CN105762600A - Conductive slip ring and cable folding and unfolding apparatus applying the conductive slip ring - Google Patents

Abstract

The invention provides a conductive slip ring and a cable folding and unfolding apparatus applying the conductive slip ring. The cable folding and unfolding apparatus comprises a winding drum, a motor, the conductive slip ring and a framework. The winding drum and the motor are arranged in the framework. The conductive slip ring is arranged in the winding drum. By using the cable folding and unfolding apparatus provided in the invention, through the conductive slip ring arranged in the winding drum, when a cable is twined, the conductive slip ring and the winding drum are rotated along a same direction at a same rotating speed. Cable damages caused by long-term torsion of the cable when the cable is twined can be effectively eliminated so that a service life of the cable is prolonged. Besides, through cooperation of a frequency converter, a limited sensor, a controller and a speed reducer, the cable folding and unfolding apparatus can intelligently control a rotation speed of the winding drum and stop take-up and paying-off during a cable folding and unfolding process. Through arranging a guiding device, the cable is skillfully twined in an outer surface of the winding drum.

Description

Conducting slip ring and apply the cable winding apparatus of this conducting slip ring

Technical field

The present invention relates to cable and house field, in particular to a kind of conducting slip ring and the cable winding apparatus applying this conducting slip ring.

Background technology

In airport, various power-supply devices can use cable to power, and such as carries in 115V/400HZ power supply to aircraft, it is necessary to uses cable to access external power source, to carry to aircraft.In above-mentioned work process, it is necessary to by cable winding apparatus with folding and unfolding cable, it is simple to the management of cable.Traditional cable winding apparatus is after accessing external power source, it is wrapped in mandrel surface, the one end accessing external power source is fixed, and be wrapped in mandrel surface with spool turns, make cable winds in the intersection of the fixing part of part and the cable of reel, due to the speed difference at two ends, twist, long-term torsion causes knotting and the breakage of junction cable, causes cable to scrap.

Summary of the invention

In view of this, it is an object of the invention to provide a kind of conducting slip ring and apply the cable winding apparatus of this conducting slip ring, to improve above-mentioned problem.

To achieve these goals, the technical solution used in the present invention is as follows:

nullA kind of conducting slip ring，Including stator terminal、Rotor-end、Fixed insulation axle、Rotating insulated axle、Fixed disk and rotation dish，Described rotor-end includes rotor disk and the first flange，Described stator terminal includes the second flange，Described rotor disk and described first flange are rotationally connected，One end of described fixed insulation axle connects described second flange，The other end of described fixed insulation axle connects described first flange，One end of described rotating insulated axle connects described rotor disk，Described rotor disk rotates to drive described rotating insulated axle to rotate，Described fixed disk is fixed on described fixed insulation axle，Described rotation dish is fixed on described rotating insulated axle，Described rotor disk arranges perforate to allow that cable through described rotor disk and fixing with described rotation dish is connected，Described second flange arranges perforate to allow that the cable of external power source through the second flange and fixing with described fixed disk is connected.

Preferably, described conducting slip ring also includes support bar, one end of described support bar connects described stator terminal, the other end of described support bar connects the first flange of described rotor-end, the quantity of described fixed disk and described rotation dish is multiple, described fixed disk is equal with the quantity of described rotation dish, and described fixed disk is additionally provided with brush, and described brush contacts with described rotation dish.

nullA kind of cable winding apparatus，For folding and unfolding cable，Described cable winding apparatus includes framework、Reel、Conducting slip ring and motor，Described reel and motor are arranged at described framework，Described conducting slip ring is built in described reel，Described conducting slip ring includes stator terminal、Rotor-end、Fixed insulation axle、Rotating insulated axle、Fixed disk and rotation dish，Described rotor-end includes rotor disk and the first flange，Described stator terminal includes the second flange，Described rotor disk and described first flange are rotationally connected，One end of described fixed insulation axle connects described second flange，The other end of described fixed insulation axle connects described first flange，One end of described rotating insulated axle connects described rotor disk，Described rotor disk rotates to drive described rotating insulated axle to rotate，Described fixed disk is fixed on described fixed insulation axle，Described rotation dish is fixed on described rotating insulated axle，Described rotor disk arranges perforate to allow that cable through described rotor disk and fixing with described rotation dish is connected，Described second flange arranges perforate to allow that the cable of external power source through the second flange and fixing with described fixed disk is connected，Described motor and described reel and described conducting slip ring are all connected with driving described reel and described conducting slip ring to rotate，Described reel is that hollow structure is to allow that cable stretches out from the inside of described reel and is wound in the outer surface of described reel.

