CN110783799A - Branching device - Google Patents
Branching device Download PDFInfo
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- CN110783799A CN110783799A CN201911077692.9A CN201911077692A CN110783799A CN 110783799 A CN110783799 A CN 110783799A CN 201911077692 A CN201911077692 A CN 201911077692A CN 110783799 A CN110783799 A CN 110783799A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/28—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for wire processing before connecting to contact members, not provided for in groups H01R43/02 - H01R43/26
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Abstract
The invention provides a branching device, wherein a first branching clamp, a second branching clamp and a branching mechanism are arranged in the branching device, the first branching clamp comprises two first branching clamping jaws, and the two first branching clamping jaws can be arranged close to or far away from each other to clamp or loosen a second wire core in a wire body; the second wire dividing clamp comprises two second wire dividing clamping jaws, and the two second wire dividing clamping jaws can be arranged close to or far away from each other to clamp or loosen a third wire core in the wire body; the wire dividing mechanism is in driving connection with the first wire dividing clamp and the second wire dividing clamp so as to drive the first wire dividing clamp and the second wire dividing clamp to be close to or far away from each other, wherein the second wire core and the third wire core are separated under the condition that the first wire dividing clamp clamping the second wire core and the second wire dividing clamp clamping the third wire core are far away from each other. According to the technical scheme, three wire cores in the three-core wire can be automatically separated, and the production efficiency is improved.
Description
Technical Field
The invention relates to the technical field of line body production, in particular to a branching device.
Background
Three core wires in the three-core wire need to be separated before the plug is produced in the three-core wire production, and a special wire distributing device is not arranged in the prior art, so that automatic operation cannot be realized, and the production efficiency is influenced.
Disclosure of Invention
The invention provides a branching device for separating a wire core in a wire body.
In order to achieve the above object, the present invention provides a branching device including: the first wire dividing clamp comprises two first wire dividing clamping jaws which can be arranged close to or far away from each other so as to clamp or loosen a second wire core in the wire body; the second wire dividing clamp comprises two second wire dividing clamping jaws, and the two second wire dividing clamping jaws can be arranged close to or far away from each other to clamp or loosen a third wire core in the wire body; the wire dividing mechanism is in driving connection with the first wire dividing clamp and the second wire dividing clamp so as to drive the first wire dividing clamp and the second wire dividing clamp to approach or move away from each other; the first wire core and the third wire core are separated from the first wire core of the wire body under the condition that the first wire dividing clamp for clamping the second wire core and the second wire dividing clamp for clamping the third wire core are far away from each other.
Further, the first wire dividing clamp is arranged in a manner of reciprocating along a first direction, the second wire dividing clamp is arranged in a manner of reciprocating along a second direction, the first direction is obliquely arranged relative to the extending direction of the wire body, the second direction is obliquely arranged relative to the extending direction of the wire body, and an included angle is formed between the first direction and the second direction; when the first parting jig pushes the second core in the first direction, the second core and the first core are separated, and when the second parting jig pushes the third core in the second direction, the third core and the first core are separated.
Further, the branching device further includes: a first shunt guide portion extending in the first direction, the first shunt guide portion cooperating with the first shunt fixture to guide the first shunt fixture; a second wire guide extending along the second direction, the second wire guide cooperating with the second wire clamp to guide the second wire clamp.
Furthermore, the first wire dividing clamping jaws comprise a first wire dividing connecting piece, a second wire dividing connecting piece and a wire dividing clamping head which are sequentially connected, an included angle is formed between the second wire dividing connecting piece and the first wire dividing connecting piece, an included angle is formed between the wire dividing clamping head and the second wire dividing connecting piece, and the two first wire dividing clamping jaws are symmetrically arranged relative to a preset horizontal plane; the second wire dividing clamp and the first wire dividing clamp are identical in structure, and are symmetrically arranged relative to a preset vertical plane.
Furthermore, the wire dividing mechanism comprises a wire dividing sliding seat, a first wire dividing connecting rod and a second wire dividing connecting rod, one end of the first wire dividing connecting rod is hinged to the wire dividing sliding seat, the other end of the first wire dividing connecting rod is hinged to the first wire dividing fixture, one end of the second wire dividing connecting rod is hinged to the wire dividing sliding seat, the other end of the second wire dividing connecting rod is hinged to the second wire dividing fixture, and the wire dividing sliding seat can be arranged in a reciprocating mode to drive the first wire dividing fixture and the second wire dividing fixture to approach or separate from each other through the first wire dividing connecting rod and the second wire dividing connecting rod.
