CN117198648B - Low-temperature corrosion-resistant embedded wire and cable and production equipment thereof - Google Patents

Abstract

A low-temperature corrosion-resistant embedded wire and cable and production equipment thereof belong to the technical field of cables, and are used for solving the technical problems of low structural strength, complicated production process and overhigh cost of the existing cable; according to the invention, the retainer is conveyed through the conveying component, in the conveying process, the retainer and the metal clip move, the linkage shaft below the synchronous belt is inserted into the movable groove to drive the fixing frame, the sliding rod and the clamping mechanism to move when moving, the clamping mechanism is guided by the second guide groove to move downwards in the moving process to expand the metal clip, the positioning groove is finally expanded, then the clamping mechanism is guided by the first guide groove to synchronously move with the metal clip and the retainer, and under the action of the rotating roller, the wire is pressed into the positioning groove, so that the wire is conveniently installed on the retainer, the production and assembly efficiency is high, meanwhile, the wires are distributed in parallel in the retainer, the stability is high, and the shielding performance is good.

Description

Low-temperature corrosion-resistant embedded wire and cable and production equipment thereof

Technical Field

The invention relates to the technical field of cables, in particular to a low-temperature corrosion-resistant embedded wire cable and production equipment thereof.

Background

The embedded wire and cable refers to the wire and cable which is arranged in advance and buried in the structures such as walls, floors or ceilings in the construction process of a building so as to supply power and transmit signals.

In order to reduce the mutual interference of wires in a cable, the existing mode is to enable the wires in the cable to be in a parallel distribution state and generally realized through modes such as an isolation layer, and the like, the mode is not stable enough, for example, chinese patent with publication number of CN207425437U discloses an outdoor movable three-core cable capable of resisting reverse pressure and impact, three single-core insulated wires are distributed in an elastic insulating outer sheath in a regular triangle shape, an anti-prick guard plate is arranged on the outer side of each single-core insulated wire along the radial direction, a buffer cavity is arranged in the center of the regular triangle surrounded by the three single-core insulated wires, when the electric wire is subjected to accidental falling impact in the actual use process, a proper amount of buffer is obtained, the impact force of external force on the conductive core wire can be rapidly slowed down, the impact damage performance of the electric wire is improved, and the service life of the movable electric wire is prolonged; however, the cable has a certain buffer capacity, but the structural strength is not high enough, the shearing resistance is low, and the formation of the internal cavity is troublesome and easy to deform in the actual production process.

To solve the above problems. Therefore, a low-temperature corrosion-resistant embedded wire and cable and production equipment thereof are provided. .

Disclosure of Invention

The invention aims to provide low-temperature corrosion-resistant embedded wire and cable production equipment, which solves the problems of low structural strength, complicated production process and high cost of the existing cable in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a production facility of low temperature corrosion-resistant pre-buried formula wire and cable, includes the casing and sets up the conveying subassembly in the casing inside, still includes the live-rollers of swivelling joint in the inside top of casing, transversely run through in the casing has the holder, be equipped with the corresponding through groove of holder in the casing, the conveying subassembly is used for carrying the holder, the centre of casing is provided with the incoming line that upwards runs through, the casing outside is provided with the wire, the surface evenly distributed of holder has the constant head tank, and the constant head tank is used for installing the wire, the live-rollers is used for installing the wire extrusion in the constant head tank outside the holder, the inside of casing still is provided with link assembly, clamping mechanism and metal clip, and the metal clip is used for expanding the constant head tank and makes the wire gomphosis in the holder inside, and link assembly is used for leading the clamping mechanism, and clamping mechanism is used for pulling the metal clip outwards makes the constant head tank expand; the conveying assembly comprises synchronous belts which are rotationally connected to two sides inside a shell, the synchronous belts are attached to the outer side face of the retainer, the linkage assembly comprises linkage shafts which are installed on the side faces of the bottom of the synchronous belts, the linkage shafts on the bottom of each group of synchronous belts are provided with two groups, the linkage assembly further comprises sliding rods which are connected inside the shell in a sliding mode, a fixing frame is installed at one end of each sliding rod, movable grooves are formed in the fixing frame, the cross sections of the fixing frame and the movable grooves are U-shaped, the movable grooves correspond to the linkage shafts, reset springs are installed on the side faces of the fixing frame and used for resetting the sliding rods to enable the sliding rods to move in the opposite direction of the movement of the retainer, the clamping mechanisms are connected to the other end of the sliding rods in an up-down sliding mode, the other end of the sliding rods are L-shaped, the linkage assembly further comprises fixing plates which are fixedly connected to the two sides inside the shell, the first guide grooves and the second guide grooves are distributed in an inclined mode, and the first guide grooves and the second guide grooves are used for guiding the clamping mechanisms to be inserted into the fixing frame and move leftwards from the right side of the fixing frame.

