CN118992680A - Production equipment of high-temperature-resistant cable - Google Patents

Abstract

The invention relates to production equipment of a high-temperature-resistant cable, which is applied to the field of cable production, and comprises a rack, a wire spool mounting frame, a bearing mechanism and an automatic alignment structure arranged between the wire spool and the wire spool mounting frame, wherein a driving box is arranged at the side end of the rack, the driving mechanism is arranged at the inner side of the driving box and connected with the wire spool mounting frame and one of the automatic alignment structures so as to drive the wire spool mounting frame to horizontally reciprocate and slide, and meanwhile, one of the automatic alignment structures is driven to rotate with the wire spool, so that the equipment is in a shutdown state.

Description

Production equipment of high-temperature-resistant cable

Technical Field

The invention relates to cable production equipment, in particular to high-temperature-resistant cable production equipment applied to the field of cable production.

Background

Cables are a generic term for items such as optical cables and electric cables. The cable has a plurality of purposes, is mainly used for controlling multiple functions such as installation, connection equipment, power transmission and the like, and is a common and indispensable thing in daily life; the high-temperature-resistant cable is a cable capable of normally transmitting signals or electric energy at high temperature.

The current winding mode mainly comprises the steps of erecting a wire coil, enabling the wire coil to rotate, then winding the wire coil on a spool, wherein the spool in the winding mode is required to rotate and bear all weight, the weight of the spool is gradually increased along with the winding of the wire coil, and in order to improve the problems, the specification of the patent publication No. CN111731945B discloses a direct current cable winding device which comprises a frame body, wherein two parallel bearing boxes are arranged on the horizontal plane of the frame body, and a plurality of lifting columns are arranged on the bearing boxes in a linear arrangement; the lifting column is provided with a carrier roller for supporting the outer contour of the wire tray; two sliding blocks are symmetrically arranged on the frame body; the two sliding blocks are respectively provided with a rotating head, one rotating head is connected with a rotating motor in a transmission way, and the wire coil is provided with a jack for movably inserting with the rotating head; the support body still is equipped with two stands in parallel, is equipped with the bearing case on the stand, and the weight of the coiling subassembly of burden and the pulling force of cable on through the bearing case on the support body have very big alleviateed spool load, make the spool can accomplish the coiling of cable specially to the quality of coiling has been guaranteed.

Based on the above search, in combination with the discovery of the prior art, the wire coil of the existing cable winding structure and the driving structure thereof generally adopt non-circular clamping blocks and clamping grooves for opposite insertion, manual alignment is needed for installation, manual alignment operation is troublesome, winding operation of the cable is reduced, and accordingly production efficiency of the whole cable is reduced, and therefore production equipment of the high-temperature-resistant cable is provided to improve the problems.

Disclosure of Invention

Aiming at the prior art, the invention aims to solve the technical problems that the wire coil and the driving structure thereof need to be manually aligned and installed, the manual alignment operation is troublesome, and the winding operation of the cable is reduced, thereby reducing the production efficiency of the whole cable.

In order to solve the above problems, the present invention provides a production device of a high temperature resistant cable, including a rack and a wire spool:

the wire coil mounting frame is horizontally and slidably arranged on the inner side of the frame, and the wire coil is positioned on the inner side of the wire coil mounting frame;

an automatic alignment structure is arranged between the two opposite side ends of the wire spool and the wire spool mounting frame;

a driving box is arranged at the side end of the frame, and a driving mechanism is arranged at the inner side of the driving box;

the driving mechanism is connected with the wire coil mounting frame and one of the automatic alignment structures to drive the wire coil mounting frame to horizontally reciprocate and slide, and simultaneously drive one of the automatic alignment structures to rotate along with the wire coil;

The inner bottom end of the wire coil mounting frame is provided with a supporting mechanism which is matched with the wire coil.

In the production equipment of the high-temperature-resistant cable, through the automatic alignment structure arranged between the wire spool and the wire spool mounting frame, the supporting function of the supporting mechanism on the wire spool is matched, the wire spool and the wire spool mounting frame are conveniently and rapidly aligned and mounted, the winding efficiency is improved, and therefore the overall production efficiency of the cable is improved.

