CN215267040U - Multi-end plug-in machine - Google Patents

Abstract

The utility model discloses a multi-end plug-in components machine, wherein for peg graft the terminal in the plug connector, multi-end plug-in components machine includes: the terminal clamping device comprises a first clamp and a second clamp, wherein an inserting region is arranged between the first clamp and the second clamp, the first clamp and the second clamp are matched with each other to clamp a terminal, and one end of the terminal extends into the inserting region; first cylinder subassembly and kicking block, the kicking block connect in first cylinder subassembly, the one end of kicking block stretches into the grafting region, first cylinder subassembly control the kicking block removes on the direction that is close to or keeps away from the terminal, the kicking block pushes the terminal into the plug connector when the direction that is close to the terminal removes. The utility model discloses technical scheme reduces machine trouble, improves plug terminal's efficiency.

Description

Multi-end plug-in machine

Technical Field

The utility model relates to a manufacturing field, in particular to multi-end plug-in components machine.

Background

At present peg graft to the multi-terminal product, generally use the cam to peg graft, the spare part of this kind of cam is more and the structure is constituteed complicacy, and this kind of cam cooperates high-speed servo motor to realize the plug terminal, but because the rotational speed of this kind of high-speed servo motor is very fast, it is serious to lead to cam wearing and tearing, after using a period, unstable phenomenon can appear in the cam, it is high to lead to the defective rate of product, and low in production efficiency, more serious, the structure of cam is made according to the product customization, not only the inconvenient maintenance of changing of spare part, when taking place wearing and tearing or damage, do not have the debugging benchmark, further make production efficiency reduce, increase the maintenance cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multiterminal plug-in components machine aims at solving current grafting machine unstability, fragile and difficult maintenance to and this kind of phenomenon leads to the not high problem of plug terminal efficiency.

In order to achieve the above object, the utility model provides a multi-end plug-in components machine for peg graft the terminal in the plug connector, multi-end plug-in components machine includes: the terminal clamping device comprises a first clamp and a second clamp, wherein an inserting region is arranged between the first clamp and the second clamp, the first clamp and the second clamp are matched with each other to clamp a terminal, and one end of the terminal extends into the inserting region; first cylinder subassembly and kicking block, the kicking block connect in first cylinder subassembly, the one end of kicking block stretches into the grafting region, first cylinder subassembly control the kicking block removes on the direction that is close to or keeps away from the terminal, the kicking block pushes the terminal into the plug connector when the direction that is close to the terminal removes.

Optionally, the multiple-end inserter further comprises a second cylinder assembly connected to the second clamp, the second cylinder assembly controlling the second clamp to move in a direction close to or away from the first clamp.

Optionally, the first clamp and the second cylinder assembly are respectively connected to the first cylinder assembly, and the first clamp, the second cylinder assembly, the first clamp and the ejector block move in a direction close to or away from the terminal under the control of the first cylinder assembly.

Optionally, the multiple-end component inserter further includes a first slide rail, the first slide rail is connected to the first cylinder assembly, and the top block is disposed on the first slide rail and moves along the first slide rail; and/or the multi-end plug-in machine further comprises a second slide rail, the second slide rail is connected to the second cylinder assembly, and the second cylinder assembly controls the second clamp to be close to or far away from the first clamp along the second slide rail.

Optionally, the top block includes a plugging portion, the width of the plugging portion decreases in a direction close to the terminal, the structure of the plugging region is adapted to the plugging portion, the plugging portion is disposed in the plugging region, and when the top block moves in the direction close to the terminal, the plugging portion pushes the terminal into the plug connector; and/or the first clamp is provided with a first groove, the second clamp is provided with a second groove, the first groove and the second groove are oppositely arranged, and the first groove and the second groove form the splicing area.

Optionally, the top block further comprises a control portion, the control portion is disposed opposite to the second clamp and has a distance D1 from an outer surface of the second clamp, and the top block moves the distance D1 when moving in a direction close to the terminal, so as to push the terminal into the plug connector.

Optionally, a first avoidance notch is formed in one end, close to the ejector block, of the first fixture, the first avoidance notch is communicated with the plugging area, and the control portion is arranged in the first avoidance notch and has a distance D1 from the outer surface of the second fixture; and/or one end, close to the ejector block, of the second fixture is provided with a second avoidance notch, the second avoidance notch is communicated with the splicing area, and the control part is arranged at the second avoidance notch.

Optionally, the multi-end plug-in machine further comprises a connecting piece and a mounting plate, the connecting piece is connected to the first clamp, a sliding groove is formed in the mounting plate, when the first clamp moves in the direction close to or away from the terminal, the connecting piece moves along with the first clamp in the sliding groove in the direction close to or away from the terminal.