Further, a first rotating groove is formed in the position, close to the wire inlet, above the inner portion of the shell, the rotating roller is connected in the first rotating groove in a rotating mode, and the wire inlet is in a quarter arc shape.

Further, the inside second groove that rotates that is used for hold-in range pivoted that is provided with of casing, the inside spout that still is provided with of casing, slide bar and mount sliding connection are inside the spout, the inside of casing still is provided with the spring groove, and reset spring sets up in the spring groove, and reset spring's both ends are connected with spring groove inner wall and mount respectively.

Further, the conveying assembly comprises a motor fixedly arranged in the shell, and the output end of the motor is connected with a transmission mechanism through a reduction gearbox.

Further, the transmission mechanism comprises a first transmission shaft connected to two sides of the interior of the reduction gearbox, the other end of the first transmission shaft is fixedly connected with an end face gear, the transmission mechanism further comprises a second transmission shaft rotatably connected to two sides of the interior of the shell, and the top of the second transmission shaft is in meshed connection with the end face gear through a bevel gear.

Further, the conveying assembly further comprises a driving gear and a transmission gear which are rotatably connected inside the shell, the driving gear and the transmission gear are respectively provided with two groups, the synchronous belt is sleeved outside the driving gear and the transmission gear, and the second transmission shaft is fixedly connected with the driving gear.

Further, the clamping mechanism comprises a shell, the shell is connected to the other end of the sliding rod in a vertical sliding mode, the other end of the shell is fixedly connected with a guide rod, the guide rod corresponds to a first guide groove and a second guide groove, the first guide groove and the second guide groove are used for guiding the shell, a sliding groove with an opening towards the inner side is arranged in the shell, a clamping block is connected to the sliding groove in a sliding mode, the clamping block extends out of the shell, and a compression spring is arranged between the clamping block and the inner wall of the sliding groove.

Further, the metal clip corresponds with the constant head tank on the holder, the both sides of metal clip are provided with the recess, and the material of metal clip is spring steel, the bottom corner of fixture block is provided with the depressed part, and the depressed part is used for the guide bar to block the edge of recess when the downwardly moving, makes the metal clip take place deformation, and the inboard top of fixture block is provided with first tilting portion, and first tilting portion is used for not receiving the influence of metal clip both ends edge when fixture block upward displacement, and two corners of one end of fixture block are provided with second tilting portion, and the second tilting portion is used for not receiving the influence of metal clip both sides edge when fixture block displacement.

Further, feed mechanism still is provided with in the outside of casing, feed mechanism is including setting up the material loading groove that is close to the edge in the casing inside, feed mechanism still includes first flexible cylinder and the flexible cylinder of second that sets up respectively in casing side and top, flexible cylinder output fixedly connected with clamp plate of second, flexible cylinder of second and clamp plate are used for pressing into the constant head tank with the metal clip, first flexible cylinder output fixedly connected with push pedal, the push pedal is used for pushing the metal clip to the clamp plate below from material loading groove.

