CN116759895B - Case low-voltage cable hiding mechanism - Google Patents

Abstract

The invention discloses a novel box-to-low voltage cable hiding mechanism, which belongs to the technical field of box-to-low voltage and particularly relates to a novel box-to-low voltage cable hiding mechanism, which comprises a transformer cabinet body, wherein a transformer and an electric module can be placed in the transformer cabinet body, a whole line and a separation device are arranged at two ends of the inside of the transformer cabinet body and can separate and polymerize cable lines of the transformer and the electric module, and a heat dissipation device is arranged at two ends of the inside of the whole line and the separation device and can rotate along with driving of the whole line and the separation device, so that heat generated by the polymerized cable and heat generated by the transformer and the electric module can be dissipated.

Description

Case low-voltage cable hiding mechanism

Technical Field

The invention relates to the technical field of low voltage of a box transformer, in particular to a hiding mechanism for a low voltage cable of the box transformer.

Background

The box transformer low-voltage is a low-voltage transformer cabinet, plays a role in protecting and supporting an internal transformer, and can be connected with a cable or a main line from the lower side after the transformer is installed, so that electric energy and power can be provided for the transformer, and the operation of the whole box transformer low-voltage cabinet is ensured.

When the existing conventional cable is connected into the low-voltage cabinet of the box, the conventional cable is directly connected with the transformer, and because the condition that the cables are mutually wound is limited in space, the problem of danger is caused for a long time, so that the problem of how to arrange the cables is solved, meanwhile, the conventional cable can be conveniently maintained and repaired when being repaired, and the problem needs to be considered.

Disclosure of Invention

The present invention has been made in view of the above and/or problems with existing low-voltage cable hiding mechanisms of the tank type.

Therefore, an object of the present invention is to provide a low-voltage cable hiding mechanism for a box, which can separate and aggregate cable lines of a transformer and an electrical module through a line-arranging and separating device, and simultaneously, when the line-arranging and separating device is driven, can drive a heat dissipation device to rotate, so that heat generated by the aggregated cable lines and the transformer and the electrical module can be dissipated, and the above-mentioned existing problems can be solved.

In order to solve the technical problems, according to one aspect of the present invention, the following technical solutions are provided:

a box low voltage cable hiding mechanism comprising:

the transformer cabinet body can internally place a transformer and an electric module;

the power transformation cabinet body includes:

the transformer cabinet shell can be used for placing a transformer and an electric module inside;

the bottom plate is arranged at the bottom of the power transformation cabinet shell, is in contact with the ground, and can store and place the driving end of the whole wire and separating device;

the cabinet door is rotationally connected to the front end of the power transformation cabinet shell and can encapsulate a transformer and an electric module which are placed in the power transformation cabinet shell;

the side plate assemblies are arranged at two ends of the power transformation cabinet shell, are matched with the baffle plate assemblies, and can be used for placing the whole wire and the separating device;

the baffle assemblies are arranged at two ends of the inside of the transformer cabinet shell, and the whole wire and the separating device can be placed between the baffle assemblies and the side plate assemblies, and meanwhile, the cable circuits of the transformer and the electric module can be placed;

a placement plate which is provided between the two sets of partition plate assemblies and is capable of mounting and placing the transformer and the electric module;

the side plate assembly includes:

side plates arranged at two ends of the power transformation cabinet shell;

the side plate grooves are arranged at two ends of the inner wall of the side plate, and the inner parts of the side plate grooves can be used for placing the output ends of the whole wire and separating device;

the diaphragm assembly includes:

the partition plates are arranged at two ends of the inside of the transformer cabinet shell, two groups of partition plates are arranged, and the transformer and the electric module can be installed and placed between the two groups of partition plates;

the hollowed-out surfaces are arranged at two ends of the surface of the partition board, can be penetrated by cables of the transformer and the electric module, and are placed and connected between the partition board and the side boards;

the baffle grooves are arranged at two ends of the outer wall of the baffle, and the inside of the baffle grooves can be used for placing the output ends of the whole wire and separating device;

the whole line and separation device is arranged at two ends of the inside of the power transformation cabinet body and can separate and aggregate the cable lines of the transformer and the electric module;

the whole line and separation device comprises:

the first lifting assembly is arranged between the partition plate and the side plate, and is diagonally placed;