Further, the wire separating mechanism further comprises: the first wire dividing driving part is in driving connection with the wire dividing sliding seat so as to drive the wire dividing sliding seat to move back and forth; a third wire guide portion that cooperates with the wire splitting slide to guide the wire splitting slide.
The yarn distributing device comprises a yarn distributing mechanism, wherein the yarn distributing mechanism comprises a yarn smoothing part, the yarn smoothing part can be arranged in a reciprocating manner, and the yarn smoothing part comprises a first yarn smoothing claw and a second yarn smoothing claw; the wire smoothing part is provided with a first position and a second position, the wire smoothing part avoids the wire body under the condition that the wire smoothing part is at the first position, and a limit area is formed between the first wire smoothing claw and the second wire smoothing claw under the condition that the wire smoothing part is at the second position so as to limit a plurality of wire cores of the wire body in the limit area; and under the condition that the wire straightening part at the second position is far away from the wire body, straightening a plurality of wire cores of the wire body.
Furthermore, the wire smoothing part is positioned between the first wire dividing clamp and the second wire dividing clamp, and the wire smoothing mechanism further comprises a wire smoothing driving part which is in driving connection with the wire smoothing part so as to drive the wire smoothing part to move back and forth.
Further, the branching device further includes: the first wire dividing clamp, the second wire dividing clamp and the wire dividing mechanism are all arranged on the wire dividing base; and the second wire dividing driving part is in driving connection with the wire dividing base so as to drive the wire dividing base to move back and forth.
Further, the branching device further includes: a branching base on which the second branching drive section is provided, the branching base being provided so as to be movable back and forth; and the fourth branching guide part is arranged on the branching base and matched with the branching base to guide the branching base.
The first wire dividing clamp comprises two first wire dividing clamping jaws which can be arranged close to or far away from each other so as to clamp or loosen a second wire core in the wire body; the second wire dividing clamp comprises two second wire dividing clamping jaws, and the two second wire dividing clamping jaws can be arranged close to or far away from each other to clamp or loosen a third wire core in the wire body; the wire dividing mechanism is in driving connection with the first wire dividing clamp and the second wire dividing clamp so as to drive the first wire dividing clamp and the second wire dividing clamp to be close to or far away from each other, wherein the second wire core and the third wire core are separated under the condition that the first wire dividing clamp clamping the second wire core and the second wire dividing clamp clamping the third wire core are far away from each other. Like this accessible first separated time anchor clamps of accessible and second separated time anchor clamps carry two sinle silks in the line body respectively, then through the action of split line mechanism, alright with second sinle silk and third sinle silk all with first sinle silk separately. Therefore, the technical scheme can realize automatic separation of the three wire cores in the three-core wire, and improves the production efficiency.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic structural diagram of a wire dividing device provided in an embodiment of the present invention;
FIG. 2 shows another schematic view of the wire splitting device of FIG. 1;
FIG. 3 shows an enlarged partial view of the wire separating device of FIG. 2;
fig. 4 shows a further schematic view of the branching device in fig. 1.
Wherein the figures include the following reference numerals:
710. a first wire splitting jig; 711. a first wire splitting jaw; 712. a first branching connection member; 713. a second wire dividing connection; 714. a wire distributing chuck; 720. a second wire dividing jig; 721. a second wire-dividing jaw; 730. a wire separating mechanism; 731. a wire dividing slide seat; 732. a first split link; 733. a second wire-dividing connecting rod; 734. a first branch line driving section; 735. a third branching guide section; 741. a first split guide part; 742. a second wire dividing guide part; 743. a branching base; 744. a second line-dividing driving section; 745. a branching base; 746. a fourth branching guide section; 750. a wire smoothing mechanism; 751. wire smoothing; 752. a first wire smoothing claw; 753. a second wire smoothing claw; 754. a wire smoothing drive part.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in the drawings, an embodiment of the present invention provides a branching device, including: the first wire dividing clamp 710 comprises two first wire dividing clamping claws 711, and the two first wire dividing clamping claws 711 can be arranged close to or far away from each other to clamp or loosen a second wire core in the wire body; a second wire-dividing clamp 720, the second wire-dividing clamp 720 comprising two second wire-dividing clamping jaws 721, the two second wire-dividing clamping jaws 721 being disposed close to or far from each other to clamp or loosen a third wire core in the wire body; the wire dividing mechanism 730, the wire dividing mechanism 730 is in driving connection with both the first wire dividing fixture 710 and the second wire dividing fixture 720 so as to drive the first wire dividing fixture 710 and the second wire dividing fixture 720 to approach or move away from each other; under the condition that the first wire dividing clamp 710 for clamping the second wire core and the second wire dividing clamp 720 for clamping the third wire core are far away from each other, the second wire core and the third wire core are both separated from the first wire core of the wire body.
