CN115864234A - Line live lapping wire feeding device - Google Patents

Abstract

The invention discloses a line live lapping wire feeding device which comprises an installation unit, a wire feeding unit and a wire feeding unit, wherein the installation unit comprises a first installation plate, a hanging lug arranged at the top end of the first installation plate, and a limiting strip which is arranged at the bottom end of the installation plate and has an arc-shaped bottom surface; and the wire feeding unit comprises two second mounting plates arranged on two sides of the first mounting plate, clamping assemblies arranged between the two second mounting plates and the first mounting plate, fixing assemblies arranged on the second mounting plates, and advancing assemblies arranged on the two second mounting plates. This line electrified overlap joint wire feeding device will treat that the wire centre gripping of connecting is fixed through fixed subassembly to be connected through two first electronic telescopic links control two advancing wheels and the wire centre gripping of cutting open the insulating layer and be connected, two first motors rotate and drive two advancing wheels and rotate and advance, thereby will be fixed treat the wire of connecting and carry the position of treating the connection, and carry the wiring connection.

Description

Line live lapping wire feeding device

Technical Field

The invention relates to the technical field of line connection, in particular to a line live lapping and wire feeding device.

Background

Insulated wire is by wide application in high voltage power transmission distribution network because of its security, the insulating layer of present high voltage insulated wire divide into ordinary insulating rubber and silica gel insulating material, present electrified line overlap joint operation is the manual work mostly and steps on the pole, use the cutter to draw open the insulating layer, later will treat that the wire of interconnecting link is connected with the wire of drawing open the insulating layer, need the manual work to draw during the connection and drag the wire of treating the connection, and grasp tightly treat to be connected wire after connect with it with the wire of drawing open the insulating layer, it is comparatively hard to draw the process, and grasp tightly to treat that the wire of connecting fastens with one hand, the operation is difficult harder. Therefore, the invention provides a line live lapping wire feeding device.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and title of the application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

In view of the above-mentioned problems of the prior art, it is a laborious task to draw the wire to be connected manually, clench the wire to be connected and connect the wire with the wire having the insulation layer cut open.

Accordingly, an object of the present invention is to provide a wire-powered lap-joint feeder apparatus, including: the wire can be conveyed and a device convenient to install is fixed.

In order to solve the technical problems, the invention provides the following technical scheme: a line live lapping wire feeding device comprises an installation unit, a wire feeding unit and a wire feeding unit, wherein the installation unit comprises a first installation plate, a hanging lug arranged at the top end of the first installation plate, and a limiting strip which is arranged at the bottom end of the installation plate and has an arc-shaped bottom surface; and the wire feeding unit comprises two second mounting plates arranged on two sides of the first mounting plate, clamping components arranged between the two second mounting plates and the first mounting plate, fixing components arranged on the second mounting plates, and advancing components arranged on the two second mounting plates.

As a preferable aspect of the line live lap feeding apparatus of the present invention, wherein: the centre gripping subassembly including set up in two electric telescopic handle on the first mounting panel, two first electric telescopic handle's output is respectively with two the second mounting panel is fixed.

As a preferable aspect of the line live lap feeding apparatus of the present invention, wherein: the advancing assembly comprises mounting shafts which are respectively and rotatably arranged on the two mounting plates, a first motor arranged at the end part of the mounting shaft, a connecting frame arranged between the first motor and the second mounting plate, and an advancing wheel arranged at the bottom end of the mounting shaft; the advancing wheel is a roller with a concave middle part.

As a preferable aspect of the line live lap feeding apparatus of the present invention, wherein: the fixing assembly comprises an arc limiting plate arranged on the second mounting plate and a fixing bolt arranged on the arc limiting plate in a threaded mode.

As a preferable aspect of the line live overlapping line feeding device of the present invention, wherein: the wire stripping unit comprises a first extrusion frame and a second extrusion frame which are arranged on two sides of the first mounting plate and are L-shaped, two groups of second electric telescopic rods which are arranged on the first mounting plate and connected with the first extrusion frame and the second extrusion frame, extrusion strips arranged on the first extrusion frame, transverse cutting assemblies arranged on the second extrusion frame, and circular cutting assemblies arranged at two ends of the first extrusion frame and the second extrusion frame; the extrusion strip outside is the arc, and weight with the weight of crosscut subassembly equals, and is two sets of second electric telescopic handle is located first extrusion frame both ends respectively, and every group second electric telescopic handle is equipped with two, one of them second electric telescopic handle output with first extrusion frame is fixed, another second electric telescopic handle output with the second extrusion frame is fixed.