As a further supplement of the application, the bottom end of the wire coil installation frame is provided with a limit sliding block, and the inner bottom end of the frame is provided with a limit sliding groove for the horizontal sliding fit of the limit sliding block.

As a further supplement of the application, the automatic alignment structure comprises a clamping connector arranged on the wire coil mounting frame and a clamping groove structure arranged at the center of the side end of the wire coil;

The clamping joint comprises a rotating shaft, a first clamping block, a second clamping block and an elastic piece I;

The rotating shaft is horizontally and rotatably arranged on the wire coil mounting frame, an automatic telescopic structure is arranged between the first clamping block and the end part of the rotating shaft, which is far away from the wire coil mounting frame, and the end part of one rotating shaft, which is far away from the first clamping block, is connected with the driving mechanism;

The first clamping block is in a round table shape, the diameter of the first clamping block gradually decreases towards one side far away from the rotating shaft, a limiting groove is formed in the circumferential side end of the first clamping block, and the second clamping block is fixed to the inner side of the limiting groove through an elastic piece I;

The clamping groove structure comprises a first clamping groove and a second clamping groove, the second clamping groove is positioned on the side wall of the first clamping groove, and the first clamping groove and the second clamping groove are respectively matched with the first clamping block and the second clamping block; through the cooperation setting of first fixture block, the second fixture block, elastic component one and first draw-in groove and second draw-in groove, during the installation, only need place the wire reel on supporting mechanism, first draw-in groove and first fixture block on the wire reel are located same axis, utilize automatic extending structure to push first fixture block in the first draw-in groove this moment, drive one of them pivot of drive in the horizontal reciprocating sliding of drive mechanism drive wire reel installation frame and take first fixture block to rotate, when reaching and the card income second draw-in groove department along with first fixture block pivoted second fixture block, utilize spacing effect between second fixture block and the second draw-in groove to bring the stable rotation of wire reel, realize the stable rolling to the cable, whole counterpoint process need not manual intervention, the manpower has been practiced thrift greatly, and automatic counterpoint is fast stable, cable rolling efficiency has been improved greatly, thereby effectively improve the whole production efficiency of cable.

As a further supplement of the application, the width of the second clamping groove is larger than that of the second clamping block, so that the second clamping block can be smoothly clamped into the second clamping groove, and the side wall of the second clamping groove is fixedly provided with a buffer sheet; the buffer sheet can reduce the impact between the second clamping block and the wire reel, and better protects the second clamping block.

As a further supplement of the application, the automatic telescopic structure comprises a connecting shaft, an elastic piece II, an electromagnet block I and an electromagnet block II;

The connecting shaft is coaxially fixed with the rotating shaft, a limiting square groove matched with the connecting shaft is formed in the first clamping block, and the elastic piece II is fixed between the connecting shaft and the inner wall of the limiting square groove;

The first electromagnet block is fixed at the end part of the connecting shaft, which is positioned at the inner side of the limit square groove, the second electromagnet block is fixed at the notch of the limit square groove, and the magnetic poles of the first electromagnet block and the second electromagnet block are opposite in the electrified state; through the matching arrangement of the elastic piece II, the electromagnet block I and the electromagnet block II, in the process of winding the cable, the electromagnet block I and the electromagnet block II are in an electrified state, and at the moment, the magnetic poles of the electromagnet block I and the electromagnet block II are mutually repulsive in opposite directions, so that the first clamping block is stably inserted into the first clamping groove, and the cable is ensured to be stably wound; when the coil is stopped and replaced, the first electromagnet block and the second electromagnet block are powered off, no acting force exists between the first electromagnet block and the second electromagnet block, the first clamping block is separated from the first clamping groove under the elastic acting force of the second elastic piece, the limiting effect on the wire reel is relieved, and the coil replacing operation can be performed at the moment.

