CN111755180B - Special equipment for surface processing of power cable sheath - Google Patents

Abstract

The invention discloses a special device for processing the surface of a power cable sheath, which structurally comprises a processing cavity, a connecting disc, a machine body, a fixed rotating wheel, a blow-drying device, an adjusting screw rod, a conveying disc, a traction device, a guide-out rod and a positioning seat, wherein when the special device is used after improvement, a fan blade rotates to generate wind energy which is conveyed to an air suction disc through a through hole, the two rotating discs assist an air outlet plate to convey the wind, the wind can be conveyed to an air outlet pipe through the air outlet plate, the air outlet pipe is used for uniformly conveying the wind to the surface of the cable sheath, the surface of the cable sheath is uniformly blown and dried, and the protection effect of the sheath is improved; alternate the cable sheath on placing the chamber, the cable sheath exports through the rotation of traction wheel, and the laminating pad upwards pushes up the friction pad, and the traction wheel can contact with the friction pad and receive certain resistance for the slew velocity control of traction wheel is at the uniform speed, and the tension that the cable sheath received is even, protects the cable sheath after just processing, improves the result of use of sheath.

Description

Special equipment for surface processing of power cable sheath

Technical Field

The invention relates to the field of power cables, in particular to special equipment for processing the surface of a power cable sheath.

Background

The cable protective sleeve is the outermost layer of the cable, is made of relatively rigid materials, has high tensile strength and good flame retardant property, and can perform the functions of electrical insulation and cable inner core protection on the cable. And the cable internal components are prevented from being influenced by external pollution or external force, and the oil resistance, the heat resistance, the flame resistance, the sunlight resistance, the aging resistance, the acid and alkali resistance and the like of the cable internal components are excellent. In the processing of cable sheath surfaces, improvements are needed:

1. when carrying out machine tooling to the cable sheathing surface, carry out the output rolling to the cable sheathing that just printed and accomplish, the word of printing is not totally dry yet, can lead to the printing to change out, and when will facing to the sheath with the strong wind directly weather, because the dynamics is great, leads to the cable sheathing to have certain damage, influences the protection effect of sheath.

2. When the cable sheath to after processing is exported, to the unable even control of cable sheath's pulling force, it is big time spent when the tension that leads to cable sheath to receive for just processing the characters on the cable sheath surface because the too big fuzzy phenomenon that appears of tension, and the sheath also can be because the atress is inhomogeneous, lead to being close to the sheath link of equipment and can be broken by the drawing, can't carry out effectual protection to the cable, reduce the result of use of sheath.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide special equipment for processing the surface of a power cable sheath, which aims to solve the problems that when the surface of the cable sheath is machined, the cable sheath which is just printed is output and wound, printed characters are not completely dried, printed characters are broken, and the cable sheath is damaged to a certain extent due to high strength when the cable sheath is directly blown dry by strong wind, so that the protection effect of the sheath is influenced; when the cable sheath to after processing is exported, to the unable even control of cable sheath's pulling force, it is big time spent when the tension that leads to cable sheath to receive for just processing the characters on the cable sheath surface because the too big fuzzy phenomenon that appears of tension, and the sheath also can be because the atress is inhomogeneous, lead to being close to the sheath link of equipment and can be broken by the drawing, can't carry out effectual protection to the cable, reduce the result of use's of sheath problem.

In order to achieve the purpose, the invention is realized by the following technical scheme: a special device for processing the surface of a power cable sheath structurally comprises a processing cavity, a connecting disc, a machine body, a fixed rotating wheel, a blow-drying device, an adjusting screw rod, a conveying disc, a traction device, a leading-out rod and a positioning seat, wherein the processing cavity is installed at the lower end of the machine body, the connecting disc is arranged on the left side of the processing cavity, the bottom of the processing cavity is tightly attached to the bottom of the connecting disc, the top of the processing cavity is connected to the lower end of the conveying disc through the machine body, the traction device is arranged on the left side and the right side of the conveying disc, the traction device and the conveying disc are arranged on the same straight line, the conveying disc is provided with two conveying discs, the two conveying discs are installed at the left end and the right end of the leading-out rod, the conveying discs are fixedly clamped on the left side and the right side of the leading-out rod through the adjusting screw rod, the side edge of the leading-out rod is matched with the traction device, the blow-drying device is fixedly embedded on the left side of the top of the positioning seat, the positioning seat is connected with the conveying disc into a whole, the positioning seat is vertically embedded in the machine body, a fixed rotating wheel is arranged on the left side of the machine body, the fixed rotating wheel is fixedly clamped on the machine body, and the fixed rotating wheel is connected with the blow-drying device through a cable sheath;

