CN110943402A

CN110943402A - Mechanism for shearing length and peeling off tail of round wire with three cores

Info

Publication number: CN110943402A
Application number: CN201911195821.4A
Authority: CN
Inventors: 肖陈发; 钱磊
Original assignee: Dongguan Changrui Precision Equipment Manufacturing Co Ltd
Current assignee: Dongguan Changrui Precision Equipment Manufacturing Co Ltd
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-03-31
Anticipated expiration: 2039-11-29

Abstract

The invention discloses a round wire three-core tail part long-short peeling mechanism.A cutting motor drives a positive and negative screw rod to drive an upper sliding seat to move downwards and a lower sliding seat to move upwards so as to drive an upper wire protecting seat and a lower wire protecting seat to compress and fix a round wire, and then an upper cutter and a lower cutter cut a round wire sheath, so that the cutting effect is good, and a wire core cannot be damaged; after the upper cutter and the lower cutter cut the circular wire sheath, the displacement motor A, the displacement motor B and the displacement motor C respectively drive the screw rod A, the screw rod B and the screw rod C, and respectively drive the pull block A, the pull block B and the pull block C to move rightwards, so that the upper slide bar A and the lower slide bar A, the upper slide bar B and the lower slide bar B, and the upper slide bar C and the lower slide bar C respectively move rightwards, and the upper cutter and the lower cutter are pulled to peel the wire core, so that the peeling efficiency is greatly improved; therefore, the invention has the advantages of novel design, simple structure, accurate peeling and high efficiency.

Description

Mechanism for shearing length and peeling off tail of round wire with three cores

Technical Field

The invention relates to the technical field of power line processing, in particular to a round wire three-core tail part long-short peeling mechanism.

Background

The power socket terminal is processed by riveting a live wire, a zero wire and a ground wire in a power wire to corresponding terminals, and the processed power wire is generally wrapped in two layers of insulating skins; the internal core wire comprises a ground wire, a live wire and a zero wire, and the terminal needs to be riveted to the ground wire, the live wire and the zero wire in later processing.

A plurality of sockets are arranged on the power strip, and the distances from the wire inlet holes of the power strip to the electrodes in the power strip are different; therefore, the lengths of all the wires which need to enter the wire inlet holes are different, so that the lengths of the three inner core wires of the ground wire, the live wire and the zero wire are different.

The traditional method is that a power line is peeled manually to expose a part of three inner core wires outside, and then the length of the three inner core wires is adjusted; however, manual operation is slow and not suitable for mass-assembled production lines.

Disclosure of Invention

The invention aims to provide a round wire three-core tail part long-short peeling mechanism aiming at the defects of the prior art, and the round wire three-core tail part long-short peeling mechanism is novel in design, simple in structure, accurate in peeling and high in efficiency.

In order to achieve the above object, the present invention is achieved by the following technical solutions.

A long and short peeling mechanism for a round wire three-core tail part shear comprises a bottom plate which is horizontally arranged, supporting side vertical plates which are vertically arranged are arranged on two sides of the left side end of the bottom plate, slide rails which are vertically arranged are arranged at the upper ends of the inner sides of the supporting side vertical plates, an upper slide seat and a lower slide seat which slide correspondingly are arranged at the upper ends of the slide rails, the upper slide seat and the lower slide seat are connected with positive and negative lead screws which are vertically arranged, the upper ends of the positive and negative lead screws are connected with a shearing motor, the shearing motor is arranged at the upper end of a supporting transverse plate, and the supporting;

the upper end of the upper sliding seat is provided with an upper sliding rod A, an upper sliding rod B and a lower sliding rod which are axially arranged along the X axis, the lower sliding rod A, the lower sliding rod B and the lower sliding rod C which are correspondingly matched with each other are axially arranged along the X axis and are arranged at the upper end of the lower sliding seat, the left ends of the upper sliding rod A, the upper sliding rod B and the lower sliding rod C are provided with an upper cutter seat, the upper end of the upper cutter seat is provided with an upper cutter, the upper end of the upper cutter seat is sleeved with an upper wire protecting seat, the left ends of the lower sliding rod A, the lower sliding rod B and the lower sliding rod C are provided with a lower cutter seat which is correspondingly matched with each other, the upper end of the lower cutter seat;

go up slide bar A and lower slide bar A right-hand member portion and be the pull block A of vertical arrangement, pull block A is connected with and is the lead screw A of arranging along the X axle axial, and lead screw A right-hand member portion is connected with displacement motor A, go up slide bar B and lower slide bar B right-hand member portion are connected with and are the pull block B of vertical arrangement, pull block B is connected with and is the lead screw B of arranging along the X axle axial, and lead screw B right-hand member portion is connected with displacement motor B, go up slide bar C and lower slide bar C right-hand member portion are connected with and are the pull block C of vertical arrangement, pull block C is connected with and is the lead screw C of arranging along the X axle axial, and lead screw C right-hand.

