CN116580902A - Flexible fireproof cable wrapping tape wrapping machine and processing method - Google Patents

Abstract

The invention relates to the technical field of wrapping mechanical equipment of wrapping tape, and provides a flexible fireproof cable wrapping tape wrapping machine. Through the technical scheme, the technical problem that when the wrapping belt is wrapped on the core wire by the wrapping machine in the related art, the replacement can be completed only by stopping the machine when a new wrapping belt is replaced after the wrapping belt is used is solved.

Description

Flexible fireproof cable wrapping tape wrapping machine and processing method

Technical Field

The invention relates to the technical field of wrapping mechanical equipment of wrapping tape, in particular to a flexible fireproof cable wrapping tape wrapping machine and a processing method.

Background

The wrapping machine is a wrapping device for wrapping the wrapping tape on the core wires of cables and the like, and is divided into single-layer, double-layer, three-layer or more layers of wrapping, and the wrapping tape (mica tape, cotton paper tape, aluminum foil, polyester film and the like) is rotated through a rotary table so as to be wrapped on the core wires. The insulating core wire wrapping device is mainly used for insulating core wire wrapping of electric wires, force cables, control cables, optical cables and the like. In the prior art, when the core wires are wound, the tape can only be stopped for replacement after the tape is used, on one hand, the tape needs to be stopped for replacement in the middle of the core wires with longer length, which is time-consuming and labor-consuming, and on the other hand, a large number of core wires generally need to be wound in a cable plant, and the winding efficiency is greatly influenced by the manual tape addition.

Disclosure of Invention

The invention provides a flexible fireproof cable wrapping tape wrapping machine, which solves the technical problem that when a core wire is wrapped by the wrapping tape wrapping machine in the related art, the wrapping tape can be replaced only by stopping when a new wrapping tape is replaced after the wrapping tape is used.

The technical scheme of the invention is as follows:

a flexible fireproof cable wrapping tape wrapping machine is used for wrapping a wrapping tape on a core wire and comprises a frame,

a rotation driving device arranged on the frame, the shaft part is provided with a first core wire channel,

the winding rod piece is arranged on the output shaft of the rotation driving device, the shaft part is provided with a second core wire channel, the second core wire channel is communicated with the first core wire channel,

the storage rod piece is provided with a third core wire channel, is arranged on the frame in a sliding way and is close to or far away from the winding rod piece after sliding, wherein a wrapping interval is arranged between the storage rod piece and the winding rod piece after the storage rod piece is far away from the winding rod piece, the first core wire channel, the second core wire channel and the third core wire channel are coaxial linear channels,

the plurality of belt shaft components are arranged on the stock rod,

and the pushing assembly is arranged on the stock rod and used for pushing the belt shaft assembly from the stock rod to the winding rod.

As a further technical proposal, the device also comprises a shaft coupling component, wherein the shaft coupling component is used for locking the shaft component on the winding rod piece and comprises a plurality of plug-in components, the circumference of the plug-in components is arranged on the winding rod piece, one side of the plug-in components is provided with a clamping groove,

the clamping head is arranged in the clamping groove in a sliding way, the end part of the clamping head extends out of the clamping groove,

a first elastic piece, which provides the force of the clamping head extending out of the clamping groove,

the first limit part and the second limit part are respectively arranged on the inner wall of the clamping groove and the clamping head,

the middle part of the belt shaft assembly is provided with a shaft hole, the stock rod penetrates through the shaft hole, a plurality of slots are formed in the inner wall, close to one end of the winding rod, of the shaft hole, and each clamping head is used for being inserted into one slot.

As a further technical scheme, the outer wall of the winding rod piece is further provided with a guide block, the inner wall, close to one end of the winding rod piece, of the shaft hole is further provided with a necking guide groove and a positioning groove, one end of the necking guide groove is a large-mouth end, the other end of the necking guide groove is a small-mouth end, the large-mouth end faces the guide block, the small-mouth end is connected with the positioning groove, and the guide block is guided into the positioning groove through the necking guide groove, and then the plug-in unit is just inserted into the slot.

As a further technical solution, the belt shaft assembly comprises a first half and a second half, the first half being inserted into the second half,

the belt unloading device further comprises a belt unloading shaft piece, the belt unloading shaft piece is arranged on two sides of the winding rod piece, and the belt unloading shaft piece comprises

The first sliding piece is arranged on the frame in a sliding way and is close to or far away from the winding rod piece after sliding,

the first clamping cylinder is arranged on the first sliding piece and used for clamping the first half body and the second half body.