as a further improvement of the invention, the blow-drying device comprises a wind delivery assembly, an interface, an input port, a movable guide rod, an output port and a wind guide pipe, wherein the wind delivery assembly is arranged at the lower end of the interface, the lower end of the interface is connected with the input port, the input port is fixedly embedded in the middle of the top of the wind delivery assembly, the input port is communicated with the wind guide pipe through the wind delivery assembly, the wind guide pipe is sleeved with the wind delivery assembly, the movable guide rod is fixed at the front end of the wind guide pipe, the movable guide rod is parallelly buckled at the front end of the wind guide pipe, the movable guide rod is arranged at the upper end and the lower end of the output port, and the output port is connected with the wind guide pipe through the movable guide rod.

As a further improvement of the invention, the air delivery assembly comprises an air exhaust disc, an air outlet pipe, through holes, fan blades and a rotating shaft, wherein the air exhaust disc is arranged at the lower end of the rotating shaft, the fan blades penetrate and are embedded at the left end and the right end of the rotating shaft, the rotating shaft is connected with the air exhaust disc to rotate, the through holes are arranged at the left side and the right side of the air exhaust disc, the air exhaust disc is arranged at the middle position of the air outlet pipe, and the air outlet pipe is provided with four air outlets.

As a further improvement of the invention, the exhaust disc comprises arc-shaped holes, a rotating wheel, a rotating guide disc and an air suction assembly, the arc-shaped holes are formed in five sides of the rotating guide disc, the air suction assembly is arranged in the middle of the rotating guide disc, the air suction assembly is fixedly embedded in the middle of the rotating guide disc, and the rotating guide disc is connected with the rotating wheel through a belt.

As a further improvement of the invention, the air suction assembly comprises an air storage cavity, a diversion trench and an air suction disc, the air storage cavity is arranged at the upper end and the lower end of the air suction disc, the air suction disc is communicated with the interior of the air storage cavity, the diversion trench is arranged at the top of the air storage cavity, and the diversion trench is buckled with the air storage cavity.

As a further improvement of the invention, the diversion trench comprises a diversion port, turntables and an air outlet plate, the diversion port is arranged at the middle position of the two turntables, the top of the turntables is connected with the air outlet plate, and the left end and the right end of the air outlet plate are tightly attached to the top of the turntables.

As a further improvement of the invention, the traction device comprises three lifting assemblies, a movable disc, fixed seats and fasteners, wherein the three lifting assemblies are annularly arranged on the movable disc at equal intervals, the fasteners are arranged at the lower end of the movable disc and are embedded at the lower end of the movable disc in a penetrating manner, and the fasteners are inserted in the middle of the fixed seats in a penetrating manner.

As a further improvement of the invention, the lifting assembly comprises a roller, a sliding block, a tensioning groove, a protection rod, a reset spring and a leveling piece, wherein the roller is arranged at the lower end of the leveling piece, the roller is parallelly buckled on the leveling piece, the protection rod is arranged at the top of the leveling piece, the reset spring is arranged at the lower end of the protection rod, the reset spring and the protection rod are arranged on the same straight line, the sliding block is fixed at the left end and the right end of the protection rod, and the top of the protection rod is opposite to the tensioning groove.

As a further improvement of the invention, the tensioning groove comprises a friction pad, a regulating and controlling clamping groove, a traction wheel, a placing cavity and a regulating roll shaft, the friction pad is connected to the top of the regulating and controlling clamping groove in a penetrating manner, the top of the regulating and controlling clamping groove is overlapped with the middle position of the friction pad, the regulating and controlling clamping groove is matched with the traction wheel, the regulating roll shaft is arranged in the middle position of the traction wheel, the regulating roll shaft is embedded in the left side and the right side of the traction wheel in a penetrating manner, the placing cavity is arranged at the top of the traction wheel, and the placing cavity is fixed on the traction wheel.