The invention provides another technical scheme that: the utility model provides a low temperature corrosion-resistant pre-buried wire and cable, the cable includes the holder and the wire of gomphosis in the holder, still including wrapping gradually outside filling layer at holder and wire, the insulating layer, armor and outer inoxidizing coating, wherein the material of holder is polypropylene, possess certain hardness and flexibility, can fully wrap up and protect the wire, polypropylene heat resistance simultaneously, cold resistance and corrosion resistance are better, can satisfy underground service environment, the centre of holder is run through there is wire rope, wire rope provides structural strength for whole cable, especially use in the high altitude environment can provide stronger stability.

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

according to the low-temperature corrosion-resistant embedded wire and cable and the production equipment thereof, the retainer is conveyed through the conveying assembly, the retainer and the metal clips move in the conveying process, the linkage shaft below the synchronous belt is inserted into the movable groove to drive the fixing frame, the sliding rod and the clamping mechanism to move in the moving process, the clamping mechanism is guided by the second guide groove to move downwards in the moving process to expand the metal clips, the positioning groove is finally expanded, then the clamping mechanism is guided by the first guide groove to synchronously move with the metal clips and the retainer, and under the action of the rotating roller, the wires are pressed into the positioning groove, so that the wires are conveniently and conveniently installed on the retainer.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a split view of the overall structure of the present invention;

FIG. 3 is a sectional view of the housing structure of the present invention;

FIG. 4 is a schematic view of the structure of the cage, wire, transfer assembly and linkage assembly of the present invention;

FIG. 5 is a schematic diagram of a transmission assembly according to the present invention;

FIG. 6 is a schematic view of the structure of the cage, wire, turning roller, linkage assembly and metal clip of the present invention;

FIG. 7 is a schematic view of the structure of the fixing plate and the engaging mechanism of the present invention;

FIG. 8 is a cross-sectional view of the snap-fit mechanism and metal clip of the present invention;

FIG. 9 is an enlarged view of the structure of FIG. 8A in accordance with the present invention;

FIG. 10 is a schematic view of a latch mechanism and a metal clip according to the present invention;

FIG. 11 is a cross-sectional view of a cable structure of the present invention;

fig. 12 is an exploded view of the cable construction of the present invention.

In the figure: 1. a housing; 11. a wire inlet; 12. a first rotating groove; 13. a second rotating groove; 14. a chute; 15. a spring groove; 2. a retainer; 21. a wire rope; 22. a filling layer; 23. an insulating layer; 24. an armor layer; 25. an outer protective layer; 3. a wire; 4. a rotating roller; 5. a transfer assembly; 51. a motor; 52. a reduction gearbox; 53. a transmission mechanism; 531. a first drive shaft; 532. face gears; 533. bevel gear; 534. a second drive shaft; 54. a drive gear; 55. a transmission gear; 56. a synchronous belt; 6. a linkage assembly; 61. a linkage shaft; 62. a slide bar; 63. a fixing frame; 631. a movable groove; 64. a return spring; 65. a fixing plate; 651. a first guide groove; 652. a second guide groove; 7. a clamping mechanism; 71. a housing; 72. a guide rod; 73. a sliding groove; 74. a clamping block; 741. a recessed portion; 742. a first inclined portion; 743. a second inclined portion; 75. a compression spring; 8. a metal clip; 81. a groove; 9. a feeding mechanism; 91. feeding a trough; 92. a first telescopic cylinder; 93. a push plate; 94. the second telescopic cylinder; 95. and (5) pressing plates.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled 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.

In order to solve the technical problems of low structural strength, complicated production process and high cost of the existing cable, as shown in fig. 1-12, the following preferred technical scheme is provided:

the production equipment of the low-temperature corrosion-resistant embedded wire and cable comprises a shell 1 and a conveying assembly 5 arranged in the shell 1, and further comprises a rotating roller 4 rotatably connected above the inside of the shell 1, wherein a retainer 2 transversely penetrates through the shell 1, a penetrating groove corresponding to the retainer 2 is formed in the shell 1, the conveying assembly 5 is used for conveying the retainer 2, an upward penetrating wire inlet 11 is formed in the middle of the shell 1, a wire 3 is arranged outside the shell 1, positioning grooves are uniformly distributed on the outer surface of the retainer 2 and used for installing the wire 3, the rotating roller 4 is used for extruding and installing the wire 3 in the positioning grooves outside the retainer 2, a linkage assembly 6, a clamping mechanism 7 and a metal clip 8 are further arranged in the shell 1, the metal clip 8 is used for expanding the positioning grooves to enable the wire 3 to be embedded in the retainer 2, the linkage assembly 6 is used for guiding the clamping mechanism 7, and the clamping mechanism 7 is used for pulling the metal clip 8 to the outside to enable the positioning grooves to be expanded; the transmission assembly 5 comprises synchronous belts 56 rotatably connected to two sides of the inside of the shell 1, the synchronous belts 56 are attached to the outer side surface of the retainer 2, the linkage assembly 6 comprises a linkage shaft 61 arranged on the side surface of the bottom of the synchronous belts 56, two groups of linkage shafts 61 at the bottom of each group of synchronous belts 56 are arranged, the linkage assembly 6 further comprises a sliding rod 62 slidably connected to the inside of the shell 1, a fixed frame 63 is arranged at one end of the sliding rod 62, a movable groove 631 is arranged in the fixed frame 63, the cross sections of the fixed frame 63 and the movable groove 631 are U-shaped, the movable groove 631 corresponds to the linkage shaft 61, a reset spring 64 is arranged on the side surface of the fixed frame 63 and used for resetting the sliding rod 62 to move in the opposite direction of the retainer 2, a clamping mechanism 7 is vertically slidably connected to the other end of the sliding rod 62, the other end of the sliding rod 62 is L-shaped, the linkage assembly 6 further comprises fixing plates 65 fixedly connected to two sides inside the shell 1, the fixing plates 65 are provided with first guide grooves 651 and second guide grooves 652, the first guide grooves 651 are in linear distribution, the second guide grooves 652 are in inclined distribution, the first guide grooves 651 and the second guide grooves 652 are used for guiding the clamping mechanisms 7, the synchronous belt 56 rotates to drive the retainer 2 to move from right to left, the linkage shaft 61 is used for being inserted into the fixing frame 63 to drive the sliding rod 62 and the clamping mechanisms 7 to move from right to left, the fixing plates 65 guide the clamping mechanisms 7 when the clamping mechanisms 7 move from right to left, the clamping mechanisms 7 enable the metal clips 8 to expand outwards in the positioning grooves, the wires 3 are pressed into the positioning grooves under the action of the rotating rollers 4, then the linkage shaft 61 is separated from the movable grooves 631, and the reset springs 64 reset the sliding rod 62 and the clamping mechanisms 7.

The inside top of casing 1 is provided with first rotation groove 12 near entrance 11 department, and rotor 4 rotates to be connected in first rotation groove 12, and entrance 11 is quarter circular-arc, and under the effect of rotor 4, the removal of cooperation holder 2 can be pressed wire 3 into the outside constant head tank of holder 2 to wire 3 that inserts entrance 11.

The inside second rotation groove 13 that is used for the hold-in range 56 pivoted that is provided with of casing 1, casing 1 inside still is provided with spout 14, slide bar 62 and mount 63 sliding connection are inside spout 14, and casing 1's inside still is provided with spring groove 15, and reset spring 64 sets up in spring groove 15, and the both ends of reset spring 64 are connected with spring groove 15 inner wall and mount 63 respectively.

The transmission assembly 5 comprises a motor 51 fixedly arranged inside the housing 1, and the output end of the motor 51 is connected with a transmission mechanism 53 through a reduction gearbox 52.

The transmission mechanism 53 comprises a first transmission shaft 531 connected to two sides inside the reduction gearbox 52, the other end of the first transmission shaft 531 is fixedly connected with a face gear 532, the transmission mechanism 53 further comprises a second transmission shaft 534 rotatably connected to two sides inside the shell 1, the top of the second transmission shaft 534 is in meshed connection with the face gear 532 through a bevel gear 533, the reduction gearbox 52 drives the first transmission shaft 531 to rotate under the starting state of the motor 51, the second transmission shaft 534 rotates under the meshing of the face gear 532 and the bevel gear 533, and the rotating directions of the two groups of second transmission shafts 534 are opposite.