The upper sliding seat and the lower sliding seat are connected with the positive and negative screw rods through sliding seat couplers, and the upper sliding seat and the lower sliding seat move up and down relatively.

The pulling block A, the pulling block B and the pulling block C are respectively connected with the screw rod A, the screw rod B and the screw rod C through displacement couplers.

The upper ends of the pulling block A, the pulling block B and the pulling block C are provided with upper ends of guide shafts which are axially arranged along an X axis, the upper ends of guide shaft fixing plates are fixedly arranged on the guide shafts, and the guide shaft fixing plates are fixedly arranged on the upper end of the bottom plate.

The displacement motor A, the displacement motor B and the displacement motor are fixedly arranged at the upper end of the bottom plate through a motor fixing plate.

The invention has the beneficial effects that: the invention relates to a round wire three-core tail part shearing length peeling mechanism which comprises a bottom plate arranged horizontally, wherein supporting side vertical plates arranged vertically are arranged on two sides of the left end of the bottom plate, a sliding rail arranged vertically is arranged at the upper end of the inner side of each supporting side vertical plate, an upper sliding seat and a lower sliding seat which slide correspondingly are arranged at the upper end of each sliding rail, the upper sliding seat and the lower sliding seat are connected with a positive screw rod and a negative screw rod which are arranged vertically, the upper ends of the positive screw rod and the negative screw rod are connected with a cutting motor, the cutting motor is arranged at the upper end of a supporting transverse plate, and the supporting transverse; the upper end of the upper sliding seat is provided with an upper sliding rod A, an upper sliding rod B and a lower sliding rod which are axially arranged along the X axis, the lower sliding rod A, the lower sliding rod B and the lower sliding rod C which are correspondingly matched with each other are axially arranged along the X axis and are arranged at the upper end of the lower sliding seat, the left ends of the upper sliding rod A, the upper sliding rod B and the lower sliding rod C are provided with an upper cutter seat, the upper end of the upper cutter seat is provided with an upper cutter, the upper end of the upper cutter seat is sleeved with an upper wire protecting seat, the left ends of the lower sliding rod A, the lower sliding rod B and the lower sliding rod C are provided with a lower cutter seat which is correspondingly matched with each other, the upper end of the lower cutter seat; go up slide bar A and lower slide bar A right-hand member portion and be the pull block A of vertical arrangement, pull block A is connected with and is the lead screw A of arranging along the X axle axial, and lead screw A right-hand member portion is connected with displacement motor A, go up slide bar B and lower slide bar B right-hand member portion are connected with and are the pull block B of vertical arrangement, pull block B is connected with and is the lead screw B of arranging along the X axle axial, and lead screw B right-hand member portion is connected with displacement motor B, go up slide bar C and lower slide bar C right-hand member portion are connected with and are the pull block C of vertical arrangement, pull block C is connected with and is the lead screw C of arranging along the X axle axial, and lead screw C right-hand. According to the invention, the front and back screw rods are driven by the cutting motor to drive the upper sliding seat to move downwards and the lower sliding seat to move upwards so as to drive the upper wire protecting seat and the lower wire protecting seat to compress and fix the round wire, and then the outer skin of the round wire is cut by the upper cutter and the lower cutter, so that the cutting effect is good, and the wire core cannot be damaged; after the outer skins of the round wires are cut by the upper cutter and the lower cutter, the displacement motor A, the displacement motor B and the displacement motor C respectively drive the screw rod A, the screw rod B and the screw rod C to respectively drive the pull block A, the pull block B and the pull block C to move rightwards, so that the upper slide rod A and the lower slide rod A, the upper slide rod B and the lower slide rod B, and the upper slide rod C and the lower slide rod C respectively move rightwards, and the upper cutter and the lower cutter are pulled to peel the wire cores, so that the peeling efficiency is greatly improved, and the peeling assembly of each round wire is controlled by the independent displacement motor, so that the peeling length and the peeling precision of each round wire can be well controlled; therefore, the invention has the advantages of novel design, simple structure, accurate peeling and high efficiency.

