CN109292138B - Intelligent wire roller automatic distribution bundling rope wire coil - Google Patents

Abstract

The invention discloses an automatic distribution bundling rope wire coil of a large-scale power distribution cabinet intelligent wire roller, which comprises a fixed base, wherein a base groove is arranged on the fixed base, a first supporting disk connected to the fixed base is arranged in the base groove, a first rotating shaft driven by a motor is arranged in the base groove, a second rotating shaft and a third rotating shaft which rotate are arranged on the first supporting disk, a rotating wire dividing rotating disk is arranged on the fixed base, a wire dividing slide block corresponding to the through groove of the supporting cylinder is arranged on the second supporting disk, a wire dividing cylinder is respectively arranged on the wire dividing slide block, sliding bundling ropes are respectively arranged in the wire dividing cylinders, the wire dividing cylinders can be further clamped on cables through the sliding of the wire dividing slide block, and further bundling of the cables can be carried out by further utilizing the bundling ropes, the trouble caused by manual insertion of the strapping rope is avoided, and the working efficiency can be further improved.

Description

Intelligent wire roller automatic distribution bundling rope wire coil

Technical Field

The invention relates to a power line roller, in particular to an intelligent line roller automatic distribution bundling rope wire coil of a large-scale power distribution cabinet, and particularly relates to an intelligent line roller automatic distribution bundling rope wire coil of a large-scale power distribution cabinet, which can automatically distribute bundling ropes in the process of distributing cables by using the power line roller.

Background

The requirement of a large-scale power distribution cabinet is further increased along with the continuous increase of the demand of electric power, so that the power distribution cabinet can be used for conveying the electric power to thousands of households, wherein an electric power cable is one of necessary power transmission equipment in the installation process of the power distribution cabinet, and the cables in the power distribution cabinet are numerous, so that the cables are firstly required to be cut in a measuring and sizing way in the process of pre-assembling the power distribution cabinet, so that the cables can be further conveniently laid, wherein the cables are required to be coiled and collected manually after being measured out to a certain size due to the longer length of the cables in the process of cutting the cables in a measuring and sizing way, so that the cables are bound, and then are further conveyed to an assembly workshop of the power distribution cabinet to be laid in the power distribution cabinet, so that the laying of the cables is finished, although the coiling and collecting of the cables and the binding of the cables can be finished manually, however, the following problems still remain:

1. because the quantity of cable is numerous to the length of cable is longer, utilize the manual work to carry out the curling of cable further to cause the waste in the manpower, also further increased workman's amount of labour simultaneously.

2. In-process of tying up the cable in the manual work of utilization, so the weight of cable will be very heavy under the longer condition of cable length, consequently utilize the manual work to alternate the in-process on the cable with the bundling rope and will take a lot of trouble hard to further influence the effect of tying up of cable, and then influence the transportation problem of cable.

Therefore, it is necessary to design an intelligent wire roller automatic distribution bundling rope wire coil of a large power distribution cabinet to solve the technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides an automatic distribution strapping rope reel of an intelligent wire roller of a large-scale power distribution cabinet, which can further rotate and wind a wire through the rotation of a wire distributing turntable so as to further collect the wire, and can further clamp a wire distributing slider on the wire through the sliding of the wire distributing slider so as to further clamp the wire distributing cylinder on the wire, wherein a rotating pull rope runner is arranged in the wire distributing slider so as to further slide a strapping rope in the wire distributing cylinder through the rotation of the pull rope runner so as to further wind the strapping rope on the wire, thereby achieving the purpose of automatic distribution of the strapping rope and further avoiding the trouble caused by manual insertion of the strapping rope, the bundling rope can be further conveniently inserted, so that the working efficiency is improved, the wind cavity is respectively arranged in the distributing slider, so that wind power can be further generated by an exhaust fan arranged in the wind cavity, the bundling rope can be further conveyed by the aid of the wind power, the distributing slider is respectively provided with a plug head, the plug head can be further driven by pulling of the first pulling rope to slide, the air inlet of the wind cavity can be further controlled, and the purpose of distributing the bundling rope can be further controlled.

The invention is realized by the following technical scheme:

the utility model provides a large-scale switch board intelligence line roller automatic allocation bundling line drum, including a unable adjustment base, the last base recess that is provided with of unable adjustment base, be provided with one in the base recess and connect first supporting disk on the unable adjustment base, be provided with a motor drive's first pivot in the base recess, be provided with a pivoted second pivot and a third pivot on the first supporting disk, the last pivoted separated time carousel that is provided with of unable adjustment base, be provided with a branching support cylinder on the branching support cylinder, be provided with the support cylinder logical groove that alternately corresponds the setting on the branching support cylinder, the third pivot drives the branching carousel rotates. Can through the rotation of third pivot can further drive the rotation of separated time carousel to can through the rotation of separated time carousel can further twine the collection to the cable, thereby further improvement twines the efficiency of collecting the cable of curling.

A second rotating disc is arranged on the second rotating shaft, a third supporting disc corresponding to the wire dividing supporting cylinder is arranged on the first supporting disc, a second supporting disc is arranged on the third supporting disc, wire dividing slide blocks corresponding to the through grooves of the supporting cylinder are arranged on the second supporting disc and respectively slide on the second supporting disc, a rotating fifth rotating shaft is respectively arranged in each wire dividing slide block and drives each wire dividing slide block to slide, a sliding fourth rotating shaft is respectively arranged on each fifth rotating shaft, a second gear is respectively arranged on each fourth rotating shaft, a second gear disc is arranged on the second rotating disc and is respectively in corresponding meshing connection with the second gear, a U-shaped wire dividing clamping groove is respectively arranged at the end part of each wire dividing slide block, and a wire dividing cylinder is arranged in each wire dividing clamping groove, still be provided with a runner chamber in the separated time slider respectively, the runner intracavity is provided with a pivoted stay cord runner respectively, be provided with a bundle respectively on the stay cord runner and prick the rope, the strapping rope is in respectively slide in the separated time section of thick bamboo, be provided with a spool mouth on the separated time section of thick bamboo respectively, spool mouth both sides are provided with one respectively and connect and are in sealed splicing on the separated time section of thick bamboo, both sides the corresponding joint of sealed splicing, strapping rope and both sides sealed splicing is corresponding. The rotation of the second gear can be further driven by the rotation of the second turntable, thereby further driving the fourth rotating shaft to rotate, further driving the fifth rotating shaft to synchronously rotate through the rotation of the fourth rotating shaft, further driving the wire dividing slide block to slide through the rotation of the fifth rotating shaft, thereby the wire distributing slide block can be further clamped on the cable, the wire distributing barrel can be further clamped on the cable, and the binding rope can be further wound on the cable, thereby achieving the purpose of automatically distributing the strapping ropes, avoiding the trouble caused by manually inserting the strapping ropes, the two sealing tabs connected to each other can further feed the binding string by wind.

The air distribution device is characterized in that an air cavity is respectively arranged in the distributing slider, a rotating exhaust fan is respectively arranged in the air cavity, the air cavities are respectively communicated with the distributing cylinders correspondingly, the fifth rotating shaft respectively drives the exhaust fan to rotate, an air inlet hole communicated with the air cavities correspondingly is respectively arranged on the distributing slider, and a plug head for controlling air inlet of the air inlet hole is also respectively arranged on the distributing slider. The air inlet condition of the air inlet hole can be further controlled through the action of the plug head, so that the sliding of the strapping ropes can be further controlled, and the aim of controlling the automatic distribution of the strapping ropes can be fulfilled.