Preferably, described conducting slip ring also includes support bar, one end of described support bar connects described second flange, the other end of described support bar connects the first flange of described rotor-end, the quantity of described fixed disk and described rotation dish is multiple, described fixed disk is equal with the quantity of described rotation dish, and described fixed disk is additionally provided with brush, and described brush contacts with described rotation dish.

Preferably, described cable winding apparatus also includes converter, limit sensors and controller, described converter, limit sensors and controller are arranged at described framework, described controller and described converter, limit sensors all electrically connects, described converter electrically connects with described motor, described limit sensors is arranged at the top of described reel, whether described limit sensors sends the signal of telecommunication through the lower section of described limit sensors to described controller through the lower section of described limit sensors and at cable for sensing cable, described controller enables signal for sending to described converter when receiving the signal of telecommunication that described limit sensors sends, described converter rotates according to rotating speed set in advance for the drive motor when receiving the enable signal that controller sends.

Preferably, described cable winding apparatus also includes decelerator, described decelerator is arranged at described framework, described decelerator is connected with described motor, the rotating shaft of described decelerator and described reel, rotor disk are all connected with, and described decelerator is for reducing the rotating speed of described motor and driving described reel and rotor disk to rotate.

Preferably, described cable winding apparatus also includes housing and guider, described housing is coated with described reel, motor, decelerator, converter, limit sensors and controller, described guider is arranged at described framework, described reel outer surface is provided with spiral helicine groove, and described guider is used for guiding cable to be wound in described groove.

Preferably, described reel is columned reel, described guider includes slide rail, slide block and multiple guide roller, described slide block is slidably disposed in described slide rail, the plurality of guide roller is arranged at described slide block, described slide rail is installed on described housing the plane perpendicular with described reel, the plurality of guide roller includes the first orienting roll wheels and the second orienting roll wheels, described first orienting roll wheels are installed on a loading plate side, lead for the direction of motion for cable, described second orienting roll wheels are installed on the opposite side of described loading plate, for driving cable winds in reel.

Preferably, described cable winding apparatus also includes fixed mount, and described fixed mount is installed on described framework and is arranged at the periphery of described reel.

Preferably, described reel is additionally provided with briquetting, and described briquetting is for being fixed on described reel by the cable that the inside from described reel is stretched out, so that cable rotates together with reel.

Conducting slip ring provided by the invention and apply the cable winding apparatus of this conducting slip ring, cable winding apparatus includes reel, motor, conducting slip ring and framework.Reel and motor are arranged at described framework, and conducting slip ring is built in reel.By being built in the conducting slip ring of reel, when being wound around cable, conducting slip ring and reel rotate along equidirectional same rotating speed.Can effectively eliminating cable when being wound around, self reverses the cable breakdown caused for a long time, extends the service life of cable.Additionally, cable winding apparatus passes through the cooperation of converter, limit sensors, controller, decelerator, it is possible to control the rotary speed of reel in drawing cable process intelligently and stop retractable cable.The setting of guider, dexterously by the cable winds outer surface at reel.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, the accompanying drawing used required in embodiment will be briefly described below, it is to be understood that, the following drawings illustrate only certain embodiments of the present invention, therefore the restriction to scope it is not construed as, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other relevant accompanying drawings according to these accompanying drawings.

Fig. 1 is the structural representation of the cable winding apparatus that the embodiment of the present invention provides.

Fig. 2 is the structural representation of the conducting slip ring that the embodiment of the present invention provides.

Fig. 3 is the structural representation at another visual angle of the conducting slip ring that the embodiment of the present invention provides.

Fig. 4 is the distribution schematic diagram of the limit sensors that the embodiment of the present invention provides.

Fig. 5 is the structural representation of the guider that the embodiment of the present invention provides.

Fig. 6 is the structural representation at another visual angle of the cable winding apparatus that the embodiment of the present invention provides.