As a preferable aspect of the line live lap feeding apparatus of the present invention, wherein: the crosscut subassembly including set up in the second extrusion frame side cut groove, set up in cut groove both ends, and be located the first installation piece in the second extrusion frame outside, set up in two lead screw and litter between the first installation piece, set up in the second motor of lead screw tip, set up in on the lead screw, and slide and pass the slider of litter, and set up in on the slider, and pass the crosscut sword that cuts cut groove.

As a preferable aspect of the line live lap feeding apparatus of the present invention, wherein: the circular cutting assembly comprises fixed blocks, arc-shaped sliding grooves, circular cutting portions and transmission portions, the fixed blocks are arranged at included angles of the first extrusion frame and the second extrusion frame respectively, the arc-shaped sliding grooves are arranged in the fixed blocks, the circular cutting portions are arranged on the first extrusion frame and between the second extrusion frames and can be spliced, and the transmission portions are arranged between the circular cutting portions and the screw rods.

As a preferable aspect of the line live lap feeding apparatus of the present invention, wherein: the ring cutting part comprises a first cutting ring and a second cutting ring which are mutually inserted and respectively in a semicircular shape, a gear ring which is arranged at the outer sides of the first cutting ring and the second cutting ring and is meshed with the transmission part, a limiting part arranged between the first cutting ring and the first extrusion frame, and a ring cutter arranged at the inner side of the second cutting ring; the first cutting ring is inserted in the arc-shaped sliding groove on the first extrusion frame in a sliding manner, and the second cutting ring is inserted in the arc-shaped sliding groove on the second extrusion frame in a sliding manner.

As a preferable aspect of the line live overlapping line feeding device of the present invention, wherein: the limiting part comprises an installation barrel arranged on the first extrusion frame, a sliding column arranged in the installation barrel in a sliding mode, a convex block arranged at the end of the sliding column and inserted into the gear ring, and an elastic part arranged between the convex block and the first extrusion frame.

As a preferable aspect of the line live lap feeding apparatus of the present invention, wherein: the transmission portion including set up in the inboard second installation piece of second extrusion frame, rotate set up in on the second installation piece, and with ring gear meshing's gear, set up in first belt pulley on the gear, set up in the second belt pulley of lead screw tip, and set up in first belt pulley in driving belt between the second belt pulley.

The invention has the beneficial effects that: the wire to be connected is clamped and fixed through the fixing assembly, the two advancing wheels are controlled to be connected with the wire clamping layer through the two first electric telescopic rods, the two first motors rotate to drive the two advancing wheels to rotate to advance, and therefore the fixed wire to be connected is conveyed to the position to be connected and is connected in a wiring mode.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a schematic view of the overall structure of the live-line lapping and wire-feeding device of the invention.

Fig. 2 is a schematic structural view of a transverse cutting assembly of the live-wire lapping and wire feeding device of the invention.

Fig. 3 is another angle structure diagram of the line hot-line lapping and feeding device of the present invention.

Fig. 4 is a schematic structural diagram of a circular cutting assembly of the live-wire lapping and wire feeding device of the invention.

Fig. 5 is an enlarged view of the area a in fig. 3.

Fig. 6 is an enlarged view of the area B in fig. 4.

FIG. 7 is a schematic view of a cross-cutting blade of the wire feeding device for wire live lapping of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Furthermore, the present invention is described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional view illustrating the structure of the device is not enlarged partially according to the general scale for convenience of illustration, and the drawings are only exemplary and should not be construed as limiting the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Example 1

Referring to fig. 1, in a first embodiment of the present invention, there is provided a wire-feeding device for a wire-bonding jumper, the device includes a mounting unit 100 and a wire-feeding unit 200, the wire-feeding unit 200 is mounted on the mounting unit 100, and a wire to be connected is fixed by the wire-feeding unit 200 and is fed to a component to be connected for connection.

The mounting unit 100 comprises a first mounting plate 101, a hanging lug 102 arranged at the top end of the first mounting plate 101, and a limiting strip 103 arranged at the bottom end of the mounting plate, wherein the bottom surface of the limiting strip 103 is arc-shaped, the bottom surface of the limiting strip 103 is arc-shaped and is abutted to a wire for cutting the insulating layer, a CPU control system is further arranged in the mounting plate, and the CPU control system is in communication connection with the remote control handle.

