CN217848810U - Control equipment for ultraviolet curing repair - Google Patents

Abstract

The utility model provides a controlgear is used in ultraviolet curing restoration, including drum, axostylus axostyle, conductive slip ring, cable conductor and electric board, the drum rotate connect in on the axostylus axostyle, conductive slip ring quantity is two, two conductive slip ring intervals set up in on the axostylus axostyle, and two conductive slip rings are located in the drum, the cable conductor is around locating on the drum, electric board set up in outside the drum, two conductive slip rings connect respectively in the electric board with between the cable conductor. This controlgear for ultraviolet curing restoration, through setting up two conductive slip rings, two conductive slip rings transmit the plc signal between gas board and the cable conductor respectively to and realize the power transmission between gas board and the cable conductor, avoid gas board and cable conductor junction to produce great heat, influence signal transmission and equipment life, make the operator install and maintain two conductive slip rings respectively simultaneously.

Description

Control equipment for ultraviolet curing repair

Technical Field

The utility model relates to an ultraviolet curing restores the field, especially relates to an ultraviolet curing restores and uses controlgear.

Background

The trenchless repairing technology is characterized in that repairing parameters are set on a control console, a uv lamp chain is connected with the control console through a cable to enter a pipeline for operation, ultraviolet light repairing equipment is usually fixed vehicle-mounted equipment, repairing parameters, such as repairing pipe diameter, repairing material wall thickness and ultraviolet lamp section number, are set on a plc control console, an ultraviolet light source is started after the parameters are set, original in-situ solidification at an initial well end is started, the ultraviolet light source is recovered after the operation is completed, general equipment is divided into a control cabinet and a wire coil, and two machines are communicated through a connecting wire.

However, in the existing ultraviolet light repairing equipment, the cable is wound and unwound on the equipment by using the wire coil, the cable is connected with the control circuit through the conductive sliding ring in the process, the lamp chain on the equipment is powered and signal transmission is carried out through the single conductive sliding ring, in the using process, heat accumulation is easy to cause, the signal transmission effect is influenced, and the maintenance of the signal transmission circuit and the power supply circuit is not convenient for operators respectively, wherein the cable is easy to be influenced by external force in the releasing process, the cable is scattered, and the releasing and winding of the cable are influenced.

To sum up, an ultraviolet curing repair control device which can respectively supply power and transmit signals to a lamp chain on equipment, is convenient for an operator to respectively overhaul and maintain a signal transmission line and a power supply line and can avoid the problem that cables are easily scattered in the cable releasing process is urgently needed.

SUMMERY OF THE UTILITY MODEL

In order to solve above-mentioned current ultraviolet ray repair equipment and can not supply power and signal transmission respectively to the lamp chain on the equipment, the operating personnel of being not convenient for overhauls respectively signal transmission line and power supply line and maintains, can not avoid the easy in disorder problem of cable conductor release in-process, the utility model provides an ultraviolet curing is controlgear for restoration.

According to the utility model discloses an aim, the utility model provides an ultraviolet curing is controlgear for restoration, include:

the cable comprises a wire coil, a shaft rod, two conductive slip rings, a cable conductor and an electric plate, wherein the wire coil is rotationally connected to the shaft rod, the number of the conductive slip rings is two, the two conductive slip rings are arranged on the shaft rod at intervals, the two conductive slip rings are positioned in the wire coil, the cable conductor is wound on the wire coil, the electric plate is arranged outside the wire coil, and the two conductive slip rings are respectively connected between the electric plate and the cable conductor.

Preferably, each conductive slip ring comprises an inner ring and an outer ring, the inner ring is fixed outside the shaft rod, the outer ring is rotatably connected outside the inner ring, and the outer ring is fixedly connected with the wire coil, wherein the inner ring is electrically connected with the outer ring, and the inner ring is connected with the electric plate;

the cable line comprises a signal transmission line core and a power supply line core, wherein the signal transmission line core and the power supply line core are respectively wound on the wire coil at intervals, the outer ring of one conductive slip ring is connected with the power supply line core, and the outer ring of the other conductive slip ring is connected with the signal transmission line core.