As a further complement of the application, the drive mechanism comprises a drive motor, a threaded rod and a transmission assembly;

The side end of the frame is provided with a driving box, the driving motor is arranged on the inner side of the driving box, the threaded rod is horizontally rotatably arranged on the inner side of the frame and horizontally threaded penetrates through the bottom end of the wire coil mounting frame, and one end of the threaded rod is coaxially fixed with the output shaft of the driving motor;

the transmission assembly is arranged between the output end of the driving motor and one of the rotating shafts.

As a further supplement of the application, the transmission assembly comprises a transmission belt wheel, a transmission belt, a square sliding sleeve and a square sliding rod;

The square sliding rod is coaxially fixed at the end part of one rotating shaft far away from the first clamping block, and the square sliding sleeve is horizontally sleeved on the outer side of the square sliding rod in a sliding manner;

The two driving belt wheels are respectively and coaxially fixed on the end part of the square sliding sleeve, which is far away from the square sliding rod, and the output shaft of the driving motor, and the driving belt is connected between the two driving belt wheels in a driving way; the driving motor drives the threaded rod to rotate so that the mounting frame drives the wire spool to horizontally reciprocate, and meanwhile, the square sliding sleeve and the square sliding rod are driven to synchronously rotate through the driving belt wheel and the driving belt so that the wire spool rotates to wind, and in the process, the square sliding rod horizontally slides along the square sliding sleeve in a reciprocating manner, and the driving motor is used as a power source for driving, so that the energy is saved.

As a further supplement of the application, the bearing mechanism comprises four bearing assemblies which are respectively arranged at the lower ends of the disks at two sides of the wire spool in pairs;

The bearing assembly comprises a bearing frame and a bearing roller which is horizontally and rotatably arranged on the inner side of the bearing frame, the bearing frame is arranged at the inner bottom end of the wire coil mounting frame, and the bearing roller is attached to the wire coil; the load of the rotating shaft is lightened, so that the winding quality is ensured.

As a further supplement to the application, the support assembly further comprises a lifting device mounted between the inner bottom end of the coil mounting frame and the support frame for adjusting the height of the support frame; the wire spool mounting device can meet the mounting requirements of wire spools with different diameters.

To sum up, through first fixture block, the second fixture block, elastic component first, first draw-in groove, the second draw-in groove, elastic component second, the cooperation setting of electromagnet block first and electromagnet block second, when trading the book, make equipment be in the shut down state, at this moment electromagnet block first and electromagnet block second all are in the outage state, no effort between electromagnet block first and the electromagnet block second, first fixture block is then in one side that is close to drum installation frame inner wall under the effort of elastic component second, only need place the wire reel on bearing mechanism this moment, first draw-in groove and first fixture block on the wire reel are located same axis, the circular telegram is then, first electromagnet block is because the magnetic pole is opposite and mutual repulsion behind the circular telegram of electromagnet block second, make first fixture block peg graft in first draw-in groove in stability, drive one of them pivot is rotatory with first fixture block when the second fixture block that rotates along with first fixture block arrives and block second draw-in groove department, utilize spacing effect between second fixture block and take automatic stable rotation to realize whole wire reel, thereby the wire reel has improved the efficiency of manual work is greatly stable, the winding efficiency is realized, and the cable is greatly stable to the winding efficiency is realized, the cable is greatly is realized to the winding is to the cable has been greatly improved, and the winding efficiency is greatly has been improved.

Drawings

Fig. 1 is a schematic overall perspective view of embodiment 1 of the present application;

fig. 2 is a schematic perspective view of embodiment 1 of the present application with the drive box removed;

fig. 3 is a schematic perspective view of a wire coil mounting frame according to embodiment 1 of the present application;

Fig. 4 is a schematic perspective view of a spool according to embodiment 1 of the present application;

Fig. 5 is a schematic perspective view of a bayonet joint according to embodiment 1 of the present application;

FIG. 6 is a schematic cross-sectional view of a clip according to embodiment 1 of the present application;

FIG. 7 is a schematic plan view of the present application in a stopped state according to embodiment 1;

Fig. 8 is a schematic plan view of the present application in the energized state of embodiment 1.

