 and a ninth driving mechanism 124; the material receiving tray 121 is rotatably arranged at an output end opening of the second material conveying groove 102, the material receiving tray 121 is vertically arranged, a plurality of second accommodating grooves 103 are formed in the periphery of the surface of the material receiving tray 121, and the second accommodating grooves 103 are communicated with the output end opening of the second material conveying groove 102; the eighth driving mechanism 122 is disposed on the frame 10 and drives the material receiving tray 121 to rotate; the material pushing rod 123 moves back and forth among the second accommodating grooves 103, and the material pushing rod 123 is opposite to the openings of the second accommodating grooves 103; the ninth driving mechanism 124 is disposed on the frame 10 and drives the material pushing rod 123 to move back and forth.

The first feeding device 20 is disposed on the frame 10, and an output end of the first feeding device 20 is communicated with an input end of the first material conveying chute 101.

The second feeding device 30 is disposed on the frame 10, and an output end of the second feeding device 30 is communicated with an input end of the second material conveying chute 102.

The pin inserting device 40 is arranged on the frame 10 and is positioned at an output end opening of the first material conveying groove 101, and the pin inserting device 40 moves back and forth between the output end of the first material conveying groove 101 and the second material conveying groove 102; in this embodiment, the pin inserting device 40 includes a movable seat 41, a material cutting rod 42 and a second driving mechanism 43; the movable seat 41 is movably disposed at the output end of the first material conveying chute 101 and at the side of the second material conveying chute 102 back and forth, a first accommodating groove 401 is formed in the movable seat 41, and the first accommodating groove 401 is communicated with the output end of the first material conveying chute 101; the material cutting rod 42 is fixed on the frame 10 and clamped between the output end of the first material conveying groove 101 and the movable seat 41, the lower end of the material cutting rod 42 is provided with a cutter 421, and the position of the cutter 421 corresponds to the position of the material belt terminal 91; the second driving mechanism 43 is disposed on the frame 10 and drives the movable seat 41 to move back and forth; the feeding device 11 is located in front of the pin inserting device 40.

Should go material device 50, riveting device 60, bending device 70 and shaping device 80 and all set up on frame 10 and be located the side of second feeding trough 102, go material device 50, riveting device 60, bending device 70 and shaping device 80 and arrange along second feeding trough 102 in proper order, specifically:

the material removing device 50 comprises a material removing plate 51, a third driving mechanism 52 and a waste material box 53; the material removing plate 51 can be movably arranged right above the second material conveying groove 102 up and down, a plurality of clamping grooves 501 are arranged at the lower end of the material removing plate 51 at intervals, and the clamping grooves 501 are matched with terminals in the material belt terminals 91; the third driving mechanism 52 is arranged on the frame 10 and drives the material removing plate 51 to move up and down and back and forth; the waste box 53 is disposed on the frame 10 and is located right below the second hopper 102 and the stripper plate 51.

The riveting device 60 comprises a riveting plate 61 and a fourth driving mechanism 62, wherein the riveting plate 61 is movably arranged beside the second material conveying chute 102 back and forth; the fourth driving mechanism 62 is disposed on the frame 10 and drives the riveting plate 61 to move back and forth.

The bending device 70 comprises a bracket 71, a bending plate 72 and a fifth driving mechanism 73; the bracket 71 is arranged on the frame 10, and an annular movable groove 701 is formed in the bracket 71; the bending plate 72 can be arranged beside the second material conveying groove 102 in an upward and turnover manner, wherein the lower end of the bending plate 72 is abutted to the second material conveying groove 102, the upper end of the bending plate 72 can be movably arranged in the movable groove 701 back and forth, a plurality of first grooves 702 are concavely arranged on the surface of the lower end of the bending plate 72, and the first grooves 702 are matched with the terminals; the fifth driving mechanism 73 is disposed on the frame 10 and drives the upper end of the bending plate 72 to move back and forth.

The shaping device 80 comprises a movable block 81, a sixth driving mechanism 82, a movable plate 83 and a seventh driving mechanism 84; the movable block 81 is movably arranged beside one side of the second material conveying groove 102 back and forth, one side of the movable block 81 facing the second material conveying groove 102 is provided with a plurality of second grooves 801, and the second grooves 801 are matched with the terminals; the sixth driving mechanism 82 is disposed on the frame 10 and drives the movable block 81 to move back and forth; the movable plate 83 is movably disposed beside the other side of the second feeding chute 102; the seventh driving mechanism 84 is disposed on the frame 10 and drives the movable plate 83 to move back and forth.