By applying the technical scheme of the invention, a branching device is provided, wherein a first branching fixture 710, a second branching fixture 720 and a branching mechanism 730 are arranged in the branching device, the first branching fixture 710 comprises two first branching claws 711, and the two first branching claws 711 can be arranged close to or far away from each other to clamp or loosen a second wire core in a wire body; the second wire-dividing clamp 720 comprises two second wire-dividing clamping jaws 721, and the two second wire-dividing clamping jaws 721 can be arranged close to or far away from each other to clamp or loosen a third wire core in the wire body; the wire dividing mechanism 730 is in driving connection with both the first wire dividing clamp 710 and the second wire dividing clamp 720 to drive the first wire dividing clamp 710 and the second wire dividing clamp 720 to approach or move away from each other, wherein the second wire core and the third wire core are separated when the first wire dividing clamp 710 clamping the second wire core and the second wire dividing clamp 720 clamping the third wire core are away from each other. Like this accessible first branch clamp 710 and second branch clamp 720 carry two sinle silks in the line body respectively, then through the action of wire separating mechanism 730, alright with second sinle silk and third sinle silk all with first sinle silk separately. Therefore, the technical scheme can realize automatic separation of the three wire cores in the three-core wire, and improves the production efficiency.
In this embodiment, the first wire dividing jig 710 is disposed to be movable back and forth along a first direction, the second wire dividing jig 720 is disposed to be movable back and forth along a second direction, the first direction is inclined with respect to the extending direction of the wire body, the second direction is inclined with respect to the extending direction of the wire body, and an included angle is formed between the first direction and the second direction; under the condition that first reposition of redundant personnel anchor clamps 710 promoted the second sinle silk along the first direction, second sinle silk and first sinle silk separate, under the condition that second reposition of redundant personnel anchor clamps 720 promoted the third sinle silk along the second direction, third sinle silk and first sinle silk separate. Adopt above-mentioned scheme, under the circumstances that first heater core was promoted along first direction to first heater core clamp 710, second heater core and first heater core separated, and under the circumstances that second heater core was promoted along the second direction to second heater core clamp 720, third heater core and first heater core separated, can not draw when separating the sinle silk like this and draw the sinle silk, avoid the sinle silk to damage.
In this embodiment, the branching device further includes: a first thread dividing guide part 741, the first thread dividing guide part 741 extending in a first direction, the first thread dividing guide part 741 cooperating with the first thread dividing jig 710 to guide the first thread dividing jig 710; and a second wire guide part 742, the second wire guide part 742 extending in the second direction, the second wire guide part 742 engaging with the second wire jig 720 to guide the second wire jig 720. In this way, the first thread separation jig 710 can be guided by the first thread separation guide 741, and the second thread separation jig 720 can be guided by the second thread separation guide 742, so that the mechanism can be stably moved.
Optionally, the first splitting fixture 710 comprises a pneumatic finger that drives the two first splitting jaws 711 to move. The second wire-dividing jig 720 includes pneumatic fingers to drive the movement of the two second wire-dividing jaws 721. The first thread guiding part 741 includes a guide rail and a slider, and the second thread guiding part 742 includes a guide rail and a slider.
