CN114006505B - Quick wire winding arrangement from cutting apron subassembly - Google Patents

Abstract

The invention discloses a self-shearing cover plate assembly for rapid winding and finishing, and belongs to the field of wire harness winding equipment. A self-shearing cover plate assembly for fast winding and trimming comprises a cover plate, a cover plate and a cover plate, wherein the cover plate is annular, is connected with the upper end of a bracket of a hub motor and is provided with a collecting opening, and the cover plate is detachably connected to the inner side of the cover plate and comprises a bunching part and a tangent part; each collecting opening is provided with a corresponding beam part; the beam part comprises a fixed part and a rotating part, and the fixed part is in magnetic butt joint with the rotating part; after the fixed piece is abutted against the rotating piece, a wire bunching channel is formed at the lower side of the abutting part and is used for collecting the lead and extruding the lead; the cutting part comprises a cutting blade which is used for cutting off the lead; it can realize when arrangement lead wire, operating personnel can the quick broken string, need not the disconnected string of exclusive use instrument, shortens operating time, improves arrangement efficiency, reduces intensity of labour.

Description

Quick wire winding arrangement from cutting apron subassembly

Technical Field

The invention belongs to the field of wire harness winding equipment, and particularly relates to a self-shearing cover plate assembly for rapid winding and sorting.

Background

The hub motor is a commonly used component in an electric automobile, the working principle of the hub motor is a permanent magnet synchronous motor, and a stator of the hub motor usually adopts a three-phase stator winding.

After the stator winding is manufactured, a process line often flows out, namely, a plurality of annular lead wires are reserved on the upper side of the stator, and the lead wires are divided into an A-phase lead wire, a B-phase lead wire and a C-phase lead wire according to the phases of the coils to which the lead wires belong.

After the stator is manufactured into a finished product, the redundant process lines need to be classified and sorted. The existing method is to manually select the lead wires of the belonging phase and use a snap ring to restrain the whole lead wire bundle.

The method is relatively original, so that an operator is easy to carelessly bind the leads of different phases together, the stator operation is invalid, and meanwhile, the classifying and collecting method also needs the operator to spend a large amount of time to find out the leads of different phases, so that the working efficiency is low.

Meanwhile, when the operator sorts and arranges the leads, the leads are cut off each time one lead is arranged, so that the leads are divided into two sections to be respectively processed and collected; the operator always needs to continuously take up and put down the scissors, which wastes operation time and energy of the operator.

When the operators sort and arrange the leads, each kind of lead needs to be bound by the binding belt, otherwise, the leads are scattered to cause the confusion with the leads which are not arranged or the confusion with other kinds of arranged leads, and after the operators arrange one lead, the binding belt needs to be opened to be mixed with the leads which are bundled, then the binding belt is closed to bind the bundle, so that the energy of the operators is greatly consumed, the operation time is wasted, and the manufacturing cost of the product is indirectly improved.

Disclosure of Invention

The invention aims to provide a self-shearing cover plate assembly for fast winding and trimming, which can realize that an operator can fast break wires when trimming lead wires, does not need to separately use tools to break the wires, shortens the operation time, improves the trimming efficiency and reduces the labor intensity.

The invention relates to a self-shearing cover plate component for rapid winding arrangement, which comprises

The cover plate 1 is annular, is connected with the upper end of a bracket of the hub motor and is provided with a collecting port, and the collecting port comprises an A port, a B port, a C port and a public port so as to collect an A-phase lead, a B-phase lead, a C-phase lead and a public lead; the phase A lead, the phase B lead, the phase C lead and the common lead are leads 5;

the cover plate 2 is detachably connected to the inner side of the cover plate 1 and comprises a beam part 3 and a tangent part 4;

each collecting opening is provided with a corresponding beam part 3;

the bunching part 3 comprises a fixed part 6 and a rotating part 7, and the fixed part 6 is in magnetic butt joint with the rotating part 7;

after the fixed piece 6 is abutted against the rotating piece 7, a guide-in channel 8 is formed at the upper side of the abutting part, the wall surface of the guide-in channel 8 is pressed by the outside, the rotating piece 7 is driven to rotate, and the abutting of the fixed piece 6 and the rotating piece 7 is opened;

after the fixed piece 6 is abutted with the rotating piece 7, a wire harness channel 9 is formed at the lower side of the abutting part, and the wire harness channel 9 is used for collecting the lead 5 and extruding the lead 5;

the wire cutting portion 4 includes a cutting edge for cutting the lead wire 5;

the positions of the tangent parts 4 away from the collecting openings are adjustable, and each collecting opening is provided with a corresponding tangent part 4;

the lead 5 passes through the collection opening, enters the bunching portion 3, and then enters the cutting portion 4.