A sliding control slide block is arranged in the base groove and controls the first rotating shaft to be correspondingly connected with the second rotating shaft and the third rotating shaft. The first rotating shaft, the second rotating shaft and the third rotating shaft can be further controlled to be correspondingly connected through the sliding of the control slider, and therefore the wire distributing rotary disc and the wire distributing slider can be further coordinated to move correspondingly.

Furthermore, a second rotating hole which is arranged in a square shape is respectively arranged in the fifth rotating shaft, the fourth rotating shaft is arranged in a square shape, the end part of the fifth rotating shaft is connected with a sixth rotating shaft, a third gear which rotates in the branching sliding block is arranged on the sixth rotating shaft, a seventh rotating shaft which rotates in the branching sliding block is respectively arranged in the wind cavity, a fourth gear which is correspondingly engaged and connected with the third gear is respectively arranged on the seventh rotating shaft, the exhaust fan is respectively connected on the seventh rotating shaft, a wind wheel rotating cavity is respectively arranged in the branching sliding block, a tenth rotating shaft which rotates in the branching sliding block is arranged in the wind wheel rotating cavity, one end of the tenth rotating shaft is connected with a rotating wind wheel which rotates in the wind wheel rotating cavity, and the pull ropes are respectively correspondingly connected at the other end of the tenth rotating shaft, and a second air exhaust hole which is correspondingly communicated with the air wheel rotation cavity and the air cavity is respectively arranged in the wire distributing sliding block. The fifth rotating shaft can be further driven to rotate through the rotation of the fourth rotating shaft, so that the fifth rotating shaft can further drive the third gear to rotate, and the third gear can further drive the fourth gear to rotate, thereby the fourth gear can further drive the seventh rotating shaft to rotate, the seventh rotating shaft can further drive the exhaust fan to rotate, the exhaust fan can further generate wind power through the rotation of the exhaust fan, the binding rope can be blown by wind power, so that the binding rope can be further driven to slide in the wire distributing cylinder, and the rotating wind wheel can be simultaneously driven to rotate by the wind power, thereby loosening the lashing wire and achieving the purpose of automatically distributing the lashing wire.

The air duct is characterized in that a stay cord sliding hole is formed in the branching sliding block and is correspondingly communicated with the branching cylinder, the binding ropes slide in the stay cord sliding holes respectively, and a first air exhaust hole is formed in the branching sliding block and is correspondingly communicated with the stay cord sliding hole and the air chamber. The normal sliding of the strapping rope can be further ensured through the rope sliding hole, and wind power can be further transmitted into the rope sliding hole through the first wind discharging hole, so that the strapping rope can be further blown, and the strapping rope can be further automatically distributed.

Furthermore, a first rotating hole is respectively arranged in each wire dividing sliding block, each fifth rotating shaft rotates in each first rotating hole, each wire dividing sliding block is respectively provided with a second rotating groove correspondingly communicated with each first rotating hole, each fifth rotating shaft is provided with a fifth gear rotating in each second rotating groove, each second rotating groove is also internally provided with an eighth rotating shaft rotating in each wire dividing sliding block, one end of each eighth rotating shaft is respectively provided with a sixth gear correspondingly meshed and connected with the corresponding fifth gear, the other end of each eighth rotating shaft is respectively provided with a first bevel gear, each wire dividing sliding block is internally provided with a ninth rotating shaft vertically rotating corresponding to the eighth rotating shaft, and one end of each ninth rotating shaft is respectively provided with a second bevel gear correspondingly meshed and connected with the corresponding first bevel gear, and the other end of the ninth rotating shaft is respectively provided with a third bevel gear. The fifth gear can be further driven to rotate through the rotation of the fifth rotating shaft, so that the sixth gear can be further driven to rotate through the rotation of the fifth gear, the eighth rotating shaft can be further driven to rotate, the first bevel gear can be further driven to rotate, the ninth rotating shaft can be further driven to rotate through the corresponding meshing connection of the first bevel gear and the second bevel gear, and the third bevel gear can be further driven to rotate.

The wire dividing slide block is provided with a slide block sliding groove which is arranged in a T shape, the third bevel gear is arranged in the slide block sliding groove in a rotating mode respectively, the second supporting disk is provided with a supporting slide block corresponding to the wire dividing slide block respectively, the supporting slide block is arranged in the T shape and corresponds to the slide block sliding groove respectively, a third fluted disc is connected to the supporting slide block respectively, and the third bevel gear is connected with the third fluted disc in a corresponding meshing mode respectively. Can pass through third bevel gear with the corresponding meshing of third fluted disc is connected, drive that can be further the slip of separated time slider to can be further messenger separated time slider joint is on the cable, thereby can further utilization the strapping rope is tied up the cable, thereby has avoided the trouble that the manual work interlude strapping rope caused, thereby further improves the efficiency of tying up of strapping rope to the cable.

Further, unable adjustment base is cylindric setting, just unable adjustment base is last to be provided with a first runner that is the spill, first runner is the ring form setting, be connected with on the separated time carousel one with the first carousel that first runner corresponds, first carousel is in first runner internal rotation, just be connected with one on the separated time carousel the drive carousel of base recess internal rotation, the drive carousel is cylindric setting, be provided with a first fluted disc on the drive carousel, be provided with in the third pivot one with the first gear that the corresponding meshing of first fluted disc is connected. Can pass through the rotation of third pivot can further drive the rotation of first gear to can pass through first gear with the corresponding meshing of first fluted disc is connected, can further drive the rotation of separated time carousel to can curl the cable and collect, thereby avoid the artifical trouble that curls the cable and cause, thereby further alleviate the amount of labour.

Further, be provided with a first supporting seat in the base recess, be provided with a support spout on the first supporting seat, the control slider is in slide in the support spout, just still be provided with one on the unable adjustment base the gliding control of base recess draws the axle, the control draws the axle to correspond to be connected on the control slider, the both sides of control slider be provided with respectively one with the corresponding spacing support of first supporting seat, can pass through the control slider is in slide in the support spout, can pass through the spacing support can further prevent the control slider slippage goes out the support spout to can guarantee the normal slip of control slider.

A third rotary groove is arranged in the control slide block, two sides of the control slide block are respectively provided with a second sliding groove which is arranged in a concave shape, the first rotary shaft, the second rotary shaft and the end part of the third rotary shaft are respectively provided with a clamping slide block which is arranged in a direction, the clamping slide blocks respectively slide in the second sliding grooves at two sides, an eleventh rotary shaft and a twelfth rotary shaft which rotate in the third rotary groove are arranged in the control slide block, the eleventh rotary shaft and the twelfth rotary shaft are respectively provided with a seventh gear and an eighth gear which are correspondingly engaged and connected in the third rotary groove, the end part of the eleventh rotary shaft and the two ends of the twelfth rotary shaft are respectively provided with a first clamping joint, a second clamping joint and a third clamping joint, the first clamping joint, the second clamping joint and the third clamping joint respectively rotate in the second sliding groove, and the first clamping joint and the second clamping joint and the third clamping joint are respectively provided with a clamping groove which is concavely arranged, and the clamping sliding block respectively corresponds to the clamping to be arranged in the clamping groove. The first rotating shaft, the second rotating shaft and the third rotating shaft can be further correspondingly and rotatably connected through the sliding of the control slider, so that the wire dividing turntable and the wire dividing slider can be further correspondingly and cooperatively operated, and the curling of the cables and the bundling of the cables can be further cooperatively performed.