The reference numerals in the figures illustrate:

1. A frame; 11. limiting sliding grooves; 2. a wire coil mounting frame; 21. a limit sliding block; 3. a drive box; 31. a driving motor; 32. a threaded rod; 33. a transmission belt wheel; 34. a drive belt; 35. square sliding sleeve; 36. square slide bar; 4. a clamping joint; 41. a rotating shaft; 42. a first clamping block; 421. limiting square grooves; 422. a limit groove; 43. a connecting shaft; 44. an electromagnet block I; 45. an electromagnet block II; 46. a second clamping block; 47. an elastic piece I; 48. an elastic piece II; 5. a wire spool; 51. a first clamping groove; 52. a second clamping groove; 6. a support assembly; 61. a lifting device; 62. a bearing frame; 63. and a carrier roller.

Detailed Description

Hereinafter, 1 embodiment of the present application will be described in detail with reference to the accompanying drawings.

Embodiment 1:

The invention provides production equipment of high-temperature-resistant cables, referring to fig. 1-3, the production equipment comprises a rack 1 and a wire spool 5, a wire spool mounting frame 2 is horizontally and slidably mounted on the inner side of the rack 1, a limiting slide block 21 is mounted at the bottom end of the wire spool mounting frame 2, a limiting slide groove 11 for horizontally and slidably matching the limiting slide block 21 is arranged at the inner bottom end of the rack 1, the wire spool 5 is positioned on the inner side of the wire spool mounting frame 2, and an automatic alignment structure is arranged between the two opposite side ends of the wire spool 5 and the wire spool mounting frame 2.

The driving box 3 is installed to the side of frame 1, and actuating mechanism is installed to the inboard of driving box 3, and actuating mechanism is connected with drum mounting frame 2 and one of them automatic alignment structure to drive drum mounting frame 2 horizontal reciprocating sliding, and drive one of them automatic alignment structure simultaneously and take wire reel 5 to rotate.

The inner bottom end of the wire coil mounting frame 2 is provided with a bearing mechanism matched with the wire spool 5, the bearing mechanism comprises four bearing assemblies 6, the four bearing assemblies 6 are respectively arranged at the lower ends of the disks at two sides of the wire spool 5 in pairs, each bearing assembly 6 comprises a bearing frame 62 and a bearing roller 63 horizontally and rotatably arranged at the inner side of the bearing frame 62, the bearing frame 62 is arranged at the inner bottom end of the wire coil mounting frame 2, and the bearing rollers 63 are attached to the wire spool 5; the load of the rotating shaft 41 is reduced, so that the winding quality is ensured; further, the supporting assembly 6 further comprises a lifting device 61, and the lifting device 61 is installed between the inner bottom end of the wire coil mounting frame 2 and the supporting frame 62 to adjust the height of the supporting frame 62; the installation requirements of the wire reels 5 with different diameters can be met.

Regarding the automatic alignment structure, specifically, the automatic alignment structure includes a clamping head 4 mounted on the wire coil mounting frame 2 and a clamping groove structure disposed at the center of the side end of the wire spool 5, where the clamping head 4 includes a rotating shaft 41, a first clamping block 42, a second clamping block 46 and an elastic element 47:

As shown in fig. 3, 4, 5, 6 and 7, the rotating shaft 41 is horizontally rotatably mounted on the wire coil mounting frame 2, an automatic telescopic structure is mounted between the first clamping block 42 and the end portion of the rotating shaft 41 away from the wire coil mounting frame 2, wherein the end portion of one rotating shaft 41 away from the first clamping block 42 is connected with the driving mechanism, the first clamping block 42 is in a circular truncated cone shape, the diameter of the first clamping block 42 gradually decreases towards one side away from the rotating shaft 41, a limiting groove 422 is formed at the circumferential side end of the first clamping block 42, and the second clamping block 46 is fixed at the inner side of the limiting groove 422 through an elastic piece one 47;

As shown in fig. 4, the clamping groove structure includes a first clamping groove 51 and a second clamping groove 52, the second clamping groove 52 is located on a side wall of the first clamping groove 51, and the first clamping groove 51 and the second clamping groove 52 are respectively matched with the first clamping block 42 and the second clamping block 46.