As a further improvement of the invention, the tangent part 4 is a blade which is in a thin blade shape, the edge of the thin blade is a cutting edge, the lead 5 is wound on the periphery of the blade, and the cutting edge is abutted against the lead 5; the winding number is half a turn.

As a further improvement of the present invention, the cutting blade forms a cutting passage 12 having a sharp corner, the lead 5 is located in the cutting passage 12, and the lead 5 abuts against the sharp corner of the cutting blade.

As a further improvement of the present invention, the fixed member 6 and the rotating member 7 each have a circular arc surface; the contact surfaces of the outer edges of the two circular arc surfaces are abutted parts, and the fixed part 6 is in line contact with the rotating part 7; the introduction passage 8 includes a cambered surface portion on the upper side of the abutment of the fixed member 6, and a cambered surface portion on the upper side of the abutment of the rotating member 7.

As a further improvement of the present invention, the introduction passage 8 further includes an inclined surface that is tangent to the arc surface on the upper side of the abutment of the fixed member 6 and an inclined surface that is tangent to the arc surface on the upper side of the abutment of the rotating member 7.

As a further improvement of the present invention, the abutment of the fixed member 6 and the rotating member 7 is constituted by two flat surfaces; the introduction channel 8 is formed by two planes forming a sharp corner; the two planes forming the abutment are inclined downwards relative to the horizontal plane.

As a further improvement of the present invention, the upper wall of the harness passage is a horizontal plane.

As a further improvement of the present invention, the upper wall of the harness passage is a downwardly convex curved surface.

As a further improvement of the invention, an elastic pressing film is arranged in the bunching channel and is fixedly connected with the fixed part or the rotating part; the spatial dimension of the beam path is smaller than the sum of the cross-sectional areas of the individual leads 5 within all the individual collection ports.

As a further improvement of the present invention, the cutting line portion 4 includes a cutter body 10; one side of the cutter body 10 is provided with a wire inlet 11; a single rotating rod 13 is arranged in the wire inlet 11, the single rotating rod 13 only can rotate towards the inner side of the cutter body 10, and the single rotating rod 13 seals the wire inlet 11 in a free state; the inner side of the wire inlet 11 is a cutting channel 12, and the cutter body 10 is a cutting edge at the edge of the cutting channel 12.

Compared with the prior art, the invention has the beneficial effects that:

the binding part and the cutting part on the covering plate enable the leads collected in the collecting port to automatically bind and directly cut off after entering the collecting port, the cutting length is adjustable, the leads are effectively prevented from being in a divergent shape, other leads are difficult to arrange, the step that an operator needs to take up scissors to cut off the leads for multiple times during arrangement each time is eliminated, the arrangement efficiency is accelerated, and the arrangement time is shortened.

The cover plate is detachably connected with the cover plate, when the leads need to be arranged, the cover plate is arranged on the inner side of the cover plate, and the cover plate can be detached after arrangement is finished, so that the function of arranging the leads of a plurality of hub motor stator windings operated by a single cover plate is realized, and the cost is low.

The binding part comprises a fixed part and a rotating part which are in magnetic butt joint, when an operator presses the wall surface of the guide-in channel by using the lead, the connection of the fixed part and the rotating part is opened, so that the lead enters the binding channel, and due to the magnetic attraction between the fixed part and the rotating part, the fixed part and the rotating part are reconnected after the lead enters the binding channel, so that the binding channel is closed, and meanwhile, the binding channel presses the lead, so that the lead is finally formed into a bundle shape and is convenient to collect.

The upper wall of the wire bundling part is a horizontal plane or a cambered surface protruding downwards, so that the problem of wire bundling failure caused by opening the abutting part after the lead is pulled upwards is effectively avoided.

The cutting blade of the invention forms a cutting channel with a sharp angle, so that the lead can be cut off after being pulled upwards, thereby facilitating the force application of operators.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic exploded perspective view of a first embodiment of the present invention;

FIG. 3 is a schematic plan view of a beam portion according to a first embodiment of the present invention;

FIG. 4 is a schematic plan view of a lead in the lead-in channel according to the first embodiment of the present invention;

FIG. 5 is a schematic plan view of a rotary member being opened by a lead according to a first embodiment of the present invention;

fig. 6 is a schematic plan view of a lead wire entering a wire harness passage according to a first embodiment of the present invention;

fig. 7 is a schematic plan view of a fixing member according to a second embodiment of the present invention;