As a further technical proposal, the belt shaft component further comprises a supporting frame, the first half body and the second half body are both provided with the supporting frame,

the guide wheels are arranged on the support frame, and the guide wheels are a plurality of.

As a further technical proposal, the device also comprises a first linear driving device which drives the stock rod to slide,

the belt unloading shaft piece further comprises a second linear driving device, and the second linear driving device drives the first sliding piece to slide.

As a further technical proposal, the pushing component comprises a second sliding piece which is arranged on the frame in a sliding way and is positioned at one side of the stock rod piece, the sliding direction of the second sliding piece is parallel to the stock rod piece,

a third sliding part which is arranged on the second sliding part in a sliding way and is close to or far away from the stock rod piece after sliding

A second clamping cylinder arranged on the third sliding piece and used for clamping the belt shaft assembly,

a third linear driving device which drives the second sliding piece to slide,

and the fourth linear driving device drives the third sliding piece to slide.

As a further technical scheme, the novel material storage rod further comprises a clamping belt head assembly, wherein the clamping belt head assembly and the pushing assembly are respectively positioned at two sides of the material storage rod, and the clamping belt head assembly comprises

A fourth sliding piece, which is arranged on one side of the stock rod piece on the frame and is parallel to the stock rod piece in sliding direction,

the tape head clamp slides along with the fourth sliding piece,

and the fifth linear driving device drives the fourth sliding piece to slide.

As a further technical scheme, the clamping belt head assembly further comprises

A fifth sliding piece, the fifth sliding piece is arranged on the fourth sliding piece in a lifting sliding way, the tape head clamp is arranged on the fifth sliding piece,

a sixth linear driving device which drives the fifth slider to slide;

the utility model also comprises a cutting knife which is arranged beside the wrapping interval.

The invention also provides a processing method of the flexible fireproof cable, which utilizes the flexible fireproof cable wrapping tape wrapping machine to process, and a plurality of flexible fireproof cable wrapping tapes are used for wrapping the core wires alternately.

The working principle and the beneficial effects of the invention are as follows:

in order to achieve good tape replacement in the continuous core wire conveying process, achieve automatic replacement of new tape after tape is used up, improve tape automation, design that tape wrapping machine can automatically replace new tape after tape is used up, so that production efficiency is improved, tape wrapping machines can be arranged in parallel, after tape wrapping machine of one tape wrapping machine is used up, other tape wrapping machines continue to wind, the tape wrapping machine stops to automatically replace new coil tape, after tape replacement is completed, automatic winding is continued according to instructions, and therefore long core wires can be replaced on line. Specifically, the rotation driving device drives the winding rod piece to rotate, the winding rod piece and the storage rod piece are arranged at intervals, and a wrapping interval is formed between the winding rod piece and the storage rod piece; each belt shaft component is wound with a slow belt, a belt shaft component is arranged on the winding rod piece, and a plurality of belt shaft components are slidably arranged on the storage rod piece; the core wire can pass through the first core wire channel of the rotation driving device, the second core wire channel of the winding rod piece, the winding interval and the third core wire channel of the storage rod piece, the core wire is exposed at the winding interval, and the wrapping belt sent by the belt shaft component is introduced to wind. The winding device comprises a winding rod, a winding shaft assembly, a winding driving device, a core wire, a winding rod and a pushing assembly, wherein the winding shaft assembly is arranged on the winding rod; and then, the pushing assembly drives the storage rod piece to be far away from the winding rod piece, a wrapping interval is reserved, and after the belt shaft assembly is connected with the storage rod piece, the winding rod piece and the belt shaft assembly on the winding rod piece can be driven by the rotation driving device to wind the wrapping belt on the core wire, so that the belt shaft assembly for adding a new full-winding belt roll without stopping is well realized.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

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

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

FIG. 3 is a schematic cross-sectional view of the structure A-A of FIG. 2;

FIG. 4 is a schematic view of the enlarged partial structure of B in FIG. 3;

FIG. 5 is a schematic view of a coupling assembly according to the present invention;

FIG. 6 is a schematic diagram of a guide block structure according to the present invention;