Preferably, the inner ring is connected with the electric board through a connecting line, two end parts of the shaft rod are positioned outside the wire coil, one end part of the connecting line is connected with the inner ring, and the other end of the connecting line penetrates into the shaft rod positioned in the wire coil and penetrates out along the end part of the shaft rod close to the inner ring until the connecting line is connected with the electric board.

Preferably, the wire coil comprises a first coil body, a second coil body and a connection sleeve, the first coil body and the second coil body are arranged oppositely, the connection sleeve is fixedly connected between the first coil body and the second coil body, the power supply wire core and the signal transmission wire core are respectively wound on the periphery of the connection sleeve at intervals, the first coil body and the second coil body are respectively and rotatably arranged on the shaft rod, the first coil body, the second coil body and the connection sleeve are coaxially arranged, the connection sleeve is located outside the shaft rod, and the connection sleeve and the outer ring are fixedly connected.

Preferably, the connection kit includes a plurality of plate-like members, the plurality of plate-like members are spaced around the axis of the shaft, an outer periphery of the connection kit is located inside an outer periphery of the first tray, and an outer periphery of the connection kit is located inside an outer periphery of the second tray.

Preferably, the connector further comprises two aviation plugs, and each aviation plug is correspondingly connected between one conductive slip ring and the cable.

Preferably, still include the plug mount, plug mount fixed connection in the drum is last, two aviation plugs respectively detachable connect in on the plug mount.

Preferably, the ballast is further included, and the ballast is electrically connected between the electric board and the power supply core.

Preferably, the lamp chain is arranged at the end part, on one side, of the electric conduction slip ring, of the cable, the lamp chain is connected with the power supply wire core and the signal transmission wire core respectively, the lamp chain sequentially passes through the power supply wire core and the electric conduction slip ring to be connected with the ballast, and the number of the lamp chain corresponds to the number of the ballast one to one.

Preferably, the cable pressing device further comprises a support frame, a wire pressing wheel and an extension spring, wherein the shaft rod penetrates through the front side and the rear side of the support frame, the wire coil and the electric plate are located in the support frame, the wire coil and the electric plate are sequentially arranged on the support frame from left to right, the wire pressing wheel is connected to the support frame in a hinged mode, the wire pressing wheel is located above the wire coil, the extension spring is connected between the wire pressing wheel and the support frame, and the wire pressing wheel is in butt joint with a cable around the wire coil.

Compared with the prior art, the beneficial effects of the utility model are that:

1. when the cable needs to be wound, a motor is started, the motor drives a wire coil to rotate on a shaft rod, the wire coil winds the cable, when the cable needs to be released, one end of the cable, which is connected with a lamp chain, is pulled out of a support frame, the cable pulls the wire coil to rotate on the shaft rod, an outer ring rotates along with the wire coil in the rotating process of the cable, and a conductive sliding ring stably transmits signals and electric power between an electric plate and the lamp chain;

2. according to the control equipment for ultraviolet curing repair, in the transmission process of the first slip ring and the second slip ring, the first slip ring and the second slip ring respectively transmit electric power and signals on an electric board, so that the situation that the transmission effect is influenced due to the fact that more heat is generated at the joint is avoided, and meanwhile, an operator can conveniently and respectively overhaul and maintain a signal transmission line and a power supply line;

3. this controlgear is used in ultraviolet curing restoration, the cable conductor release rolling in-process on the drum, the fabric wheel is under the extension spring effect, with the cable conductor pressfitting on the drum all the time, avoids the cable conductor to take off with the drum pine in the motion process.

The present invention will be further described with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic view of the whole control device for uv curing repair according to one embodiment of the present invention.

Fig. 2 is an elevation view of a wire coil according to an embodiment of the control apparatus for ultraviolet curing repair.