FIG. 8 is a schematic plan view of a rotor according to a second embodiment of the present invention;

fig. 9 is a schematic plan view of a beam portion according to a third embodiment of the present invention;

fig. 10 is a schematic plan view of a third embodiment of the present invention, in which the lead is located in the lead-in channel;

FIG. 11 is a schematic plan view of a rotary member according to a third embodiment of the present invention, which is opened by a lead wire;

fig. 12 is a schematic plan view of a third embodiment of the present invention showing a lead wire entering a wire harness passage;

FIG. 13 is a schematic plan view of a fourth embodiment of the present invention;

FIG. 14 is a schematic diagram of a four-embodiment of the present invention showing a planar structure of a single rotating rod being opened by a lead wire;

fig. 15 is a schematic plan view of a fourth embodiment of the present invention, in which the leads are located in the dicing channels.

The numbering in the figures illustrates:

the wire drawing device comprises a cover plate 1, a cover plate 2, a wire binding part 3, a wire cutting part 4, a lead wire 5, a fixing part 6, a rotating part 7, a guide-in channel 8, a wire binding channel 9, a cutter body 10, a wire inlet 11, a cutting channel 12 and a single rotating rod 13.

Detailed Description

The first embodiment is as follows: referring to FIGS. 1-6, a fast winding and trimming self-cutting cover plate assembly includes

The cover plate 1 is annular, is connected with the upper end of a bracket of the hub motor and is provided with a collecting port, and the collecting port comprises an A port, a B port, a C port and a public port so as to collect an A-phase lead, a B-phase lead, a C-phase lead and a public lead; the phase A lead, the phase B lead, the phase C lead and the common lead are leads 5;

the cover plate 2 is detachably connected to the inner side of the cover plate 1 and comprises a beam part 3 and a tangent part 4;

each collecting opening is provided with a corresponding beam part 3;

the bunching part 3 comprises a fixed part 6 and a rotating part 7, and the fixed part 6 is in magnetic butt joint with the rotating part 7;

the side surface of the fixed member 6 close to the rotating member 7 is divided into a lead-in surface 601, a contact surface 602, and a wire harness surface 603 from top to bottom;

the rotating member 7 is divided into a guide-in surface 701, a contact surface 702 and a wire harness surface 703 from top to bottom near the side surface of the fixing member 6;

the introduction surface 601 and the introduction surface 701 are both inclined surfaces, and in a free state, the introduction surface 601 and the introduction surface 701 intersect with each other to form a channel having an open upper side and a closed lower side, that is, an introduction channel 8.

The abutting surface 602 and the abutting surface 702 are both vertical surfaces, the abutting surface 602 and the abutting surface 702 are abutted in a free state, the abutting surface 602 and the abutting surface 702 are respectively coated with magnetic coatings with opposite magnetism, or the fixing member 6 and the rotating member 7 are respectively made of magnetic materials with opposite magnetism;

the harness one side 603 and the harness two side 703 are both inclined surfaces, and in a free state, the harness one side 603 and the harness two side 703 intersect to form a channel with an upper side intersecting and closed, namely a harness channel 9, and the harness channel 9 is used for collecting the lead 5 and extruding the lead 5.

In a free state, the fixed part 6 abuts against the rotating part 7, and after the wall surface of the introduction face 701 of the introduction channel 8 is pressed by the outside (the pressure of the lead 5 to the introduction face 701 can be used), the rotating part 7 is driven to rotate, and the abutting of the fixed part 6 and the rotating part 7 is opened; the wire harness channel 9 is opened, the lead 5 can enter the wire harness channel 9 downwards, when the pressure on the leading-in surface 701 is removed, the fixed piece 6 and the rotating piece 7 can suck again, the wire harness channel 9 can be closed again, and the lead 5 is effectively prevented from sliding out and being incapable of wire harness; when the lead wire 5 enters between the abutting surface 602 and the abutting surface 702, although the fixed member 6 and the rotating member 7 have attraction tendency, the existence of the lead wire 5 still opens the harness passage 9, and the lead wire 5 can still enter downward into the harness passage 9.

The positions of the tangent parts 4 away from the collecting openings are adjustable, and each collecting opening is provided with a corresponding tangent part 4;

the lead 5 passes through the collection opening, enters the bunching portion 3, and then enters the cutting portion 4.

The wire cutting part 4 is a blade which is in a thin blade shape, the edge of the thin blade is a cutting edge, the lead 5 is wound on the periphery of the blade, and the cutting edge is abutted against the lead 5; the number of windings is at least half a turn. When an operator pulls the lead 5, the cutting edge can damage the lead 5 to split the lead 5 into two sections, one section is retained in the wire harness channel 9 of the port A, the port B or the port C, and the other section can be wound in the public port for binding.