FIG. 7 is a schematic view of a necking guide slot structure in the present invention;

in the figure: the tape cutter comprises a frame-1, a rotary driving device-2, a first core wire channel-201, a winding rod-3, a second core wire channel-301, a stock rod-4, a third core wire channel-401, a winding interval-402, a tape shaft component-5, a shaft hole-501, a slot-502, a guide block-302, a necking guide groove-503, a positioning groove-504, a large mouth end-505, a small mouth end-506, a first half-507, a second half-508, a supporting frame-509, a guide wheel-510, a pushing component-6, a second sliding piece-601, a third sliding piece-602, a second clamping cylinder-603, a third linear driving device-604, a fourth linear driving device-605, a coupling component-7, a plug-701, a clamping groove-702, a clamping head-703, a first elastic piece-704, a first limit part-705, a second limit part-706, a tape shaft piece-8, a first sliding piece-801, a first clamping cylinder-802, a second clamping head component-9, a fourth clamping head 803, a fifth linear driving device-903, a fifth clamping device-906, a fifth linear driving device-906 and a tape cutter device-906.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-7, the embodiment provides a flexible fireproof cable wrapping machine for wrapping a wrapping tape on a core wire, comprising a frame 1,

a rotation driving device 2, the rotation driving device 2 is arranged on the frame 1, and the shaft part is provided with a first core wire channel 201,

a winding rod 3, the winding rod 3 is arranged on the output shaft of the rotation driving device 2, and the shaft part is provided with a second core wire channel 301, the second core wire channel 301 is communicated with the first core wire channel 201,

the storage rod piece 4 is provided with a third core wire channel 401, and is arranged on the frame 1 in a sliding way, and is close to or far away from the winding rod piece 3 after sliding, wherein a wrapping interval 402 is arranged between the storage rod piece 4 and the winding rod piece 3 after the storage rod piece 4 is far away from the winding rod piece 3, the first core wire channel 201, the second core wire channel 301 and the third core wire channel 401 are coaxial linear channels,

the plurality of the belt shaft components 5 are arranged on the stock rod 4,

the pushing component 6, the pushing component 6 is arranged on the stock rod 4 and is used for pushing the belt shaft component 5 from the stock rod 4 to the winding rod 3.

In this embodiment, in order to realize that the core wire can all be fine in the continuous transportation process to it, realize that the band is used up the back automatic replacement new band, improve band automation, thereby design is that the band is around the chartered plane after the band is used up, thereby can automatic replacement new and improve production efficiency, and the band is around the chartered plane can set up a plurality of side by side, after the band of a band around the chartered plane is used up, other bands continue to twine around the chartered plane, this band is around the automatic new reel band of changing of chartered plane shut down, accomplish the band and change the back, afterwards continue to twine automatically according to the instruction, thereby realize that very long core wire also can carry out the online replacement new band of not shutting down. Specifically, the rotation driving device 2 drives the winding rod 3 to rotate, and the winding rod 3 and the storage rod 4 are arranged at intervals, and a wrapping interval 402 is arranged between the winding rod 3 and the storage rod 4; each belt shaft component 5 is wound with slow belts, one belt shaft component 5 is arranged on the winding rod piece 3, and a plurality of belt shaft components 5 are slidably arranged on the storage rod piece 4; the core wire passes through the first core wire channel 201 of the rotation driving device 2, the second core wire channel 301 of the winding rod 3, the wrapping interval 402, the third core wire channel 401 of the storage rod 4, the core wire is exposed at the wrapping interval 402, and the tape fed by the tape shaft assembly 5 is introduced to be wound. Wherein, a tape winding shaft assembly 5 is installed on the winding rod 3, a plurality of tape winding belts are stored on the stock rod 4, when the tape winding belts on the winding rod 3 are used up, the rotation driving device 2 and the winding rod 3 stop rotating, the core wire continues to be conveyed and wound by other tape winding machines, at the moment, the pushing assembly 6 drives the stock rod 4 and the plurality of tape shaft assemblies 5 thereon to be close to the winding rod 3 together, and the stock rod 4 and the winding rod 3 are mutually abutted, and then the pushing assembly 6 pushes one of the tape shaft assemblies 5 on the stock rod 4, so that the core wire slides from the stock rod 4 to the winding rod 3; after that, the pushing component 6 drives the stock rod 4 to be far away from the winding rod 3, a wrapping interval 402 is reserved, and after the tape shaft component 5 is connected with the stock rod 4, the winding rod 3 and the tape shaft component 5 on the winding rod 3 can be driven by the rotation driving device 2 to wind the tape belt on the core wire, so that the tape shaft component 5 for adding a new full-wound tape roll without stopping is well realized.