As a further improvement of the invention, the regulating and controlling clamping groove comprises a supporting plate, a joint pad and movable pressing blocks, wherein the joint pad is arranged at the top of the supporting plate, two ends of the joint pad are embedded at the left side and the right side of the top of the supporting plate, the movable pressing blocks are arranged at the lower end of the supporting plate, and the movable pressing blocks are fixedly arranged at two sides of the bottom of the supporting plate.

Advantageous effects of the invention

The special equipment for processing the surface of the power cable sheath has the following beneficial effects:

1. the flabellum rotates and produces wind energy and carries on the dish that induced drafts through the through-hole, the dish that induced drafts divides the wind of inside to carry and stores up wind intracavity portion, carry out defeated wind through two supplementary play tuber plates of carousel, through the control of carousel to wind-force, make wind-force can be through going out the tuber plate at the uniform velocity carry on the tuber pipe, the cable sheath is carried on the surface with wind is even to four air outlets on the reuse play tuber pipe, carry on evenly weathering to the cable sheath surface, improve the protection effect of sheath.

2. The gyro wheel is in the same place with the outside tight joint of slide rail of expansion plate, alternates the cable sheath on placing the chamber, drives the traction wheel through adjusting the roller and rotates, and the cable sheath is exported through the rotation of traction wheel, and the laminating pad upwards pushes up the friction pad for the traction wheel can contact with the friction pad, and the traction wheel receives the resistance of friction pad, controls the slew velocity of traction wheel at the certain speed, stabilizes the transport to the cable sheath, improves the result of use of sheath.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a special apparatus for processing the surface of a power cable sheath according to the present invention;

fig. 2 is a schematic view of the internal structure of the drying device of the present invention.

Fig. 3 is a schematic cross-sectional structure diagram of the wind delivery assembly of the present invention.

Fig. 4 is a schematic view of the internal structure of the exhaust plate of the present invention.

Fig. 5 is a schematic cross-sectional view of the air suction assembly of the present invention.

Fig. 6 is an enlarged structural schematic view of a guide groove in the present invention.

Fig. 7 is a schematic plan view of the traction device of the present invention.

FIG. 8 is a cross-sectional view of a lift assembly according to the present invention.

Fig. 9 is a side sectional view schematically showing the configuration of the tension groove of the present invention.

Fig. 10 is an enlarged structural schematic view of a regulating card slot B in the present invention.

In the figure: the device comprises a treatment cavity 1, a connecting disc 2, a machine body 3, a fixed rotating wheel 4, a drying device 5, an adjusting screw 6, a conveying disc 7, a traction device 8, a guide-out rod 9, a positioning seat 10, an air conveying assembly 51, an interface 52, an input port 53, a movable guide rod 54, an output port 55, an air guide pipe 56, an exhaust disc 511, an air outlet pipe 512, a through hole 513, a fan blade 514, a rotating shaft 515, an arc-shaped hole 5111, a rotating wheel 5112, a rotating guide disc 5113, an air suction assembly 5114, an air storage cavity a1, a guide groove a2, an air suction disc a3, a guide port a21, a rotating disc a22, an air outlet plate a23, a lifting assembly 81, a movable disc 82, a fixed seat 83, a fastening piece 84, a roller 811, a sliding block 812, a tensioning groove 813, a protective rod 814, a return spring 815, a flat keeping piece 816, a friction pad 8131, a regulation and control clamping groove 8132, a traction wheel 8133, a placing cavity 8134, a regulation roller shaft 8135, a supporting plate b1, a bonding pad 35b 2, a movable pressing block b 3.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: a special device for processing the surface of a power cable sheath structurally comprises a processing cavity 1, a connecting disc 2, a machine body 3, a fixed rotating wheel 4, a blow-drying device 5, an adjusting screw 6, a conveying disc 7, a traction device 8, a leading-out rod 9 and a positioning seat 10, wherein the processing cavity 1 is installed at the lower end of the machine body 3, the connecting disc 2 is arranged on the left side of the processing cavity 1, the bottom of the processing cavity 1 is tightly attached to the bottom of the connecting disc 2, the top of the processing cavity 1 is connected to the lower end of the conveying disc 7 through the machine body 3, the traction device 8 is arranged on the left side and the right side of the conveying disc 7, the traction device 8 and the conveying disc 7 are arranged on the same straight line, the conveying disc 7 is provided with two blocks, the two conveying discs 7 are installed at the left end and the right end of the leading-out rod 9, the conveying discs 7 are fixedly clamped on the left side and the right side of the leading-out rod 9 through the adjusting screw 6, the leading-out rod 9 is matched with the traction device 8, the front end of the left side of the traction device 8 is provided with a blow-drying device 5, the blow-drying device 5 is fixedly embedded in the left side of the top of a positioning seat 10, the positioning seat 10 is connected with a conveying disc 7 into a whole, the positioning seat 10 is vertically embedded in a machine body 3, the left side of the machine body 3 is provided with a fixed rotating wheel 4, the fixed rotating wheel 4 is fixedly clamped on the machine body 3, and the fixed rotating wheel 4 is connected with the blow-drying device 5 through a cable sheath;