The second embodiment is as follows: referring to fig. 7-8, a fast winding and trimming self-cutting cover plate assembly is shown, which differs from the first embodiment in that the fixed member 6 and the rotating member 7 have circular arc surfaces; the contact surfaces of the outer edges of the two circular arc surfaces are abutted parts, and the fixed part 6 is in line contact with the rotating part 7;

the abutment surface 602 and the abutment surface 702 are both circular arc surfaces.

The introduction passage 8 includes a cambered surface portion on the upper side of the abutment of the stator 6, a cambered surface portion on the upper side of the abutment of the rotor 7, a introduction face 601, and a introduction face 701.

Such setting makes lead wire 5 be convenient for slide in bunch passageway 9, simultaneously, because of butt one side 602 and butt biplanar 702 are circular cambered surface, although mounting 6 and rotation piece 7 have magnetism to attract mutually, but suction is not strong, only can guarantee mounting 6 and rotation piece 7 can laminate the butt, and the operating personnel of being convenient for uses lead wire 5 to open the magnetism butt, reduces the operation degree of difficulty.

The third concrete embodiment: referring to fig. 9-12, a self-cutting cover plate assembly for fast winding and trimming, different from the first embodiment, in a free state, two wall surfaces forming the guiding channel 8 form an acute angle; wherein the wall belonging to the stationary part 6 is inclined with respect to the horizontal plane, the wall belonging to the rotating part 7 is a horizontal plane, and the wall belonging to the rotating part 7 is located on the upper side of the wall belonging to the stationary part 6.

In the free state, the fixed member 6 and the rotating member 7 are abutted, and the abutment is formed by two planes, wherein the plane belonging to the fixed member 6 and the plane belonging to the rotating member 7 are both inclined planes, and the plane belonging to the fixed member 6 is perpendicular to the wall surface of the fixed member 6 constituting the introduction passage 8, that is, the plane belonging to the fixed member 6 is inclined downward.

The butt department downside is bunch passageway 9 promptly, and the cross-section of bunch passageway 9 is right trapezoid, and right trapezoid's vertically waist is the shroud plate 2 up end, and the waist of another slope is a side end face of mounting 6, and right trapezoid's acute angle is close to the butt department, and acute angle department is the export of butt department promptly.

After the lead 5 enters the leading-in channel 8, the lead is lifted upwards along the trend, namely the butt joint can be opened and enters between the butt joint surfaces, and the butt joint surfaces are downward inclined surfaces, so that the lead 5 is convenient to move downwards and enters the wire bunching channel 9, and the operation is more labor-saving.

Secondly, because bunch passageway 9 is the acute angle with being connected of butt department, butt department is the slope form again, and lead wire 5 is difficult for because of external force pulling or internal force dispersion after getting into bunch passageway 9, backs down the relation of connection of butt department, has guaranteed the bunch of lead wire 5 better.

The fourth concrete embodiment: please refer to fig. 13-15, which are a schematic diagram illustrating a self-cutting cover plate assembly for fast winding and trimming.

The wire cutting portion 4 includes a cutter body 10; one side of the cutter body 10 is provided with a wire inlet 11;

a cutting channel 12 is arranged at the inner side of the wire inlet 11, and the lead 5 can only enter the cutting channel 12 from the wire inlet 11;

a single rotating rod 13 is arranged in the wire inlet 11, the single rotating rod 13 can only rotate towards the cutting channel 12 side, and the single rotating rod 13 seals the wire inlet 11 in a free state;

the blade 10 has a cutting edge at the edge of the cutting channel 12, the cutting edge having a sharp corner which is a concave corner to the inside for cutting the lead 5, the sharp corner being located at the top side of the cutting channel 12.

After the lead 5 presses the single rotating rod 13, the single rotating rod 13 swings inwards, the lead 5 enters the cutting channel 12, an operator pulls the lead 5 upwards to enable the lead 5 to enter a sharp corner, and after the sharp corner is abutted to the lead 5, the operator continues to pull the lead 5 upwards to enable the lead 5 to be cut off;

wherein, the inner edge of the sharp corner is provided with a sawtooth-shaped bulge to increase the damage effect of the sharp corner on the lead 5.

The fifth concrete embodiment: the upper wall of the harness passage 9, i.e., the exit at the abutment, is a horizontal plane. So that the lead wire 5 is not easily pulled out from the harness passage 9.