Based on the above first clamping block 42, the second clamping block 46, the first elastic element 47 and the matching arrangement of the first clamping groove 51 and the second clamping groove 52, during installation, the wire spool 5 is only required to be placed on the supporting mechanism, the first clamping groove 51 on the wire spool 5 and the first clamping block 42 are located on the same axis, after the first clamping block 42 is pushed into the first clamping groove 51 by the aid of the automatic telescopic structure, the driving mechanism is used for driving the wire spool installation frame 2 to slide horizontally in a reciprocating mode, one of the rotating shafts 41 is driven to rotate with the first clamping block 42, when the second clamping block 46 rotating along with the first clamping block 42 reaches and is clamped into the second clamping groove 52, the wire spool 5 is stably rotated by the aid of the limiting effect between the second clamping block 46 and the second clamping groove 52, stable winding of the wire spool is achieved, manual intervention is not required in the whole alignment process, manpower is greatly saved, the wire spool is automatically aligned to be fast and stable, and the wire winding efficiency is greatly improved, and accordingly the whole production efficiency of a wire is effectively improved.

The width of the second clamping groove 52 is larger than that of the second clamping block 46, so that the second clamping block 46 can be smoothly clamped into the second clamping groove 52, and a buffer sheet is fixed on the side wall of the second clamping groove 52; the buffer sheet can reduce the impact between the second clamping block 46 and the wire spool 5, and better protects the second clamping block 46.

Regarding the automatic telescopic structure, specifically, the automatic telescopic structure includes the connecting axle 43, the elastic component second 48, the first electromagnet block 44 and the second electromagnet block 45, the connecting axle 43 is fixed with the pivot 41 coaxially, be provided with on the first fixture block 42 with the spacing square groove 421 of connecting axle 43 looks adaptation, the elastic component second 48 is fixed in between the inner wall of connecting axle 43 and spacing square groove 421, the first electromagnet block 44 is fixed in the tip that connecting axle 43 is located spacing square groove 421 inboard, the second electromagnet block 45 is fixed in the notch department of spacing square groove 421, and the first electromagnet block 44 and second electromagnet block 45 magnetic pole are opposite under the circular telegram state.

Based on the matching arrangement of the elastic piece II 48, the electromagnet block I44 and the electromagnet block II 45, in the process of winding the cable, the electromagnet block I44 and the electromagnet block II 45 are in an electrified state, and at the moment, the magnetic poles of the electromagnet block I44 and the electromagnet block II 45 are opposite and mutually repulsed, so that the first clamping block 42 is stably inserted into the first clamping groove 51, and the cable is ensured to be stably wound; when the machine is stopped for coil replacement, the first electromagnet block 44 and the second electromagnet block 45 are powered off, no acting force exists between the first electromagnet block 44 and the second electromagnet block 45, the first clamping block 42 is separated from the first clamping groove 51 under the elastic acting force of the second elastic piece 48, the limiting effect on the wire reel 5 is relieved, and coil replacement operation can be performed at the moment.

Regarding the driving mechanism, specifically, the driving mechanism comprises a driving motor 31, a threaded rod 32 and a transmission component, the driving box 3 is installed at the side end of the frame 1, the driving motor 31 is installed at the inner side of the driving box 3, the threaded rod 32 is horizontally rotatably installed at the inner side of the frame 1 and horizontally penetrates through the bottom end of the wire coil installation frame 2, one end of the threaded rod 32 is coaxially fixed with the output shaft of the driving motor 31, and the transmission component is installed between the output end of the driving motor 31 and one of the rotating shafts 41; the transmission assembly comprises a transmission belt wheel 33, a transmission belt 34, a square sliding sleeve 35 and a square sliding rod 36, wherein the square sliding rod 36 is coaxially fixed at the end part of one rotating shaft 41, which is far away from the first clamping block 42, the square sliding sleeve 35 is horizontally sleeved on the outer side of the square sliding rod 36 in a sliding manner, the transmission belt wheels 33 are two, the two transmission belt wheels 33 are coaxially fixed at the end part of the square sliding sleeve 35, which is far away from the square sliding rod 36, and on the output shaft of the driving motor 31, and the transmission belt 34 is in transmission connection between the two transmission belt wheels 33.