the second lifting assembly is arranged between the partition plate and the side plate, and is arranged diagonally to the first lifting assembly, and is arranged crosswise to the first lifting assembly;

the separation assembly is connected to the outer wall of the output end of the second lifting assembly, the inside of the separation assembly can be penetrated by the cables of the transformer and the electrical module, various cables can be separated and placed, and meanwhile, when the separation assembly moves, the cables can be separated;

the aggregation assembly is connected to the outer wall of the output end of the first lifting assembly, the inside of the aggregation assembly can be penetrated by the cables of the transformer and the electric module, the cables separated by the separation assembly can be aggregated and placed, and meanwhile, when the aggregation assembly moves, the aggregation assembly can be matched with the tightening device to aggregate and tighten the cables;

the heat dissipation devices are arranged at two ends of the inside of the whole wire and separation device and can rotate along with the driving of the whole wire and separation device, so that heat of cable aggregation and heat generated by the transformer and the electric module can be dissipated;

and the tightening device is arranged at the bottom of the lower end of the whole wire and separating device, and can be matched with the lower end component of the whole wire and separating device to pull and tighten the polymerized wire.

As a preferable mode of the box low-voltage cable hiding mechanism of the present invention, wherein: the first lifting assembly includes:

the first worms are arranged in two groups, one group is rotationally connected in the front end side plate groove, the other group is rotationally connected in the rear end baffle plate groove, and the lower ends of the outer walls of the two groups of first worms are in transmission connection through a chain wheel and a chain;

the second lifting assembly includes:

the second worms are arranged in two groups, and the first worms and the second worms are arranged in a crossing way;

and the lifting motor is arranged at two ends of the inner part of the bottom plate, and the output end of the lifting motor is connected with bottom ports of a group of first worms and a group of second worms.

As a preferable mode of the box low-voltage cable hiding mechanism of the present invention, wherein: the separation assembly includes:

the separating plate is arranged between the side plate and the partition plate and is connected to the upper end of the first worm;

the mounting grooves are arranged at two ends of the surface of the separation plate, and the heat dissipation device can be placed inside the mounting grooves;

the driving groove is arranged in the middle of the inner wall of the mounting groove and can rotate and place the heat dissipation device;

the separating groove is arranged around the surface of the separating plate, and the inside of the separating groove can be penetrated by the cable of the transformer and the electric module, so that the cable can be separated and placed;

the driving blocks are arranged in two groups, one group is arranged on the right side of the front end of the outer wall of the separation plate, and the other end is arranged on the left side of the rear end of the outer wall of the separation plate;

the threaded lug is arranged on the inner wall of the driving block and is meshed with the second worm of the second lifting assembly, so that the second worm can drive the driving block to lift and move through the threaded lug;

the notch groove is arranged on the inner wall of the driving block and can enable the driving end of the heat dissipation device to penetrate through the notch groove and be in meshed connection with the second worm;

the sliding blocks are arranged in two groups, one group is arranged on the left side of the front end of the outer wall of the separating plate, the other group is arranged on the right side of the rear end of the outer wall of the separating plate, and the inside of the sliding blocks is in sliding connection with the first worm of the first lifting assembly;

the polymeric assembly includes:

the polymerization plate is connected to the lower end of the outer wall of the first worm of the first lifting assembly;

a polymerization tank which is provided on the surface of the polymerization plate, and which is capable of polymerizing the cable lines that pass through the separation tank, and allowing the polymerized cable lines to pass through the polymerization tank;

the embedded groove is arranged at the bottom of the polymerization plate, is arranged around the bottom of the polymerization groove, and can be used for placing the output end of the tightening device.

As a preferable mode of the box low-voltage cable hiding mechanism of the present invention, wherein: the heat dissipation device includes:

a heat dissipation assembly rotatably connected to the inside of the driving grooves of the separation plate and the polymerization plate;

the heat dissipation driving assembly is arranged at two ends of the inside of the separating plate and the polymerizing plate, one end of the heat dissipation driving assembly is connected with the outer wall of the second worm, the other end of the heat dissipation driving assembly is meshed with the outer wall of the heat dissipation assembly, and the heat dissipation driving assembly can drive the heat dissipation assembly along with the movement of the separating plate and the polymerizing plate, so that the heat dissipation assembly dissipates heat of a cable line during polymerization and separation.

