CN116092747B

CN116092747B - Flame-retardant power cable processing equipment

Info

Publication number: CN116092747B
Application number: CN202310326772.3A
Authority: CN
Inventors: 黄芳; 戴彬; 章正军; 杨性勇; 洪炳�
Original assignee: Zhejiang Gaoyuan Cable Co ltd
Current assignee: Zhejiang Gaoyuan Cable Co ltd
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-11-10
Anticipated expiration: 2043-03-30
Also published as: CN116092747A

Abstract

The invention discloses a flame-retardant power cable processing device, which comprises: the processing bench is provided with a frame body assembly, the frame body assembly and the processing bench are provided with wire drawing assemblies, each wire drawing assembly comprises a rotating frame and wire drawing wheels, a plurality of rotating frames are fixedly arranged on the processing bench at equal intervals, a plurality of rotating frames are fixedly connected below the frame body assembly, and the wire drawing wheels are rotatably arranged inside the rotating frames; a wire drawing plate is arranged between two adjacent rotating frames, diameter-changing holes are formed in the middle of the wire drawing plate, the sizes of the diameter-changing holes are different, the sizes of the diameter-changing holes gradually decrease from a wire inlet end to a wire outlet end, and the upper directions and the lower directions of the two adjacent diameter-changing holes are opposite; the wire drawing board top that is located the play line end is provided with the coating subassembly, the coating subassembly includes material jar, sealing ring, connecting strip and supports the piece. According to the invention, the copper wire is subjected to flame-retardant coating while the cable copper wire is subjected to wiredrawing treatment, so that the processing efficiency of the flame-retardant cable is improved.

Description

Flame-retardant power cable processing equipment

Technical Field

The invention relates to the technical field of cable processing, in particular to flame-retardant power cable processing equipment.

Background

The cable refers to electric energy or signal transmission equipment consisting of a plurality of wires or a plurality of groups of wires, the main components in the cable are metal wires for conducting electricity, and the metal materials of the raw materials are required to be subjected to wire drawing treatment in the cable production process so as to meet the production requirements, and the wire drawing equipment of the cable is required.

Chinese patent CN105945076a discloses a copper wire drawing equipment for small-size cable, including fuselage, pay-off, wire drawing device, overspeed device tensioner, annealing device and take-up, pay-off be located the fuselage left side, wire drawing device be located the fuselage middle part, overspeed device tensioner be located the wire drawing device right side, annealing device be located overspeed device tensioner right side, take-up be located annealing device right side.

However, the existing flame-retardant cable is processed on the copper wire after the copper wire is drawn, and the reprocessing mode needs to consume a great deal of time and labor, so that the processing efficiency of the cable is reduced.

Disclosure of Invention

The invention aims to solve the defects that in the prior art, the flame-retardant cable is processed after the copper wire is drawn, and a great deal of time and labor are consumed in the reprocessing mode, so that the processing efficiency of the cable is reduced.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a flame retardant power cable processing apparatus comprising: the processing bench is provided with a frame body assembly, the frame body assembly and the processing bench are provided with wire drawing assemblies, each wire drawing assembly comprises a rotating frame and wire drawing wheels, a plurality of rotating frames are fixedly arranged on the processing bench at equal intervals, a plurality of rotating frames are fixedly connected below the frame body assembly, and the wire drawing wheels are rotatably arranged inside the rotating frames;

a wire drawing plate is arranged between two adjacent rotating frames, diameter-changing holes are formed in the middle of the wire drawing plate, the sizes of the diameter-changing holes are different, the sizes of the diameter-changing holes gradually decrease from a wire inlet end to a wire outlet end, and the upper directions and the lower directions of the two adjacent diameter-changing holes are opposite;

the wire drawing board top that is located the wire outlet end is provided with the coating subassembly, the coating subassembly includes material jar, sealing ring, connecting strip and supports the piece, the material jar is annular jar, and fixed connection is in reducing hole upside, the inside liquid chamber that is provided with of material jar, and the liquid chamber bottom has seted up the discharge ring mouth of inwards sloping, the upper end width of discharge ring mouth is less than the width of liquid chamber, the sealing ring sets up in the liquid intracavity portion, and the card is established in discharge ring mouth upper end, limiting ring groove has been seted up to reducing hole below, a plurality of sealing ports have been seted up to limiting ring groove and material jar side equidistance, the connecting strip is sealed to slide and is set up inside the sealing port, and upper end and sealing ring bottom fixed connection, support the piece and be the arc, and fixed connection is in the connecting strip below, a plurality of support the piece and constituteed an annular.