Based on the above structure, the driving motor 31 drives the threaded rod 32 to rotate so that the square sliding sleeve 35 and the square sliding rod 36 are driven to synchronously rotate through the driving belt wheel 33 and the driving belt 34 while the mounting frame 2 carries the wire spool 5 to horizontally reciprocate, so that the wire spool 5 rotates to wind, and in the process, the square sliding rod 36 slides horizontally along the square sliding sleeve 35 in a reciprocating manner, and the above actions are driven by taking one driving motor 31 as a power source, so that the energy is saved.

Working principle: when the coil is replaced, the equipment is in a shutdown state, at the moment, the first electromagnet block 44 and the second electromagnet block 45 are in a power-off state, no acting force exists between the first electromagnet block 44 and the second electromagnet block 45, the first clamping block 42 is positioned at one side close to the inner wall of the coil mounting frame 2 under the acting force of the second elastic piece 48, at the moment, the coil winding disc 5 is only required to be placed on the supporting mechanism, and the first clamping groove 51 and the first clamping block 42 on the coil winding disc 5 are positioned on the same axis; at this time, after the first electromagnet block 44 and the second electromagnet block 45 are electrified, the magnetic poles are opposite and repel each other, so that the first clamping block 42 is stably inserted into the first clamping groove 51, at this time, the driving mechanism is used for driving the wire coil mounting frame 2 to horizontally reciprocate and simultaneously drive one of the rotating shafts 41 to rotate with the first clamping block 42, when the second clamping block 46 rotating along with the first clamping block 42 arrives at and is clamped into the second clamping groove 52, the wire coil 5 is stably rotated by utilizing the limiting effect between the second clamping block 46 and the second clamping groove 52, stable winding of the wire coil is realized, manual intervention is not needed in the whole alignment process, manpower is greatly saved, automatic alignment is fast and stable, the winding efficiency of the wire coil is greatly improved, and the whole production efficiency of the wire coil is effectively improved.

The present application is not limited to the above-described embodiments, which are adopted in connection with the actual demands, and various changes made by the person skilled in the art without departing from the spirit of the present application are still within the scope of the present application.

Claims (9)

1. The utility model provides a production facility of high temperature resistant cable, includes frame (1) and wire reel (5), its characterized in that:

the wire coil mounting frame (2) is horizontally and slidably mounted on the inner side of the frame (1), and the wire coil (5) is positioned on the inner side of the wire coil mounting frame (2);

An automatic alignment structure is arranged between the two opposite side ends of the wire spool (5) and the wire spool mounting frame (2);

a driving box (3) is arranged at the side end of the frame (1), and a driving mechanism is arranged at the inner side of the driving box (3);

The driving mechanism is connected with the wire coil mounting frame (2) and one of the automatic alignment structures to drive the wire coil mounting frame (2) to horizontally reciprocate and slide, and simultaneously drive one of the automatic alignment structures to rotate with the wire spool (5);

The inner bottom end of the wire coil mounting frame (2) is provided with a supporting mechanism which is matched with the wire coil (5).

2. The production facility of a high temperature resistant cable of claim 1 wherein: the wire coil is characterized in that a limiting slide block (21) is arranged at the bottom end of the wire coil mounting frame (2), and a limiting slide groove (11) for horizontally sliding and matching with the limiting slide block (21) is arranged at the inner bottom end of the frame (1).