As a preferable mode of the box low-voltage cable hiding mechanism of the present invention, wherein: the heat dissipation assembly includes:

a heat radiation fan rotatably connected to the inside of the installation groove and capable of radiating heat of the cable lines during aggregation and separation;

the tooth dish, it sets up at radiator fan's outer wall, and the rotation is connected in the inside of drive tank, and the outer wall can be connected by the heat dissipation drive assembly who runs through the drive tank.

As a preferable mode of the box low-voltage cable hiding mechanism of the present invention, wherein: the heat dissipation drive assembly includes:

the spiral gear is rotationally connected inside the separating plate and the polymerizing plate and is arranged at the inner side of the notch groove, and the outer wall of the spiral gear penetrates through the notch groove to be in meshed connection with the second worm, so that the second worm can drive the spiral gear to rotate;

the driving gear is arranged at the rear end of the spiral thread gear and is connected with the spiral thread gear together with the outer wall of the same rotating shaft rod;

a follower gear engaged with one end of the driving gear and rotatably connected to the insides of the separation plate and the polymerization plate;

a bevel gear provided at an inner port of the follower gear;

the turning bevel gear is connected to the outer wall of the bevel gear in a meshed manner;

the first gear is arranged at the upper end of the turning bevel gear and is connected with the outer wall of the same rotating shaft rod together with the turning bevel gear;

the second gear is connected to the outer wall of the first gear in a meshing manner;

the heat dissipation driving gear is arranged at the bottom of the second gear, and is connected with the outer wall of the same rotating shaft rod together with the turning bevel gear, and can be driven together with the second gear, and one end of the outer wall penetrates through the driving groove to be connected with the outer wall of the tooth disc in a meshed mode.

As a preferable mode of the box low-voltage cable hiding mechanism of the present invention, wherein: the tightening device includes:

a telescopic rod arranged inside the embedded groove;

the rotating seat is arranged at the bottom of the embedded groove and enables the output end of the telescopic rod to penetrate through the output end of the telescopic rod;

the top of the rotating rod is rotationally connected to the bottom of the telescopic rod, and the bottom of the rotating rod is rotationally connected to the inside of the shaft seat;

the tightening claw is arranged at the bottom of the shaft seat and can be clamped and driven by the telescopic rod, and meanwhile, the cable line penetrating through the polymerization groove can be clamped and pulled, so that the polymerized cable line can be tightened.

Compared with the prior art:

the cable lines of the transformer and the electric module can be separated and polymerized through the wire arrangement and separation device, when the cable lines of the transformer and the electric module are installed, the cable lines can be assembled and tightened through the tightening device, so that the cables are assembled and tidied, the lines are prevented from winding, the cable lines can be separated through the separation assembly when the cable lines are maintained, various cable lines are convenient to overhaul, and meanwhile, the heat dissipation device can be driven to rotate when the wire arrangement and the separation device are driven, so that heat generated by the polymerized cable lines, the transformer and the electric module can be dissipated;

through the drive cooperation of tightening means with separation subassembly and polymerization subassembly to can pull and tighten up cable line, thereby can arrange in order cable line, prevent that cable line from twining.

Drawings

FIG. 1 is a schematic diagram of an overall front view structure provided by the present invention;

fig. 2 is a schematic diagram of a front view structure of a main body of the power transformation cabinet provided by the invention;

fig. 3 is a schematic diagram of the internal structure of the power transformation cabinet body provided by the invention;

FIG. 4 is a schematic diagram of the connection structure of the whole line and the separation device provided by the invention;

FIG. 5 is a schematic diagram of the whole line and separation device according to the present invention;

FIG. 6 is a schematic structural diagram of a first lifting assembly according to the present invention;

FIG. 7 is a schematic view of a separation assembly according to the present invention;

FIG. 8 is a schematic view of a partial structure of a separation assembly according to the present invention;

FIG. 9 is a schematic diagram of a heat dissipating device according to the present invention;

FIG. 10 is a schematic diagram of a heat dissipating driving assembly according to the present invention;

FIG. 11 is a schematic view of a polymeric component structure provided by the present invention;

FIG. 12 is a schematic view of a split structure of a polymeric assembly and a tightening device according to the present invention;

FIG. 13 is a schematic view of a tightening device according to the present invention;

fig. 14 is a schematic diagram of a detachment structure of a tightening device according to the present invention.