referring to fig. 2, the blow-drying device 5 includes a wind delivery assembly 51, a connector 52, an input port 53, a movable guide rod 54, an output port 55, and a wind guide pipe 56, the wind delivery assembly 51 is disposed at the lower end of the connector 52, the lower end of the connector 52 is connected to the input port 53, the input port 53 is fixedly embedded in the middle of the top of the wind delivery assembly 51, the input port 53 is connected to the wind guide pipe 56 through the wind delivery assembly 51, the wind guide pipe 56 is sleeved with the wind delivery assembly 51, the movable guide rod 54 is fixed at the front end of the wind guide pipe 56, the movable guide rod 54 is parallelly fastened to the front end of the wind guide pipe 56, the movable guide rod 54 is disposed at the upper and lower ends of the output port 55, and the output port 55 is connected to the wind guide pipe 56 through the movable guide rod 54.

The air guide pipe 56 is used for conveying the wind in a staggered manner when the wind is output by matching with the wind conveying assembly 51, and the wind direction is adjusted by the movable guide rod 54, so that the wind can be accurately and uniformly output through the output port 55 for use.

Referring to fig. 3, the air delivery assembly 51 includes an exhaust plate 511, an air outlet pipe 512, through holes 513, blades 514, and a rotating shaft 515, the exhaust plate 511 is disposed at the lower end of the rotating shaft 515, the blades 514 are inserted into the left and right ends of the rotating shaft 515, the rotating shaft 515 is connected to the exhaust plate 511 for rotation, the through holes 513 are disposed at the left and right sides of the exhaust plate 511, the exhaust plate 511 is mounted in the middle of the air outlet pipe 512, and four air outlets are disposed on the air outlet pipe 512.

The air outlet pipe 512 is used for assisting the air exhaust disc 511, the air exhaust disc 511 conveys air into the air outlet pipe 512 at a constant speed, and the air outlet pipe 512 outputs the air uniformly through the four air outlets, so that the strength of the wind force is reduced.

Referring to fig. 4, the air discharge plate 511 includes an arc hole 5111, a rotating wheel 5112, a rotating guide plate 5113, and an air suction assembly 5114, wherein the arc hole 5111 is disposed on five sides of the rotating guide plate 5113, the air suction assembly 5114 is disposed at the middle position of the rotating guide plate 5113, the air suction assembly 5114 is fixedly embedded at the middle position of the rotating guide plate 5113, and the rotating guide plate 5113 is connected to the rotating wheel 5112 through a belt.

The arc-shaped hole 5111 is used for being matched with the rotary guide disc 5113 to convey air, the air suction assembly 5114 adsorbs the air to the inside, the air suction assembly 5114 outputs the air in the inside through the rotary guide disc 5113, and the rotating wheel 5112 drives the rotary guide disc 5113 to rotate, so that the air can be output through the arc-shaped hole 5111, the wind power is reduced, and the sheath is protected.

Referring to fig. 5, the air suction assembly 5114 includes an air storage cavity a1, a flow guide groove a2, and an air suction disc a3, the air storage cavity a1 is installed at the upper and lower ends of the air suction disc a3, the air suction disc a3 is connected to the inside of the air storage cavity a1, the flow guide groove a2 is installed at the top of the air storage cavity a1, and the flow guide groove a2 is fastened to the air storage cavity a 1.