Further, the device also comprises a coupling component 7, wherein the coupling component 7 is used for locking the belt shaft component 5 on the winding rod piece 3 and comprises

The number of the inserts 701 is several, the circumference is arranged on the winding rod 3, one side of the insert 701 is provided with a clamping groove 702,

a chuck 703, the chuck 703 is slidably disposed in the chuck 702, and the end portion extends out of the chuck 702,

a first resilient member 704, the first resilient member 704 providing a force by which the cartridge 703 extends out of the clamping groove 702,

a first limit part 705 and a second limit part 706, the first limit part 705 and the second limit part 706 are respectively arranged on the inner wall of the clamping groove 702 and the clamping head 703,

the middle part of the shaft assembly 5 is provided with a shaft hole 501, the stock rod 4 penetrates through the shaft hole 501, the inner wall of the shaft hole 501, which is close to one end of the winding rod 3, is provided with a plurality of slots 502, and each clamping head 703 is used for being inserted into one slot 502.

In this embodiment, after the shaft assembly 5 is pushed onto the winding rod 3 from the storage rod 4 by the pushing assembly 6, the shaft assembly 5 needs to be locked onto the winding rod 3 to be driven to rotate by the rotation driving device 2 along with the winding rod 3, and therefore, the coupling assembly 7 is specially designed to realize that the shaft assembly 5 is locked onto the winding rod 3. Specifically, a plurality of inserts 701 are arranged on the winding rod 3 in a circle, the middle part of the belt shaft assembly 5 is provided with a shaft hole 501, the inner wall of the shaft hole 501 is provided with a plurality of slots 502, and when the belt shaft assembly 5 is pushed onto the winding rod 3, the inserts 701 are inserted into the slots 502, so that the belt shaft assembly 5 is connected onto the winding rod 3. The clamping groove 702 of the insert 701 is further provided with a clamping head 703, and the clamping head 703 is clamped into the slot 502 under the action of the first elastic member 704, so that stable locking is realized, and the tape shaft assembly 5 can be ensured to be stably locked and fixed on the winding rod 3 for tape output.

Further, the outer wall of the winding rod 3 is further provided with a guide block 302, the inner wall, close to one end of the winding rod 3, of the shaft hole 501 is further provided with a necking guide groove 503 and a positioning groove 504, one end of the necking guide groove 503 is a large-mouth end 505, the other end of the necking guide groove is a small-mouth end 506, the large-mouth end 505 faces the guide block 302, the small-mouth end 506 is connected with the positioning groove 504, and the insert 701 is just inserted into the slot 502 after the guide block 302 is guided into the positioning groove 504 through the necking guide groove 503.

In this embodiment, considering that when the tape shaft assembly 5 is pushed onto the winding rod 3 from the stock rod 4, the insert 701 on the coupling assembly 7 is not necessarily inserted into the clamping groove 702 of the tape shaft assembly 5 accurately, in order to ensure that accurate insertion can be achieved, the guide block 302 is specially designed on the winding rod 3, the necking guide groove 503 and the positioning groove 504 are provided at the position of the shaft hole 501 of the tape shaft assembly 5, when the tape shaft assembly 5 is pushed onto the winding rod 3, the guide block 302 enters the large opening end 505 of the necking guide groove 503, because the large opening end 505 is at least two full circles of winding rod 3, the guide block 302 can only enter the large opening end 505 of the necking guide groove 503, and then the guide block 302 slides from the large opening end 505 of the necking guide groove 503 to the small opening end to finally clamp into the positioning groove 504 under the guidance of the necking guide groove 503, so that the problem that the insert 701 of the coupling assembly 7 cannot be inserted into the clamping groove 702 accurately is well avoided.

Further, the belt shaft assembly 5 includes a first half 507 and a second half 508, the first half 507 being inserted into the second half 508,

the device also comprises a belt unloading shaft piece 8, the two sides of the winding rod piece 3 are respectively provided with the belt unloading shaft piece 8, the belt unloading shaft piece 8 comprises a first sliding piece 801, the first sliding piece 801 is arranged on the frame 1 in a sliding way and is close to or far away from the winding rod piece 3 after sliding,

a first clamping cylinder 802, the first clamping cylinder 802 being arranged on the first slide 801 for clamping the first half 507 and the second half 508.