In the figure: 100. wire coils; 101. a first tray body; 102. a second tray body; 103. a connecting kit; 1031. a plate-like member; 1032. a fixing member; 200. a shaft lever; 300. a conductive slip ring; 301. an inner ring; 3011. a first inner ring; 3012. a second inner ring; 302. an outer ring; 3021. a first outer ring; 3022. a second outer ring; 304. a first slip ring; 305. a second slip ring; 500. an electric board; 700. a plug holder; 800. a stabilizer; 1000. a support frame; 1100. a wire pressing wheel; 1200. a tension spring; 1300. an electric motor.

Detailed Description

The following description is provided to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

Referring to fig. 1-2, the present invention provides a technical solution: an ultraviolet curing repair control apparatus comprising:

the wire coil 100 is rotatably connected to the shaft rod 200, the number of the conductive slip rings 300 is two, the two conductive slip rings 300 are arranged on the shaft rod 200 at intervals, the two conductive slip rings 300 are located in the wire coil 100, the cable wire is wound on the wire coil 100, the electric plate 500 is arranged outside the wire coil 100, and the two conductive slip rings 300 are respectively connected between the electric plate 500 and the cable wire.

Through rotating drum 100 and connecting on axostylus axostyle 200 for drum 100 can carry out the rolling to the cable conductor when rotating on axostylus axostyle 200, through setting up two slip rings 300 that lead electricity, two slip rings 300 that lead electricity transmit the plc signal between gas board 500 and the cable conductor respectively, and realize the power transmission between gas board 500 and the cable conductor, avoid electric board 500 and cable conductor junction to produce great heat, influence signal transmission and equipment life, make the operator to install and maintain two slip rings 300 that lead electricity respectively simultaneously.

Further, each conductive slip ring 300 comprises an inner ring 301 and an outer ring 302, respectively, the inner ring 301 is fixed outside the shaft 200, the outer ring 302 is rotatably connected outside the inner ring 301, and the outer ring 302 is fixedly connected with the wire coil 100, wherein the inner ring 301 and the outer ring 302 are electrically connected, and the inner ring 301 is connected with the electrical plate 500;

the cable line comprises a signal transmission line core and a power supply line core, the signal transmission line core and the power supply line core are respectively wound on the wire coil 100 at intervals, the outer ring 302 of one conductive slip ring 300 is connected with the power supply line core, and the outer ring 302 of the other conductive slip ring 300 is connected with the signal transmission line core.

By fixing the inner ring 301 outside the shaft rod 200, the outer ring 302 is fixedly connected to the wire coil 100, so that when the wire coil 100 rotates on the shaft rod 200, the wire coil 100 can drive the outer ring 302 to rotate on the inner ring 301, and when the cables move under the action of the wire coil 100, the inner ring 301 can cooperate with the outer ring 302 to stably transmit the signals of the electrical board 500 to the cables.

Further, the inner ring 301 and the electric board 500 are connected by a connecting wire, two ends of the shaft rod 200 are located outside the wire coil 100, one end of the connecting wire is connected with the inner ring 301, and the other end of the connecting wire penetrates through the shaft rod 200 located in the wire coil 100 and penetrates out along the end of the shaft rod 200 close to the inner ring 301 until the electric board 500 is connected.

By defining the routing of the connection lines on the shaft 200, the connection lines can connect the inner ring 301 and the electrical board 500, so that the signals can be stably transmitted between the inner ring 301 and the electrical board 500.

Further, the wire coil 100 includes a first disc 101, a second disc 102 and a connection kit 103, the first disc 101 and the second disc 102 are disposed oppositely, the connection kit 103 is fixedly connected between the first disc 101 and the second disc 102, the power supply cable core and the signal transmission cable core are respectively disposed at the periphery of the connection kit 103 at intervals, the first disc 101 and the second disc 102 are respectively rotatably disposed on the shaft rod 200, and the shaft rod 200, the first disc 101, the second disc 102 and the connection kit 103 are coaxially disposed, wherein the connection kit 103 is located outside the shaft rod 200, and the connection kit 103 is fixedly connected to the outer ring 302.