Detailed description the working principle of the present embodiment is as follows:

when in use, the material strip terminal 91 is firstly placed into the first feeding device 20, the plastic 92 is placed into the second feeding device 30, after the device is started, the control system (not shown) of the device controls the first feeding device 20, the second feeding device 30, the pin inserting device 40, the material removing device 50, the riveting device 60, the bending device 70 and the shaping device 80 to work cooperatively, firstly, the material strip terminal 91 is sequentially conveyed into the first material conveying groove 101 by the first feeding device 20, the plastic 92 is sequentially conveyed into the second material conveying groove 102 by the second feeding device 30, meanwhile, the first driving mechanism 112 drives the feeding disc 111 to rotate, the material strip terminal 91 is conveyed backwards, when the material strip terminal 91 is conveyed to the output end of the first material conveying groove 101, the material strip terminal enters the first accommodating groove 401 on the movable seat 41, and then the second driving mechanism 43 drives the movable seat 41 to move towards the direction of the second material conveying groove 102, simultaneously, the material belt terminal 91 in the first accommodating groove 401 is driven to move, simultaneously, the cutter 421 at the lower end of the material cutting rod 42 cuts and separates the material belt terminal 91 in the first accommodating groove 401 from the material belt terminal 91 in the first material conveying groove 101, then the movable seat 41 inserts the material belt terminal 91 in the accommodating groove 401 onto the plastic 92 in the second material conveying groove 102, then the movable seat 41 is driven by the second driving mechanism 43 to reset, after the insertion is completed, the material belt terminal 91 and the plastic 92 are conveyed backwards along the second material conveying groove 102 together, when the material is conveyed to the lower part of the material taking device 50, the third driving mechanism 52 drives the material removing plate 51 to move downwards, the material belt is removed through the matching of the clamping groove 501 in the material removing plate 51 and the terminal in the material belt terminal 91, the removed material belt enters the waste material box 53 to be collected, then the material removing plate 51 is driven by the third driving mechanism 52 to reset upwards, and then the terminal and the plastic 92 are conveyed backwards along the second material conveying groove 102 together, when the terminal is conveyed to the riveting device 60, the fourth driving mechanism 62 drives the riveting pressing plate 61 to move towards the second conveying chute 102, the riveting pressing plate 61 presses the terminal into the plastic 92, then the fourth driving mechanism 62 drives the riveting pressing plate 61 to reset, then the terminal and the plastic 92 are continuously conveyed backwards along the second conveying chute 102, when the terminal is conveyed to the bending device 70, the first groove 702 in the bending plate 72 is matched with the pin of the terminal, the fifth driving mechanism 73 drives the bending plate 72 to bend upwards along the movable groove 701, simultaneously drives the pin of the terminal to bend upwards, after the terminal is bent and formed, the fifth driving mechanism 73 drives the bending plate 72 to turn downwards to reset, then the bent terminal and the plastic 92 are continuously conveyed backwards to the shaping device 80, then the sixth driving mechanism 82 drives the movable block 81 to move towards the second conveying chute 102, and the seventh driving mechanism 84 drives the movable plate 83 to move towards the second conveying chute 102, and (3) shaping the bent terminal, after shaping, respectively driving the movable block 81 to reset by the sixth driving mechanism 82, driving the movable plate 83 to reset by the seventh driving mechanism 84, conveying the shaped terminal and the plastic 92 to the output end of the second material conveying groove 102 and entering the second accommodating groove 103 in the material receiving device 12, then driving the material receiving disc 121 to rotate 180 degrees by the eighth driving mechanism 112, and then driving the material pushing rod 123 to move by the ninth driving mechanism 124 and pushing the processed terminal and the plastic 92 out of the second accommodating cavity 103.

The utility model discloses a design focus lies in: through being provided with the contact pin device, remove the material device, the riveting device, bending device and shaping device, make it accomplish the terminal simultaneously and peg graft, peel off the material area, with the terminal riveting target in place, bend terminal and plastic bend angle etc. multichannel processes, can realize pegging graft terminal equipment finished product production of bending, the efficiency of production has been improved greatly, and degree of automation is also higher, the cooperation that need not use many different equipment simultaneously, not only greatly reduced equipment cost and cost of labor, the production process is also more simple and efficient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (9)

1. The utility model provides a POGO PIN insertion machine which characterized in that: the riveting and pressing device comprises a rack, a first feeding device, a second feeding device, a pin inserting device, a material removing device, a riveting and pressing device, a bending device and a shaping device; the rack is provided with a first material conveying groove for conveying the material belt terminal and a second material conveying groove for conveying plastic; the first feeding device is arranged on the rack, and the output end of the first feeding device is communicated with the input end of the first material conveying groove; the second feeding device is arranged on the rack, and the output end of the second feeding device is communicated with the input end of the second conveying chute; the pin inserting device is arranged on the rack and is positioned at an output end opening of the first material conveying groove, and the pin inserting device moves back and forth between the output end of the first material conveying groove and the second material conveying groove; the material removing device, the riveting device, the bending device and the shaping device are all arranged on the rack and located beside the second material conveying groove, and the material removing device, the riveting device, the bending device and the shaping device are sequentially arranged along the second material conveying groove.