In this embodiment, in order to realize that the tape shaft assembly 5 on the winding rod 3 is detached from the winding rod 3 while the core wire is continuously conveyed after the tape output is used up, the tape shaft assembly 5 is designed to include a first half 507 and a second half 508 for split detachment, so that the tape on the tape shaft assembly 5 can be detached from the winding rod 3 after the tape is used up, and a yielding is made for pushing a new full tape shaft assembly 5. The first half 507 is inserted into the second half 508, and the two halves are clamped and pulled out to realize separation. Specifically, the first sliding member 801 of the tape unloading shaft 8 can bring the first clamping cylinder 802 to approach the first half 507 and the second half 508 after sliding, and then the first clamping cylinder 802 clamps the first half 507 and the second half 508 to separate the first half 507 and the second half 508, so that the first half 507 and the second half 508 are separated to be detached from the winding rod 3.

It should be noted that, although the first half 507 and the second half 508 of the tape shaft assembly 5 are of a split structure, they cannot be easily separated even if they follow rotation above the winding rod 3, on one hand, the first half 507 and the second half 508 are wound with tape and can be tightly held together for connection, on the other hand, the connection between the first half 507 and the second half 508 can be designed to have a certain locking structure, and only when the first half 507 and the second half 508 need to be separated after the tape is used, the separation and the disassembly can be operated so that the winding rod 3 is loaded with the full roll of tape shaft assembly 5.

Further, the belt shaft assembly 5 further comprises a support bracket 509, the first half 507 and the second half 508 are provided with the support bracket 509,

the guide wheels 510, the guide wheels 510 are a plurality of, all set up on support 509.

In this embodiment, in order to ensure that the tape output from the tape shaft assembly 5 is guided well, so as to be stably guided to the core wire, the first half body 507 and the second half body 508 are both provided with a supporting frame 509, and a plurality of guiding wheels 510 are mounted on the supporting frame 509, and the plurality of guiding wheels 510 can guide the tape well, so as to ensure efficient production.

Further, the device also comprises a first linear driving device 10, the first linear driving device 10 drives the stock rod 4 to slide,

the unwind shaft 8 further comprises a second linear drive 803, the second linear drive 803 sliding the first slide 801.

In this embodiment, the sliding of the stock rod 4 is driven by the first linear driving device 10, and the first linear driving device 10 may be a cylinder; the sliding of the first sliding member 801 is performed by the second linear driving device 803, and the second linear driving device 803 may be a cylinder.

Further, the pushing assembly 6 comprises a second sliding part 601, the second sliding part 601 is arranged on the frame 1 in a sliding way and positioned on one side of the storage rod 4, the sliding direction is parallel to the storage rod 4,

a third sliding member 602, wherein the third sliding member 602 is slidably disposed on the second sliding member 601 and is close to or far from the stock rod 4 after sliding

A second clamping cylinder 603, the second clamping cylinder 603 being arranged on the third slide 602 for clamping the belt shaft assembly 5,

a third linear driving device 604, the third linear driving device 604 drives the second sliding member 601 to slide,

the fourth linear driving device 605, the fourth linear driving device 605 drives the third sliding member 602 to slide.

In this embodiment, in order to better push the tape shaft assembly 5 on the stock rod 4 onto the winding rod 3, the second clamping cylinder 603 is designed to move on the third sliding member 602 and then approach the tape shaft assembly 5, clamp the tape shaft assembly 5, and then slide the second sliding member 601 with the clamped tape shaft assembly 5 along the stock rod 4 onto the winding rod 3, thereby completing the replacement of the tape shaft assembly 5 on the winding rod 3. The third linear driving device 604 drives the second sliding member 601 to slide, and the fourth linear driving device 605 drives the third sliding member 602 to slide, and the third linear driving device 604 and the fourth linear driving device 605 may be air cylinders.

Further, the automatic feeding and discharging device also comprises a clamping belt head assembly 9, wherein the clamping belt head assembly 9 and the pushing assembly 6 are respectively positioned at two sides of the stock rod 4, and the clamping belt head assembly 9 comprises

A fourth sliding part 901, the sliding fourth sliding part 901 is arranged on one side of the stock rod 4 on the frame 1, and the sliding direction is parallel to the stock rod 4,

a taping head clamp 902, the taping head clamp 902 slides along the fourth slide 901,

the fifth linear driving device 903, the fifth linear driving device 903 drives the fourth sliding member 901 to slide.