The air storage cavity a1 is used for distributing air inside the air suction disc a3, and the diversion trench a2 is matched with the air storage cavity a1 to control the air force, so that the air force can dry the sheath at a constant speed.

Referring to fig. 6, the diversion trench a2 includes a diversion opening a21, a turntable a22, and an air outlet plate a23, the diversion opening a21 is disposed at the middle position of the two turntables a22, the top of the turntable a22 is connected to the air outlet plate a23, and the left and right ends of the air outlet plate a23 are tightly attached to the top of the turntable a 22.

The turntable a22 is used for adjusting the air outlet speed of the diversion opening a21, the turntable a22 is rotated to control the wind power to a certain force, and then the wind power is output through the air outlet plate a23 to blow the surface of the cable sheath uniformly, so that the processing effect of the surface of the sheath is improved.

Referring to fig. 7, the traction apparatus 8 includes three lifting assemblies 81, a movable plate 82, a fixed seat 83, and fasteners 84, the three lifting assemblies 81 are annularly mounted on the movable plate 82 at equal intervals, the fasteners 84 are disposed at the lower end of the movable plate 82, the fasteners 84 are inserted into the lower end of the movable plate 82, and the fasteners 84 are inserted into the middle of the fixed seat 83.

The fastener 84 is used for fixing the position of the movable disc 82, and the movable disc 82 is fixedly clamped on the fastener 84, so that the lifting assembly 81 can stably pull and rotate the cable sheath through the movable disc 82, and stably convey the cable sheath.

The working principle of the above technical solution is explained as follows:

when the cable sheath drying device is used, the surface of the cable sheath is processed through the processing cavity 1, the processed cable sheath is conveyed to the fixed rotating wheel 4 through the connecting disc 2, the fixed rotating wheel 4 conveys the cable sheath to the drying device 5, the surface of the processed cable sheath is dried through the drying device 5, the adjusting screw 6 is used for rotating, the positions of the conveying discs 7 are adjusted, the two conveying discs 7 can be tightly attached to the left side and the right side of the leading-out rod 9, the cable sheath is uniformly drawn through the drawing device 8, the processed cable sheath is completely and rapidly output through the leading-out rod 9, and the processing effect of the cable sheath is improved.

When the surface of the cable sheath is machined, the fan blade 514 is driven to rotate by the rotating shaft 515 to generate wind energy, the generated wind is conveyed to the wind suction disc a3 through the through hole 513, the rotating shaft 515 is matched with the rotating wheel 5112, so that the rotating shaft 515 can drive the rotating wheel 5112 to rotate inwards, the rotating wheel 5112 drives the rotating guide disc 5113 to rotate through a belt, the wind suction disc a3 conveys the wind inside to the wind storage cavity a1, the wind storage cavity a1 is communicated with the flow guide port a21, the wind storage cavity a1 conveys the wind from the wind outlet plate a23 to the wind outlet pipe 512 through the flow guide port a21, when the wind is conveyed to the wind outlet pipe 512 from the wind outlet plate a23, the wind is rotated by the two rotating discs a22, the rotating discs a22 assist the wind outlet plate a23 to convey the wind in the wind storage cavity a1, the wind power is controlled by the rotating discs a22, so that the wind can be conveyed to the wind outlet pipe 512 at a23 at a constant speed, and the wind strength is controlled, the cable sheath surface is evenly weathered by evenly conveying wind to the surface of the cable sheath through the four wind outlets on the wind outlet pipe 512, so that strong wind is prevented from directly blowing to the surface of the sheath, the cable sheath is protected, and the protection effect of the sheath is improved.