The first tray body 101 and the second tray body 102 are arranged oppositely and fixed through the connecting sleeve 103, so that a space for the conductive slip ring 300 and the cable to run is formed between the first tray body 101 and the second tray body 102, and the shaft rod 200, the first tray body 101, the second tray body 102 and the connecting sleeve 103 are coaxially arranged, so that the second tray body 102 and the first tray body 101 can be stably rotated on the connecting sleeve 103, and the cable is prevented from shaking when being wound and unwound due to gravity center deviation.

Specifically, a fixing member 1032 is disposed between the connection sleeve 103 and the outer ring 302, and both ends of the fixing member 1032 are fixedly connected to the connection sleeve 103 and the outer ring 302, respectively, wherein the fixing member 1032 is a plate-shaped fixing member 1032.

Further, the two conductive slip rings 300 are respectively a first slip ring 304 and a second slip ring 305, the first disc body 101, the first slip ring 304, the second slip ring 305 and the second disc body 102 are sequentially arranged along the axial direction of the shaft rod 200, the inner ring 301 includes a first inner ring 3011 and a second inner ring 3012, the first inner ring 3011 is disposed on the first slip ring 304, the second inner ring 3012 is disposed on the second slip ring 305, the outer ring 302 includes a first outer ring 3021 and a second outer ring 3022, the first outer ring 3021 is disposed on the first slip ring 304, the second outer ring 3022 is disposed on the second slip ring 305, wherein the first inner ring 3011 is disposed in the first outer ring 3021, the second inner ring 3012 is disposed in the second outer ring 3022, the first inner ring 3011 is electrically connected to the first slip ring 3021, the second inner ring 3012 is electrically connected to the second outer ring 3022, and the second inner ring 3012 is connected to the second inner ring 3022, and the second inner ring is connected to the second inner ring 3012, and the second inner ring is connected to the second connection wire.

In one embodiment of the present invention, the first slip ring 304 has a larger dimension than the second slip ring 305.

Furthermore, a first wire inlet, a first wire outlet, a second wire inlet and a second wire outlet are formed in the shaft rod 200, the first wire inlet is located between the first disk body 101 and the first inner ring 3011, the first wire outlet is located in the center of the end portion, close to one side of the first disk body 101, of the shaft rod 200, the second wire inlet is located between the second disk body 102 and the second inner ring 3012, the second wire outlet is located in the center of the end portion, close to one side of the second disk body 102, of the shaft rod 200, the first wire inlet is communicated with the first wire outlet, the second wire inlet is communicated with the second wire outlet, the first connecting wire penetrates through the first wire inlet and the first wire outlet, and the second connecting wire inlet penetrates through the second wire outlet.

Further, the first connection line is disposed toward the first tray 101, and the second connection line is disposed toward the second tray 102.

By defining the installation positions of the first connection line and the first disc 101 and the installation position between the second connection line and the second disc 102, the end of the first connection line far away from the first inner ring 3011 is close to the end of the shaft rod 200, and the end of the second connection line far away from the second inner ring 3012 is close to the other end of the shaft rod 200, the operator can conveniently route the first connection line and the second connection line.

Furthermore, transmission lines are disposed on the first outer ring 3021 and the second outer ring 3022, the transmission lines include a first transmission line and a second transmission line, one end of the first transmission line is connected to the first outer ring 3021, the other end of the first transmission line is connected to the power supply core, one end of the second transmission line is connected to the second outer ring 3022, and the other end of the second transmission line is connected to the signal transmission core.

In one embodiment of the present invention, the second transmission line is connected to the side of the outer ring 302 near the center of the shaft 200, and the first transmission line is connected to the side of the outer ring 302 near the center of the shaft 200.

The installation position between the first transmission line and the outer ring 302 is defined, and the installation position between the second transmission line and the outer ring 302 is defined, so that the first transmission line and the power supply wire core, and the second transmission line and the data transmission wire core have small intervals, and the connection and routing of operators are facilitated.