In the figure: the power transformation cabinet body 1, the power transformation cabinet shell 11, the bottom plate 12, the cabinet door 13, the side plate assembly 14, the side plate 141, the side plate groove 142, the partition plate assembly 15, the partition plate 151, the hollowed surface 152, the partition plate groove 153, the placing plate 16, the wire reeling and separation device 2, the first lifting assembly 21, the first worm 211, the lifting motor 212, the second lifting assembly 22, the separation assembly 23, the separation plate 231, the mounting groove 232, the driving groove 233, the separation groove 234, the driving block 235, the threaded bump 236, the notch groove 237, the sliding block 238, the aggregation assembly 24, the aggregation plate 241, the aggregation groove 242, the embedded groove 243, the heat dissipation device 3, the heat dissipation assembly 31, the heat dissipation fan 311, the tooth disc 312, the heat dissipation driving assembly 32, the vortex wheel 321, the driving gear 322, the following gear 323, the bevel wheel 324, the turning bevel wheel 325, the first gear 326, the second gear 327, the heat dissipation driving gear 328, the tightening device 4, the telescopic rod 41, the rotating seat 42, the rotating rod 43, the shaft seat 44, and the tightening claw 45.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The invention provides a box-to-low voltage cable hiding mechanism, which has the advantages that cable lines can be aggregated and tightened, so that the cables are aggregated and tidied, the lines are prevented from winding, the cable lines can be separated, various cable lines are convenient to overhaul, and meanwhile, heat generated by the aggregated cable lines, a transformer and an electric module can be dissipated, and referring to fig. 1-14, the box-to-low voltage cable hiding mechanism comprises a transformer cabinet body 1, a whole line and separating device 2, a heat dissipating device 3 and a tightening device 4;

the transformer cabinet body 1, its inside can place transformer and electric module, can place transformer and electric module through the transformer cabinet body 1 to make the cable run of transformer and electric module place to both sides, the transformer cabinet body 1 includes: the utility model provides a transformer cabinet housing 11, the bottom plate 12, cabinet door 13, curb plate subassembly 14, curb plate 141, curb plate groove 142, baffle subassembly 15, baffle 151, the fretwork face 152, baffle groove 153 and place board 16 transformer cabinet housing 11, its inside can place transformer and electrical module, the bottom plate 12, it sets up in the bottom of transformer cabinet housing 11, and with ground contact, and can accomodate and place the drive end of whole line and separator 2, cabinet door 13, it rotates the front end of connecting at transformer cabinet housing 11, and can encapsulate transformer and electrical module that place inside transformer cabinet housing 11, curb plate subassembly 14, it sets up at the both ends of transformer cabinet housing 11, and with baffle subassembly 15 cooperation, and can place whole line and separator 2, curb plate 141, it sets up at the both ends of transformer cabinet housing 11, curb plate groove 142, it sets up at the inner wall both ends of curb plate 141, and the inside can place the output end of the whole wire and separating device 2, the baffle plate assembly 15 is arranged at the two inner ends of the power transformation cabinet shell 11, the whole wire and separating device 2 can be placed between the baffle plate assembly 15 and the side plate assembly 14, meanwhile, the cable lines of the transformer and the electric module can be placed, the baffle plate 151 is arranged at the two inner ends of the power transformation cabinet shell 11 and is arranged into two groups, the transformer and the electric module can be installed and placed between the two groups of baffle plates 151, the hollowed-out surface 152 is arranged at the two surface ends of the baffle plate 151, the hollowed-out surface 152 can be penetrated by the cable of the transformer and the electric module, and is placed and connected between the baffle plate 151 and the side plate 141, the baffle plate groove 153 is arranged at the two outer wall ends of the baffle plate 151, and the inside can be placed at the output end of the whole wire and separating device 2, the plate 16 is placed, which is arranged between two sets of baffle assemblies 15 and which enables the installation and placement of transformers and electrical modules.