In this embodiment, the first wire dividing clamping jaw 711 includes a first wire dividing connecting part 712, a second wire dividing connecting part 713 and a wire dividing clamping head 714 which are connected in sequence, an included angle is formed between the second wire dividing connecting part 713 and the first wire dividing connecting part 712, an included angle is formed between the wire dividing clamping head 714 and the second wire dividing connecting part 713, and the two first wire dividing clamping jaws 711 are symmetrically arranged relative to a preset horizontal plane; the second wire dividing jig 720 has the same structure as the first wire dividing jig 710, and the second wire dividing jig 720 and the first wire dividing jig 710 are symmetrically arranged with respect to a predetermined vertical plane. The manufacturing of the second wire dividing jig 720 and the first wire dividing jig 710 is facilitated by the above-described arrangement.
Optionally, the first wire gripping jaw 711 has a recess for gripping a second wire core and the second wire gripping jaw 721 has a recess for gripping a third wire core. An avoiding space is formed between the two first wire dividing clamping jaws 711 and the two second wire dividing clamping jaws 721 to avoid the wire smoothing part 751.
In this embodiment, the splitting mechanism 730 includes a splitting slide 731, a first splitting link 732 and a second splitting link 733, one end of the first splitting link 732 is hinged to the splitting slide 731, the other end of the first splitting link 732 is hinged to the first splitting jig 710, one end of the second splitting link 733 is hinged to the splitting slide 731, the other end of the second splitting link 733 is hinged to the second splitting jig 720, and the splitting slide 731 is reciprocally disposed to drive the first splitting jig 710 and the second splitting jig 720 to approach or separate from each other by the first splitting link 732 and the second splitting link 733. Therefore, the first wire splitting connecting rod 732 and the second wire splitting connecting rod 733 can be driven to move through the reciprocating movement of the wire splitting sliding seat 731, so that the first wire splitting fixture 710 and the second wire splitting fixture 720 are driven to move, and the separation of a plurality of wire cores is realized.
In this embodiment, the branching mechanism 730 further includes: the first dividing line driving part 734, the first dividing line driving part 734 is connected with the dividing line sliding seat 731 in a driving way, so as to drive the dividing line sliding seat 731 to move back and forth; the third thread guide portion 735 is engaged with the thread sliding base 731 to guide the thread sliding base 731. In this way, the branching slide 731 is driven to reciprocate by the first branching driving unit 734, and the branching slide 731 is guided by the third branching guide unit 735.
In this embodiment, the yarn dividing device further comprises a yarn smoothing mechanism 750, the yarn smoothing mechanism 750 comprises a yarn smoothing part 751, the yarn smoothing part 751 is arranged in a reciprocating manner, and the yarn smoothing part 751 comprises a first yarn smoothing claw 752 and a second yarn smoothing claw 753; the wire smoothing part 751 has a first position and a second position, when the wire smoothing part 751 is at the first position, the wire smoothing part 751 avoids a wire body, and when the wire smoothing part 751 is at the second position, a limit region is formed between the first wire smoothing claw 752 and the second wire smoothing claw 753 so as to limit a plurality of wire cores of the wire body in the limit region; the wire straightening portion 751 in the second position straightens a plurality of cores of the wire body while moving away from the wire body. By adopting the scheme, a plurality of cores of the wire body can be limited in the limiting area between the first wire smoothing claw 752 and the second wire smoothing claw 753, and then the side wall of the limiting area straightens the plurality of cores straight under the condition that the wire smoothing part 751 is far away from the movement of the wire body, so that the subsequent processing is facilitated. Straightening the wire core means that the wire core in a bent state is straightened as much as possible. The first and second stroking claws 752 and 753 can also press a plurality of cores to arrange the plurality of cores in a horizontal direction so as to clamp different cores respectively using the first and second splitting jigs 710 and 720.
Optionally, the first wire smoothing claw 752 is provided with a limiting groove, two side walls of the limiting groove are respectively provided with a guide inclined surface, when the wire smoothing part 751 is at the second position, the end part of the second wire smoothing claw 753 extends into the limiting groove, and a predetermined distance is reserved between the end surface of the second wire smoothing claw 753 and the bottom of the limiting groove. The wire smoothing part 751 further comprises pneumatic fingers, and the pneumatic fingers drive the first wire smoothing claw 752 and the second wire smoothing claw 753 to move.