Furthermore, the wire dividing slide block is respectively provided with a plug head inner groove which is arranged in a conical shape, the plug head corresponds to the plug head inner groove, the wire dividing slide block is respectively internally provided with a spring groove which is correspondingly communicated with the air inlet hole and the plug head inner groove, the spring groove is respectively internally provided with a first spring which tensions the plug head, and the plug head is respectively connected with a first pull rope. The plug head can be further driven to slide through the sliding of the first pull rope, so that the air inlet of the air inlet hole can be further controlled through the plug head, and the sliding of the strapping rope can be further controlled.

Be provided with a supporting disk slide opening on the third supporting disk, be provided with a gliding stay cord pole in the supporting disk slide opening, first stay cord corresponds the connection respectively on the stay cord pole, just the both sides of stay cord pole are provided with a stay cord pole recess that is the spill setting respectively, the top of stay cord pole recess is provided with a thirteenth pivot respectively, be provided with a wobbling third bracing piece in the thirteenth pivot respectively, the third bracing piece joint respectively is in on the third supporting disk, the third bracing piece respectively with the stay cord pole recess is corresponding, just be provided with an elastic pressure in the stay cord pole recess respectively the second spring of third bracing piece, be provided with one in the supporting disk slide opening respectively taut the third spring of stay cord pole. The binding rope can be further driven to synchronously slide through the sliding of the pull rope rod, so that the air inlet of the air inlet hole can be further controlled, the pull rope rod can be further supported through the swinging of third support rods arranged on two sides of the pull rope rod, the third support rods can slide in the support plate sliding holes, the pull rope rod can further slide in the support plate sliding holes, and the plug head can further reset, so that the air inlet of the air inlet hole is controlled.

Furthermore, the first supporting disk and the third supporting disk are correspondingly connected through a first supporting rod, a second supporting rod is arranged on the third supporting disk, the second supporting disk is correspondingly connected to the second supporting rod, and a through hole corresponding to the first pull rope is formed in the second supporting disk. The third supporting disk can be supported by the first supporting rod, and the second supporting disk can be supported by the second supporting rod, so that the normal sliding work of the branching sliding block can be further ensured.

Furthermore, the number of the through grooves of the supporting cylinder is four, first sliding grooves corresponding to the through grooves of the supporting cylinder are respectively formed in the wire dividing rotary disc, and the wire dividing sliding blocks slide in the first sliding grooves. Can be through the separated time slider slides in first spout, can further make separated time slider joint on the cable to avoided the problem of separated time slider joint at the gliding in-process cable, thereby guaranteed to the bundling can be normal the winding on the cable.

Furthermore, a wire barrel inner cavity is arranged in the wire barrel, the strapping rope slides in the wire barrel inner cavity, and the sealing connecting piece is made of rubber materials. The sealing connecting pieces arranged on the two sides can be correspondingly connected, and the sealing connecting pieces are made of rubber materials, so that the strapping rope can be further tightened on the sealing connecting pieces in the process of tightening the strapping rope on the cable, the strapping rope can be further tightened on the cable, and the purpose of strapping the cable by the strapping rope is achieved.

Furthermore, the wire dividing slide block is respectively provided with a rotating wheel cavity opening which is correspondingly communicated with the rotating wheel cavity, the rotating wheel cavity opening corresponds to the stay cord rotating wheel, and the rotating wheel cavity opening is internally provided with a sealing cover respectively. Can be through sealed lid can be further convenient to change the stay cord runner to can guarantee that the strapping rope ties up the cable.

Compared with the prior art, the invention has the beneficial effects that: the cable can be further rotated and wound through the rotation of the wire distributing turntable, so that the cable can be further curled and collected, the trouble caused by manual curling and collection is avoided, the working efficiency can be further improved, the wire distributing slider can be further clamped on the cable through the sliding of the wire distributing slider, so that the wire distributing cylinder can be further clamped on the cable, a rotating pull rope runner is arranged in the wire distributing slider, so that the strapping rope can be further slid in the wire distributing cylinder through the rotation of the pull rope runner, so that the strapping rope can be further wound on the cable, the purpose of automatic distribution of the strapping rope is achieved, the trouble caused by manual insertion of the strapping rope can be further avoided, and the strapping rope can be further conveniently inserted on the cable, therefore, the work efficiency is improved, the air cavities are respectively arranged in the wire distributing sliding blocks, so that wind power can be further generated by the exhaust fans arranged in the air cavities, the strapping ropes can be further conveyed by the wind power, the plug heads can be respectively arranged on the wire distributing sliding blocks, the plug heads can be further driven to slide by the pulling of the first pull ropes, the air inlet of the air cavities can be further controlled, and the purpose of controlling the distribution of the strapping ropes can be further achieved.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of a wire coil of a large-scale power distribution cabinet for automatically distributing a binding rope by an intelligent wire roller.

Fig. 2 is a schematic view of the overall structure of the branching slider according to the embodiment of the present invention.

Fig. 3 is a schematic view of the overall structure of the pull rod according to the embodiment of the present invention.

FIG. 4 is a side view of the integral structure of the thread dividing slider and the supporting slider according to the embodiment of the present invention.

FIG. 5 is a schematic view of an overall structure of a control slider according to an embodiment of the present invention.

Fig. 6 is a side view of the whole structure of the rotating wind wheel and the stay cord rotating wheel according to the embodiment of the invention.

Fig. 7 is a schematic view of the overall structure of the plug according to the embodiment of the present invention.

FIG. 8 is a top view of the overall structure of a branching support cylinder in accordance with an embodiment of the present invention.

Fig. 9 is a schematic view of the overall structure of the yarn distributing cylinder according to the embodiment of the present invention.

FIG. 10 is a side view of a third embodiment of the present invention.

In the figure: 1 fixed base, 2 base grooves, 3 first supporting disks, 4 motors, 5 first rotating shafts, 6 second rotating shafts, 7 third rotating shafts, 8 first supporting seats, 9 supporting sliding grooves, 10 control sliding blocks, 11 first rotating grooves, 12 branching rotating disks, 13 first rotating disks, 14 driving rotating disks, 15 first fluted disks, 16 first gears, 17 first sliding grooves, 18 branching supporting cylinders, 19 supporting cylinder through grooves, 20 second rotating disks, 21 branching sliding blocks, 22 second gears, 23 second fluted disks, 24 first pull ropes, 25 first supporting rods, 26 second supporting disks, 27 third supporting disks, 28 second supporting rods, 29 pull rope rods, 30 control pull shafts, 31 fourth rotating shafts, 32 branching clamping grooves, 33 branching cylinders, 34 first rotating holes, 35 fifth rotating shafts, 36 second rotating holes, 37 sixth rotating shafts, 38 third gears, 39 fourth gears, 40 seventh rotating shafts, 41 wind cavities, 42 fan cavities, 43 rotating wheel cavities, 44 cord reel, 45 binding cord, 46 cord slide hole, 47 first air exhaust hole, 48 second air exhaust hole, 49 air inlet hole, 50 plug head, 51 fifth gear, 52 second runner, 53 sixth gear, 54 eighth rotating shaft, 55 first bevel gear, 56 second bevel gear, 57 ninth rotating shaft, 58 third bevel gear, 59 bobbin inner cavity, 60 bobbin mouth, 61 sealing joint sheet, 62 wind wheel rotating cavity, 63 tenth rotating shaft, 64 rotating wind wheel, 65 sealing cover, 66 runner cavity opening, 67 slide block sliding groove, 68 supporting slide block, 69 third fluted disc, 70 second sliding groove, 71 third runner, 72 eleventh rotating shaft, 73 twelfth rotating shaft, 74 first clamping joint, 75 second clamping joint, 76 third clamping joint, 77 clamping groove, 78 seventh gear, 79 eighth gear, 80 limiting bracket, 81 plug head inner groove, 82 first spring, 83 spring groove, 84 cord bar groove, 85 thirteenth rotating shaft groove, And a third support rod 86, a second spring 87, a third spring 88 and a sliding block 89 are used for supporting a disc sliding hole and a clamping sliding block 90.