Fig. 7 is the external structure schematic diagram of the cable winding apparatus that the embodiment of the present invention provides.

Main element symbol description: cable winding apparatus 100, reel 110, groove 111, conducting slip ring 120, second flange 121, first flange 122, rotor disk 123, fixed insulation axle 124, rotating insulated axle 125, fixed disk 126, rotation dish 127, brush 128, support bar 129, motor 130, converter 140, limit sensors 150, controller 160, fixed mount 170, decelerator 180, hold box 190, housing 200, guider 210, slide rail 211, slide block 212, first orienting roll wheels 213, second orienting roll wheels 214, loading plate 215, framework 220, briquetting 230, cable 888, cable 999.

Detailed description of the invention

Below in conjunction with accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Generally can with various different configurations arrange and design with the assembly of the embodiment of the present invention that illustrate described in accompanying drawing herein.Therefore, below the detailed description of the embodiments of the invention provided in the accompanying drawings is not intended to limit claimed the scope of the present invention, but is merely representative of the selected embodiment of the present invention.Based on embodiments of the invention, the every other embodiment that those skilled in the art obtain under the premise not making creative work, broadly fall into the scope of protection of the invention.

Refer to Fig. 1, be the structural representation of the cable winding apparatus 100 that the embodiment of the present invention provides.This cable winding apparatus 100 includes reel 110, conducting slip ring 120, motor 130 and framework 220.Wherein, reel 110 and motor 130 are arranged on framework 220, and conducting slip ring 120 is built in reel 110, and motor 130 is all connected with rotating with band movable reel 110 and conducting slip ring 120 with reel 110 and conducting slip ring 120.Reel 110 is that hollow structure is to allow that cable stretches out from the inside of reel 110 and is wound in the outer surface of reel 110.Refer to Fig. 2, be the structural representation of the conducting slip ring 120 that the embodiment of the present invention provides.

Conducting slip ring 120 includes stator terminal, rotor-end, fixed insulation axle 124, rotating insulated axle 125, fixed disk 126 and rotation dish 127.Described rotor-end includes rotor disk 123 and the first flange 122, and the rotating shaft of motor 130 can be connected with rotor disk 123.Stator terminal includes the second flange 121, and rotor disk 123 and the first flange 122 are rotationally connected, and one end of fixed insulation axle 124 connects the second flange 121, and the other end of fixed insulation axle 124 connects the first flange 122.One end of rotating insulated axle 125 connects rotor disk 123, and rotor disk 123 rotates that shaft insulation 125 is rotated and rotates.Fixed disk 126 is fixed on fixed insulation axle 124, and rotation dish 127 is fixed on rotating insulated axle 125.Preferably, fixed insulation axle 124 is enclosed in the periphery of rotating insulated axle 125.On fixed disk 126, being provided with brush 128, this brush 128 contacts with rotation dish 127.Preferably, the conducting slip ring 120 that the embodiment of the present invention provides also includes support bar 129, one end of this support bar 129 connects the second flange 121, the other end of support bar 129 connects the first flange 122 of rotor-end, the effect of support bar 129 is connecting stator end and rotor-end, makes stator terminal be connected more stable with rotor-end.

Rotor disk 123 arranges perforate to allow that a cable 888 through rotor disk 123 and fixing with rotation dish 127 is connected, and the second flange 121 arranges perforate to allow that the cable 999 of an external power source through the second flange 121 and fixing with fixed disk 126 is connected.In embodiments of the present invention, fixed disk 126 is identical with the quantity of rotation dish 127, it is preferable that be 4.Wherein, the size of rotation dish 127 is less than the size of fixed disk 126.The cable 999 of the second flange 121 traverse of stator terminal is used for introducing three phase mains, and this cable 999 comprises 3 phase lines and 1 center line.Wherein, 3 phase lines are connected on 4 different fixed disks 126 with 1 center line.4 different rotation dishes 127 each connect single line cable, and four cables twist into single line cable 888 traverse the first flange 122.The power supply that cable 999 introduces enters cable 888 through fixed disk 126, brush 128, rotation dish 127, and cable 888 stretches out from the inside of reel 110 and is wound in the outer surface of reel 110.In order to be easier to understand the structure of conducting slip ring 120, incorporated by reference to Fig. 3 reference, Fig. 3 is the structural representation at another visual angle of conducting slip ring 120.