The wire feeding unit 200 comprises two second mounting plates 201 arranged on two sides of the first mounting plate 101, a clamping assembly 202 arranged between the two second mounting plates 201 and the first mounting plate 101, a fixing assembly 203 arranged on the second mounting plates 201, and an advancing assembly 204 arranged on the two second mounting plates 201, wherein the clamping assembly 202 and the advancing assembly 204 are electrically connected with the CPU control system;

the centre gripping subassembly 202 can adopt two arcs that draw close each other to constitute, the arc that draws close each other is to the wire centre gripping of ruling the insulating layer, subassembly 204 that gos forward can adopt the drive wheel of installing in the middle of the arc to constitute, rotate through the drive wheel and the wire contact of ruling the insulating layer, and the wire of ruling the insulating layer relatively removes and gos forward, two planks of hinged joint can be adopted to fixed subassembly 203, and the coupling spring supports between two planks, treat the wire of interconnecting link through two planks and carry out the centre gripping fixed.

In the using process, the wires to be connected are fixed in the fixing component 203, then are connected with the hanging lug 102 through the telescopic rod, the first mounting plate 101 is sent to the position above the wires for cutting the insulating layer, and then the clamping component 202 and the advancing component 204 are controlled to work through the remote control handle to drive the wires to be connected to be conveyed.

Example 2

Referring to fig. 1-2, a second embodiment of the present invention, which differs from the first embodiment, is: the clamping assembly 202 comprises two first electric telescopic rods 202a arranged on the first mounting plate 101, the output ends of the two first electric telescopic rods 202a are respectively fixed with the two second mounting plates 201, and the first electric telescopic rods 202a are electrically connected with the CPU control system.

The advancing assembly 204 comprises a mounting shaft 204a which is rotatably arranged on the two mounting plates, a first motor 204b arranged at the end of the mounting shaft 204a, a connecting frame 204c arranged between the first motor 204b and the second mounting plate 201, and an advancing wheel 204d arranged at the bottom end of the mounting shaft 204 a; the advancing wheel 204d is a roller with a concave middle part, and the first motor 204b is electrically connected with the CPU control system.

The fixing assembly 203 includes an arc-shaped limiting plate 203a disposed on the second mounting plate 201, and a fixing bolt 203b disposed on the arc-shaped limiting plate 203a in a threaded manner, and the fixing assembly 203 may be disposed in a plurality and respectively located on the two second mounting plates 201.

The rest of the structure is the same as that of embodiment 1.

In the using process, the wire to be connected is inserted into the arc limiting plate 203a, the fixing bolt 203b is screwed up to be clamped and fixed with the wire, then the wire is connected with the hanging lug 102 through the telescopic rod, the first mounting plate 101 is conveyed to the position above the wire for scratching the insulating layer, the first electric telescopic rod 202a is controlled to work through the remote control handle, the two second mounting plates 201 are drawn close, the two front wheels 204d clamp the wire for scratching the insulating layer, then the first motor 204b is controlled to work through the remote control handle, the two front wheels 204d are driven to rotate, the wire moving relative to the wire for scratching the insulating layer moves forwards, the wire to be connected is conveyed to the connecting position, then the insulating layer at the wire connecting position for scratching the insulating layer is peeled, the exposed position of the wire to be connected is connected and fixed with the exposed position, finally the fixing bolt 203b is loosened, the wire to be connected is taken out from the gap of the arc limiting plate 203a, and the wire to be connected is completed.

Example 3

Referring to fig. 1-7, a third embodiment of the present invention, which differs from the second embodiment, is: the wire stripping device further comprises a wire stripping unit 300, wherein the wire stripping unit 300 comprises a first extrusion frame 301 and a second extrusion frame 302 which are arranged on two sides of the first mounting plate 101 and are L-shaped, two groups of second electric telescopic rods 303 which are arranged on the first mounting plate 101 and connected with the first extrusion frame 301 and the second extrusion frame 302, extrusion strips 304 arranged on the first extrusion frame 301, a transverse cutting assembly 305 arranged on the second extrusion frame 302, and circular cutting assemblies 306 arranged at two ends of the first extrusion frame 301 and the second extrusion frame 302;