Detailed Description

As shown in fig. 1 to 10, an automatic distribution strapping line coil for intelligent line rollers of a large power distribution cabinet comprises a fixing base 1, a base groove 2 is arranged on the fixing base 1, a first supporting plate 3 connected to the fixing base 1 is arranged in the base groove 2, a first rotating shaft 5 driven by a motor 4 is arranged in the base groove 2, a second rotating shaft 6 and a third rotating shaft 7 are arranged on the first supporting plate 3, a rotating branching rotary plate 12 is arranged on the fixing base 1, a branching supporting cylinder 18 is arranged on the branching rotary plate 12, a supporting cylinder through groove 19 arranged in a crossed and corresponding manner is arranged on the branching supporting cylinder 18, and the third rotating shaft 7 drives the branching rotary plate 12 to rotate. The fixing base 1 is in a cylindrical arrangement, a base groove 2 is arranged on the fixing base 1, the base groove 2 is in a cylindrical arrangement, a first supporting disc 3 is arranged in the base groove 2, the first supporting disc 3 is correspondingly connected to the fixing base 1, a first rotating shaft 5 driven by a motor 4 is arranged in the base groove 2, a second rotating shaft 6 and a third rotating shaft 7 are arranged on the first supporting disc 3, a rotating branching rotary disc 12 is further arranged on the fixing base 1, the branching rotary disc 12 is in a circular ring arrangement, a branching supporting cylinder 18 is arranged on the branching rotary disc 12, the branching supporting cylinder 18 is in a cylindrical arrangement, a plurality of supporting cylinder through grooves 19 are correspondingly arranged on the branching supporting cylinder 18, and the supporting cylinder through grooves 19 are alternately and correspondingly arranged, the third rotating shaft 7 can drive the wire dividing rotating disc 12 to rotate, so that the rotation of the wire dividing rotating disc 12 can be further driven in the rotating process of the third rotating shaft 7, the rotation of the wire dividing supporting cylinder 18 can be further driven, a cable can be wound on the wire dividing supporting cylinder 18 in the process of winding the cable, the cable can be further automatically wound through the rotation of the wire dividing rotating disc 12, the labor force is further relieved, and the labor amount is reduced.

The second rotating shaft 6 is provided with a second rotating disc 20, the first supporting disc 3 is provided with a third supporting disc 27 corresponding to the wire distributing supporting cylinder 18, the third supporting disc 27 is provided with a second supporting disc 26, the second supporting disc 26 is provided with a wire distributing slider 21 corresponding to the supporting cylinder through groove 19, the wire distributing slider 21 respectively slides on the second supporting disc 26, the wire distributing slider 21 is internally provided with a rotating fifth rotating shaft 35, the fifth rotating shaft 35 drives the wire distributing slider 21 to slide, the fifth rotating shaft 35 is provided with a sliding fourth rotating shaft 31, the fourth rotating shaft 31 is provided with a second gear 22, the second rotating disc 20 is provided with a second gear disc 23, the second gear discs 23 are correspondingly engaged and connected with the second gear 22, the end parts of the wire distributing slider 21 are provided with a U-shaped wire distributing clamping groove 32, a wire distributing cylinder 33 is arranged in the wire distributing clamping groove 32, a rotating wheel cavity 43 is further respectively arranged in the wire distributing sliding block 21, a rotating rope rotating wheel 44 is respectively arranged in the rotating wheel cavity 43, a bundling rope 45 is respectively arranged on the rope rotating wheel 44, the bundling rope 45 respectively slides in the wire distributing cylinder 33, a wire distributing cylinder opening 60 is respectively arranged on the wire distributing cylinder 33, a sealing connecting piece 61 connected to the wire distributing cylinder 33 is respectively arranged on two sides of the wire distributing cylinder opening 60, the sealing connecting pieces 61 on the two sides are correspondingly clamped, and the bundling rope 45 is corresponding to the sealing connecting pieces 61 on the two sides. A second rotating disk 20 is arranged on the second rotating shaft 6, the second rotating disk 20 is arranged in a cylindrical shape, a third supporting disk 27 is arranged on the first supporting disk 3, the third supporting disk 27 corresponds to the branching supporting cylinder 18, the branching supporting disk 18 can rotate on the third supporting disk 27, a second supporting disk 26 is further arranged on the third supporting disk 27, the second supporting disk 26 corresponds to the branching supporting cylinder 18, a sliding branching slide block 21 is arranged on the second supporting disk 26, the number of the branching slide blocks 21 is corresponding to the supporting cylinder through grooves 19, the branching slide blocks 21 can slide in the supporting cylinder through grooves 19, a rotating fifth rotating shaft 35 is respectively arranged in the branching slide block 21, and a sliding fourth rotating shaft 31 is respectively arranged on the fifth rotating shaft, the fourth rotating shafts 31 can respectively slide in the fifth rotating shafts 35, the fourth rotating shafts 31 can respectively drive the fifth rotating shafts 35 to rotate, the fourth rotating shafts 31 are respectively provided with a second gear 22, the second rotating disc 20 is provided with a second gear disc 23, the second gear discs 23 are annularly arranged, the second gear wheels 22 can respectively and correspondingly engage with the second gear discs 23, so that the second rotating shafts 6 can further drive the second rotating disc 20 to rotate in the rotating process, the second gear discs 23 can be driven to rotate, the second gear discs 23 can be further driven to rotate, the fourth rotating shafts 31 can be further driven to rotate through corresponding engagement connection of the second gear discs 23 and the second gear wheels 22, the fifth rotating shafts 35 can be further driven to rotate, the end portions of the branching sliding blocks 21 are respectively provided with a branching clamping groove 32, the branching grooves 32 are respectively provided in a U shape, a branching cylinder 33 is respectively provided in each branching groove 32, the branching cylinders 33 are respectively provided in a U shape, a pulley cavity 43 is respectively provided in each branching slider 21, a rotatable pull-cord pulley 44 is respectively provided in each pulley cavity 43, a binding rope 45 is respectively provided on each pull-cord pulley 44, the binding rope 45 is slidable in the branching cylinder 33, a spool mouth 60 is respectively provided on each branching cylinder 33, the spool mouth 60 is provided inside the branching cylinder 33, a sealing joint piece 61 is respectively provided on both sides of the spool mouth 60, the sealing joint pieces 61 are made of rubber, and the two sealing joint pieces 61 can be correspondingly engaged, so that the cable can be wound on the branching support cylinder 18 in the process of collecting the cable, the thread distribution slider 21 can be further driven to slide on the second support plate 26 by the rotation of the fifth rotating shaft 35, the thread distribution groove 32 can be further engaged with the cable in the process of sliding the thread distribution slider 21, the binding rope 45 can slide in the thread distribution cylinder 33, the binding rope 45 can be further wound around the cable, the binding rope 45 can be further tightened on the cable by a manual operation, the cable can be further bound, the sealing contact piece 61 can be further tightened by the binding rope 45 in the process of tightening the binding rope 45, the binding rope 45 can be further separated from the sealing contact piece 61, the cable can be further tightened on the binding rope 45, and the cable can be further bound by the binding rope 45, the cable can be further conveniently transported.