Optionally, the multi-end plug-in machine further includes a limiting member, the limiting member is fixedly connected to the mounting plate, and when the connecting member moves toward a direction close to the terminal, the limiting member abuts against the connecting member to stop the first clamp.

Optionally, the limiting members are provided in plurality, the limiting members include a first limiting member disposed near one end of the sliding slot and a second limiting member disposed near the other end of the sliding slot, and the connecting member is disposed between the first limiting member and the second limiting member and moves in the sliding slot in a direction toward or away from the terminal.

The utility model discloses a multiend plug-in components machine realizes the centre gripping of terminal through the cooperation of first anchor clamps and second anchor clamps, and, grafting region has between first anchor clamps and the second anchor clamps, the one end of terminal stretches into in the grafting region after the centre gripping, and simultaneously, the one end of kicking block stretches into in the grafting region, the kicking block passes through the drive of first cylinder subassembly, the direction of being close to and keeping away from the terminal removes, when moving in the direction of being close to the terminal, push the plug connector with the terminal and realize the grafting action, therefore, move in the direction of being close to or keeping away from the terminal through the kicking block of first cylinder subassembly repetitive control, can realize large batch grafting action, and the cooperation simple structure of first cylinder subassembly and kicking block, the grafting action is convenient for realize, reduce the trouble possibility of multiend plug-in components machine, the production efficiency is improved, and simultaneously, reduce manual maintenance and maintenance cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of a multi-terminal component inserter of the present invention;

FIG. 2 is a schematic structural view of another embodiment of the multiple-terminal inserter of the present invention;

FIG. 3 is a schematic structural view of the first and second clamps and the top block of the multi-terminal component inserter according to the present invention;

fig. 4 is a schematic structural view of the multi-end inserter of the present invention at another viewing angle, wherein the first clamp, the second clamp and the top block are matched.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a multi-end plug-in components machine.

In the embodiment of the present invention, as shown in fig. 1, the multi-terminal plug-in unit 100 is used for plugging the terminal 60 into the plug connector, and the multi-terminal plug-in unit 100 includes: the terminal clamping device comprises a first clamp 10 and a second clamp 20, wherein a plugging area 11 is arranged between the first clamp 10 and the second clamp 20, the first clamp 10 and the second clamp 20 are matched with each other to clamp a terminal 60, and one end of the terminal 60 extends into the plugging area 11; the first cylinder assembly 30 and the top block 40, the top block 40 is connected to the first cylinder assembly 30, one end of the top block 40 extends into the plugging area 11, the first cylinder assembly 30 controls the top block 40 to move in a direction close to or away from the terminal 60, and the top block 40 pushes the terminal 60 into the plug connector when moving in a direction close to the terminal 60; and a mounting plate 90, wherein the first clamp 10, the second clamp 20, the first cylinder assembly 30 and the top block 40 are arranged on the mounting plate 90.

Specifically, the second cylinder assembly 50 controls the second clamp 20 to move towards a direction close to or away from the first clamp 10, the first clamp 10 and the second clamp 20 are matched to clamp the terminal 60, an insertion area 11 is formed between the first clamp 10 and the second clamp 20, one end of the terminal 60 extends into the insertion area 11 after the terminal 60 is clamped, meanwhile, one end of the ejector block 40 extends into the insertion area 11, the ejector block 40 is connected to the first cylinder assembly 30, the terminal 60 moves towards and away from the terminal 60 through driving of the first cylinder assembly 30, and when the terminal 60 moves towards the terminal 60, the terminal 60 is pushed into the insertion piece to achieve insertion movement.

It should be noted that the first cylinder assembly 30 includes, but is not limited to, the necessary structure for realizing pneumatic thrust of a cylinder, such as a piston, a spring, etc., wherein the type of the cylinder includes, but is not limited to, a piston cylinder, a diaphragm cylinder, etc., and the first cylinder assembly 30 is composed of suitable fittings selected according to the type of the cylinder, so as to control the top block 40 to move in a direction approaching or moving away from the terminal 60 and push the terminal 60 into the socket.

It can be appreciated that, compared with the conventional customized bump matching with the high-speed servo motor to realize plugging, the first cylinder assembly 30 is simpler in structure and use, and meanwhile, because the first cylinder assembly 30 is not customized, compared with the cam matched with the product customization, the replacement and the maintenance are simpler and more convenient, so that the maintenance cost of the multi-end component inserter 100 is reduced, and the production efficiency is further improved.