the extrusion strip 304 outside is the arc, contact and offset with the wire side of cutting the insulating layer, and weight equals with crosscut subassembly 305's weight, it is unanimous to keep first mounting panel 101 both sides weight, can keep the level when first mounting panel 101 is hung, two sets of second electric telescopic handle 303 are located first extrusion frame 301 both ends respectively, and every group second electric telescopic handle 303 is equipped with two, one of them second electric telescopic handle 303 output is fixed with first extrusion frame 301, another second electric telescopic handle 303 output is fixed with second extrusion frame 302, second electric telescopic handle 303 and CPU control system electrical connection.

The transverse cutting assembly 305 comprises a cutting groove 305a arranged on the side of the second extrusion frame 302, first mounting blocks 305b arranged at two ends of the cutting groove 305a and positioned outside the second extrusion frame 302, a screw 305c and a slide rod 305d arranged between the two first mounting blocks 305b, a second motor 305e arranged at the end part of the screw 305c, one end of the screw 305c penetrates through the first mounting blocks 305b to be connected with the output end of a driving motor, the driving motor and the first mounting blocks 305b are fixed through a connecting piece, the slide block 305f is arranged on the screw 305c and penetrates through the slide rod 305d in a sliding mode, a transverse cutting knife 305g is arranged on the slide block 305f and penetrates through the cutting groove 305a, and the second motor 305e is electrically connected with a CPU control system.

The circular cutting assembly 306 comprises a fixing block 306a arranged at an included angle of the first extrusion frame 301 and the second extrusion frame 302, an arc-shaped sliding chute 306b arranged in the fixing block 306a, a circular cutting portion 306c which is arranged on the first extrusion frame 301 and between the second extrusion frame 302 and can be spliced, and a transmission portion 306d arranged between the circular cutting portion 306c and the screw rod 305 c.

The ring cutting part 306c comprises a first cutting ring 306c-1 and a second cutting ring 306c-2 which are mutually inserted and respectively in a semicircular shape, a gear ring 306c-3 which is arranged at the outer sides of the first cutting ring 306c-1 and the second cutting ring 306c-2 and is meshed with the transmission part 306d, a limiting part 306c-4 arranged between the first cutting ring 306c-1 and the first extrusion frame 301, and a ring cutting knife 306c-5 arranged at the inner side of the second cutting ring 306c-2, wherein the two ends of the first cutting ring 306c-1 are provided with limiting columns which are inserted and connected with the second cutting ring 306 c-2;

the first cutting ring 306c-1 is inserted into the arc-shaped sliding groove 306b of the first pressing frame 301 in a sliding manner, the second cutting ring 306c-2 is inserted into the arc-shaped sliding groove 306b of the second pressing frame 302 in a sliding manner, wherein when the first pressing frame 301 and the second pressing frame 302 approach each other, the first cutting ring 306c-1 and the second cutting ring 306c-2 are inserted and combined, and the circular cutting knife 306c-5 and the cross cutting knife 305g are inserted into the insulation layer.

The transmission portion 306d comprises a second mounting block 306d-1 arranged inside the second extrusion frame 302, a gear 306d-2 rotatably arranged on the second mounting block 306d-1 and engaged with the gear ring 306c-3, a first belt pulley 306d-3 arranged on the gear 306d-2, a second belt pulley 306d-4 arranged at the end of the screw 305c, and a transmission belt 306d-5 arranged between the first belt pulley 306d-3 and the second belt pulley 306d-4, wherein the diameter of the first belt pulley 306d-3 is larger than that of the second belt pulley 306d-4, when the slider 305f slides from the end of the screw 305c to the other end, the combined first cutting ring 306c-1 and second cutting ring 306c-2 are driven to rotate for an integer number of turns, and when the second electric telescopic rod 303 extends, the first cutting ring 306c-1 and second cutting ring 306c-2 can be smoothly separated.