Be provided with an air cavity 41 in the separated time slider 21 respectively, air cavity 41 is provided with a pivoted exhaust fan 42 respectively, air cavity 41 respectively with the corresponding intercommunication of separated time section of thick bamboo 33, fifth pivot 35 drives respectively exhaust fan 42 rotates, be provided with on the separated time slider 21 respectively one with the corresponding intake 49 that communicates in air cavity 41, still be provided with a control respectively on the separated time slider 21 the chock plug 50 of intake 49. The distributing slide block 21 is respectively provided with an air cavity 41, the air cavities 41 are respectively internally provided with a rotating exhaust fan 42, the air cavities 41 are respectively communicated with the distributing cylinder 33 correspondingly, the fifth rotating shaft 35 can respectively drive the exhaust fan 42 to rotate, so that the rotation of the exhaust fan 42 can be further driven in the rotating process of the fifth rotating shaft 35, the wind power generated by the exhaust fan 42 can be utilized, and the wind power can be further conveyed into the distributing cylinder 33, so that the binding ropes 45 can be conveyed by utilizing the wind power, the purpose of automatically distributing the binding ropes 45 can be achieved, the trouble caused by manually penetrating the binding ropes 45 can be further avoided, the working efficiency can be further improved, and the binding effect of the binding ropes 45 on cables can be further improved, the wire distributing slide blocks 21 are respectively provided with an air inlet hole 49 which is correspondingly communicated with the air cavity 41, and the wire distributing slide blocks 21 are respectively provided with a plug head 50 which controls the air inlet of the air inlet hole 49, so that the closing of the air inlet hole 49 can be controlled by the plug head 50, the sliding of the binding ropes 45 can be further controlled, and the distribution of the binding ropes 45 can be further controlled.

A sliding control slide block 10 is arranged in the base groove 2, and the control slide block 10 controls the first rotating shaft 5 to be correspondingly connected with the second rotating shaft 6 and the third rotating shaft 7. A sliding control slider 10 is disposed in the base groove 2, the control slider 10 can control the corresponding rotational connection between the first rotating shaft 5 and the second rotating shaft 6, and the corresponding rotational connection between the first rotating shaft 5 and the third rotating shaft 7 can be further controlled by the sliding of the control slider 10, so that the coordination operation between the branching dial 12 and the branching slider 21 can be further controlled, the branching slider 21 can slide when the branching dial 12 is stopped, the branching slider 21 can be stopped when the branching dial 12 is rotated, and the automatic distribution of the binding ropes 45 to the cables by the branching slider 21 can be further controlled.

As shown in fig. 2 and 6, a second rotating hole 36 arranged in a square shape is respectively arranged in the fifth rotating shaft 35, the fourth rotating shaft 31 is arranged in a square shape, a sixth rotating shaft 37 is connected to an end portion of the fifth rotating shaft 35, a third gear 38 rotating in the branching slider 21 is arranged on the sixth rotating shaft 37, a seventh rotating shaft 40 rotating in the branching slider 21 is respectively arranged in the air cavity 41, a fourth gear 39 engaged with the third gear 38 is respectively arranged on the seventh rotating shaft 40, the exhaust fan 42 is respectively connected to the seventh rotating shaft 40, an air wheel rotating cavity 62 is respectively arranged in the branching slider 21, a tenth rotating shaft 63 rotating in the branching slider 21 is arranged in the air wheel rotating cavity 62, one end of the tenth rotating shaft 63 is connected to a rotating wind wheel 64 rotating in the air wheel rotating cavity 62, the rope pulling rotating wheels 44 are correspondingly connected to the other ends of the tenth rotating shafts 63, and second air exhausting holes 48 correspondingly communicated with the air rotating wheel cavities 62 and the air cavities 41 are respectively arranged in the wire dividing sliding blocks 21. A second rotating hole 36 is respectively arranged in the fifth rotating shaft 35, the second rotating holes 36 are respectively arranged in a square shape, the fourth rotating shaft 31 is arranged in a square shape, the fourth rotating shaft 31 can slide in the second rotating hole 36, the fourth rotating shaft 31 can further drive the fifth rotating shaft 35 to rotate in the rotating process, a sixth rotating shaft 37 is connected to the end of the fifth rotating shaft 35, a third bevel gear 38 is arranged on the sixth rotating shaft 37, the third bevel gear 38 can rotate in the branching sliding block 21, a seventh rotating shaft 40 which rotates in the branching sliding block 21 is arranged in the wind cavity 41, a fourth gear 39 is respectively arranged on the seventh rotating shaft 40 and correspondingly engaged with the third gear 38, so that the seventh rotating shaft can be correspondingly engaged with the fourth gear 39 through the third gear 38, the fifth rotating shaft 35 can further drive the seventh rotating shaft 40 to rotate, the exhaust fans 42 are respectively and correspondingly connected to the seventh rotating shaft 40, so as to further drive the rotation of the exhaust fans 42, a wind wheel rotating cavity 62 is respectively arranged in the branching sliding block 21, a rotating tenth rotating shaft 63 is arranged in the wind wheel rotating cavity 62, the tenth rotating shaft 63 can rotate in a rotating hole arranged in the branching sliding block 21, one end of the tenth rotating shaft 63 is connected with a rotating wind wheel 64, the rotating wind wheel 64 can rotate in the wind wheel rotating cavity 62, the pull rope rotating wheel 44 is respectively and correspondingly connected to the other end of the tenth rotating shaft 63, so that the tenth rotating shaft 63 can be further driven to rotate in the rotating process of the rotating wind wheel 64, and the pull rope rotating wheel 44 can be further driven to rotate, the branching sliding block 21 is internally provided with a second exhaust hole 48 which is communicated with the wind wheel rotating cavity 62 and the wind cavity 41 correspondingly, so that wind power can be generated by the exhaust fan 42 in the rotating process, the second exhaust hole 48 can be utilized to further convey the wind power to the wind wheel rotating cavity 62, and the rotation of the rotating wind wheel 64 can be further driven.

The wire dividing slide block 21 is also internally provided with a pull rope slide hole 46 correspondingly communicated with the wire dividing cylinder 33, the binding ropes 45 respectively slide in the pull rope slide holes 46, and the wire dividing slide block 21 is also internally provided with a first air exhaust hole 47 correspondingly communicated with the pull rope slide hole 46 and the air cavity 41. A rope sliding hole 46 is provided in the thread separating slider 21, the rope sliding hole 46 communicates with the runner chamber 43 and the thread separating cylinder 33, the binding rope 45 is slidable in the rope sliding hole 46, a first air discharging hole 47 is provided in the thread separating slider 21, the first air discharging hole 47 communicates with the air chamber 41 and the rope sliding hole 46, respectively, so that the wind force in the air chamber 41 can be further fed into the rope sliding hole 46 through the first air discharging hole 47, the binding rope 45 can be further fed by the wind force, the binding rope 45 can be further slid in the thread separating cylinder 33, and the binding rope 45 can be further automatically loosened by the rotation of the runner 44, so that the binding rope 45 can be further slid in the thread separating cylinder 33, thereby can reach automatic distribution the purpose of strapping 45 to the trouble that manual work has been avoided alternate strapping 45 and has been caused, further improvement is tied up efficiency, thereby can further improve the effect of tying up the cable of strapping 45.