Optionally, as shown in fig. 2, the multi-terminal component inserter 100 can implement the plugging of the terminal 60 in the horizontal direction or the vertical direction, that is, the position and the direction of the multi-terminal component inserter 100 can be set according to the production requirement, so as to implement the plugging of the terminal 60 to the plug components in different directions.

Further, the multiple-end inserter 100 further comprises a second cylinder assembly 50, the second cylinder assembly 50 is connected to the second clamp 20, and the second cylinder assembly 50 controls the second clamp 20 to move in a direction close to or away from the first clamp 10.

Similarly, the second cylinder assembly 50 controls the movement of the second clamp 20 toward or away from the first clamp 10, and the second cylinder assembly 50 includes, but is not limited to, the necessary structure for moving the second clamp 20 by the cylinder, such as a cylinder, a spring, etc., according to the same principle as the first cylinder assembly 30.

Specifically, in this embodiment, the terminal 60 is first placed between the first jig 10 and the second jig 20, if the first jig 10 and the second jig 20 are respectively disposed on both sides of the conveyor belt for the terminal 60, the conveyor belt for the terminal 60 feeds the terminal 60 between the first jig 10 and the second jig 20, and then the second cylinder assembly 50 controls the second jig 20 to move toward the first jig 10, so as to clamp the terminal 60.

It can be understood that, by setting the widths of the first clamp 10 and the second clamp 20, different numbers of terminals 60 can be clamped, for example, in this embodiment, the clamping portions of the terminals 60 of the first clamp 10 and the second clamp 20 are rectangular structures, so as to clamp a plurality of terminals 60 at the same time, and further, a plurality of connectors are plugged at the same time, thereby improving the production efficiency.

Further, the first clamp 10, the second cylinder assembly 50 and the top block 40 are respectively connected to the first cylinder assembly 30, and the first clamp 10, the second cylinder assembly 50, the second clamp 20 and the top block 40 are moved in a direction to approach or separate from the terminal 60 under the control of the first cylinder assembly 30.

Specifically, in this embodiment, the first clamp 10, the second cylinder assembly 50 and the top block 40 are respectively connected to the first cylinder assembly 30, wherein the connection manner of the first clamp 10, the second cylinder assembly 50 and the top block 40 to the first cylinder assembly 30 may be that the first clamp 10, the second cylinder assembly 50 and the top block 40 are fixedly connected to the first cylinder assembly 30, that is, the first cylinder assembly 30 moves by itself while carrying the first clamp 10, the second cylinder assembly 50 and the top block 40, or the first cylinder assembly 30 is fixed, and the first clamp 10, the second cylinder assembly 50 and the top block 40 are controlled by a connection manner such as a spring to move, so that the first clamp 10, the second cylinder assembly 50 and the top block 40 move toward or away from the terminal 60, in this embodiment, the top block 40 moves by carrying the top block 40, the first clamp 10 and the second cylinder assembly 50 together toward or away from the terminal 60, in this way, after the first jig 10 and the second jig 20 clamp the terminal 60, the terminal 60 is moved to a position close to the connector, and the terminal 60 is pushed into the connector by the top block 40.

Further, referring to fig. 3 and 4, the top block 40 includes a plug portion 42, a width of the plug portion 42 decreases in a direction approaching the terminal 60, the structure of the plug area 11 is adapted to the plug portion 42, the plug portion 42 is disposed in the plug area 11, and when the top block 40 moves in the direction approaching the terminal 60, the plug portion 42 pushes the terminal 60 into the plug; and/or the first clamp 10 is provided with a first groove, the second clamp 20 is provided with a second groove, the first groove and the second groove are oppositely arranged, and the first groove and the second groove form the plugging area 11.

Specifically, the width of the plugging portion 42 decreases progressively in the direction close to the terminal 60, so that the contact force area between one end of the plugging portion 42 close to the terminal 60 and the terminal 60 is smaller, the acting force of the top block 40 on the terminal 60 is concentrated, the terminal 60 and the plug connector are convenient to push to be connected with each other, and the terminal 60 is prevented from inclining, wherein the plugging region 11 is matched with the plugging portion 42 in structure, that is, the diameter or equivalent diameter of the plugging region 11 decreases progressively in the direction close to the terminal 60, so that the plugging portion 42 is limited in the moving process, and the plugging portion 42 is prevented from deviating.

Alternatively, the plugging region 11 may be formed by providing a first groove on the first fixture 10 and a second groove on the second fixture 20, and the first groove and the second groove are matched, or the plugging region 11 may be formed by providing the first fixture 10 and the second fixture 20 at an interval when the first fixture 10 and the second fixture 20 are provided, so that the top block 40 can move telescopically in the plugging region 11 to apply a force to the terminal 60.