Example two

Referring to fig. 1, the present invention provides a technical solution: a special device for processing the surface of a power cable sheath structurally comprises a processing cavity 1, a connecting disc 2, a machine body 3, a fixed rotating wheel 4, a blow-drying device 5, an adjusting screw 6, a conveying disc 7, a traction device 8, a leading-out rod 9 and a positioning seat 10, wherein the processing cavity 1 is installed at the lower end of the machine body 3, the connecting disc 2 is arranged on the left side of the processing cavity 1, the bottom of the processing cavity 1 is tightly attached to the bottom of the connecting disc 2, the top of the processing cavity 1 is connected to the lower end of the conveying disc 7 through the machine body 3, the traction device 8 is arranged on the left side and the right side of the conveying disc 7, the traction device 8 and the conveying disc 7 are arranged on the same straight line, the conveying disc 7 is provided with two blocks, the two conveying discs 7 are installed at the left end and the right end of the leading-out rod 9, the conveying discs 7 are fixedly clamped on the left side and the right side of the leading-out rod 9 through the adjusting screw 6, the leading-out rod 9 is matched with the traction device 8, the front end of the left side of the traction device 8 is provided with a blow-drying device 5, the blow-drying device 5 is fixedly embedded in the left side of the top of a positioning seat 10, the positioning seat 10 is connected with a conveying disc 7 into a whole, the positioning seat 10 is vertically embedded in a machine body 3, the left side of the machine body 3 is provided with a fixed rotating wheel 4, the fixed rotating wheel 4 is fixedly clamped on the machine body 3, and the fixed rotating wheel 4 is connected with the blow-drying device 5 through a cable sheath;

referring to fig. 2, the blow-drying device 5 includes a wind delivery assembly 51, a connector 52, an input port 53, a movable guide rod 54, an output port 55, and a wind guide pipe 56, the wind delivery assembly 51 is disposed at the lower end of the connector 52, the lower end of the connector 52 is connected to the input port 53, the input port 53 is fixedly embedded in the middle of the top of the wind delivery assembly 51, the input port 53 is connected to the wind guide pipe 56 through the wind delivery assembly 51, the wind guide pipe 56 is sleeved with the wind delivery assembly 51, the movable guide rod 54 is fixed at the front end of the wind guide pipe 56, the movable guide rod 54 is parallelly fastened to the front end of the wind guide pipe 56, the movable guide rod 54 is disposed at the upper and lower ends of the output port 55, and the output port 55 is connected to the wind guide pipe 56 through the movable guide rod 54.

The air guide pipe 56 is used for conveying the wind in a staggered manner when the wind is output by matching with the wind conveying assembly 51, and the wind direction is adjusted by the movable guide rod 54, so that the wind can be accurately and uniformly output through the output port 55 for use.

Referring to fig. 7, the traction apparatus 8 includes three lifting assemblies 81, a movable plate 82, a fixed seat 83, and fasteners 84, the three lifting assemblies 81 are annularly mounted on the movable plate 82 at equal intervals, the fasteners 84 are disposed at the lower end of the movable plate 82, the fasteners 84 are inserted into the lower end of the movable plate 82, and the fasteners 84 are inserted into the middle of the fixed seat 83.

The fastener 84 is used for fixing the position of the movable disc 82, and the movable disc 82 is fixedly clamped on the fastener 84, so that the lifting assembly 81 can stably pull and rotate the cable sheath through the movable disc 82, and stably convey the cable sheath.

Referring to fig. 8, the lifting assembly 81 includes a roller 811, a sliding block 812, a tensioning slot 813, a guard bar 814, a return spring 815 and a flat holding member 816, the roller 811 is installed at the lower end of the flat holding member 816, the roller 811 is parallelly fastened to the flat holding member 816, the guard bar 814 is installed at the top of the flat holding member 816, the return spring 815 is installed at the lower end of the guard bar 814, the return spring 815 and the guard bar 814 are installed on the same straight line, the sliding block 812 is fixed at the left end and the right end of the guard bar 814, and the top of the guard bar 814 faces the tensioning slot 813.

The guard bar 814 is used for supporting and fixing the position of the tensioning groove 813, the cable sheath is connected to the tensioning groove 813, the tensioning groove 813 rotates to drive the cable sheath to pull, the guard bar 814 is used for fixedly supporting the tensioning groove 813, and the phenomenon that the tensioning groove 813 sinks due to the gravity of the cable sheath is prevented.