As shown in fig. 2 and 4, a first rotating hole 34 is respectively formed in the dividing slider 21, the fifth rotating shafts 35 respectively rotate in the first rotating holes 34, a second rotating groove 52 correspondingly communicating with the first rotating hole 34 is respectively formed in the dividing slider 21, a fifth gear 51 rotating in the second rotating groove 52 is respectively arranged on the fifth rotating shafts 35, an eighth rotating shaft 54 rotating in the dividing slider 21 is further arranged in the second rotating groove 52, a sixth gear 53 engaged with the fifth gear 51 is respectively arranged at one end of the eighth rotating shaft 54, a first bevel gear 55 is respectively arranged at the other end of the eighth rotating shaft 54, a ninth rotating shaft 57 vertically rotating corresponding to the eighth rotating shaft 54 is respectively arranged in the dividing slider 21, a second bevel gear 56 engaged with the first bevel gear 55 is respectively arranged at one end of the ninth rotating shaft 57, the other end of the ninth rotating shaft 57 is respectively provided with a third bevel gear 58. A first rotating hole 34 is respectively arranged in the branching slider 21, the fifth rotating shaft 35 can rotate in the first rotating hole 34, a second rotating groove 52 correspondingly communicated with the first rotating hole 34 is respectively arranged in the branching slider 21, the second rotating groove 52 is annularly arranged, a fifth gear 51 is arranged on the fifth rotating shaft 35, the fifth gear 51 can rotate in the second rotating groove 52, a rotating eighth rotating shaft 54 is respectively arranged in the second rotating groove 52, the eighth rotating shaft 54 can rotate in the rotating hole arranged in the branching slider 21, a sixth gear 53 is respectively arranged at one end of the eighth rotating shaft 54, the sixth gear 53 can be correspondingly engaged with the fifth gear 51, so that the rotation of the fifth rotating shaft 35 can further drive the rotation of the eighth rotating shaft 54, a rotating ninth rotating shaft 57 is further respectively arranged in the branching sliding block 21, the ninth rotating shaft 57 is vertically arranged corresponding to the eighth rotating shaft 54, a second bevel gear 56 is respectively arranged at one end of the ninth rotating shaft 57, a first bevel gear 55 is respectively arranged at one end of the eighth rotating shaft 54, the first bevel gear 55 and the second bevel gear 56 can be correspondingly meshed and connected, so that the ninth rotating shaft 57 can be further driven to rotate by the rotation of the eighth rotating shaft 54, and a third bevel gear 58 is respectively arranged at the other end of the ninth rotating shaft 57, so that the third bevel gear 58 can be further driven to rotate.

The wire dividing slide block 21 is provided with a slide block sliding groove 67 in a T-shaped arrangement, the third bevel gears 58 rotate in the slide block sliding grooves 67, the second supporting plate 26 is provided with a supporting slide block 68 corresponding to the wire dividing slide block 21, the supporting slide blocks 68 are in a T-shaped arrangement and correspond to the slide block sliding grooves 67, the supporting slide blocks 68 are connected with a third gear disc 69, and the third bevel gears 58 are correspondingly engaged with the third gear disc 69. The distributing sliders 21 are respectively provided with a slider sliding groove 67 arranged in a T shape, the third bevel gear 58 can rotate in the slider sliding groove 67, the second support plate 26 is respectively provided with a support slider 68 corresponding to the distributing slider 21, the support slider 68 corresponds to the support cylinder through groove 19, the support slider 68 is arranged in a T shape, so that the distributing slider 21 can further slide on the support slider 68, the support sliders 68 are respectively connected with a third toothed disc 69, the length of the third toothed disc 69 corresponds to the support slider 68, the third bevel gear 58 is correspondingly engaged with the third toothed disc 69, so that the distributing slider 21 can be further driven to slide on the support slider 68 through the corresponding engagement connection of the third bevel gear 58 and the third toothed disc 69, therefore, the cable can be further clamped on the cable by the distributing cylinder 33 through the sliding of the distributing slide block 21, and the cable is further bundled by the distributing bundling rope 45.

As shown in fig. 1, unable adjustment base 1 is cylindric setting, just unable adjustment base 1 is last to be provided with one and is the first rotary trough 11 of spill, first rotary trough 11 is the ring form setting, be connected with on the separated time carousel 12 one with the corresponding first carousel 13 of first rotary trough 11, first carousel 13 is in the internal rotation of first rotary trough 11, just be connected with one on the separated time carousel 12 the drive carousel 14 of 2 internal rotations of base recess, drive carousel 14 is cylindric setting, be provided with a first fluted disc 15 on the drive carousel 14, be provided with one on the third pivot 7 with the corresponding first gear 16 that meshes the connection of first fluted disc 15. The fixing base 1 is arranged in a cylindrical shape, a first rotary groove 11 is arranged at the top of the fixing base 1, the first rotary groove 11 is arranged in a circular ring shape, a first rotary disc 13 is arranged on the branching rotary disc 12, the first rotary disc 13 is arranged in a circular ring shape, the first rotary disc 13 can rotate in the first rotary groove 11, a driving rotary disc 14 is arranged on the branching rotary disc 12, the driving rotary disc 14 is arranged in a circular ring shape, the driving rotary disc 14 can rotate in the base groove 2, a first toothed disc 15 is arranged on the driving rotary disc 14, a first gear 16 is arranged on the third rotary shaft 7, the first gear 16 can be correspondingly engaged and connected with the first toothed disc 15, so that the rotation of the first gear 16 can be further driven through the rotation of the third rotary shaft 7, and the rotation of the driving rotary disc 14 can be further driven, can pass through drive carousel 14 further drives the rotation of separated time carousel 12 to can pass through the rotation of separated time carousel 12 can tie up the cable, thereby avoided the trouble that artifical winding cable caused, improvement work efficiency that can be further, further alleviate the amount of labour.

As shown in fig. 1, 5 and 10, a first supporting seat 8 is arranged in the base groove 2, a supporting chute 9 is arranged on the first supporting seat 8, the control slider 10 slides in the supporting chute 9, a control pulling shaft 30 which slides in the base groove 2 is further arranged on the fixed base 1, the control pulling shaft 30 is correspondingly connected to the control slider 10, and two sides of the control slider 10 are respectively provided with a limiting bracket 80 corresponding to the first supporting seat 8. Be provided with a first support seat 8 in the base recess 2 be provided with a support spout 9 on the first support seat 8, control slider 10 can slide in the support spout 9, support spout 9 is an opening still be provided with a gliding control on the unable adjustment base 1 and draw axle 30, thereby can utilize control draws the drive that axle 30 can be further control slider 10's slip, and the both sides of control slider 10 are provided with a spacing support 80 respectively, can utilize restriction that spacing support 80 can be further control slider 10's slip.