Further, the top block 40 further includes a control portion 41, the control portion 41 is disposed opposite to the second clamp 20 and has a distance D1 with an outer surface of the second clamp 20, and the top block 40 moves the distance D1 when moving in a direction approaching the terminal 60 to push the terminal 60 into the socket connector.

It should be noted that, when the first cylinder assembly 30 carries or controls the movement of the top block 40, the top block 40 moves D1 distance and then abuts against the second clamp 20, that is, the outer surface of the second clamp 20 can limit the position of the top block 40, so as to control the movement distance of the top block 40, and the top block 40 controls the terminal 60 to move a proper distance.

It will be appreciated that by adjusting the size of D1, the depth of insertion of terminals 60 into the connector can be controlled, thereby allowing the multi-terminal connector 100 to accommodate different connector requirements.

Further, a first avoidance notch is formed in one end, close to the top block 40, of the first fixture 10, the first avoidance notch is communicated with the plugging area 11, and the control portion 41 is arranged in the first avoidance notch and has the distance D1 from the outer surface of the second fixture 20; and/or, a second avoiding notch is arranged at one end, close to the ejector block 40, of the second fixture 20, the second avoiding notch is communicated with the plugging area 11, and the control part 41 is arranged at the second avoiding notch.

It can be understood that the first avoidance notch or the second avoidance notch is used for avoiding the control portion 41, in this embodiment, the first fixture 10 is provided with the first avoidance notch and is communicated with the plugging area 11, and the control portion 41 can move the distance D1 in the first avoidance area, of course, in other embodiments, the first avoidance notch or the second avoidance notch can be provided according to the structure of the ejector block 40, for example, the first avoidance notch and the second avoidance notch are respectively provided in the first fixture 10 and the second fixture 20, so as to avoid the control portion 41.

Further, the multi-terminal inserter 100 further includes a connecting member 70, the connecting member 70 is connected to the first fixture 10, a sliding slot is provided on the mounting plate 90, and when the first fixture 10 moves in a direction close to or away from the terminal 60, the connecting member 70 moves in the sliding slot in a direction close to or away from the terminal 60 along with the movement of the first fixture 10.

Specifically, in the present embodiment, after the first clamp 10 and the second clamp 20 clamp the terminal 60, the first cylinder assembly 30 carries the top block 40, the first clamp 10 and the second clamp 20 to move towards the connector, since the mounting plate 90 is fixed, the first clamp 10 is stopped after moving a distance of one sliding slot length through the connecting member 70, and further movement D1 of the top block 40 pushes the terminal 60 into the connector.

It will be appreciated that by setting the length of the runner, the distance of travel of the first clamp 10 can be controlled.

Further, the multiple-end component inserter 100 further includes a first slide rail, the first slide rail is connected to the first cylinder assembly 30, and the top block 40 is disposed on the first slide rail and moves along the first slide rail; and/or, the multiple-end inserter 100 further includes a second slide rail connected to the second cylinder assembly 50, and the second cylinder assembly 50 controls the second clamp 20 to approach or depart from the first clamp 10 along the second slide rail.

It can be understood that, based on the same principle as described above, the top block 40 can move with the first cylinder assembly 30, and also can move along the first slide rail through the first cylinder assembly 30, and similarly, the second clamp 20 can move with the second cylinder assembly 50, and also can clamp the terminal 60 detachably with the first clamp 10 under the control of the second cylinder assembly 50, in this embodiment, by providing the first slide rail or the second slide rail, the movement of the top block 40 or the second clamp 20 can be more convenient and smoother, and the wear of the first cylinder assembly 30 or the second cylinder assembly 50 can be reduced, compared with the case where the first clamp 10 or the second clamp 20 moves with the first cylinder assembly 30 or the second cylinder assembly 50.

Further, the multiple-terminal inserter 100 further includes a limiting member fixedly connected to the mounting plate 90, and when the connecting member 70 moves toward the terminal 60, the limiting member abuts against the connecting member 70 to stop the first clamp 10.

It will be appreciated that the provision of a stop prevents the connector 70 from moving within the chute and impacting the mounting plate 90 to cause damage to the mounting plate 90 and hence to the multiple-end inserter 100.

Further, the stopper in the present embodiment is provided with a buffer portion at a position for stopping the connector 70, wherein the material of the buffer portion is preferably soft material such as resin, rubber, and plastic, so as to buffer the acting force from the connector 70.