Preferably, two sliding grooves are symmetrically formed in two ends of the processing table, a driving block is slidably arranged in each sliding groove, two fixing assemblies are fixedly connected to the upper ends of the driving blocks, and the fixing assemblies are used for fixing cable wires.

Preferably, the fixed subassembly includes mounting panel, control block, flexible post and fixing base, the perpendicular fixed connection of mounting panel is in the drive block upper end, control block fixed mounting is in one side that the mounting panel kept away from each other, flexible post level fixed connection is in the mounting panel side, and sets up the one side that is close to each other at two mounting panels, the fixing base rotates and installs at flexible post tip.

Preferably, the frame body assembly comprises a supporting frame, side frames and a top plate, wherein four supporting frames are vertically and fixedly connected to four sides of the processing table, two side frames are symmetrically and fixedly connected to the upper ends of the four supporting frames, a plurality of top plates are fixedly connected between the two side frames at equal intervals, and a plurality of rotating frames are installed below the top plate.

Preferably, a heating component is arranged on the charging bucket and is used for heating liquid materials in the liquid cavity.

Preferably, the heating element comprises a first heating ring, a second heating ring and an energy ring, wherein the first heating ring and the second heating ring are fixedly connected to two side walls inside the liquid cavity, the second heating ring is located below the first heating ring, the thickness of the second heating ring is larger than that of the first heating ring, and the energy ring is fixedly sleeved outside the charging bucket.

Preferably, the connecting strip side fixedly connected with supports the piece, support fixedly connected with elastomeric block between piece and the charging bucket bottom surface, elastomeric block is made by elastic material.

Preferably, the inside sealing ring that is provided with of material jar, the width of sealing ring and with two first heating ring between the width unanimity, and be greater than the interval between the two second heating rings, the material jar side has the feed inlet, the feed inlet is located second heating ring below.

Preferably, the material tank top is provided with cooling module, cooling module includes air conditioning gasbag, connecting rope and clamp plate, and is a plurality of air conditioning gasbag annular fixed connection is in the material tank top, and inside inwards sunken, air conditioning gasbag middle part is provided with the atmospheric pressure mouth, connecting rope bottom and sealed clamping ring fixed connection, and the other end wears out material tank upper end, with clamp plate fixed connection, the clamp plate is the arc, and both ends card respectively establish inside the air conditioning gasbag of both sides.

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

1. when the wire drawing is carried out for the last time and a wire drawing plate at the wire outlet end enters, as the diameter of a copper wire is larger than the diameter of a ring formed by a propping piece, and an impact force in the moving process acts on the propping piece, a connecting strip connected with the propping piece moves upwards to drive a sealing ring to leak a discharge ring port below a charging tank, and a flame-retardant liquid raw material in the charging tank is discharged, so that a flame-retardant coating layer is formed on the surface of the moving copper wire, when the copper wire does not carry out wire drawing movement, the position of the propping piece is restored, and the sealing ring moves downwards to reseal the discharge ring port, so that the outflow of raw material is avoided;

2. the elastic block is used for resetting the position of the connecting strip, so that the sealing effect on the position of the discharge ring opening is ensured when the connecting strip is not processed;

3. in order to ensure that the liquid material in the charging bucket is not solidified in the processing process, the heating assembly is used for heating, and the sealing compression ring is used for driving the liquid material in the charging bucket to move downwards, so that the coating treatment on the outer part of the copper wire is ensured

4. In order to avoid dripping or scraping after finishing the coating, the coating is quickened to solidify the coating through the cooling component, the liquid level is lowered along with the export of the raw materials inside the charging bucket, thereby driving the sealing compression ring to move downwards, and the downwards moving sealing compression ring drives the connecting rope to move, thereby spraying the cold air inside the cold air bag from the air pressure port through the compression plate, and carrying out cooling treatment on the copper wire for finishing the coating, thereby ensuring the rapid solidification of the coating and reducing the damage of the coating in the transferring process.

Drawings

Fig. 1 is a schematic diagram of a front structure of a flame retardant power cable processing apparatus according to the present invention;

FIG. 2 is a schematic side view of a flame retardant power cable processing apparatus according to the present invention;

FIG. 3 is a schematic diagram of the bottom surface structure of a drawing board of a flame retardant power cable processing device according to the present invention;

fig. 4 is a schematic diagram of a front structure of a charging bucket of a flame retardant power cable processing device according to the present invention;

fig. 5 is a schematic diagram of a sectional structure of a charging bucket of a flame retardant power cable processing device according to the present invention;

fig. 6 is a schematic diagram of the internal structure of a charging bucket of the flame-retardant power cable processing device according to the present invention.