Whole line and separator 2, it sets up the inside both ends at transformer cabinet body 1, and can separate and aggregate transformer and electric module's cable line, can separate and aggregate transformer and electric module's cable line through whole line and separator 2, when installing transformer and electric module's cable line, can cooperate tightening means 4, aggregate and tighten up cable line, make cable polymerization and arrangement, prevent that the circuit from twining, when maintaining and maintaining cable line, can separate cable line through separator 23, the convenience overhauls all kinds of cable line, simultaneously, when whole line and separator 2 drive, can drive heat abstractor 3 and rotate, thereby can dispel the heat to the circuit of the heat that polymerized cable line and transformer and electric module produced, whole line and separator 2 includes: the first elevating assembly 21, the first worm 211, the elevating motor 212, the second elevating assembly 22, the separating assembly 23, the separating plate 231, the mounting groove 232, the driving groove 233, the separating groove 234, the driving block 235, the screw boss 236, the notch groove 237, the sliding block 238, the polymerizing assembly 24, the polymerizing plate 241, the polymerizing groove 242 and the embedded groove 243, the first elevating assembly 21 is disposed between the partition 151 and the side plate 141 with the first elevating assembly 21 disposed diagonally, the first worm 211 is disposed in two groups, one group is rotatably connected inside the front side plate groove 142, the other group is rotatably connected inside the rear partition groove 153, and the outer wall lower ends of the two groups of the first worm 211 are drivingly connected by a sprocket and a chain, the elevating motor 212 is mounted at both inner ends of the bottom plate 12, and the output end is connected to the bottom ports of the one group of the first worm 211 and the group of the second worm, a second elevation assembly 22 disposed between the partition 151 and the side plate 141, and having the second elevation assembly 22 disposed diagonally to the first elevation assembly 21, and the second elevation assembly 22 disposed to cross the first elevation assembly 21, wherein other structures of the second elevation assembly 22 are identical to those of the first elevation assembly 21, a separation assembly 23 connected to an outer wall of an output end of the second elevation assembly 22, and the inside of the separation assembly 23 can be penetrated by a cable of a transformer and an electric module, and can separate various cables, and at the same time, can separate the cables while moving, a separation plate 231 disposed between the side plate 141 and the partition 151 and connected to an upper end of the first worm 211, a mounting groove 232 disposed at both ends of a surface of the separation plate 231, and inside of which can dispose the heat sink 3, a driving groove 233 disposed in a middle of an inner wall of the mounting groove 232, and can rotate and place the heat sink 3, the separating groove 234 is set around the surface of the separating plate 231, and the interior can be penetrated by the cable of the transformer and the electric module, so that the cable can be separately placed, the driving block 235 is set in two groups, one group is set on the right side of the front end of the outer wall of the separating plate 231, the other end is set on the left side of the rear end of the outer wall of the separating plate 231, the screw thread protruding block 236 is set on the inner wall of the driving block 235 and is meshed with the second worm of the second lifting assembly 22, so that the second worm can drive the driving block 235 to lift through the screw thread protruding block 236, the notch groove 237 is set on the inner wall of the driving block 235, and the driving end penetrating notch groove 237 of the heat sink 3 is meshed with the second worm, the sliding block 238 is set in two groups, one group is set on the left side of the front end of the outer wall of the separating plate 231, the other group is arranged on the right side of the rear end of the outer wall of the separating plate 231, and the interior of the sliding block 238 is connected with the first worm 211 of the first lifting assembly 21 in a sliding manner, the aggregation assembly 24 is connected with the outer wall of the output end of the first lifting assembly 21, the interior of the aggregation assembly 24 can be penetrated by a cable of a transformer and an electric module and can aggregate and place the cable separated by the separating assembly 23, meanwhile, when moving, the cable can be aggregated and tightened by matching with the tightening device 4, the aggregation plate 241 is connected with the lower end of the outer wall of the first worm 211 of the first lifting assembly 21, the aggregation groove 242 is arranged on the surface of the aggregation plate 241 and can aggregate the cable line penetrating through the separating groove 234, the aggregated cable line penetrates through the aggregation groove 242, the embedded groove 243 is arranged at the bottom of the aggregation plate 241 and is arranged around the bottom of the aggregation groove 242, and can be placed on the output of the tightening device 4.