In this embodiment, the wire stroking part 751 is located between the first wire splitting fixture 710 and the second wire splitting fixture 720, the wire stroking mechanism 750 further comprises a wire stroking driving part 754, and the wire stroking driving part 754 is in driving connection with the wire stroking part 751 so as to drive the wire stroking part 751 to move back and forth. The wire smoothing part 751 is positioned between the first wire dividing clamp 710 and the second wire dividing clamp 720, so that a plurality of wire cores of the wire body can be clamped conveniently. The wire drive unit 754 may employ an air cylinder.
In this embodiment, the branching device further includes: the wire dividing base 743, the first wire dividing clamp 710, the second wire dividing clamp 720 and the wire dividing mechanism 730 are all arranged on the wire dividing base 743; the second dividing line driving part 744, the second dividing line driving part 744 is connected with the dividing line base 743 in a driving manner, so as to drive the dividing line base 743 to move back and forth. In this way, the first wire dividing fixture 710, the second wire dividing fixture 720 and the wire dividing mechanism 730 can be driven to move integrally by the second wire dividing driving part 744 to avoid the wire body when wire division is not needed or to contact the wire body when wire division is needed.
In this embodiment, the branching device further includes: a branching base 745 on which the branching base 743 is provided so as to be movable back and forth, and a second branching drive section 744 is provided on the branching base 745; and a fourth branching guide 746 provided on the branching base 745, the fourth branching guide 746 cooperating with the branching base 743 to guide the branching base 743. Thus, the branching base 743 can be guided by the fourth branching guide 746. Optionally, the fourth wire guide 746 comprises a rail and a carriage. The fourth branching guide 746 may be provided in two to improve a guiding effect.
By applying the technical scheme of the invention, a first wire dividing clamp 710, a second wire dividing clamp 720 and a wire dividing mechanism 730 are arranged in the wire dividing device, the first wire dividing clamp 710 comprises two first wire dividing clamping claws 711, and the two first wire dividing clamping claws 711 can be arranged close to or far away from each other to clamp or loosen a second wire core in a wire body; the second wire-dividing clamp 720 comprises two second wire-dividing clamping jaws 721, and the two second wire-dividing clamping jaws 721 can be arranged close to or far away from each other to clamp or loosen a third wire core in the wire body; the wire dividing mechanism 730 is in driving connection with both the first wire dividing clamp 710 and the second wire dividing clamp 720 to drive the first wire dividing clamp 710 and the second wire dividing clamp 720 to approach or move away from each other, wherein the second wire core and the third wire core are separated when the first wire dividing clamp 710 clamping the second wire core and the second wire dividing clamp 720 clamping the third wire core are away from each other. Like this accessible first branch clamp 710 and second branch clamp 720 carry two sinle silks in the line body respectively, then through the action of wire separating mechanism 730, alright with second sinle silk and third sinle silk all with first sinle silk separately. Therefore, the technical scheme can realize automatic separation of the three wire cores in the three-core wire, and improves the production efficiency.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A branching device, comprising:
the first dividing clamp (710) comprises two first dividing clamping jaws (711), and the two first dividing clamping jaws (711) can be arranged close to or far away from each other to clamp or loosen a second wire core in the wire body;
the second wire dividing clamp (720), the second wire dividing clamp (720) comprises two second wire dividing clamping jaws (721), and the two second wire dividing clamping jaws (721) can be arranged close to or far away from each other to clamp or loosen a third wire core in the wire body;
the wire dividing mechanism (730) is in driving connection with the first wire dividing clamp (710) and the second wire dividing clamp (720) so as to drive the first wire dividing clamp (710) and the second wire dividing clamp (720) to move close to or away from each other;
wherein, under the condition that the first wire dividing clamp (710) clamping the second wire core and the second wire dividing clamp (720) clamping the third wire core are far away from each other, the second wire core and the third wire core are both separated from the first wire core of the wire body.
2. The thread splitting apparatus of claim 1,
the first wire dividing clamp (710) is arranged in a manner of reciprocating along a first direction, the second wire dividing clamp (720) is arranged in a manner of reciprocating along a second direction, the first direction is obliquely arranged relative to the extending direction of the wire body, the second direction is obliquely arranged relative to the extending direction of the wire body, and an included angle is formed between the first direction and the second direction;
when the first dividing jig (710) pushes the second core in the first direction, the second core and the first core are separated, and when the second dividing jig (720) pushes the third core in the second direction, the third core and the first core are separated.