In the figure: 1 processing table, 2 support body components, 21 support frame, 22 side bearer, 23 roof, 3 wire drawing components, 31 rotating frame, 32 wire drawing wheel, 4 wire drawing board, 5 coating components, 51 material jar, 52 sealing ring, 53 connecting strip, 54 support piece, 6 fixed component, 61 mounting plate, 62 control block, 63 telescopic column, 64 fixing seat, 7 heating component, 71 first heating ring, 72 second heating ring, 73 energy ring, 8 cooling component, 81 cold air gasbag, 82 connecting rope, 83 clamp plate, 9 driving block, 10 spacing piece, 11 elastic block, 12 sealing compression ring.

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.

The terms such as "upper", "lower", "left", "right", "middle" and "a" and the like are also used herein for descriptive purposes only and are not intended to limit the scope of the invention for which the invention may be practiced or for which the relative relationship may be altered or modified without materially altering the technology.

Referring to fig. 1-6, a flame retardant power cable processing apparatus comprising: the processing table 1, the processing table 1 is provided with a frame body assembly 2, the frame body assembly 2 and the processing table 1 are provided with a wire drawing assembly 3, the wire drawing assembly 3 comprises rotating frames 31 and wire drawing wheels 32, the rotating frames 31 are fixedly arranged on the processing table 1 at equal intervals, the rotating frames 31 are fixedly connected below the frame body assembly 2, and the wire drawing wheels 32 are rotatably arranged inside the rotating frames 31;

a wire drawing plate 4 is arranged between two adjacent rotating frames 31, diameter-changing holes are formed in the middle of the wire drawing plate 4, the sizes of the diameter-changing holes are different, the sizes of the diameter-changing holes gradually decrease from a wire inlet end to a wire outlet end, and the upper and lower directions of the two adjacent diameter-changing holes are opposite;

the wire drawing board 4 top that is located the wire outlet end is provided with coating subassembly 5, coating subassembly 5 includes material jar 51, sealing ring 52, connecting strip 53 and supports piece 54, material jar 51 is annular jar, and fixed connection is in reducing hole upside, the inside liquid chamber that is provided with of material jar 51, and the discharge ring mouth of inwards sloping is seted up to the liquid chamber bottom, the upper end width of discharge ring mouth is less than the width of liquid chamber, sealing ring 52 sets up in the liquid intracavity portion, and the card is established in discharge ring mouth upper end, spacing annular has been seted up to reducing hole below, a plurality of sealing ports have been seted up to spacing annular and 51 side equidistance, connecting strip 53 sealed slip sets up inside the sealing port, and upper end and sealing ring 52 bottom fixed connection, support piece 54 is the arc, and fixed connection is in connecting strip 53 below, a plurality of support piece 54 constitute a ring.

In the embodiment of the technical scheme, the copper wire to be processed passes through the wiredrawing wheels 32 arranged up and down and simultaneously passes through a plurality of wiredrawing boards 4 with different sizes, the diameter-changing wiredrawing treatment is carried out on the copper wire of the cable in the wiredrawing process, when the wiredrawing board 4 at the wire outlet end enters for the last time, as the diameter of the copper wire is larger than the diameter of a ring formed by the abutting piece 54, and the impact force in the moving process acts on the abutting piece 54, thereby driving the abutting piece 54 to move upwards, enabling the connecting strip 53 connected with the abutting piece 54 to move upwards, driving the sealing ring 52 to leak out the discharge ring opening below the charging tank 51, discharging the flame-retardant liquid raw material inside the charging tank 51, forming a flame-retardant coating layer on the surface of the moving copper wire, and resetting the abutting piece 54 position when the copper wire does not perform wiredrawing treatment, so that the sealing ring 52 moves downwards, resealing the discharge ring opening, and avoiding the outflow of the raw material.

According to the preferred technical scheme in the embodiment, two sliding grooves are symmetrically formed in two ends of the processing table 1, a driving block 9 is slidably arranged in each sliding groove, two fixing assemblies 6 are fixedly connected to the upper ends of the driving blocks 9, and the fixing assemblies 6 are used for fixing cable wires;