The sixth specific embodiment: the upper wall of the harness passage 9, i.e., the outlet at the abutment, is a downwardly-projecting arc surface. So that the lead wire 5 is not easily pulled out from the harness passage 9.

The seventh specific embodiment: an elastic pressing film is arranged in the bunching channel 9 and is fixedly connected with the fixed part 6 or the rotating part 7; the spatial dimension of the beam path 9 is smaller than the sum of the cross-sectional areas of the individual leads 5 within all the individual collection openings. After the lead wire 5 is inserted into the wire-tying passage 9, the fixing member 6 is brought into contact with the rotating member 7 again, the lead wire 5 is pressed by the wall surface of the wire-tying passage 9, and the lead wire 5 is collected into a bundle more favorably.

Claims (10)

1. The utility model provides a quick wire winding arrangement from cutting apron subassembly which characterized in that: comprises that

The cover plate (1) is annular, is connected with the upper end of the support of the hub motor and is provided with a collecting port, and the collecting port comprises an A port, a B port, a C port and a public port so as to collect an A-phase lead, a B-phase lead, a C-phase lead and a public lead; the phase A lead, the phase B lead, the phase C lead and the common lead are leads (5);

the cover plate (2) is detachably connected to the inner side of the cover plate (1) and comprises a binding part (3) and a cutting part (4);

each collecting opening is provided with a corresponding beam part (3);

the bunching part (3) comprises a fixed part (6) and a rotating part (7), and the fixed part (6) is in magnetic butt joint with the rotating part (7);

after the fixed piece (6) is abutted with the rotating piece (7), a guide-in channel (8) is formed at the upper side of the abutting part, the wall surface of the guide-in channel (8) is pressed by the outside to drive the rotating piece (7) to rotate, and the abutting part of the fixed piece (6) and the rotating piece (7) is opened;

after the fixed piece (6) is abutted with the rotating piece (7), a wire harness channel (9) is formed at the lower side of the abutting part, and the wire harness channel (9) is used for collecting the lead (5) and extruding the lead (5);

the wire cutting part (4) comprises a cutting edge for cutting off the lead (5);

the position of the tangent line part (4) away from the collection port is adjustable, and each collection port is provided with a corresponding tangent line part (4);

the lead (5) passes through the collection opening, enters the bunching part (3) and then enters the cutting part (4).

2. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: the wire cutting part (4) is a blade which is in a thin blade shape, the edge of the thin blade is a cutting edge, the lead is wound on the periphery of the blade, and the cutting edge is abutted to the lead; the winding number is half a turn.

3. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: the cutting blade forms a cutting channel (12) with a sharp angle, the lead (5) is positioned in the cutting channel (12), and the lead (5) is abutted against the sharp angle of the cutting blade.

4. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: the fixed part (6) and the rotating part (7) are both provided with circular cambered surfaces; the outer edge contact surfaces of the two circular arc surfaces are abutted parts, and the fixed part (6) is in line contact with the rotating part (7); the introduction passage (8) includes an arc surface portion on the upper side of the abutment of the stationary member (6) and an arc surface portion on the upper side of the abutment of the rotating member (7).

5. The self-shearing cover plate assembly for quick winding and trimming of claim 4, wherein: the leading-in channel (8) also comprises an inclined plane tangent with the arc surface at the upper side of the abutting part of the fixed part (6) and an inclined plane tangent with the arc surface at the upper side of the abutting part of the rotating part (7).

6. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: the abutting part of the fixed part (6) and the rotating part (7) is composed of two planes; the introduction channel (8) is formed by two planes forming sharp corners; the two planes constituting the abutment are inclined downwards with respect to the horizontal plane.

7. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: the upper wall of the wire harness passage (9) is a horizontal plane.

8. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: the upper wall of the wire harness channel (9) is a cambered surface protruding downwards.

9. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: an elastic pressing film is arranged in the bunching channel (9) and is fixedly connected with the fixed part (6) or the rotating part (7); the spatial dimension of the beam line channel (9) is smaller than the sum of the cross-sectional areas of the individual leads (5) in all the individual collection openings.

10. The self-shearing cover plate assembly for fast winding and tidying according to claim 1, wherein: the wire cutting part (4) comprises a cutter body (10); one side of the cutter body (10) is provided with a wire inlet (11); a single rotating rod (13) is arranged in the wire inlet (11), the single rotating rod (13) can only rotate towards the inner side of the cutter body (10), and the single rotating rod (13) seals the wire inlet (11) in a free state; the inner side of the wire inlet (11) is provided with a cutting channel (12), and the edge of the cutter body (10) in the cutting channel (12) is provided with a cutting edge.

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