Effect and the operation principle of conducting slip ring 120 are described below.How before this, first introducing the present invention provides cable winding apparatus 100 to be retractable cable.Cable 888 is wound in the outer surface of reel 110 after stretching out from reel 110 inside, and motor 130 rotates, and band movable reel 110 rotates, and reel 110 rotates and drives cable 888 to be wrapped on reel 110.The rotation direction controlling motor 130 can control the receipts of cable 888 and put.Owing to cable 888 rotates with the rotation of reel 110, if the one end keeping cable 888 is fixed, so along with the continuous rotation of cable 888, cable 888 is wrapped in the junction between part and the part that cable 888 is fixing of reel 110 outer surface, can occur damaged or aging owing to two ends are chronically at different kinestates, and then causing cable 888 short circuit or open circuit, impact uses, and security incident even occurs.

The conducting slip ring 120 that the cable winding apparatus 100 of embodiment of the present invention offer is built-in can effectively improve above-mentioned problem.One end of cable 888 is fixed on each rotation dish 127 of conducting slip ring 120, owing to rotation dish 127 is fixed on rotating insulated axle 125, and one end of rotating insulated axle 125 is connected on rotor disk 123, the other end of rotating insulated axle 125 is unsettled, rotor disk 123 is connected with the rotating shaft of motor 130, the rotating shaft of motor 130 is connected with reel 110 simultaneously, then reel 110 is identical with the rotating speed of rotor disk 123, and the direction of rotation is also identical, then to be wrapped in the part of reel 110 outer surface identical through the kinestate at the two ends of the junction the part of rotor disk 123 with cable 888 for cable 888, this junction will not be produced as twisted, turn round, the action such as stir, extend the service life of cable 888.

The conducting slip ring 120 that the embodiment of the present invention provides together is connected with motor 130 with reel 110, the rotating speed making conducting slip ring 120 is identical with the rotating speed of reel 110, the rotation dish 127 of conducting slip ring 120 is fixed in one end of cable 888, remainder is wound in the outer surface of reel 110, when reel 110 rotates take in or release cable 888, the rotor disk 123 of conducting slip ring 120 is correspondingly with the direction of reel 110 rotation and rotating speed rotation, with offset reel 110 rotate cable 888 is brought turning and reversing, cable 888 is prevented to be screwed bad, increase the service life of cable 888.Additionally, fixed disk 126 connecting cable 999, by brush 128, the power supply of cable 999 is delivered on rotation dish 127, then is delivered to cable 888 by rotation dish 127, design ingenious, Appropriate application space.

Refer to Fig. 1, the cable winding apparatus 100 that the embodiment of the present invention provides also includes converter 140, limit sensors 150 and controller 160.Wherein, converter 140, limit sensors 150 and controller 160 are arranged at framework 220.Controller 160 all electrically connects with converter 140, limit sensors 150.Converter 140 electrically connects with motor 130 to control the frequency of the power supply to motor 130 conveying.Above-described electrical connection, it is possible to be direct, it is also possible to being indirectly, this is not limited by the present embodiment.Limit sensors 150 is arranged at the top of reel 110, it should explanation, and described herein " top " is construed as the limit sensors 150 position relative to reel 110 rather than the top in Traditional Space meaning.Reel 110 is cylindrical, and the outer surface of reel 110 is provided with spiral helicine groove 111, and this groove 111 is used for holding cable 888.

Due in the process that reel 110 rotates, cable 888 moves to the one ends wound of another bottom surface from one end of columned 888 1 bottom surfaces of cable along spiral helicine groove 111, when cable 888 to arrive one end of another bottom surface, if motor 130 is still with rotational speed before, then easily make cable 888 hit on the framework at place, one end of another bottom surface, cause the damage of cable 888.

