CN212625162U - A integrative equipment of contact pin that pushes away line for magnetic core production - Google Patents

Abstract

The utility model relates to a push wire and pin integrated equipment for magnetic core production, which comprises a pin mechanism and a push wire mechanism for pushing copper wires to move transversely, wherein the push wire mechanism comprises a main driving shaft, a pushing part, a first wire clamping part and a second wire clamping part, the pushing part is fixedly connected with the first wire clamping part, the main driving shaft is provided with a first cam and a second cam, a first connecting part on the first cam drives the first wire clamping part to move back and forth in the vertical direction, a second connecting part on the second cam drives the second wire clamping part to move back and forth in the vertical direction, the pushing part drives the first wire clamping part to move back and forth transversely, the first connecting part and the second connecting part do back and forth movement in the vertical direction asynchronously, the first wire clamping part or the second wire clamping part is kept to clamp the copper wires all the time in the process of pushing the copper wires by the push wire mechanism, the copper wires are prevented from rebounding after cutting, and the smoothness of equipment operation is improved.

Description

A integrative equipment of contact pin that pushes away line for magnetic core production

Technical Field

The utility model relates to a magnetic core production facility specifically is an integrative equipment of contact pin that pushes away line for magnetic core production.

Background

The magnetic core is a sintered magnetic metal oxide formed by various iron oxide mixtures, wherein a copper wire needs to be inserted into a main body of the magnetic core, the equipment for completing the process can be called magnetic core pin inserting equipment, the magnetic core pin inserting process is generally divided into two steps, the copper wire penetrates through the main body of the magnetic core in the first step, the copper wire is embedded into the surface of the main body of the magnetic core in the second step by bending the copper wire, in the process, the copper wire can be pushed forwards in a sectional mode, and the copper wire can possibly bounce backwards under the action of pulling force after being cut, so that the pushing fluency of the copper wire is reduced.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, and provide an integrative equipment of contact pin that pushes away for magnetic core production, aim at solving one of the above-mentioned technical problem among the prior art to a certain extent at least.

The purpose of the utility model is realized like this:

the utility model provides an integrative equipment of push away line contact pin for magnetic core production, include contact pin mechanism and be used for advancing the copper line and make lateral motion's push away line mechanism, push away line mechanism includes the main drive axle, advancing part, first double-layered line portion and second double-layered line portion, advancing part and first double-layered line portion fixed connection, establish first cam and second cam on the main drive axle, the first double-layered line portion of first connecting portion drive on the first cam makes the reciprocating motion of vertical direction, the second connecting portion drive second double-layered line portion on the second cam makes the reciprocating motion of vertical direction, the first double-layered line portion of advancing part drive makes horizontal reciprocating motion, first connecting portion and second connecting portion do asynchronous up-and-down direction's reciprocating motion respectively.

The first cam and the second cam are both an inner ring and an outer ring, the corresponding first connecting part and the corresponding second connecting part are arranged between the inner ring and the outer ring and are in sliding connection with the corresponding inner ring, and the inner ring is in an irregular annular shape.

Grooves corresponding to the copper wires are arranged on the first wire clamping portion and/or the second wire clamping portion, pressing blocks corresponding to the first wire clamping portion and the second wire clamping portion are arranged on the upper portions of the first wire clamping portion and the second wire clamping portion respectively, and protruding strips corresponding to the grooves are arranged on the pressing blocks.

A spring device is arranged in the pressing block.

The contact pin mechanism comprises a magnetic core sliding groove and is used for cutting off a cutter of a copper wire, a first bending plate and a second bending plate are respectively arranged on the left side and the right side of the longitudinal upper portion of the magnetic core sliding groove, the first bending plate and the second bending plate respectively make transverse reciprocating motion through corresponding driving mechanisms, a line pressing plate is arranged in the vertical direction of the magnetic core sliding groove, and the line pressing plate and the cutter respectively make reciprocating motion in the vertical direction through corresponding driving mechanisms.

And a positioning plate for positioning the magnetic core block is arranged above the magnetic core sliding groove, and an elastic reset mechanism is connected to the positioning plate.