Referring to fig. 9, the tensioning groove 813 includes a friction pad 8131, a regulation and control slot 8132, a traction wheel 8133, a placement cavity 8134, and a regulation roller shaft 8135, the friction pad 8131 is connected to the top of the regulation and control slot 8132 in a penetrating manner, the top of the regulation and control slot 8132 is overlapped with the middle of the friction pad 8131, the regulation and control slot 8132 is matched with the traction wheel 8133, the regulation roller shaft 8135 is arranged at the middle of the traction wheel 8133, the regulation roller shaft 8135 is embedded in the left side and the right side of the traction wheel 8133 in a penetrating manner, the placement cavity 8134 is arranged at the top of the traction wheel 8133, and the placement cavity 8134 is fixed on the traction wheel 8133.

The friction pad 8131 is used for adjusting the rotation speed of the traction wheel 8133, when the traction wheel 8133 rotates and is in contact with the friction pad 8131, the rotation speed of the traction wheel 8133 is uniform, the phenomenon of over-high rotation of the traction wheel 8133 cannot occur, and the tension of the cable sheath is uniformly controlled.

Referring to fig. 10, the adjustable clamping groove 8132 includes a supporting plate b1, an attaching pad b2, and a movable pressing block b3, the top of the supporting plate b1 is provided with an attaching pad b2, two ends of the attaching pad b2 are embedded in the left and right sides of the top of the supporting plate b1, the lower end of the supporting plate b1 is provided with a movable pressing block b3, and the movable pressing blocks b3 are fixedly installed on two sides of the bottom of the supporting plate b 1.

The above-mentioned joint pad b2 is used to support the friction pad 8131 in cooperation with the supporting plate b1, and push up the position of the friction pad 8131, so that the friction pad 8131 can contact with the traction wheel 8133, and the rotation speed of the traction wheel can be maintained at a corresponding speed.

The working principle of the above technical solution is explained as follows:

when the cable sheath drying device is used, the surface of the cable sheath is processed through the processing cavity 1, the processed cable sheath is conveyed to the fixed rotating wheel 4 through the connecting disc 2, the fixed rotating wheel 4 conveys the cable sheath to the drying device 5, the surface of the processed cable sheath is dried through the drying device 5, the adjusting screw 6 is used for rotating, the positions of the conveying discs 7 are adjusted, the two conveying discs 7 can be tightly attached to the left side and the right side of the leading-out rod 9, the cable sheath is uniformly drawn through the drawing device 8, the processed cable sheath is completely and rapidly output through the leading-out rod 9, and the processing effect of the cable sheath is improved.

When the processed cable sheath is output, the fastener 84 is clamped with the lifting assembly 81, the fastener 84 is vertically fixed on the fixed seat 83, the roller 811 is fixedly clamped on the flat-holding piece 816, the roller 811 is tightly clamped with a slide rail outside the movable disc 82, the processed cable sheath is inserted on the placing cavity 8134, the adjusting roller shaft 8135 drives the traction wheel 8133 to rotate, the position of the traction wheel 8133 is supported by the protective rod 814, when the tensioning groove 813 slides downwards under the gravity of the cable sheath, the protective rod 814 and the return spring 815 support the traction wheel 8133, so that the traction wheel 8133 can be stably used, the cable sheath is output through the rotation of the traction wheel 8133, the friction pad 8131 is overlapped with the attaching pad b2, the attaching pad b2 pushes the friction pad 8131 upwards, when the traction wheel 8133 rotates, the lower end of the traction wheel 8133 contacts with the friction pad 8131, make the traction wheel 8133 receive friction pad 8131's resistance, control traction wheel 8133's slew velocity for the traction wheel 8133 can carry out stable transport to the cable sheath at the uniform velocity, big-hour when preventing the tension that the cable sheath received is little, leads to just processing the word on the cable sheath surface because the too big fuzzy phenomenon that appears of tension, and makes the sheath can effectually protect the cable, improves the result of use of sheath.