Further, the connection kit 103 comprises a plurality of plate members 1031, the plate members 1031 are spaced around the axis of the shaft 200, the outer periphery of the connection kit 103 is located inside the outer periphery of the first tray 101, and the outer periphery of the connection kit 103 is located inside the outer periphery of the second tray 102.

The first tray 101 and the second tray 102 are limited by the connection kit 103, so that a certain interval is formed between the outer periphery of the connection kit 103 and the outer periphery of the first tray 101, and a certain interval is formed between the outer periphery of the connection kit 103 and the outer periphery of the second tray 102, when the connection kit 103 winds cables, the cables can be limited by the first tray 101 and the second tray 102, and the cables are prevented from slipping off the connection kit 103.

Furthermore, the device further comprises two aviation plugs, and each aviation plug is correspondingly connected between one conductive slip ring 300 and the cable.

Through setting up the circular connector, the operator's accessible the circular connector is nimble right the sliding ring 300 that leads electricity with the cable conductor is connected and the split, and the operator of further being convenient for maintains this equipment.

In one embodiment of the present invention, the aviation plug includes a first aviation plug and a second aviation plug, the first aviation plug is connected between the first transmission line and the power supply core, and the second aviation plug is connected between the second transmission line and the signal transmission core.

Further, the plug fixing frame 700 is further included, the plug fixing frame 700 is fixedly connected to the wire coil 100, and the two aviation plugs are detachably connected to the plug fixing frame 700 respectively.

Through setting up plug mount 700, can with on the plug mount 700 the circular connector inserts the fixed of realization to the mounted position between circular connector and drum 100, avoid the circular connector to rock in drum 100 motion process, influence the connection stability of circular connector.

In one embodiment of the present invention, the plug holder 700 comprises a first bending portion and a second bending portion, the first bending portion is fixedly connected to the first disc body 101 toward the conductive sliding ring 300, the first bending portion and the second bending portion are connected in a bending manner, a through hole is formed on the second bending portion, and the through hole and the aviation plug are adapted to allow the aviation plug to be inserted and fixed into the through hole, so as to fix the aviation plug.

Further, a stabilizer 800 is further included, and the stabilizer 800 is electrically connected between the electric board 500 and the power supply core.

Through stabilizer 800's setting, stabilizer 800 can adjust the voltage on the electric board 500, guarantees the last electrical apparatus steady operation of connecting of power supply core.

Further, still include the lamp chain, the lamp chain set up in the cable conductor deviates from conducting slip ring 300 a side end, the lamp chain is connected respectively the power supply sinle silk with the signal transmission sinle silk, wherein the lamp chain loops through the power supply sinle silk with conducting slip ring 300 connects stabilizer 800, the quantity of lamp chain with the quantity one-to-one of stabilizer 800.

Through setting up the lamp chain, the power supply sinle silk with the signal transmission sinle silk can respectively with signal of telecommunication and plc data signal on the electric board 500 convey to on the lamp chain, it is right to realize the energy supply and the control of lamp chain, wherein will stabilizer 800 and lamp chain connect, guarantee the stability of electric current on the lamp chain.

In one embodiment of the present invention, the number of the ballast 800 is six, and the number of the supporting lamp chains is six.

Further, the device further comprises a support frame 1000, a wire pressing wheel 1100 and a tension spring 1200, wherein the shaft rod 200 penetrates through the front side and the rear side of the support frame 1000, the wire coil 100 and the electric plate 500 are located in the support frame 1000, the wire coil 100 and the electric plate 500 are sequentially arranged on the support frame 1000 from left to right, the wire pressing wheel 1100 is connected to the support frame 1000 in a hinged mode, the wire pressing wheel 1100 is located above the wire coil 100, the tension spring 1200 is connected between the wire pressing wheel 1100 and the support frame 1000, and the wire pressing wheel 1100 is abutted to a cable wound on the wire coil 100.