3. The fan-out apparatus of claim 2, further comprising:
a first split guide part (741), the first split guide part (741) extending in the first direction, the first split guide part (741) cooperating with the first split jig (710) to guide the first split jig (710);
a second wire guide part (742), the second wire guide part (742) extending in the second direction, the second wire guide part (742) cooperating with the second wire jig (720) to guide the second wire jig (720).
4. The thread splitting apparatus of claim 1,
the first wire dividing clamping jaw (711) comprises a first wire dividing connecting piece (712), a second wire dividing connecting piece (713) and a wire dividing clamping head (714) which are connected in sequence, an included angle is formed between the second wire dividing connecting piece (713) and the first wire dividing connecting piece (712), an included angle is formed between the wire dividing clamping head (714) and the second wire dividing connecting piece (713), and the two first wire dividing clamping jaws (711) are symmetrically arranged relative to a preset horizontal plane;
the second wire dividing clamp (720) and the first wire dividing clamp (710) have the same structure, and the second wire dividing clamp (720) and the first wire dividing clamp (710) are symmetrically arranged relative to a preset vertical plane.
5. The thread separation device according to claim 1, wherein the thread separation mechanism (730) includes a thread separation slide (731), a first thread separation link (732) and a second thread separation link (733), one end of the first thread separation link (732) is hinged to the thread separation slide (731), the other end of the first thread separation link (732) is hinged to the first thread separation jig (710), one end of the second thread separation link (733) is hinged to the thread separation slide (731), the other end of the second thread separation link (733) is hinged to the second thread separation jig (720), and the thread separation slide (731) is reciprocally movably disposed to drive the first thread separation jig (710) and the second thread separation jig (720) to approach or move away from each other through the first thread separation link (732) and the second thread separation link (733).
6. The thread separation device of claim 5, wherein the thread separation mechanism (730) further comprises:
a first wire dividing driving part (734), wherein the first wire dividing driving part (734) is in driving connection with the wire dividing sliding seat (731) so as to drive the wire dividing sliding seat (731) to move back and forth;
a third branch guide part (735), the third branch guide part (735) cooperating with the branch slide (731) to guide the branch slide (731).
7. The yarn separating device according to claim 1, further comprising a yarn smoothing mechanism (750), wherein the yarn smoothing mechanism (750) comprises a yarn smoothing part (751), the yarn smoothing part (751) is arranged in a reciprocating manner, and the yarn smoothing part (751) comprises a first yarn smoothing claw (752) and a second yarn smoothing claw (753); the wire smoothing part (751) is provided with a first position and a second position, the wire smoothing part (751) avoids the wire when the wire smoothing part (751) is in the first position, and a limit region is formed between the first wire smoothing claw (752) and the second wire smoothing claw (753) when the wire smoothing part (751) is in the second position so as to limit a plurality of wires of the wire in the limit region; the wire stroking (751) in the second position stroks down a plurality of wires of the wire while moving away from the wire.
8. The thread separation device of claim 7, wherein the thread smoothing part (751) is located between the first thread separation clamp (710) and the second thread separation clamp (720), and the thread smoothing mechanism (750) further comprises a thread smoothing driving part (754), and the thread smoothing driving part (754) is in driving connection with the thread smoothing part (751) to drive the thread smoothing part (751) to move back and forth.
9. The fan-out apparatus of claim 1, further comprising:
the first wire dividing clamp (710), the second wire dividing clamp (720) and the wire dividing mechanism (730) are arranged on the wire dividing base (743);
and the second dividing line driving part (744), wherein the second dividing line driving part (744) is in driving connection with the dividing line base (743) so as to drive the dividing line base (743) to move back and forth.
10. The fan-out apparatus of claim 9, further comprising:
a branching base (745), wherein the branching base (743) is provided on the branching base (745) so as to be movable back and forth, and the second branching drive unit (744) is provided on the branching base (745);
and a fourth branching guide (746) provided on the branching base (745), the fourth branching guide (746) cooperating with the branching base (743) to guide the branching base (743).
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Cited By (2)
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CN111346791A (en) * | 2020-04-08 | 2020-06-30 | 镇江晨光焊接设备制造有限公司 | Quantitative material guide mechanism for automatic gluing machine |
CN111370975A (en) * | 2020-03-19 | 2020-07-03 | 江苏博之旺自动化设备有限公司 | Core wire shaping device |
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