Further, the plurality of limiting members are provided, the plurality of limiting members include a first limiting member 80 disposed near one end of the sliding groove and a second limiting member 81 disposed near the other end of the sliding groove, and the connecting member 70 is disposed between the first limiting member 80 and the second limiting member 81 and moves in the sliding groove toward or away from the terminal 60.

It can be understood that the connecting member 70 is disposed between the first limiting member 80 and the second limiting member 81, so as to limit the two ends of the connecting member 70, that is, limit the direction in which the first clamp 10 approaches and leaves the terminal 60, when the first cylinder assembly 30 is reset, the first clamp 10, the second clamp 20, and the top block 40 are reset simultaneously, and since the first clamp 10 is connected to the mounting plate 90 through the connecting member 70, in order to avoid damage or collision when the first clamp 10 is reset, the second clamp 20 is buffered and stopped by the first limiting member 80 or the second limiting member 81.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A multi-terminal card for plugging terminals into a card, comprising:

the terminal clamping device comprises a first clamp and a second clamp, wherein an inserting region is arranged between the first clamp and the second clamp, the first clamp and the second clamp are matched with each other to clamp a terminal, and one end of the terminal extends into the inserting region;

first cylinder subassembly and kicking block, the kicking block connect in first cylinder subassembly, the one end of kicking block stretches into the grafting region, first cylinder subassembly control the kicking block removes on the direction that is close to or keeps away from the terminal, the kicking block pushes the terminal into the plug connector when the direction that is close to the terminal removes.

2. The multiple-end inserter of claim 1 further comprising a second cylinder assembly connected to said second clamp, said second cylinder assembly controlling movement of said second clamp in a direction toward or away from said first clamp.

3. The multiple-end component inserter of claim 2 wherein the first clamp, the second cylinder assembly, and the ejector block are each connected to the first cylinder assembly, and the first clamp, the second cylinder assembly, the second clamp, and the ejector block are moved in a direction toward or away from the terminal under the control of the first cylinder assembly.

4. The multiple-end inserter of claim 3 wherein said multiple-end inserter further comprises a first slide rail, said first slide rail being connected to said first cylinder assembly, said top block being mounted on said first slide rail and movable along said first slide rail; and/or the presence of a gas in the gas,

the multi-end component inserter further comprises a second slide rail, the second slide rail is connected to the second air cylinder assembly, and the second air cylinder assembly controls the second clamp to be close to or far away from the first clamp along the second slide rail.

5. The multiple-terminal card connector of any one of claims 1 to 4, wherein the top block includes a plug portion, the width of the plug portion decreases in a direction approaching the terminal, the structure of the plug region is adapted to the plug portion, the plug portion is disposed in the plug region, and the plug portion pushes the terminal into the card connector when the top block moves in the direction approaching the terminal; and/or the presence of a gas in the gas,

the first clamp is provided with a first groove, the second clamp is provided with a second groove, the first groove and the second groove are oppositely arranged, and the first groove and the second groove form the splicing area.

6. The multiple-terminal inserter of any one of claims 1-4 wherein the top block further comprises a control portion disposed opposite the second clamp and spaced from the outer surface of the second clamp by a distance D1, the top block moving in a direction closer to the terminals by the distance D1 to push the terminals into the inserter.

7. The multi-end inserter of claim 6 wherein the first clamp has a first relief notch at an end thereof adjacent to the top block, the first relief notch being in communication with the insertion region, the control portion being disposed within the first relief notch and spaced from the outer surface of the second clamp by the distance D1; and/or the presence of a gas in the gas,

one end, close to the ejector block, of the second fixture is provided with a second avoidance notch, the second avoidance notch is communicated with the splicing area, and the control portion is arranged at the second avoidance notch.

8. The multiple-terminal inserter of any one of claims 1 to 4 wherein said multiple-terminal inserter further comprises a connecting member and a mounting plate, said connecting member being connected to said first clamp, said mounting plate being provided with a sliding slot, said connecting member moving with the movement of said first clamp in said sliding slot in a direction towards or away from the terminal when said first clamp moves in a direction towards or away from the terminal.

9. The multiple-terminal inserter according to claim 8, further comprising a stopper fixedly connected to the mounting plate, wherein the stopper abuts against the connecting member to stop the first clamp when the connecting member moves toward the terminal.

10. The multiple-terminal component inserter according to claim 9, wherein the plurality of limiting members are provided, the plurality of limiting members include a first limiting member disposed near one end of the sliding slot and a second limiting member disposed near the other end of the sliding slot, and the connecting member is disposed between the first limiting member and the second limiting member and moves in the sliding slot in a direction toward or away from the terminal.

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