Through setting up the support frame 1000 the fabric wheel 1100 with extension spring 1200, the fabric wheel 1100 is in under the extension spring 1200 effect can support the cable conductor on the drum 100, in order to avoid the cable conductor pine takes off with the rolling in-process in release.

In one embodiment of the present invention, the supporting frame 1000 is provided with a wiring slot, and the connecting wire is embedded in the wiring slot.

Further, the device further comprises a motor 1300, wherein the motor 1300 is arranged on the support frame 1000, and the motor 1300 is positioned below the wire coil 100, wherein the motor 1300 is in transmission connection with the wire coil 100.

In one embodiment of the present invention, a first driving wheel is disposed at the output end of the motor 1300, a second driving wheel is disposed outside the wire coil 100, a crawler belt is connected between the first driving wheel and the second driving wheel, and the crawler belt is connected to the first driving wheel and the second driving wheel respectively for driving.

The working principle is as follows: when the device is used, the power supply wire core is connected with a first transmission line through a first aviation plug, the signal transmission wire core is connected with a second transmission line through a second aviation plug, the first aviation plug and the second aviation plug are fixed on the plug fixing frame 700, the first connection wire is connected with the corresponding stabilizer 800, the stabilizer 800 is connected with a power supply on the electric board 500, the second connection wire is connected with a plc signal transmission port on the electric board 500, and power supply and output control of the electric board 500 to a lamp chain are realized;

when a cable needs to be wound, the motor 1300 is started, the motor 1300 drives the wire coil 100 to rotate on the shaft rod 200, the wire coil 100 winds the cable, when the cable needs to be released, one end of the cable, which is connected with a lamp chain, is pulled out of the support frame 1000, the cable pulls the wire coil 100 to rotate on the shaft rod 200, the outer ring 302 rotates along with the wire coil 100 in the rotating process of the cable, and the conductive slip ring 300 stably transmits signals and electric power between the electric plate 500 and the lamp chain;

in the transmission process of the first slip ring 304 and the second slip ring 305, the first slip ring 304 and the second slip ring 305 respectively transmit electric power and signals on the electric board 500, so that the phenomenon that the transmission effect is affected due to more heat generated at the joint is avoided, and meanwhile, an operator can conveniently and respectively overhaul and maintain a signal transmission line and a power supply line;

wherein can in the cable conductor motion process on drum 100, the wire wheel 1100 is under extension spring 1200 effect, with the cable conductor pressfitting on drum 100 all the time, avoid the cable conductor to come loose with drum 100 in the motion process.

To sum up, through rotating drum 100 and connecting on axostylus axostyle 200, make drum 100 can carry out the rolling to the cable conductor when rotating on axostylus axostyle 200, through setting up two slip rings 300 that lead electricity, two slip rings 300 that lead electricity transmit the plc signal between gas board 500 and the cable conductor respectively, and realize the power transmission between gas board 500 and the cable conductor, avoid gas board 500 and cable conductor junction to produce great heat, influence signal transmission and equipment life, make the operator to install and maintain two slip rings 300 that lead electricity respectively simultaneously.

The above-mentioned embodiments are only used to illustrate the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to limit the patented application scope of the present invention only by the present embodiment, i.e. all the equivalent changes or modifications made according to the spirit disclosed by the present invention still fall within the patented scope of the present invention.

Claims (10)

1. An ultraviolet curing repair control apparatus, comprising:

the cable comprises a wire coil (100), a shaft rod (200), two conductive slip rings (300), a cable and an electric plate (500), wherein the wire coil (100) is rotatably connected to the shaft rod (200), the number of the conductive slip rings (300) is two, the two conductive slip rings (300) are arranged on the shaft rod (200) at intervals, the two conductive slip rings (300) are positioned in the wire coil (100), the cable is wound on the wire coil (100), the electric plate (500) is arranged outside the wire coil (100), and the two conductive slip rings (300) are respectively connected between the electric plate (500) and the cable.