A third rotating groove 71 is arranged in the control slider 10, two sides of the control slider 10 are respectively provided with a second sliding groove 70 which is arranged in a concave manner, the end portions of the first rotating shaft 5, the second rotating shaft 6 and the third rotating shaft 7 are respectively provided with a clamping sliding block 90 which is arranged in a direction, the clamping sliding blocks 90 respectively slide in the second sliding grooves 70 at two sides, the control slider 10 is internally provided with an eleventh rotating shaft 72 and a twelfth rotating shaft 73 which rotate in the third rotating groove 71, the eleventh rotating shaft 72 and the twelfth rotating shaft 73 are respectively provided with a seventh gear 78 and an eighth gear 79 which are correspondingly engaged and connected in the third rotating groove 71, the end portion of the eleventh rotating shaft 72 and the two ends of the twelfth rotating shaft 73 are respectively provided with a first clamping joint 74, a second clamping joint 75 and a third clamping joint 76, first joint 74 with second joint 75 and with third joint 76 is in respectively the 70 internal rotations of second spout, just first joint 74 with second joint 75 and with be provided with a joint groove 77 that is the spill setting on the third joint 76 respectively, joint sliding block 90 corresponds the joint respectively in the joint groove 77. A third rotating groove 71 is arranged in the control slider 10, two sides of the control slider 10 are respectively provided with a second sliding groove 70, the second sliding groove 70 is arranged in a concave shape, the end portions of the first rotating shaft 5 and the second rotating shaft 6 and the third rotating shaft 7 are respectively provided with a clamping sliding block 90, the clamping sliding blocks 90 are respectively arranged in a square shape, the clamping sliding blocks 90 slide in the second sliding grooves 70 at two sides, an eleventh rotating shaft 72 and a twelfth rotating shaft 73 which rotate in the third rotating groove 71 are arranged in the control slider 10, the eleventh rotating shaft 72 and the twelfth rotating shaft 73 are respectively provided with a seventh gear 78 and an eighth gear 79, and the seventh gear 78 and the eighth gear 79 can be correspondingly engaged and connected, so that the eleventh rotating shaft 72 and the twelfth rotating shaft 73 can further synchronously rotate, a first clamping head 74, a second clamping head 75 and a third clamping head 76 are respectively disposed at one end of the eleventh rotating shaft 72 and two ends of the twelfth rotating shaft 73, the first clamping head 74, the second clamping head 75 and the third clamping head 76 respectively rotate in the second sliding slot 70, and a concave clamping groove 77 is respectively disposed on the first clamping head 74, the second clamping head 75 and the third clamping head 76, so that the first clamping head 74, the second clamping head 75 and the third clamping head 76 can be further driven to slide in the sliding process of the control slider 10, and the first rotating shaft 5, the second rotating shaft 6 and the clamping sliding head 90 on the third rotating shaft 7 can be further clamped in the clamping groove 77, therefore, the second rotating shaft 6 and the third rotating shaft 7 can be respectively driven to correspondingly rotate by further rotating the first rotating shaft 5, and the coordination action of the wire dividing turntable 12 and the wire dividing slide block 21 can be further controlled.

As shown in fig. 1, 2, 3 and 7, the distributing slide block 21 is provided with a plug inner groove 81 in a conical shape, the plug 50 corresponds to the plug inner groove 81, the distributing slide block 21 is provided with a spring groove 83 correspondingly communicating with the air inlet 49 and the plug inner groove 81, the spring groove 83 is provided with a first spring 82 for tensioning the plug 50, and the plug 50 is connected with a first pull rope 24. The dividing slide block 21 is provided with a plug head inner groove 81, the plug head inner groove 81 is arranged in a conical shape, the plug head 50 is arranged in a conical shape and can slide in the plug head inner groove 81, the plug head 50 can further plug the plug head inner groove 81, the dividing slide block 21 is also provided with a spring groove 83 respectively, the spring groove 83 is correspondingly communicated with the plug head inner groove 81, the spring groove 83 is correspondingly communicated with the air inlet hole 49, so that air can be further introduced through the plug head inner groove 81, the air can be discharged into the air cavity 41 through the air inlet hole 49, the air inlet condition of the air cavity 41 can be further controlled by the plug head 50, and the plug head 50 is connected with a first pull rope 24 respectively, so that the plug head 50 can be further pulled by the first pull rope 24, the plug 50 can be further conveniently controlled, and the first springs 82 are respectively arranged in the spring grooves 83, so that the plug 50 can be further pulled by the first springs 82, and the plug 50 can be further reset.

Be provided with a supporting disk slide opening 89 on the third supporting disk 27, be provided with a gliding stay cord pole 29 in the supporting disk slide opening 89, first stay cord 24 corresponds the connection respectively on the stay cord pole 29, just the both sides of stay cord pole 29 are provided with a stay cord pole recess 84 that is the spill setting respectively, the top of stay cord pole recess 84 is provided with a thirteenth pivot 85 respectively, be provided with a wobbling third bracing piece 86 on the thirteenth pivot 85 respectively, third bracing piece 86 is the joint respectively on the third supporting disk 27, third bracing piece 86 respectively with stay cord pole recess 84 is corresponding, just be provided with an elastic pressure in the stay cord pole recess 84 respectively the second spring 87 of third bracing piece 86, be provided with one respectively in the supporting disk slide opening 89 taut third spring 88 of stay cord pole 29. A support plate sliding hole 89 is formed in the third support plate 27, a sliding pull rod 29 is arranged in the support plate sliding hole 89, the first pull ropes 24 are respectively and correspondingly connected to the pull rod 29, so that the sliding of the first pull ropes 24 can be further driven through the sliding of the pull rod 29, and the sliding of the plug 50 can be further driven in the sliding process of the first pull ropes 24, so that the air inlet of the air cavity 41 can be further controlled, pull rod grooves 84 which are concavely arranged are respectively arranged on two sides of the pull rod 29, thirteenth rotating shafts 85 are respectively arranged on the tops of the pull rod grooves 84, the thirteenth rotating shafts 85 are respectively and correspondingly connected to the pull rod 29, third swinging support rods 86 are respectively arranged on the thirteenth rotating shafts 85, and the third support rods 86 can rotate on the thirteenth rotating shafts 85, the third support rods 86 are slidable in the cord rod grooves 84, the cord rod grooves 84 are respectively provided with a second spring 87, the second springs 87 are respectively capable of biasing the third support rods 86 so as to further expand the third support rods 86 and further support the cord rods 29, the support plate slide holes 89 are respectively provided with a third spring 88 so as to further restore the cord rods 29 by tightening the third springs 88, the plug 50 can be further pulled by the first cord 24 by pulling the cord rods 29 during the air supply to the air chamber 41, the air can be further supplied through the plug inner groove 81, and the cord rods 29 can be further supported by the third support rods 86, accordingly, the plug inner groove 81 can be further supplied with air, and the third support rod 86 can be further engaged with the rope rod groove 84 by sliding the third support rod 86 when the air supply is stopped, so that the rope rod 29 can be further pulled by the tightening force of the third spring 88, the third support rod 86 can be further slid in the support plate slide hole 89, the first rope 24 can be further loosened, the plug 50 can be further restored, the air supply to the air chamber 41 can be further stopped, the rotation wind wheel 64 can be further stopped, and the rope rotation wheel 44 can be further stopped.

As shown in fig. 1, the first support plate 3 is correspondingly connected to the third support plate 27 through a first support rod 25, the third support plate 27 is provided with a second support rod 28, the second support plate 26 is correspondingly connected to the second support rod 28, and the second support plate 26 is provided with a through hole corresponding to the first pull rope 24. The first support disc 3 and the third support disc 27 are correspondingly communicated through a first support rod 25, so that the third support disc 27 can be supported through the first support rod 25, the number of the first support rods 25 is four, a second support rod 28 is arranged on the third support rod disc 27, the second support disc 26 is correspondingly connected to the second support rod 28, so that the second support disc 26 can be further supported through the second support rod 28, and a through hole corresponding to the first pull rope 24 is arranged on the second support disc 26, so that the normal sliding of the first pull rope 24 can be further ensured.

As shown in fig. 1 and 8, four support cylinder through grooves 19 are provided, and the branching rotary disk 12 is provided with first sliding grooves 17 corresponding to the support cylinder through grooves 19, respectively, and the branching sliding blocks 21 slide in the first sliding grooves 17. The number of the supporting cylinder through grooves 19 is four, the supporting cylinder through grooves 19 correspond to the wire dividing slide blocks 21, the wire dividing rotary table 12 is provided with a first slide groove 17 corresponding to the supporting cylinder through grooves 19, and the wire dividing slide blocks 21 can slide in the first slide grooves 17, so that the cables can be further fixed on the wire dividing rotary table 12 in the process of winding and collecting the cables by using the wire dividing rotary table 12, the cables can be clamped on the first slide grooves 17, the wire dividing cylinders 33 can be further clamped on the cables by sliding the wire dividing slide blocks 21, and the cables can be further conveniently bundled by using the bundling ropes 45.