In view of this, in the embodiment of the present invention, the position at the place of two bottom surfaces of reel 110 is provided above limit sensors 150, and the particular location of limit sensors 150 is arranged according to practical situation.Whether limit sensors 150 sends the signal of telecommunication through the lower section of limit sensors 150 to controller 160 through the lower section of limit sensors 150 and at cable 888 for sensing cable 888, sending to converter 140 when controller 160 receives the signal of telecommunication of limit sensors 150 transmission and enable signal, converter 140 drive motor 130 when receiving the enable signal that controller 160 sends rotates according to rotating speed set in advance.In the present embodiment, the quantity of limit sensors 150 is 4, and 4 limit sensors 150 are divided into two groups, one group 2.One group of limit sensors 150 it is respectively provided with above the position at the place, bottom surface of reel 110.Two groups of limit sensors 150 are respectively used to sense the position of cable 888 when take-up and unwrapping wire.

Below by specific example, the operation principle of 4 limit sensors 150 is described briefly.Refer to Fig. 4, be the distribution schematic diagram of limit sensors in the present embodiment.Wherein, 4 limit sensors 150 are divided into A, B two groups, A group limit sensors 150 to include 1, No. 2 limit sensors 150, B group limit sensors 150 and include 1 ', 2 ' numbers limit sensors 150.A group limit sensors 150 for sensing cable 888, B group limit sensors 150 for sensing cable 888 when cable 888 take-up when cable 888 unwrapping wire.When take-up, when cable 888 is below 1 ' number limit sensors 150 position, 1 ' number limit sensors 150 sends the signal of telecommunication to controller 160, so that controller 160 sends the first enable signal to converter 140, to reduce the rotating speed of motor 130, when cable 888 is below 2 ' numbers limit sensors 150 position, 2 ' numbers limit sensors 150 send the signal of telecommunication to controller 160, so that controller 160 sends the second enable signal to converter 140, so that the stopping operating of motor 130.When unwrapping wire, when cable 888 is below No. 1 limit sensors 150 position, No. 1 limit sensors 150 sends the signal of telecommunication to controller 160, so that controller 160 sends the 3rd enable signal to converter 140, to reduce the rotating speed of motor 130, when cable 888 is below No. 2 limit sensors 150 positions, No. 2 limit sensors 150 send the signal of telecommunication to controller 160, so that controller 160 sends the 4th enable signal to converter 140, so that the stopping operating of motor 130.

Preferably, in the present embodiment, limit sensors 150 is photoelectric sensor, and limit sensors 150 is connected with controller 160 by limit switch.After limit sensors 150 senses light change, by limit switch to controller 160 transmission level signal so that controller 160 sends to converter 140 enables signal.

Owing to converter 140 can control the limited in one's ability of motor 130 rotating speed, in the present embodiment, it is necessary to adding decelerator 180, decelerator 180 is arranged at framework 220, and decelerator 180 is connected with motor 130.The rotating shaft of decelerator 180 and reel 110, rotor disk 123 are all connected with, the mode that the rotating shaft of the front motor 130 that instead of is connected with reel 110, rotor disk 123.The effect of decelerator 180 is the rotating speed reducing motor 130, so that motor 130 is rotated up to required linear velocity and turning moment, and band movable reel 110 and rotor disk 123 rotate.

It is wrapped in the groove 111 of outer surface of reel 110 for the ease of cable 888, the cable winding apparatus 100 that the embodiment of the present invention provides also includes guider 210, this guider 210 is arranged on framework 220, and guider 210 is used for guiding cable 888 to be wound in groove 111.For the ease of understanding the structure of the guider 210 that the present embodiment provides, incorporated by reference to Fig. 1 and Fig. 5 reference.Fig. 5 is the structural representation of the guider 210 that the embodiment of the present invention provides.This guider 210 includes slide rail 211, slide block 212 and multiple guide roller.Slide block 212 is slidably disposed in slide rail 211, and multiple guide rollers are arranged at slide block 212.Slide rail 211 is installed on framework 220 plane perpendicular with reel 110.Multiple guide rollers include the first orienting roll wheels 213 and the second orienting roll wheels 214.First orienting roll wheels 213 are installed on the side of a loading plate 215, and the first orienting roll wheels 213 lead for the direction of motion for cable 888.Second orienting roll wheels 214 are installed on the opposite side of loading plate 215, and the second orienting roll wheels 214 are used for driving cable 888 to be wound in reel 110.In the present embodiment, first orienting roll wheels 213 include 5 rollers, and the space between these 5 rollers is used for holding cable 888 and passes through, 5 roller contacts of cable 888 and the first orienting roll wheels 213, when cable 888 folding and unfolding, roller rolls and can reduce the frictional force that cable 888 dragging produces.When cable 888 is to a bottom surface motion of reel 110, slide block 212 moves on slide rail 211, and the first orienting roll wheels 213 lead for cable 888.Cable 888 is after the first orienting roll wheels 213, and cable 888 " squeezing " is entered in the groove 111 of reel 110 by the second orienting roll wheels 214, makes cable 888 be wound in the outer surface of reel 110 more easily.Cable 888 is prevented to be wrapped in reel outer surface desultorily.