In this embodiment, in order to ensure that after the winding rod 3 is replaced with a new tape shaft assembly 5, the end of the tape on the tape shaft assembly 5 can be wound onto the core wire, it is designed that the end of the tape on the tape shaft assembly 5 is clamped by the tape head clamp 902 of the tape head assembly 9, and the tape head clamp 902 can slide along the direction of the stock rod 4 on the fourth sliding member 901, so as to keep the end of the tape roll of the tape shaft assembly 5 synchronous with the movement of the tape shaft assembly 5, thereby better realizing that the end of the tape is wound onto the core wire. Wherein the fourth sliding part 901 is driven by the fifth linear driving device 903, and the fifth linear driving device 903 is a cylinder.

Further, the strapping head assembly 9 further comprises a fifth slide 904, the fifth slide 904 being arranged on the fourth slide 901 in a lifting sliding manner, the strapping head clamp 902 being arranged on the fifth slide 904,

a sixth linear driving device 905, wherein the sixth linear driving device 905 drives the fifth slider 904 to slide;

also included is a cutoff knife 906 disposed adjacent the wrap gap 402.

In this embodiment, considering that the tape head clamp 902 for clamping the tape head assembly 9 clamps the tape end portion of the tape shaft assembly 5 at a distance from the core wire, the tape roll between the distance is not suitable for winding onto the core wire, and for this purpose, the tape head clamp 902 is specifically designed to be disposed on the fifth slider 904, and the fifth slider 904 can move down the tape head clamp 902 to enable the tape end portion to reach the core wire position section and move down to the cutting knife 906, so as to cut off the tape of the section, ensure that there is no overlapping and twisting when the tape, especially the tape end portion, is wound onto the core wire, and achieve the purpose of stably and automatically replacing the tape shaft assembly 5.

The embodiment also provides a processing method of the flexible fireproof cable, which utilizes the flexible fireproof cable wrapping tape to carry out processing by wrapping the wrapping machine, and a plurality of flexible fireproof cable wrapping tapes are used for wrapping the core wires alternately.

In this embodiment, can utilize a plurality of band to wind the chartered plane, after the use of one of them band around the chartered plane, with this band around the chartered plane shut down, other bands around the chartered plane and wind the chartered plane and change the band of shutting down and wrap up new tape shaft subassembly 5, thereby fine realization heart yearn is when carrying on line, does not shut down and changes the band, has improved automated production efficiency.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (10)

1. A flexible fireproof cable belting lapping machine is used for lapping the belting on a core wire, and is characterized by comprising

A frame (1),

a rotation driving device (2), wherein the rotation driving device (2) is arranged on the frame (1), and the shaft part is provided with a first core wire channel (201),

a winding rod piece (3), wherein the winding rod piece (3) is arranged on an output shaft of the rotation driving device (2), the shaft part is provided with a second core wire channel (301), the second core wire channel (301) is communicated with the first core wire channel (201),

the storage rod piece (4) is provided with a third core wire channel (401), and is arranged on the frame (1) in a sliding manner, and is close to or far away from the winding rod piece (3) after sliding, wherein a wrapping interval (402) is arranged between the storage rod piece (4) and the winding rod piece (3) after the storage rod piece (4) is far away from the winding rod piece (3), the first core wire channel (201), the second core wire channel (301) and the third core wire channel (401) are coaxial linear channels,

the plurality of belt shaft components (5) are arranged on the stock rod piece (4),

the pushing assembly (6) is arranged on the stock rod (4) and is used for pushing the belt shaft assembly (5) up from the stock rod (4) to the winding rod (3).

2. A flexible fire-resistant cable taping machine according to claim 1, further comprising a coupling assembly (7), the coupling assembly (7) being adapted to allow the taping assembly (5) to be locked to the winding bar (3), comprising

The number of the inserts (701) is several, the circumference of the inserts (701) is arranged on the winding rod piece (3), one side of the inserts (701) is provided with a clamping groove (702),

a clamping head (703), wherein the clamping head (703) is arranged in the clamping groove (702) in a sliding way, the end part of the clamping head extends out of the clamping groove (702),

a first elastic member (704), wherein the first elastic member (704) provides a force for the clamping head (703) to extend out of the clamping groove (702),

a first limit part (705) and a second limit part (706), wherein the first limit part (705) and the second limit part (706) are respectively arranged on the inner wall of the clamping groove (702) and the clamping head (703),

the middle part of the belt shaft assembly (5) is provided with a shaft hole (501), the stock rod (4) penetrates through the shaft hole (501), a plurality of slots (502) are formed in the inner wall, close to one end of the winding rod (3), of the shaft hole (501), and each clamping head (703) is used for being inserted into one slot (502).