the fixing assembly 6 comprises a mounting plate 61, a control block 62, a telescopic column 63 and a fixing seat 64, wherein the mounting plate 61 is vertically and fixedly connected to the upper end of the driving block 9, the control block 62 is fixedly installed on one side of the mounting plate 61, which is far away from each other, the telescopic column 63 is horizontally and fixedly connected to the side of the mounting plate 61 and is arranged on one surface of the two mounting plates 61, which is close to each other, the fixing seat 64 is rotatably installed at the end part of the telescopic column 63, a wire pipe wound with a copper wire is placed at a wire inlet end, the copper wire is stretched inside the wire drawing assembly 3, the other end of the copper wire is connected with the wire pipe for winding the copper wire, and the driving block 9 drives the mounting plate 61 to move, so that the wire pipe is fixed between the two fixing seats 64;

the frame body assembly 2 comprises support frames 21, side frames 22 and top plates 23, four support frames 21 are vertically and fixedly connected to four sides of the processing table 1, two side frames 22 are symmetrically and fixedly connected to the upper ends of the four support frames 21, a plurality of top plates 23 are fixedly connected between the two side frames 22 at equal intervals, a plurality of rotating frames 31 are arranged below the top plates 23, and the positions of the internal wire drawing assemblies 3 are exposed through the support frames 21, so that wire drawing is guaranteed;

the heating assembly 7 is arranged on the charging bucket 51, the heating assembly 7 is used for heating liquid materials in the liquid cavity, and in order to ensure that the liquid materials in the charging bucket 51 are not solidified in the processing process, the heating assembly 7 is used for heating;

the heating assembly 7 comprises a first heating ring 71, a second heating ring 72 and an energy ring 73, wherein the first heating ring 71 and the second heating ring 72 are fixedly connected to two side walls inside the liquid cavity, the second heating ring 72 is positioned below the first heating ring 71 and is thicker than the first heating ring 71, the energy ring 73 is fixedly sleeved outside the charging bucket 51, energy is increased to the first heating ring 71 and the second heating ring 72 through the external energy ring 73, and the first heating ring 71 and the second heating ring 72 are heated;

the side of the connecting strip 53 is fixedly connected with a limiting piece 10, an elastic block 11 is fixedly connected between the limiting piece 10 and the bottom surface of the charging bucket 51, the elastic block 11 is made of elastic materials, and the elastic block 11 is used for resetting the position of the connecting strip 53, so that the sealing effect on the position of a discharge ring opening is ensured when the material is not processed;

the inside of the charging bucket 51 is provided with a sealing compression ring 12, the width of the sealing compression ring 12 is consistent with the width between the two first heating rings 71 and is larger than the interval between the two second heating rings 72, the side edge of the charging bucket 51 is provided with a feed inlet, the feed inlet is positioned below the second heating rings 72, and the sealing compression ring 12 is used for driving liquid materials in the charging bucket 51 to move downwards, so that the coating treatment on the outside of copper wires is ensured;

the material tank 51 top is provided with cooling module 8, cooling module 8 includes air conditioning gasbag 81, connecting rope 82 and clamp plate 83, a plurality of air conditioning gasbag 81 cyclic annular fixed connection are in material tank 51 top, and inside inwards sunken, air conditioning gasbag 81 middle part is provided with the atmospheric pressure mouth, connecting rope 82 bottom and sealed clamping ring 12 fixed connection, and the other end wears out material tank 51 upper end, with clamp plate 83 fixed connection, clamp plate 83 is the arc, and both ends card respectively establish inside air conditioning gasbag 81 of both sides, in order to avoid after accomplishing the coating, the coating takes place the whereabouts or scrape the damage, accelerate the solidification to the coating through cooling module 8, along with the derivation of the inside raw materials of material tank 51, the liquid level descends, thereby drive sealed clamping ring 12 of downshifting, sealed clamping ring 12 of downshifting drives and connects the rope 82 and remove, thereby through clamp plate 83 to the inside air conditioning of air conditioning gasbag 81 is from the inside blowout of atmospheric pressure mouth, the copper wire to accomplish the coating carries out the cooling treatment, thereby guaranteed the quick solidification of coating, the damage of coating in the transfer process has been reduced.

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 make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. A flame retardant power cable processing apparatus comprising: the processing bench (1) is characterized in that a frame body assembly (2) is arranged on the processing bench (1), wire drawing assemblies (3) are arranged on the frame body assembly (2) and the processing bench (1), each wire drawing assembly (3) comprises a rotating frame (31) and a wire drawing wheel (32), a plurality of rotating frames (31) are fixedly arranged on the processing bench (1) at equal intervals, a plurality of rotating frames (31) are fixedly connected below the frame body assembly (2), and the wire drawing wheels (32) are rotatably arranged inside the rotating frames (31);

a wire drawing plate (4) is arranged between two adjacent rotating frames (31), diameter-changing holes are formed in the middle of the wire drawing plate (4), the sizes of the diameter-changing holes are different, the sizes of the diameter-changing holes gradually decrease from a wire inlet end to a wire outlet end, and the upper direction and the lower direction of the two adjacent diameter-changing holes are opposite;