The conveying assembly 5 further comprises a driving gear 54 and a transmission gear 55 which are rotatably connected inside the shell 1, the driving gear 54 and the transmission gear 55 are respectively provided with two groups, the synchronous belt 56 is sleeved outside the driving gear 54 and the transmission gear 55, the second transmission shaft 534 is fixedly connected with the driving gear 54, the second transmission shaft 534 drives the driving gear 54 to rotate when rotating, and then the synchronous belt 56 can be driven to rotate, and the two groups of synchronous belts 56 rotate to convey the retainer 2 from right to left.

The locking mechanism 7 comprises a shell 71, the shell 71 is connected to the other end of the sliding rod 62 in an up-down sliding manner, the other end of the shell 71 is fixedly connected with a guide rod 72, the guide rod 72 corresponds to a first guide groove 651 and a second guide groove 652, the first guide groove 651 and the second guide groove 652 are used for guiding the shell 71, a sliding groove 73 which is open inwards is arranged in the shell 71, a clamping block 74 is connected in the sliding groove 73 in a sliding manner, the clamping block 74 extends out of the shell 71, and a compression spring 75 is arranged between the clamping block 74 and the inner wall of the sliding groove 73.

The metal clip 8 corresponds with the constant head tank on the holder 2, the both sides of metal clip 8 are provided with recess 81, the material of metal clip 8 is spring steel, the bottom corner of fixture block 74 is provided with concave part 741, concave part 741 is used for the guide bar 72 to block the edge of recess 81 when moving down, make metal clip 8 take place the deformation, the inboard top of fixture block 74 is provided with first tilting part 742, first tilting part 742 is used for not receiving the influence of metal clip 8 both ends edge when fixture block 74 upwards displacement, the one end both corners department of fixture block 74 is provided with second tilting part 743, second tilting part 743 is used for not receiving the influence of metal clip 8 both sides edge when fixture block 74 displacement.

The outside of casing 1 still is provided with feed mechanism 9, feed mechanism 9 is including setting up at the inside material loading groove 91 that is close to the edge of casing 1, feed mechanism 9 is still including setting up the first flexible cylinder 92 and the flexible cylinder 94 of second in casing 1 side and top respectively, the flexible cylinder 94 output fixedly connected with clamp plate 95 of second, flexible cylinder 94 of second and clamp plate 95 are used for pressing into the constant head tank with metal clip 8, the fixed connection push pedal 93 of first flexible cylinder 92 output, push pedal 93 is used for pushing metal clip 8 to the clamp plate 95 below from material loading groove 91.

To further better explain the above examples, the present invention also provides an embodiment, and provides a low-temperature corrosion-resistant embedded wire and cable: the cable includes holder 2 and gomphosis wire 3 in holder 2, still including parcel in proper order at the outside filling layer 22 of holder 2 and wire 3, insulating layer 23, armor 24 and outer inoxidizing coating 25, wherein the material of holder 2 is polypropylene, possess certain hardness and flexibility, can fully wrap up and protect wire 3, polypropylene heat resistance, cold resistance and corrosion resistance are better simultaneously, can satisfy underground service environment, the centre of holder 2 is run through there is wire rope 21, wire rope 21 provides structural strength for whole cable, especially use in the high altitude environment can provide stronger stability.