After cable 888 is wrapped in reel 110 outer surface, in order to prevent cable loose, drop from reel 110, the cable winding apparatus 100 that the embodiment of the present invention provides is additionally provided with fixed mount 170, the quantity of this fixed mount 170 is multiple, fixed mount 170 is arranged on framework 220, and is arranged at the periphery of reel 110, surrounds reel 110.

Refer to Fig. 6, be the structural representation at another visual angle of the cable winding apparatus 100 that the embodiment of the present invention provides.Reel 110 is additionally provided with briquetting 230.Briquetting 230 is fixed on reel 110 for the cable 888 stretched out the inside from reel 110, so that cable 888 rotates together with reel 110.

Refer to Fig. 7, the cable winding apparatus 100 that the embodiment of the present invention provides can also arrange housing 200, and this housing 200 is coated with reel 110, motor 130, decelerator 180, converter 140, limit sensors 150, controller 160 and guider 210.Housing 200 can play the effect of dustproof and waterproof, protects internal part.Additionally, the surface of shell body 200 is additionally provided with accommodation box 190, this accommodation box 190 is for holding the plug of cable 888, it is simple to the storage of cable 888.

In sum, the cable winding apparatus 100 that the embodiment of the present invention provides is by being built in the conducting slip ring 120 of reel 110, and when being wound around cable 888, conducting slip ring 120 and reel 110 rotate along equidirectional same rotating speed.Can effectively eliminate cable 888 when being wound around, self reverse the cable 888 caused for a long time damaged, extend the service life of cable 888.Additionally, cable winding apparatus 100 passes through the cooperation of converter 140, limit sensors 150, controller 160, decelerator 180, it is possible to control the rotary speed of reel 110 in cable 888 folding and unfolding process intelligently and stop retractable cable.The setting of guider 210, is wrapped in the outer surface of reel 110 dexterously by cable 888.

The above; being only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with scope of the claims.

It should also be noted that similar label and letter below figure represent similar terms, therefore, once a certain Xiang Yi accompanying drawing is defined, then it need not be carried out definition further and explain in accompanying drawing subsequently.

In describing the invention, it should be noted that, term " on ", " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, or this invention product orientation usually put or position relationship when using, it is for only for ease of the description present invention and simplifies description, rather than instruction or hint indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.Additionally, term " first ", " second ", " the 3rd " etc. are only used for distinguishing description, and it is not intended that indicate or hint relative importance.

In describing the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ", " installation ", " being connected ", " connection " should be interpreted broadly, for instance, it is possible to it is fixing connection, can also be removably connect, or connect integratedly；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be the connection of two element internals.For the ordinary skill in the art, it is possible to concrete condition understands above-mentioned term concrete meaning in the present invention.

Claims (10)