And a push rod is arranged at the feeding end of the magnetic core sliding groove and longitudinally reciprocates in the magnetic core sliding groove through a corresponding driving mechanism.

The utility model has the advantages that:

the push away line mechanism keeps first thread clamping part or second thread clamping part to press from both sides tightly the copper line all the time at the in-process of propelling movement copper line, avoids the copper line to bounce back after the cutting, improves the smoothness nature of equipment operation.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

Fig. 1 is a first schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram ii according to an embodiment of the present invention.

Fig. 3 is a third schematic structural diagram of the embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the main driving shaft, the first cam and the second cam according to the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the first cam or the second cam according to the embodiment of the present invention.

Fig. 6 is an enlarged view of embodiment a of the present invention.

Fig. 7 is an enlarged view of embodiment B of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1 to 7, the wire pushing and inserting integrated device for magnetic core production comprises a wire inserting mechanism and a wire pushing mechanism for pushing copper wires to move transversely, the wire pushing mechanism comprises a main driving shaft 1, a pushing part 2, a first wire clamping part 31 and a second wire clamping part 32, the pushing part 2 is fixedly connected with the first wire clamping part 31, the main driving shaft 1 is provided with a first cam 11 and a second cam 12, a first connecting part 41 on the first cam 11 drives the first wire clamping part 31 to move back and forth in a vertical direction, a second connecting part 42 on the second cam 12 drives the second wire clamping part 32 to move back and forth in a vertical direction, the pushing part 2 drives the first wire clamping part 31 to move back and forth transversely, the first connecting part 41 and the second connecting part 42 move back and forth in an asynchronous up-and-down direction, the wire pushing mechanism keeps the first wire clamping part 31 or the second wire clamping part 32 to clamp the copper wires all the time in a process of pushing the copper wires, the copper wire is prevented from rebounding after being cut, and the smoothness of equipment operation is improved.

Furthermore, the first cam and the second cam are both an inner ring 13 and an outer ring 14, the corresponding first connecting part and the corresponding second connecting part are arranged between the inner ring 13 and the outer ring 14 and are in sliding connection with the corresponding inner ring 13, the inner ring 13 is in an irregular ring shape, and the rotation of the inner ring 13 can drive the corresponding first connecting part and the corresponding second connecting part to reciprocate up and down, so that the first clamping line part and the second clamping line part are driven to reciprocate vertically.

Furthermore, the first wire clamping part 31 and/or the second wire clamping part 32 are/is provided with a groove 33 corresponding to the copper wire, the upper parts of the first wire clamping part 31 and the second wire clamping part 32 are provided with pressing blocks corresponding to each other, the pressing blocks are provided with convex strips 34 corresponding to the grooves 33, the grooves 33 can have a positioning effect on the copper wire, the swinging of the copper wire in the advancing process is reduced, and the processing precision of the equipment is higher.

Furthermore, a spring device 35 is arranged in the pressing block, and the impact force generated when the first wire clamping part 31 or the first wire clamping part 31 acts on the corresponding pressing block is buffered by a user.

Further, the contact pin mechanism includes magnetic core spout 5, a cutter 6 for cutting off the copper line, the left and right sides on the vertical upper portion of magnetic core spout 5 is equipped with first bending plate 71 and second bending plate 72 respectively, it is first, horizontal back and forth movement is made through the actuating mechanism that corresponds respectively to the two bending plates, be equipped with line ball board 8 in the vertical direction of magnetic core spout 5, line ball board 8 and cutter 6 do the back and forth movement of vertical direction through the actuating mechanism that corresponds respectively, cutter 6 accomplishes the cutting back to the copper line, it is first again, two bending plates and line ball board 8's cooperation, can accomplish the flow of threading and the copper line of bending fast, realize the fast switch integration between different processes, the efficiency of magnetic core production has been improved.

Further, a positioning plate 9 for positioning the magnetic core block is arranged above the magnetic core sliding groove 5, and an elastic reset mechanism 91 is connected to the positioning plate 9, so that the stability of the magnetic core block in the machining process is improved, and the machining precision is improved.