Drawings

The invention will be further described with reference to the drawings to which, however, the embodiments shown in the drawings do not constitute any limitation.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of another embodiment of the present invention;

FIG. 3 is a schematic structural view of an upper tool post and a lower tool post of the present invention.

Detailed Description

The present invention will be described below with reference to specific embodiments.

As shown in fig. 1-3, a round wire three-core tail section shearing long and short peeling mechanism comprises a bottom plate 1 which is horizontally arranged, supporting side vertical plates 11 which are vertically arranged are arranged on two sides of the left side end of the bottom plate 1, a slide rail 12 which is vertically arranged is arranged at the upper end of the inner side of each supporting side vertical plate 11, an upper slide seat 13 and a lower slide seat 14 which slide correspondingly are arranged at the upper ends of the slide rails 12, the upper slide seat 13 and the lower slide seat 14 are connected with positive and negative screw rods 15 which are vertically arranged, the upper ends of the positive and negative screw rods 15 are connected with a cutting motor 16, the cutting motor 16 is arranged at the upper end of a supporting transverse plate 17, and the supporting;

the upper end of the upper sliding seat 13 is provided with an upper sliding rod A2, an upper sliding rod B3 and a lower sliding rod 4 which are axially arranged along the X axis, the upper sliding rod A2, the upper sliding rod B3 and the lower sliding rod C4 are correspondingly matched with a lower sliding rod A21, a lower sliding rod B31 and a lower sliding rod C41 which are axially arranged along the X axis and are arranged at the upper end of the lower sliding seat 14, the left ends of the upper sliding rod A2, the upper sliding rod B3 and the lower sliding rod C4 are provided with an upper knife holder 22, the upper end of the upper knife holder 22 is provided with an upper knife 23, the upper end of the upper knife 23 is sleeved with an upper thread protecting seat 24, the left ends of the lower sliding rod A21, the lower sliding rod B31 and the lower sliding rod C41 are provided with a correspondingly matched lower knife holder 25, the upper end of the lower knife holder;

the right end parts of the upper sliding rod A2 and the lower sliding rod A21 are connected with a pull block A5 which is vertically arranged, the pull block A5 is connected with a screw rod A51 which is axially arranged along the X axis, the right end part of the screw rod A51 is connected with a displacement motor A52, the right end parts of the upper sliding rod B3 and the lower sliding rod B31 are connected with a pull block B6 which is vertically arranged, the pull block B6 is connected with a screw rod B61 which is axially arranged along the X axis, the right end part of the screw rod B61 is connected with a displacement motor B62, the right end parts of the upper sliding rod C4 and the lower sliding rod C41 are connected with a pull block C7 which is vertically arranged, the pull block C7 is connected with a screw rod C71 which is axially arranged along the X axis, and the right end part of.

Further, the upper slide 13 and the lower slide 14 are connected with the positive and negative lead screw 15 through a slide coupler 18, and the upper slide 13 and the lower slide 14 move up and down relatively.

Further, the pulling block a5, the pulling block B6, and the pulling block C7 are respectively connected to the lead screw a51, the lead screw B61, and the lead screw C72 through a displacement coupling 53.

Further, the upper ends of the pulling block a5, the pulling block B6 and the pulling block C7 are provided with upper ends of guide shafts 54 arranged along the X-axis direction, the upper ends of the guide shafts 54 are fixedly provided with upper ends of guide shaft fixing plates 55, and the guide shaft fixing plates 55 are fixedly provided with upper ends of the bottom plate 1.

Further, the displacement motor a52, the displacement motor B62 and the displacement motor 72 are fixedly mounted on the upper end of the base plate 1 through a motor fixing plate 56.