the wire drawing board (4) top that is located the play line end is provided with coating subassembly (5), coating subassembly (5) include material jar (51), sealing ring (52), connecting strip (53) and support piece (54), material jar (51) are annular jar, and fixed connection is in reducing hole upside, material jar (51) inside is provided with the liquid chamber, and the liquid chamber bottom has seted up the ejection of compact loop mouth of inwards inclining, the upper end width of ejection of compact loop mouth is less than the width of liquid chamber, sealing ring (52) set up at the liquid intracavity portion, and the card is established in ejection of compact loop mouth upper end, limiting ring groove has been seted up to reducing hole below, a plurality of sealing mouths have been seted up to limiting ring groove and material jar (51) side equidistance, connecting strip (53) sealed sliding sets up inside the sealing mouthful, and upper end and sealing ring (52) bottom fixed connection, support piece (54) are the arc, and fixed connection is in connecting strip (53) below, a plurality of support piece (54) constitution is annular.

2. The flame-retardant power cable processing equipment according to claim 1, wherein two sliding grooves are symmetrically formed in two ends of the processing table (1), a driving block (9) is slidably arranged in each sliding groove, two fixing assemblies (6) are fixedly connected to the upper ends of the driving block (9), and the fixing assemblies (6) are used for fixing cable wires.

3. The flame retardant power cable processing apparatus according to claim 2, wherein the fixing assembly (6) comprises a mounting plate (61), a control block (62), a telescopic column (63) and a fixing seat (64), the mounting plate (61) is vertically and fixedly connected to the upper end of the driving block (9), the control block (62) is fixedly mounted on one side of the mounting plate (61) far away from each other, the telescopic column (63) is horizontally and fixedly connected to the side of the mounting plate (61) and is arranged on one side of the two mounting plates (61) close to each other, and the fixing seat (64) is rotatably mounted on the end of the telescopic column (63).

4. The flame retardant power cable processing apparatus of claim 1, wherein the frame assembly (2) comprises a supporting frame (21), side frames (22) and a top plate (23), four supporting frames (21) are vertically and fixedly connected to four sides of the processing table (1), two side frames (22) are symmetrically and fixedly connected to the upper ends of the four supporting frames (21), a plurality of top plates (23) are fixedly connected between the two side frames (22) at equal intervals, and a plurality of rotating frames (31) are installed below the top plate (23).

5. A flame retardant power cable processing apparatus as claimed in claim 1, wherein a heating assembly (7) is provided on the feed tank (51), the heating assembly (7) being adapted to heat liquid material inside the liquid chamber.

6. The flame retardant power cable processing equipment according to claim 5, wherein the heating assembly (7) comprises a first heating ring (71), a second heating ring (72) and an energy ring (73), the first heating ring (71) and the second heating ring (72) are fixedly connected to two side walls inside the liquid cavity, the second heating ring (72) is located below the first heating ring (71) and is thicker than the first heating ring (71), and the energy ring (73) is fixedly sleeved outside the charging bucket (51).

7. The flame-retardant power cable processing equipment according to claim 1, wherein a limiting piece (10) is fixedly connected to the side edge of the connecting strip (53), an elastic block (11) is fixedly connected between the limiting piece (10) and the bottom surface of the charging bucket (51), and the elastic block (11) is made of an elastic material.

8. The flame retardant power cable processing equipment according to claim 6, wherein a sealing press ring (12) is arranged inside the charging bucket (51), the width of the sealing press ring (12) is consistent with the width between the two first heating rings (71) and is larger than the interval between the two second heating rings (72), a feed inlet is arranged on the side edge of the charging bucket (51), and the feed inlet is positioned below the second heating rings (72).

9. The flame retardant power cable processing equipment according to claim 1, wherein a cooling assembly (8) is arranged above the charging bucket (51), the cooling assembly (8) comprises a cold air bag (81), a connecting rope (82) and a pressing plate (83), the plurality of cold air bags (81) are annularly fixedly connected above the charging bucket (51) and are internally recessed inwards, an air pressure port is formed in the middle of the cold air bag (81), the bottom end of the connecting rope (82) is fixedly connected with the sealing pressing ring (12), the other end of the connecting rope penetrates out of the upper end of the charging bucket (51) and is fixedly connected with the pressing plate (83), the pressing plate (83) is an arc-shaped plate, and two ends of the pressing plate are respectively clamped inside the cold air bags (81) on two sides.