The limiting member 306c-4 comprises a mounting cylinder 306c-41 arranged on the first extrusion frame 301, a sliding column 306c-42 arranged in the mounting cylinder 306c-41 in a sliding manner, a convex block 306c-43 arranged at the end of the sliding column 306c-42 and inserted into the gear ring 306c-3, and an elastic member 306c-44 arranged between the convex block 306c-43 and the first extrusion frame 301, wherein the elastic member 306c-44 can be made of a spring and a metal elastic sheet;

the bump 306c-43 is inserted into the gear ring 306c-3 in the first cutting ring 306c-1, when the first cutting ring 306c-1 and the second cutting ring 306c-2 are separated, the first cutting ring 306c-1 can be limited, so that the first cutting ring 306c-1 cannot rotate before being combined with the second cutting ring 306c-2, the first cutting ring 306c-1 and the second cutting ring 306c-2 can be smoothly inserted and combined, and meanwhile, when the combined first cutting ring 306c-1 and second cutting ring 306c-2 rotate, the elastic member 306c-44 is extruded, so that the combined first cutting ring 306c-1 and second cutting ring 306c-2 can smoothly rotate, and the ring cutter 306c-5 is driven to cut.

The rest of the structure is the same as that of embodiment 2.

In the operation process: when the two advancing wheels 204d rotate, so that the wires which are relatively used for cutting the insulating layer move forward, and the wires to be connected are conveyed to a connecting part, the control handle controls the second electric telescopic rod 303 to work, so that the first extrusion frame 301 and the second extrusion frame 302 are folded to clamp and fix the wires which are used for cutting the insulating layer, the extrusion strip 304 is propped against the wires which are used for cutting the insulating layer under the action of the second electric telescopic rod 303, meanwhile, the first cutting ring 306c-1 and the second cutting ring 306c-2 are spliced and combined, the ring cutter 306c-5 and the transverse cutter 305g are inserted into the insulating layer, then the second motor 305e is controlled by the remote control handle to work, and the screw rod 305c is driven to rotate, the sliding block 305f and the transverse cutter 305g are driven to slide along the sliding rod 305d to transversely cut the insulating layer, meanwhile, the screw rod 305c drives the transmission part 306d and the combined first cutting ring 306c-1 and second cutting ring 306c-2 to rotate, the ring cutter 306c-5 is driven to cut off the end part of the insulating layer, the two ends of the insulating layer are cut off, the middle section of the insulating layer is separated, the insulating layer is conveniently peeled off manually, then the first extrusion frame 301 and the second extrusion frame 302 are controlled to be folded and separated, the wire stripping position is withdrawn, the exposed part of the wire to be connected is connected and fixed with the wire to be connected, finally, the fixing bolt 203b is loosened, the wire to be connected is taken out from the notch of the arc limiting plate 203a, and the wire connection is completed.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a circuit electrified overlap joint wire feeding device which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the mounting unit (100) comprises a first mounting plate (101), a hanging lug (102) arranged at the top end of the first mounting plate (101), and a limiting strip (103) which is arranged at the bottom end of the mounting plate and has an arc-shaped bottom surface; and the number of the first and second groups,

the wire feeding unit (200) comprises two second mounting plates (201) arranged on two sides of the first mounting plate (101), a clamping component (202) arranged between the two second mounting plates (201) and the first mounting plate (101), a fixing component (203) arranged on the second mounting plates (201), and an advancing component (204) arranged on the two second mounting plates (201).

2. The wire-live lapping wire feeding device according to claim 1, characterized in that: the clamping assembly (202) comprises two first electric telescopic rods (202 a) arranged on the first mounting plate (101), and the output ends of the two first electric telescopic rods (202 a) are respectively fixed with the two second mounting plates (201).

3. The wire-live lapping wire feeding device according to claim 2, characterized in that: the advancing assembly (204) comprises mounting shafts (204 a) which are respectively rotatably arranged on the two mounting plates, a first motor (204 b) arranged at the end part of the mounting shaft (204 a), a connecting frame (204 c) arranged between the first motor (204 b) and the second mounting plate (201), and an advancing wheel (204 d) arranged at the bottom end of the mounting shaft (204 a); the advancing wheel (204 d) is a roller with a concave middle part.

4. A wire-live lapping wire feeding device according to any one of claims 1 to 3, characterized in that: the fixing assembly (203) comprises an arc-shaped limiting plate (203 a) arranged on the second mounting plate (201), and a fixing bolt (203 b) arranged on the arc-shaped limiting plate (203 a) in a threaded mode.