3. The production facility of a high temperature resistant cable of claim 1 wherein: the automatic alignment structure comprises a clamping connector (4) arranged on the wire coil mounting frame (2) and a clamping groove structure arranged at the center of the side end of the wire coil (5);

The clamping connector (4) comprises a rotating shaft (41), a first clamping block (42), a second clamping block (46) and an elastic piece I (47);

The rotating shaft (41) is horizontally and rotatably arranged on the wire coil mounting frame (2), an automatic telescopic structure is arranged between the first clamping block (42) and the end part, far away from the wire coil mounting frame (2), of the rotating shaft (41), and the end part, far away from the first clamping block (42), of one rotating shaft (41) is connected with the driving mechanism;

The first clamping block (42) is in a round table shape, the diameter of the first clamping block (42) gradually decreases towards one side far away from the rotating shaft (41), a limiting groove (422) is formed in the circumferential side end of the first clamping block (42), and the second clamping block (46) is fixed to the inner side of the limiting groove (422) through the first elastic piece (47);

The clamping groove structure comprises a first clamping groove (51) and a second clamping groove (52), the second clamping groove (52) is located on the side wall of the first clamping groove (51), and the first clamping groove (51) and the second clamping groove (52) are respectively matched with the first clamping block (42) and the second clamping block (46).

4. A production facility for a high temperature resistant cable according to claim 3, wherein: the width of the second clamping groove (52) is larger than that of the second clamping block (46), and a buffer sheet is fixed on the side wall of the second clamping groove (52).

5. A production facility for a high temperature resistant cable according to claim 3, wherein: the automatic telescopic structure comprises a connecting shaft (43), a second elastic piece (48), a first electromagnet block (44) and a second electromagnet block (45);

The connecting shaft (43) is coaxially fixed with the rotating shaft (41), a limiting square groove (421) matched with the connecting shaft (43) is formed in the first clamping block (42), and the elastic piece II (48) is fixed between the connecting shaft (43) and the inner wall of the limiting square groove (421);

The first electromagnet block (44) is fixed at the end part of the connecting shaft (43) positioned at the inner side of the limit square groove (421), the second electromagnet block (45) is fixed at the notch of the limit square groove (421), and the magnetic poles of the first electromagnet block (44) and the second electromagnet block (45) are opposite in the electrified state.

6. A production facility for a high temperature resistant cable according to claim 3, wherein: the driving mechanism comprises a driving motor (31), a threaded rod (32) and a transmission assembly;

The wire coil is characterized in that a driving box (3) is arranged at the side end of the frame (1), the driving motor (31) is arranged at the inner side of the driving box (3), the threaded rod (32) is horizontally and rotatably arranged at the inner side of the frame (1) and horizontally penetrates through the bottom end of the wire coil mounting frame (2), and one end of the threaded rod (32) is coaxially fixed with an output shaft of the driving motor (31);

The transmission assembly is arranged between the output end of the driving motor (31) and one of the rotating shafts (41).

7. The production facility of a high temperature resistant cable of claim 6 wherein: the transmission assembly comprises a transmission belt wheel (33), a transmission belt (34), a square sliding sleeve (35) and a square sliding rod (36);

The square slide bar (36) is coaxially fixed at the end part of one rotating shaft (41) far away from the first clamping block (42), and the square slide sleeve (35) is horizontally and slidably sleeved at the outer side of the square slide bar (36);

The two driving pulleys (33) are arranged, the two driving pulleys (33) are respectively coaxially fixed on the end part, far away from the square sliding rod (36), of the square sliding sleeve (35) and the output shaft of the driving motor (31), and the driving belt (34) is in transmission connection between the two driving pulleys (33).

8. The production facility of a high temperature resistant cable of claim 1 wherein: the bearing mechanism comprises four bearing assemblies (6), and the four bearing assemblies (6) are respectively arranged at the lower ends of the disks at two sides of the wire spool (5) in pairs;

The bearing assembly (6) comprises a bearing frame (62) and a bearing roller (63) horizontally rotatably mounted on the inner side of the bearing frame (62), the bearing frame (62) is mounted on the inner bottom end of the wire coil mounting frame (2), and the bearing roller (63) is attached to the wire coil (5).

9. The production facility of a high temperature resistant cable of claim 8 wherein: the supporting component (6) also comprises a lifting device (61), wherein the lifting device (61) is arranged between the inner bottom end of the wire coil mounting frame (2) and the supporting frame (62) so as to adjust the height of the supporting frame (62).