3. A flexible fire-resistant cable taping machine as claimed in claim 2, wherein the outer wall of the winding rod (3) is further provided with a guiding block (302),

the utility model discloses a winding rod piece, including shaft hole (501) and guiding piece, still have throat guiding groove (503) and constant head tank (504) on being close to the inner wall of winding rod piece (3) one end, throat guiding groove (503) one end is big mouth end (505), and the other end is little mouth end (506), big mouth end (505) orientation guide piece (302), little mouth end (506) with constant head tank (504) link to each other, wherein, guide piece (302) are passed through throat guiding groove (503) guide get into after constant head tank (504), plug-in components (701) are inserted just slot (502).

4. A flexible fire-resistant cable taping machine as claimed in claim 1 or 3, characterized in that the taping assembly (5) comprises a first half (507) and a second half (508), the first half (507) being inserted into the second half (508),

the belt unloading device further comprises a belt unloading shaft (8), the belt unloading shaft (8) is arranged on two sides of the winding rod piece (3), and the belt unloading shaft (8) comprises

A first sliding part (801), wherein the first sliding part (801) is arranged on the frame (1) in a sliding way and is close to or far away from the winding rod piece (3) after sliding,

the first clamping cylinder (802) is arranged on the first sliding piece (801) and used for clamping the first half body (507) and the second half body (508).

5. A flexible fire-resistant cable taping machine as in claim 4 wherein the taping assembly (5) further comprises

A supporting frame (509), the supporting frames (509) are arranged on the first half body (507) and the second half body (508),

the guide wheels (510), the guide wheels (510) are a plurality of, all set up on support frame (509).

6. The flexible fire-proof cable wrapping tape wrapping machine according to claim 4, further comprising a first linear driving device (10), wherein the first linear driving device (10) drives the stock rod (4) to slide,

the belt unloading shaft (8) further comprises a second linear driving device (803), and the second linear driving device (803) drives the first sliding piece (801) to slide.

7. A flexible fire-resistant cable taping machine as in claim 4 wherein the pushing assembly (6) comprises

A second sliding piece (601), wherein the second sliding piece (601) is arranged on the frame (1) in a sliding way and is positioned at one side of the stock rod piece (4), the sliding direction of the second sliding piece is parallel to the stock rod piece (4),

a third sliding part (602), wherein the third sliding part (602) is arranged on the second sliding part (601) in a sliding way and is close to or far away from the stock rod (4) after sliding

A second clamping cylinder (603), the second clamping cylinder (603) is arranged on the third sliding piece (602) and is used for clamping the belt shaft assembly (5),

a third linear driving device (604), the third linear driving device (604) drives the second sliding piece (601) to slide,

-a fourth linear drive (605), the fourth linear drive (605) sliding the third slider (602).

8. The flexible fireproof cable taping and wrapping machine according to claim 7, further comprising a taping head assembly (9), wherein the taping head assembly (9) and the pushing assembly (6) are respectively located at two sides of the stock rod (4), and the taping head assembly (9) comprises

A fourth sliding part (901), wherein the fourth sliding part (901) is arranged on the frame (1) and positioned at one side of the stock rod (4), the sliding direction of the fourth sliding part is parallel to the stock rod (4),

-a tape head clamp (902), said tape head clamp (902) sliding along with said fourth slide (901),

and a fifth linear driving device (903), wherein the fifth linear driving device (903) drives the fourth sliding piece (901) to slide.

9. A flexible fire-resistant cable taping machine as in claim 8 wherein the taping head assembly (9) further comprises

A fifth sliding piece (904), wherein the fifth sliding piece (904) is arranged on the fourth sliding piece (901) in a lifting sliding way, the tape head clamp (902) is arranged on the fifth sliding piece (904),

a sixth linear driving device (905), wherein the sixth linear driving device (905) drives the fifth sliding piece (904) to slide;

also included is a cutoff knife (906) disposed alongside the wrapping interval (402).

10. A method for processing a flexible fireproof cable, which is characterized in that the flexible fireproof cable taping machine according to any one of claims 1-9 is utilized for processing, and a plurality of flexible fireproof cable taping machines are used for taping a plurality of core wires alternately.