Furthermore, a push rod 10 is arranged at the feeding end of the magnetic core sliding groove 5, the push rod 10 makes longitudinal reciprocating motion in the magnetic core sliding groove 5 through a corresponding driving mechanism, the push rod 10 can quickly push the magnetic core blocks from the feeding end to an appointed position to carry out a pin inserting process, the magnetic core blocks which have completed the pin inserting process are pushed away, and the automation degree of the equipment is improved.

The driving mechanism corresponding to each component can be an electric cylinder or other hydraulic equipment capable of being electrically controlled, and can be understood by those skilled in the art.

The working process of the device is as follows: copper line is at first forward propulsion and insert in the magnetic core piece under the effect of first double-layered line portion 31, first double-layered line portion 31 presss from both sides tight copper line this moment, second double-layered line portion 32 is in the state of relaxing, cutter 6 is after the cutting copper line is accomplished in the left and right sides of magnetic core piece, it is first, the copper line of the two bending plates pair magnetic core piece left and right sides is bent for the first time, make the copper line be vertical upward state, at this moment, first double-layered line portion 31 is in the state of relaxing and resets, second double-layered line portion 32 presss from both sides tight copper line, line pressing plate 8 carries out the secondary bending to the copper line again after that, make the surface of the copper line embedding magnetic core piece of the magnetic core piece left and right sides, push rod 10 pushes away new.

The above embodiments are merely preferred embodiments of the present invention, and other embodiments are also possible. Equivalent modifications or substitutions may be made by those skilled in the art without departing from the spirit of the invention, and such equivalent modifications or substitutions are intended to be included within the scope of the claims set forth herein.

Claims (6)

1. A wire pushing and inserting integrated device for magnetic core production comprises a wire inserting mechanism and a wire pushing mechanism for pushing a copper wire to move transversely, characterized in that the wire pushing mechanism comprises a main driving shaft (1), a pushing part (2), a first wire clamping part (31) and a second wire clamping part (32), the propelling part (2) is fixedly connected with the first wire clamping part (31), the main driving shaft (1) is provided with a first cam (11) and a second cam (12), the first connecting part (41) on the first cam (11) drives the first wire clamping part (31) to reciprocate vertically, the second connecting part (42) on the second cam (12) drives the second wire clamping part (32) to reciprocate vertically, the propelling part (2) drives the first wire clamping part (31) to do transverse reciprocating motion, the first connecting part (41) and the second connecting part (42) do reciprocating motion in the up-and-down direction asynchronously respectively.

2. The wire pushing and pin inserting integrated equipment for magnetic core production as claimed in claim 1, wherein: grooves (33) corresponding to copper wires are formed in the first wire clamping portion (31) and/or the second wire clamping portion (32), pressing blocks corresponding to the first wire clamping portion (31) and the second wire clamping portion (32) are arranged on the upper portions of the first wire clamping portion and the second wire clamping portion, and protruding strips (34) corresponding to the grooves (33) are arranged on the pressing blocks.

3. The wire pushing and pin inserting integrated equipment for magnetic core production as claimed in claim 2, wherein: a spring device (35) is arranged in the pressing block.

4. The wire pushing and pin inserting integrated equipment for magnetic core production as claimed in claim 3, wherein: contact pin mechanism includes magnetic core spout (5) and cutter (6) that are used for cutting off the copper line, the left and right sides on the vertical upper portion of magnetic core spout (5) is equipped with first bending board (71) and second bending board (72) respectively, horizontal back and forth movement is made through the actuating mechanism that corresponds respectively to first bending board, second bending board, is equipped with line ball board (8) in the vertical direction of magnetic core spout (5), the back and forth movement of vertical direction is made through the actuating mechanism that corresponds respectively in line ball board (8) and cutter (6).

5. The wire pushing and pin inserting integrated equipment for magnetic core production as claimed in claim 4, wherein: and a positioning plate (9) for positioning the magnetic core block is arranged above the magnetic core sliding groove (5), and an elastic reset mechanism (91) is connected to the positioning plate (9).

6. The wire pushing and pin inserting integrated equipment for magnetic core production as claimed in claim 4, wherein: the feeding end of the magnetic core sliding groove (5) is provided with a push rod (10), and the push rod (10) does longitudinal reciprocating motion in the magnetic core sliding groove (5) through a corresponding driving mechanism.

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