Specifically, when the wire 3 is installed outside the holder 2, the feeding mechanism 9 clamps the metal clip 8 in the positioning groove, the sliding rod 62, the fixing frame 63 and the clamping mechanism 7 are synchronously moved with the metal clip 8 and the holder 2 due to the fact that the second inclined portion 743 is arranged on the clamping block 74 in the resetting process of the resetting spring 64, the clamping block 74 is clamped in the groove 81, then the holder 2 is conveyed through the conveying component 5, in the conveying process, the holder 2 and the metal clip 8 are moved, the linkage shaft 61 below the synchronous belt 56 is inserted into the movable groove 631 to drive the fixing frame 63, the sliding rod 62 and the clamping mechanism 7 to move when moving, the clamping mechanism 7 is guided by the second guiding groove 652 to downwards move in the moving process to enable the metal clip 8 to be expanded, the positioning groove to be finally expanded, then the clamping mechanism 7 is guided by the first guiding groove 651 to synchronously move with the metal clip 8 and the holder 2, under the action of the rotating roller 4, the wire 3 is pressed into the positioning groove, the wire 3 is conveniently and quickly and conveniently installed on the holder 2, meanwhile, the holder 2 can be independently produced, the wire 2 can be well and well-insulated from the outside, the cable can be well-insulated from the cable can be well protected, the cable can be well-insulated from the cable is well-insulated from the outside, the cable is well-insulated from the cable is well-insulated, and the cable is well and has high-insulated, and the safety and has high performance and the safety.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (7)

1. The utility model provides a production facility of corrosion-resistant pre-buried formula wire and cable of low temperature, includes casing (1) and sets up conveying subassembly (5) inside casing (1), still including rotating roller (4) of rotating connection in casing (1) inside top, its characterized in that: the novel wire conveyer is characterized in that a retainer (2) transversely penetrates through the shell (1), a penetrating groove corresponding to the retainer (2) is formed in the shell (1), a conveying assembly (5) is used for conveying the retainer (2), a wire inlet (11) penetrating upwards is formed in the middle of the shell (1), wires (3) are arranged outside the shell (1), positioning grooves are uniformly distributed on the outer surface of the retainer (2) and are used for installing the wires (3), the rotating roller (4) is used for extruding the wires (3) into the positioning grooves on the outer portion of the retainer (2), a linkage assembly (6), a clamping mechanism (7) and a metal clip (8) are further arranged inside the shell (1), the metal clip (8) is used for expanding the positioning grooves to enable the wires (3) to be embedded inside the retainer (2), the linkage assembly (6) is used for guiding the clamping mechanism (7), and the clamping mechanism (7) is used for pulling the metal clip (8) to expand the positioning grooves outwards;

the conveying assembly (5) comprises synchronous belts (56) which are rotationally connected to two sides of the inside of the shell (1), the synchronous belts (56) are attached to the outer side face of the retainer (2), the linkage assembly (6) comprises linkage shafts (61) which are arranged on the side face of the bottom of the synchronous belts (56), the linkage shafts (61) at the bottom of each group of synchronous belts (56) are provided with two groups, the linkage assembly (6) further comprises sliding rods (62) which are slidingly connected to the inside of the shell (1), one ends of the sliding rods (62) are provided with fixing frames (63), movable grooves (631) are arranged in the fixing frames (63), the cross sections of the fixing frames (63) and the movable grooves (631) are U-shaped, the movable grooves (631) correspond to the linkage shafts (61), the side face of the fixing frames (63) is provided with reset springs (64), the reset springs (64) are used for resetting the sliding rods (62) to move in the opposite direction of the movement of the retainer (2), the clamping mechanisms (7) are vertically and slidingly connected to the other ends of the sliding rods (62), the other ends of the sliding rods (62) are provided with guide plates (65) which are fixedly connected to the second guide plates (65) on the two sides of the shell (65) which are fixedly connected to the inside of the shell (6), the first guide grooves (651) are in linear distribution, the second guide grooves (652) are in inclined distribution, the first guide grooves (651) and the second guide grooves (652) are used for guiding the clamping mechanism (7), and the linkage shaft (61) is used for being inserted into the fixing frame (63) to drive the sliding rod (62) and the clamping mechanism (7) to move from right to left;