As shown in fig. 9, a bobbin cavity 59 is provided in the thread separating bobbin 33, the binding string 45 slides in the bobbin cavity 59, and the seal contact piece 61 is made of a rubber material. The wire distributing cylinder 33 is provided with a cylinder cavity 59, the sealing connecting piece 61 is made of rubber, so that the cylinder cavity 59 can be further sealed by the sealing connecting piece 61 made of rubber, the binding rope 45 can be conveyed by wind, the cables can be further conveniently bound, and the cables can be further bound and fixed by the binding rope 45 through the corresponding connection of the sealing connecting piece 61.

As shown in fig. 6, the branching sliding block 21 is provided with a rotating wheel cavity opening 66 correspondingly communicated with the rotating wheel cavity 43, the rotating wheel cavity opening 66 corresponds to the pull rope rotating wheel 44, and a sealing cover 65 is respectively arranged in the rotating wheel cavity opening 66. A pulley cavity opening 66 may be provided in each of the branching sliders 21, so that the string pulley 44 may be further easily replaced, and the pulley cavity opening 66 may be further sealed by the seal cover 65.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (3)

1. The utility model provides a large-scale switch board intelligence line roller automatic allocation bundling line drum, includes a unable adjustment base, the last base recess that is provided with of unable adjustment base, its characterized in that: a first supporting plate connected to the fixed base is arranged in the base groove, a first rotating shaft driven by a motor is arranged in the base groove, a second rotating shaft and a third rotating shaft which rotate are arranged on the first supporting plate, a rotating branching turntable is arranged on the fixed base, a branching supporting cylinder is arranged on the branching turntable, supporting cylinder through grooves which are arranged in a crossed and corresponding mode are arranged on the branching supporting cylinder, and the third rotating shaft drives the branching turntable to rotate;

a second rotating disc is arranged on the second rotating shaft, a third supporting disc corresponding to the wire dividing supporting cylinder is arranged on the first supporting disc, a second supporting disc is arranged on the third supporting disc, wire dividing slide blocks corresponding to the through grooves of the supporting cylinder are arranged on the second supporting disc and respectively slide on the second supporting disc, a rotating fifth rotating shaft is respectively arranged in each wire dividing slide block and drives each wire dividing slide block to slide, a sliding fourth rotating shaft is respectively arranged on each fifth rotating shaft, a second gear is respectively arranged on each fourth rotating shaft, a second gear disc is arranged on the second rotating disc and is respectively in corresponding meshing connection with the second gear, a U-shaped wire dividing clamping groove is respectively arranged at the end part of each wire dividing slide block, and a wire dividing cylinder is arranged in each wire dividing clamping groove, the inside of the wire distributing sliding block is provided with a rotating wheel cavity respectively, a rotating stay cord rotating wheel is arranged in the rotating wheel cavity respectively, a bundling rope is arranged on the stay cord rotating wheel respectively, the bundling ropes slide in the wire distributing cylinder respectively, the wire distributing cylinder is provided with a wire cylinder opening respectively, two sides of the wire cylinder opening are provided with a sealing splicing sheet connected to the wire distributing cylinder respectively, the sealing splicing sheets on two sides are correspondingly clamped, and the bundling rope corresponds to the sealing splicing sheets on two sides;

the wire distributing sliding blocks are respectively internally provided with an air cavity, the air cavities are respectively provided with a rotating exhaust fan, the air cavities are respectively correspondingly communicated with the wire distributing cylinders, the fifth rotating shafts respectively drive the exhaust fans to rotate, the wire distributing sliding blocks are respectively provided with an air inlet hole correspondingly communicated with the air cavities, and the wire distributing sliding blocks are respectively provided with a plug head for controlling the air inlet of the air inlet hole;

a sliding control slide block is arranged in the base groove and controls the first rotating shaft to be correspondingly connected with the second rotating shaft and the third rotating shaft;

a first supporting seat is arranged in the base groove, a supporting sliding groove is formed in the first supporting seat, the control sliding block slides in the supporting sliding groove, a control pull shaft which slides in the base groove is further arranged on the fixed base, the control pull shaft is correspondingly connected to the control sliding block, and two sides of the control sliding block are respectively provided with a limiting support corresponding to the first supporting seat;

a third rotary groove is arranged in the control slide block, two sides of the control slide block are respectively provided with a second sliding groove which is arranged in a concave shape, the first rotary shaft, the second rotary shaft and the end part of the third rotary shaft are respectively provided with a clamping slide block which is arranged in a direction, the clamping slide blocks respectively slide in the second sliding grooves at two sides, an eleventh rotary shaft and a twelfth rotary shaft which rotate in the third rotary groove are arranged in the control slide block, the eleventh rotary shaft and the twelfth rotary shaft are respectively provided with a seventh gear and an eighth gear which are correspondingly engaged and connected in the third rotary groove, the end part of the eleventh rotary shaft and the two ends of the twelfth rotary shaft are respectively provided with a first clamping joint, a second clamping joint and a third clamping joint, the first clamping joint, the second clamping joint and the third clamping joint respectively rotate in the second sliding groove, the first clamping joint, the second clamping joint and the third clamping joint are respectively provided with a concave clamping groove, and the clamping sliding blocks are correspondingly clamped in the clamping grooves;

the distributing slide blocks are respectively provided with a conical inner chock plug groove, the chock plugs correspond to the inner chock plug grooves, the distributing slide blocks are respectively internally provided with a spring groove correspondingly communicated with the air inlet holes and the inner chock plug grooves, the spring grooves are respectively internally provided with a first spring for tensioning the chock plugs, and the chock plugs are respectively connected with a first pull rope;

a support disc sliding hole is formed in the third support disc, a sliding pull rope rod is arranged in the support disc sliding hole, the first pull ropes are correspondingly connected to the pull rope rods respectively, pull rope rod grooves which are arranged in a concave shape are formed in two sides of each pull rope rod respectively, a thirteenth rotating shaft is arranged at the top of each pull rope rod groove respectively, a third swinging support rod is arranged on each thirteenth rotating shaft respectively and is clamped on the third support disc, the third support rods correspond to the pull rope rod grooves respectively, a second spring for elastically pressing the third support rods is arranged in each pull rope rod groove, and a third spring for tensioning the pull rope rods is arranged in the support disc sliding hole respectively;

the first supporting disk and the third supporting disk are correspondingly connected through a first supporting rod, a second supporting rod is arranged on the third supporting disk, the second supporting disk is correspondingly connected to the second supporting rod, and a through hole corresponding to the first pull rope is formed in the second supporting disk;

the supporting cylinder is provided with four through grooves, the wire dividing rotary disc is provided with first sliding grooves corresponding to the through grooves of the supporting cylinder, and the wire dividing sliding blocks slide in the first sliding grooves.

2. The large-scale power distribution cabinet intelligent wire roller automatic distribution strapping line wire coil according to claim 1, characterized in that: a wire barrel inner cavity is formed in the wire barrel, the strapping rope slides in the wire barrel inner cavity, and the sealing connecting piece is made of rubber materials.

3. The large-scale power distribution cabinet intelligent wire roller automatic distribution strapping line wire coil according to claim 1, characterized in that: the wire distributing sliding block is provided with a rotating wheel cavity opening which is correspondingly communicated with the rotating wheel cavity, the rotating wheel cavity opening corresponds to the stay cord rotating wheel, and the rotating wheel cavity opening is internally provided with a sealing cover respectively.

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