To explain further, the invention drives the positive and negative screw rods 15 to drive the upper slide seat 13 to move downwards and the lower slide seat 14 to move upwards through the cutting motor 16, so as to drive the upper wire protecting seat 24 and the lower wire protecting seat 27 to compress and fix the round wire, and then the upper cutter 23 and the lower cutter 26 cut the outer skin of the round wire, so that the cutting effect is good, and the wire core cannot be damaged; after the outer skins of the round wires are cut by the upper cutter 23 and the lower cutter 26, the displacement motor A52, the displacement motor B62 and the displacement motor C72 respectively drive the screw rod A51, the screw rod B61 and the screw rod C71 to respectively drive the pull block A5, the pull block B6 and the pull block C7 to move rightwards, so that the upper slide bar A2 and the lower slide bar A21, the upper slide bar B3 and the lower slide bar B31 as well as the upper slide bar C4 and the lower slide bar C41 move rightwards respectively, the upper cutter 23 and the lower cutter 26 are pulled to peel the wire cores, the peeling efficiency is greatly improved, and the peeling component of each round wire is controlled by the independent displacement motor, so that the peeling length and the peeling precision of each round wire can be well controlled; therefore, the invention has the advantages of novel design, simple structure, accurate peeling and high efficiency.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. The utility model provides a long short peeling mechanism is cut to three core tails of round wire which characterized in that: the cutting machine comprises a bottom plate (1) which is horizontally arranged, supporting side vertical plates (11) which are vertically arranged are arranged on two sides of the left side end of the bottom plate (1), a slide rail (12) which is vertically arranged is arranged at the upper end of the inner side of each supporting side vertical plate (11), an upper sliding seat (13) and a lower sliding seat (14) which correspondingly slide are arranged at the upper end of each slide rail (12), the upper sliding seat (13) and the lower sliding seat (14) are connected with positive and negative screw rods (15) which are vertically arranged, the upper ends of the positive and negative screw rods (15) are connected with a cutting motor (16), the cutting motor (16) is arranged at the upper end of a supporting transverse plate (17), and the supporting transverse plate (17;

the upper end of the upper sliding seat (13) is provided with an upper sliding rod A (2), an upper sliding rod B (3) and a lower sliding rod (4) which are axially arranged along the X axis, the upper slide bar A (2), the upper slide bar B (3) and the lower slide bar C (4) are correspondingly matched with the lower slide bar A (21), the lower slide bar B (31) and the lower slide bar C (41) and are arranged at the upper end of the lower slide seat (14) along the X-axis axial direction, the upper tool apron (22) is arranged at the left end of the upper slide bar A (2), the upper slide bar B (3) and the lower slide bar C (4), the upper cutter (23) is arranged at the upper end of the upper tool apron (22), an upper wire protecting seat (24) is sleeved at the upper end of the upper cutter (23), a lower cutter seat (25) which is correspondingly matched with the left ends of the lower slide bar A (21), the lower slide bar B (31) and the lower slide bar C (41) is arranged at the left end of the upper cutter (23), a lower cutter (26) is arranged at the upper end of the lower cutter seat (25), and a lower wire protecting seat (27) is sleeved at the upper end of the lower cutter (26);

go up slide bar A (2) and lower slide bar A (21) right-hand member portion and be connected with pull block A (5) that are vertical layout, pull block A (5) are connected with and are lead screw A (51) that arrange along the X axle axial, and lead screw A (51) right-hand member portion is connected with displacement motor A (52), upper slide bar B (3) and lower slide bar B (31) right-hand member portion are connected with and are vertical layout pull block B (6), pull block B (6) are connected with and are lead screw B (61) that arrange along the X axle axial, and lead screw B (61) right-hand member portion is connected with displacement motor B (62), upper slide bar C (4) and lower slide bar C (41) right-hand member portion are connected with and are vertical layout pull block C (7), pull block C (7) are connected with and are lead screw C (71) that arrange along the X axle axial, and lead screw C (71) right-hand member portion is connected with.

2. The round wire three-core tail shear length and length peeling mechanism of claim 1, characterized in that: the upper sliding seat (13) and the lower sliding seat (14) are connected with the positive and negative screw rod (15) through a sliding seat coupler (18), and the upper sliding seat (13) and the lower sliding seat (14) move up and down relatively.

3. The round wire three-core tail shear length and length peeling mechanism of claim 1, characterized in that: the pulling block A (5), the pulling block B (6) and the pulling block C (7) are respectively connected with the screw rod A (51), the screw rod B (61) and the screw rod C (72) through displacement couplers (53).

4. The round wire three-core tail shear length and length peeling mechanism of claim 1, characterized in that: the upper ends of the pulling block A (5), the pulling block B (6) and the pulling block C (7) are provided with the upper ends of guide shafts (54) which are axially arranged along an X axis, the upper ends of guide shaft fixing plates (55) are fixedly arranged on the guide shafts (54), and the guide shaft fixing plates (55) are fixedly arranged on the upper end of the bottom plate (1).

5. The round wire three-core tail shear length and length peeling mechanism of claim 1, characterized in that: the displacement motor A (52), the displacement motor B (62) and the displacement motor (72) are fixedly provided with the upper end of the bottom plate (1) through a motor fixing plate (56).