the clamping mechanism (7) comprises a shell (71), the shell (71) is connected to the other end of the sliding rod (62) in an up-down sliding mode, the other end of the shell (71) is fixedly connected with a guide rod (72), the guide rod (72) corresponds to a first guide groove (651) and a second guide groove (652), the first guide groove (651) and the second guide groove (652) are used for guiding the shell (71), a sliding groove (73) with an opening towards the inner side is arranged in the shell (71), a clamping block (74) is connected in the sliding groove (73) in a sliding mode, the clamping block (74) extends out of the shell (71), and a compression spring (75) is arranged between the clamping block (74) and the inner wall of the sliding groove (73);

the utility model provides a metal clip (8) is corresponding with the constant head tank on holder (2), the both sides of metal clip (8) are provided with recess (81), and the material of metal clip (8) is spring steel, the bottom corner of fixture block (74) is provided with depressed part (741), and depressed part (741) are used for guide bar (72) to block the edge of recess (81) when moving downwards, make metal clip (8) take place deformation, and the inboard top of fixture block (74) is provided with first tilting part (742), and first tilting part (742) are used for not receiving the influence of metal clip (8) both ends edge when fixture block (74) upwards displacement, and the one end both corners department of fixture block (74) is provided with second tilting part (743), and second tilting part (743) are used for not receiving the influence of metal clip (8) both sides edge when fixture block (74) displacement.

2. The production equipment of the low-temperature corrosion-resistant embedded wire and cable as set forth in claim 1, wherein: a first rotating groove (12) is formed in the position, close to the wire inlet (11), above the inside of the shell (1), and the rotating roller (4) is connected in the first rotating groove (12) in a rotating mode, and the wire inlet (11) is in a quarter arc shape.

3. The production equipment of the low-temperature corrosion-resistant embedded wire and cable as set forth in claim 1, wherein: the novel synchronous belt type electric motor is characterized in that a second rotating groove (13) used for rotating the synchronous belt (56) is formed in the shell (1), a sliding groove (14) is further formed in the shell (1), a sliding rod (62) and a fixing frame (63) are slidably connected inside the sliding groove (14), a spring groove (15) is further formed in the shell (1), a return spring (64) is arranged in the spring groove (15), and two ends of the return spring (64) are connected with the inner wall of the spring groove (15) and the fixing frame (63) respectively.

4. The production equipment of the low-temperature corrosion-resistant embedded wire and cable as set forth in claim 1, wherein: the conveying assembly (5) comprises a motor (51) fixedly arranged in the shell (1), and the output end of the motor (51) is connected with a transmission mechanism (53) through a reduction gearbox (52).

5. The production equipment of the low-temperature corrosion-resistant embedded wire and cable according to claim 4, wherein: the transmission mechanism (53) comprises a first transmission shaft (531) connected to two sides inside the reduction gearbox (52), the other end of the first transmission shaft (531) is fixedly connected with a face gear (532), the transmission mechanism (53) further comprises a second transmission shaft (534) rotatably connected to two sides inside the shell (1), and the top of the second transmission shaft (534) is meshed with the face gear (532) through a bevel gear (533).

6. The production equipment of the low-temperature corrosion-resistant embedded wire and cable according to claim 5, wherein: the conveying assembly (5) further comprises a driving gear (54) and a transmission gear (55) which are rotatably connected inside the shell (1), the driving gear (54) and the transmission gear (55) are respectively provided with two groups, the synchronous belt (56) is sleeved outside the driving gear (54) and the transmission gear (55), and the second transmission shaft (534) is fixedly connected with the driving gear (54).

7. The production equipment of the low-temperature corrosion-resistant embedded wire and cable as set forth in claim 1, wherein: the outside of casing (1) still is provided with feed mechanism (9), feed mechanism (9) are including setting up at the inside material loading groove (91) that is close to the edge of casing (1), feed mechanism (9) still including setting up first flexible cylinder (92) and the flexible cylinder (94) of second in casing (1) side and top respectively, flexible cylinder (94) output fixedly connected with clamp plate (95) of second, flexible cylinder (94) of second and clamp plate (95) are used for pressing into the constant head tank with metal clip (8), the fixed connection push pedal (93) of first flexible cylinder (92) output, push pedal (93) are used for pushing metal clip (8) to clamp plate (95) below from material loading groove (91).