2. The uv curing repair control apparatus according to claim 1, wherein:

each conductive slip ring (300) comprises an inner ring (301) and an outer ring (302), the inner ring (301) is fixed on the outer side of the shaft rod (200), the outer ring (302) is rotationally connected to the outside of the inner ring (301), and the outer ring (302) is fixedly connected with the wire coil (100), wherein the inner ring (301) is electrically connected with the outer ring (302), and the inner ring (301) is connected with the electric plate (500);

the cable line comprises a signal transmission line core and a power supply line core, wherein the signal transmission line core and the power supply line core are respectively wound on the wire coil (100) at intervals, the outer ring (302) of one conductive slip ring (300) is connected with the power supply line core, and the outer ring (302) of the other conductive slip ring (300) is connected with the signal transmission line core.

3. The uv curing repair control apparatus according to claim 2, wherein:

the inner ring (301) is connected with the electric plate (500) through a connecting line, two ends of the shaft lever (200) are positioned outside the wire coil (100), one end of the connecting line is connected with the inner ring (301), the other end of the connecting line penetrates into the shaft lever (200) positioned in the wire coil (100) and penetrates out along the end of the shaft lever (200) close to the inner ring (301) until the shaft lever is connected with the electric plate (500).

4. The uv curing repair control apparatus according to claim 2, wherein:

the wire coil (100) comprises a first coil body (101), a second coil body (102) and a connection sleeve member (103), the first coil body (101) and the second coil body (102) are arranged oppositely, the connection sleeve member (103) is fixedly connected between the first coil body (101) and the second coil body (102), the power supply wire core and the signal transmission wire core are respectively wound on the periphery of the connection sleeve member (103) at intervals, the first coil body (101) and the second coil body (102) are respectively and rotatably arranged on the shaft rod (200), the first coil body (101), the second coil body (102) and the connection sleeve member (103) are coaxially arranged, the connection sleeve member (103) is positioned outside the shaft rod (200), and the connection sleeve member (103) is fixedly connected with the outer ring (302).

5. The uv curing repair control apparatus according to claim 4, wherein:

the connection kit (103) comprises a plurality of plate-shaped members (1031), the plurality of plate-shaped members (1031) are arranged around the axis of the shaft rod (200) at intervals, the outer periphery of the connection kit (103) is positioned in the outer periphery of the first tray body (101), and the outer periphery of the connection kit (103) is positioned in the outer periphery of the second tray body (102).

6. The uv curing repair control apparatus according to claim 1, wherein:

the number of the aviation plugs is two, and each aviation plug is correspondingly connected between one conductive slip ring (300) and the cable.

7. The UV curing repair control apparatus according to claim 6, wherein:

still include plug mount (700), plug mount (700) fixed connection in drum (100) is last, two aviation plugs respectively detachable connect in on plug mount (700).

8. The uv curing repair control apparatus according to claim 2, wherein:

the ballast (800) is electrically connected between the electric board (500) and the power supply wire core.

9. The uv curing repair control apparatus according to claim 8, wherein:

still include the lamp chain, the lamp chain set up in the cable conductor deviates from a side end of conductive slip ring (300), the lamp chain is connected respectively the power supply sinle silk with the signal transmission sinle silk, wherein the lamp chain loops through the power supply sinle silk with conductive slip ring (300) is connected stabilizer (800), the quantity of lamp chain with the quantity one-to-one of stabilizer (800).

10. The uv curing repair control apparatus according to claim 1, wherein:

still include support frame (1000), wire pressing wheel (1100) and extension spring (1200), axostylus axostyle (200) are worn to locate the front and back side of support frame (1000), drum (100) with electric plate (500) are located in support frame (1000), and drum (100) with electric plate (500) are in arrange from a left side to the right side in proper order on support frame (1000), wire pressing wheel (1100) articulated connect in on support frame (1000), and wire pressing wheel (1100) are located the top of drum (100), extension spring (1200) connect in wire pressing wheel (1100) with between support frame (1000), wire pressing wheel (1100) with around locating on drum (100) cable conductor looks butt.

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