5. The wire-live lapping wire feeding device according to claim 4, characterized in that: the wire stripping device is characterized by further comprising a wire stripping unit (300), wherein the wire stripping unit (300) comprises a first L-shaped extrusion frame (301) and a second L-shaped extrusion frame (302) which are arranged on two sides of the first mounting plate (101), two groups of second electric telescopic rods (303) which are arranged on the first mounting plate (101) and connected with the first extrusion frame (301) and the second extrusion frame (302), an extrusion strip (304) arranged on the first extrusion frame (301), an upper transverse cutting assembly (305) arranged on the second extrusion frame (302), and circular cutting assemblies (306) arranged at two ends of the first extrusion frame (301) and the second extrusion frame (302);

the outer side of the extrusion strip (304) is arc-shaped, the weight of the extrusion strip is equal to that of the transverse cutting assembly (305), the second electric telescopic rods (303) are located at two ends of the first extrusion frame (301) respectively, each group of the second electric telescopic rods (303) is provided with two groups, one group of the second electric telescopic rods (303) is provided with two output ends, the output ends of the second electric telescopic rods (303) are fixed to the first extrusion frame (301), and the other group of the second electric telescopic rods (303) is provided with two output ends, the output ends of the second electric telescopic rods are fixed to the second extrusion frame (302).

6. The wire-live lapping wire feeding device according to claim 5, characterized in that: the transverse cutting assembly (305) comprises a cutting groove (305 a) formed in the side edge of the second extrusion frame (302), first installation blocks (305 b) arranged at two ends of the cutting groove (305 a) and located on the outer side of the second extrusion frame (302), a screw rod (305 c) and a sliding rod (305 d) arranged between the two first installation blocks (305 b), a second motor (305 e) arranged at the end part of the screw rod (305 c), a sliding block (305 f) arranged on the screw rod (305 c) and penetrating through the sliding rod (305 d) in a sliding mode, and a transverse cutting knife (305 g) arranged on the sliding block (305 f) and penetrating through the cutting groove (305 a).

7. The wire-live lapping wire feeding device according to claim 6, characterized in that: the circular cutting assembly (306) comprises fixing blocks (306 a) arranged at included angles of the first extrusion frame (301) and the second extrusion frame (302) respectively, arc-shaped sliding grooves (306 b) arranged in the fixing blocks (306 a), a circular cutting portion (306 c) which is arranged on the first extrusion frame (301) and between the second extrusion frame (302) and can be spliced, and a transmission portion (306 d) arranged between the circular cutting portion (306 c) and the screw rod (305 c).

8. The wire-live lapping wire feeding device according to claim 7, characterized in that: the circular cutting part (306 c) comprises a first cutting ring (306 c-1) and a second cutting ring (306 c-2) which are mutually inserted and respectively in a semicircular shape, a gear ring (306 c-3) which is arranged on the outer sides of the first cutting ring (306 c-1) and the second cutting ring (306 c-2) and is meshed with the transmission part (306 d), a limiting part (306 c-4) which is arranged between the first cutting ring (306 c-1) and the first extrusion frame (301), and a circular cutting knife (306 c-5) which is arranged on the inner side of the second cutting ring (306 c-2);

the first cutting ring (306 c-1) is slidably inserted into the arc-shaped sliding groove (306 b) on the first extrusion frame (301), and the second cutting ring (306 c-2) is slidably inserted into the arc-shaped sliding groove (306 b) on the second extrusion frame (302).

9. A wire-live lapping wire feeding device according to claim 8, characterized in that: the limiting piece (306 c-4) comprises a mounting cylinder (306 c-41) arranged on the first extrusion frame (301), a sliding column (306 c-42) arranged in the mounting cylinder (306 c-41) in a sliding mode, a convex block (306 c-43) arranged at the end of the sliding column (306 c-42) and inserted into the gear ring (306 c-3), and an elastic piece (306 c-44) arranged between the convex block (306 c-43) and the first extrusion frame (301).

10. A wire-live lapping wire feeding device according to claim 8 or 9, characterized in that: the transmission part (306 d) comprises a second mounting block (306 d-1) arranged on the inner side of the second extrusion frame (302), a gear (306 d-2) rotatably arranged on the second mounting block (306 d-1) and meshed with the gear ring (306 c-3), a first belt pulley (306 d-3) arranged on the gear (306 d-2), a second belt pulley (306 d-4) arranged at the end part of the screw rod (305 c), and a transmission belt (306 d-5) arranged between the first belt pulley (306 d-3) and the second belt pulley (306 d-4).

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