2. The POGO PIN PIN machine of claim 1, wherein: the first material conveying groove and the second material conveying groove are arranged in parallel.

3. The POGO PIN PIN machine of claim 1, wherein: the rack is also provided with a feeding device, the feeding device is arranged beside the first feeding groove and positioned in front of the pin inserting device, and the feeding device comprises a feeding disc and a first driving mechanism; the feeding tray is rotatably arranged beside the first material conveying groove and partially extends into the first material conveying groove, and a plurality of clamping teeth matched with the clamping holes on the material belt terminal are arranged at intervals on the periphery of the feeding tray; the first driving mechanism is arranged on the rack and drives the feeding plate to rotate.

4. The POGO PIN PIN machine of claim 1, wherein: the pin inserting device comprises a movable seat, a material cutting rod and a second driving mechanism; the movable seat can be movably arranged at the output end of the first material conveying groove and the side of the second material conveying groove back and forth, a first containing groove is formed in the movable seat, and the first containing groove is communicated with the output end of the first material conveying groove; the cutting rod is fixed on the rack and clamped between the output end of the first material conveying groove and the movable seat, a cutter is arranged at the lower end of the cutting rod, and the position of the cutter corresponds to the position of the material belt; the second driving mechanism is arranged on the frame and drives the movable seat to move back and forth.

5. The POGO PIN PIN machine of claim 1, wherein: the material removing device comprises a material removing plate, a third driving mechanism and a waste material box; the material removing plate can be movably arranged right above the second material conveying groove up and down, a plurality of clamping grooves are formed at the lower end of the material removing plate at intervals, and the clamping grooves are matched with terminals in the material belt; the third driving mechanism is arranged on the frame and drives the material removing plate to move up and down; the waste material box is arranged on the frame and is positioned under the second material conveying groove and the material removing plate.

6. The POGO PIN PIN machine of claim 1, wherein: the riveting device comprises a riveting pressing plate and a fourth driving mechanism, and the riveting pressing plate can be movably arranged beside the second material conveying groove back and forth; the fourth driving mechanism is arranged on the frame and drives the riveting plate to move back and forth.

7. The POGO PIN PIN machine of claim 1, wherein: the bending device comprises a support, a bending plate and a fifth driving mechanism; the bracket is arranged on the frame, and an annular movable groove is formed in the bracket; the bending plate can be arranged beside the second material conveying groove in an upward and turnover mode, the lower end of the bending plate is abutted to the second material conveying groove, the upper end of the bending plate can be movably arranged in the movable groove back and forth, a plurality of first grooves are concavely arranged on the surface of the lower end of the bending plate, and the first grooves are matched with the terminals; the fifth driving mechanism is arranged on the rack and drives the upper end of the bending plate to move back and forth.

8. The POGO PIN PIN machine of claim 1, wherein: the shaping device comprises a movable block, a sixth driving mechanism, a movable plate and a seventh driving mechanism; the movable block can be movably arranged beside one side of the second material conveying groove back and forth, one side of the movable block facing the second material conveying groove is provided with a plurality of second grooves, and the second grooves are matched with the terminals; the sixth driving mechanism is arranged on the frame and drives the movable block to move back and forth; the movable plate can be movably arranged beside the other side of the second material conveying groove back and forth; the seventh driving mechanism is arranged on the frame and drives the movable plate to move back and forth.

9. The POGO PIN PIN machine of claim 1, wherein: the rack is also provided with a material receiving device, the material receiving device is arranged at an opening of the output end of the second material conveying groove, and the material receiving device comprises a material receiving plate, an eighth driving mechanism, a material pushing rod and a ninth driving mechanism; the material receiving plate is rotatably arranged at an output end opening of the second material conveying groove, the material receiving plate is vertically arranged, a plurality of second accommodating grooves are formed in the periphery of the surface of the material receiving plate, and the second accommodating grooves are communicated with the output end opening of the second material conveying groove; the eighth driving mechanism is arranged on the rack and drives the material receiving disc to rotate; the material pushing rod moves back and forth among the plurality of second accommodating grooves and is opposite to the openings of the second accommodating grooves; the ninth driving mechanism is arranged on the frame and drives the material pushing rod to move back and forth.

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