1. null1. a conducting slip ring，It is characterized in that，Including stator terminal、Rotor-end、Fixed insulation axle、Rotating insulated axle、Fixed disk and rotation dish，Described rotor-end includes rotor disk and the first flange，Described stator terminal includes the second flange，Described rotor disk and described first flange are rotationally connected，One end of described fixed insulation axle connects described second flange，The other end of described fixed insulation axle connects described first flange，One end of described rotating insulated axle connects described rotor disk，Described rotor disk rotates to drive described rotating insulated axle to rotate，Described fixed disk is fixed on described fixed insulation axle，Described rotation dish is fixed on described rotating insulated axle，Described rotor disk arranges perforate to allow that cable through described rotor disk and fixing with described rotation dish is connected，Described second flange arranges perforate to allow that the cable of external power source through the second flange and fixing with described fixed disk is connected.
2. 2. conducting slip ring according to claim 1, it is characterized in that, described conducting slip ring also includes support bar, one end of described support bar connects described stator terminal, the other end of described support bar connects the first flange of described rotor-end, and the quantity of described fixed disk and described rotation dish is multiple, and described fixed disk is equal with the quantity of described rotation dish, described fixed disk is additionally provided with brush, and described brush contacts with described rotation dish.
3. null3. a cable winding apparatus，For folding and unfolding cable，It is characterized in that，Including framework、Reel、Conducting slip ring and motor，Described reel and motor are arranged at described framework，Described conducting slip ring is built in described reel，Described conducting slip ring includes stator terminal、Rotor-end、Fixed insulation axle、Rotating insulated axle、Fixed disk and rotation dish，Described rotor-end includes rotor disk and the first flange，Described stator terminal includes the second flange，Described rotor disk and described first flange are rotationally connected，One end of described fixed insulation axle connects described second flange，The other end of described fixed insulation axle connects described first flange，One end of described rotating insulated axle connects described rotor disk，Described rotor disk rotates to drive described rotating insulated axle to rotate，Described fixed disk is fixed on described fixed insulation axle，Described rotation dish is fixed on described rotating insulated axle，Described rotor disk arranges perforate to allow that cable through described rotor disk and fixing with described rotation dish is connected，Described second flange arranges perforate to allow that the cable of external power source through the second flange and fixing with described fixed disk is connected，Described motor and described reel and described conducting slip ring are all connected with driving described reel and described conducting slip ring to rotate，Described reel is that hollow structure is to allow that cable stretches out from the inside of described reel and is wound in the outer surface of described reel.
4. 4. cable winding apparatus according to claim 3, it is characterized in that, described conducting slip ring also includes support bar, one end of described support bar connects described second flange, the other end of described support bar connects the first flange of described rotor-end, and the quantity of described fixed disk and described rotation dish is multiple, and described fixed disk is equal with the quantity of described rotation dish, described fixed disk is additionally provided with brush, and described brush contacts with described rotation dish.
5. 5. cable winding apparatus according to claim 3, it is characterized in that, also include converter, limit sensors and controller, described converter, limit sensors and controller are arranged at described framework, described controller and described converter, limit sensors all electrically connects, described converter electrically connects with described motor, described limit sensors is arranged at the top of described reel, whether described limit sensors sends the signal of telecommunication through the lower section of described limit sensors to described controller through the lower section of described limit sensors and at cable for sensing cable, described controller enables signal for sending to described converter when receiving the signal of telecommunication that described limit sensors sends, described converter rotates according to rotating speed set in advance for the drive motor when receiving the enable signal that controller sends.
6. 6. cable winding apparatus according to claim 5, it is characterized in that, also include decelerator, described decelerator is arranged at described framework, described decelerator is connected with described motor, the rotating shaft of described decelerator and described reel, rotor disk are all connected with, and described decelerator is for reducing the rotating speed of described motor and driving described reel and rotor disk to rotate.
7. 7. cable winding apparatus according to claim 3, it is characterized in that, also include housing and guider, described housing is coated with described reel, motor, decelerator, converter, limit sensors and controller, described guider is arranged at described framework, described reel outer surface is provided with spiral helicine groove, and described guider is used for guiding cable to be wound in described groove.
8. 8. cable winding apparatus according to claim 7, it is characterized in that, described reel is columned reel, described guider includes slide rail, slide block and multiple guide roller, described slide block is slidably disposed in described slide rail, the plurality of guide roller is arranged at described slide block, described slide rail is installed on described housing the plane perpendicular with described reel, the plurality of guide roller includes the first orienting roll wheels and the second orienting roll wheels, described first orienting roll wheels are installed on a loading plate side, lead for the direction of motion for cable, described second orienting roll wheels are installed on the opposite side of described loading plate, for driving cable winds in reel.
9. 9. cable winding apparatus according to claim 3, it is characterised in that also include fixed mount, described fixed mount is installed on described framework and is arranged at the periphery of described reel.
10. 10. cable winding apparatus according to claim 3, it is characterised in that described reel is additionally provided with briquetting, described briquetting is for being fixed on described reel by the cable that the inside from described reel is stretched out, so that cable rotates together with reel.