In conclusion, the blowing device is arranged, wind energy generated by rotation of the fan blades is conveyed to the wind suction disc through the through holes, the two rotary discs assist the wind outlet plates to convey wind, so that wind can be conveyed to the wind outlet pipes through the wind outlet plates, and then the wind is uniformly conveyed to the surface of the cable sheath through the wind outlet pipes 512, so that the surface of the cable sheath can be uniformly blown and dried, strong wind is prevented from being blown and dried directly opposite to the surface of the sheath, the cable sheath is protected, and the protection effect of the sheath is improved; through setting up draw gear, alternate the cable sheath on placing the chamber, the cable sheath exports through the rotation of traction wheel, and the laminating pad upwards pushes up the friction pad, and the traction wheel can contact with the friction pad and receive certain resistance for the slew velocity control of traction wheel is at the uniform speed, and the tension that can realize the cable sheath and receive is even, protects the cable sheath after just processing, improves the result of use of sheath.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides a power cable sheath surface machining professional equipment, its structure includes treatment chamber (1), connection pad (2), organism (3), fixed runner (4), weathers device (5), adjusting screw (6), delivery disc (7), draw gear (8), exports pole (9), positioning seat (10), its characterized in that:

the processing cavity (1) is tightly attached to the connecting disc (2), the conveying disc (7) is clamped on the lead-out rod (9) through an adjusting screw (6), the traction device (8) is provided with a blow-drying device (5), the positioning seat (10) is embedded in the machine body (3), and the fixed rotating wheel (4) is clamped on the machine body (3);

the blow-drying device (5) comprises an air conveying assembly (51), an interface (52), an input port (53), a movable guide rod (54), an output port (55) and an air guide pipe (56), wherein the air conveying assembly (51) is arranged at the interface (52), the input port (53) is communicated with the air guide pipe (56) through the air conveying assembly (51), and the output port (55) is connected with the air guide pipe (56) through the movable guide rod (54);

the air delivery assembly (51) comprises an air exhaust disc (511), an air outlet pipe (512), through holes (513), fan blades (514) and a rotating shaft (515), the fan blades (514) are embedded in the rotating shaft (515), the air exhaust disc (511) is provided with the through holes (513), and the air exhaust disc (511) is installed on the air outlet pipe (512);

the air exhaust disc (511) comprises an arc-shaped hole (5111), a rotating wheel (5112), a rotating guide disc (5113) and an air suction assembly (5114), wherein the arc-shaped hole (5111) is formed in the rotating guide disc (5113), the air suction assembly (5114) is embedded in the rotating guide disc (5113), and the rotating guide disc (5113) is connected with the rotating wheel (5112) through a belt;

the air suction assembly (5114) comprises an air storage cavity (a1), a diversion trench (a2) and an air suction disc (a3), wherein the air storage cavity (a1) is arranged on the air suction disc (a3), and the diversion trench (a2) is buckled with the air storage cavity (a 1);

the guiding gutter (a2) is including guiding opening (a21), carousel (a22), air-out board (a23), guiding opening (a21) are established on carousel (a22), carousel (a22) are being connected air-out board (a 23).

2. The special equipment for processing the surface of the sheath of the power cable as claimed in claim 1, wherein: the traction device (8) comprises a lifting assembly (81), a movable disc (82), a fixed seat (83) and a fastener (84), wherein the lifting assembly (81) is installed on the movable disc (82), and the fastener (84) penetrates through the fixed seat (83) to be inserted.

3. The special equipment for processing the surface of the sheath of the power cable as claimed in claim 2, wherein: the lifting assembly (81) comprises a roller (811), a sliding block (812), a tensioning groove (813), a guard rod (814), a return spring (815) and a leveling piece (816), wherein the roller (811) is installed on the leveling piece (816), the return spring (815) and the guard rod (814) are arranged on the same straight line, the sliding block (812) is fixed on the guard rod (814), and the guard rod (814) is opposite to the tensioning groove (813).

4. The special equipment for processing the surface of the sheath of the power cable as claimed in claim 3, wherein: the tensioning groove (813) comprises a friction pad (8131), a regulation and control clamping groove (8132), a traction wheel (8133), a placement cavity (8134) and an adjusting roll shaft (8135), the friction pad (8131) penetrates through the regulation and control clamping groove (8132), the adjusting roll shaft (8135) is embedded in the traction wheel (8133), and the placement cavity (8134) is fixed on the traction wheel (8133).

5. The special equipment for processing the surface of the sheath of the power cable as claimed in claim 4, wherein: the regulation and control draw-in groove (8132) is including layer board (b1), laminating pad (b2), activity briquetting (b3), laminating pad (b2) inlays in layer board (b1), activity briquetting (b3) are installed at layer board (b 1).

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