And a heat sink 3 provided at both ends of the inside of the whole wire and separation device 2 and capable of rotating along with the driving of the whole wire and separation device 2, thereby being capable of dissipating heat generated by the heat of the cable aggregation and the heat generated by the transformer and the electric module, the heat sink 3 comprising: the heat dissipating member 31, the heat dissipating fan 311, the tooth plate 312, the heat dissipating driving member 32, the spiral gear 321, the driving gear 322, the follower gear 323, the bevel gear 324, the turning bevel gear 325, the first gear 326, the second gear 327 and the heat dissipating driving gear 328, the heat dissipating member 31 being rotatably connected inside the driving groove 233 of the separating plate 231 and the polymerizing plate 241, the heat dissipating fan 311 being rotatably connected inside the mounting groove 232 and being capable of dissipating heat from the cable wires during the polymerization and the separation, the tooth plate 312 being provided on the outer wall of the heat dissipating fan 311 and being rotatably connected inside the driving groove 233 and being capable of being connected by the heat dissipating driving member 32 penetrating the driving groove 233, the heat dissipating driving member 32 being provided at both ends inside the separating plate 231 and the polymerizing plate 241 with one end being connected to the outer wall of the second worm and the other end being engaged with the outer wall of the heat dissipating member 31, and can drive the heat dissipation assembly 31 along with the movement of the separating plate 231 and the polymerizing plate 241, so as to rotate the heat dissipation assembly 31 to dissipate heat of the cable lines during polymerization and separation, the spiral gear 321 is rotatably connected inside the separating plate 231 and the polymerizing plate 241 and is arranged inside the notch groove 237, the outer wall of the spiral gear 321 penetrates through the notch groove 237 to be in meshed connection with the second worm, the second worm can drive the spiral gear 321 to rotate, the driving gear 322 is arranged at the rear end of the spiral gear 321 and is connected with the spiral gear 321 on the outer wall of the same rotating shaft rod, the follow-up gear 323 is in meshed connection with one end of the driving gear 322 and is in rotational connection inside the separating plate 231 and the polymerizing plate 241, the bevel gear 324 is arranged at the inner side port of the follow-up gear 323, the turning bevel gear 325 is in meshed connection with the outer wall of the bevel gear 324, the first gear 326 is arranged at the upper end of the turning bevel gear 325 and is connected with the turning bevel gear 325 together on the outer wall of the same rotating shaft rod, the second gear 327 is connected with the outer wall of the first gear 326 in a meshed manner, the heat dissipation driving gear 328 is arranged at the bottom of the second gear 327, the heat dissipation driving gear 328 and the turning bevel gear 325 are connected with the outer wall of the same rotating shaft rod together and can be simultaneously driven together with the second gear 327, and one end of the outer wall penetrates through the driving groove 233 and is connected with the outer wall of the tooth disc 312 in a meshed manner and can be simultaneously driven by the heat dissipation driving gear 328.

The tightening device 4 is arranged at the bottom of the lower end of the whole wire and separating device 2, and can be matched with the lower end component of the whole wire and separating device 2 to pull and tighten the polymerized wire, and the tightening device 4 is matched with the driving of the separating component 23 and the polymerizing component 24 to pull and tighten the cable wire, so that the cable wire can be tidied and prevented from being wound, and the tightening device 4 comprises: the telescopic rod 41, rotate seat 42, bull stick 43, axle bed 44 and tighten up claw 45, telescopic rod 41, its inside that sets up in the caulking groove 243 rotates seat 42, its bottom that sets up in the caulking groove 243, and make the output of telescopic rod 41 run through the output of telescopic rod 41, bull stick 43, its top rotates to be connected in the bottom of telescopic rod 41, the inside at axle bed 44 is rotated to the bottom, tighten up claw 45, it sets up in the bottom of axle bed 44, and can be carried out the centre gripping drive by telescopic rod 41, simultaneously can carry out centre gripping and pull the cable run through the polymerization groove 242, thereby can tighten up the cable run of polymerization.

When the cable line of the transformer and the electric module is specifically used, the person skilled in the art penetrates through the side plate groove 142 of the side plate 141 and penetrates through the separating groove 234 of the separating plate 231 and the converging groove 242 of the converging plate 241, and simultaneously penetrates through the tightening claw 45 of the tightening device 4, when the cable line is tightened, the lifting motor 212 is started to drive the first worm 211 of the first lifting assembly 21 to rotate, so that the converging plate 241 is driven to move from top to bottom, the telescopic rod 41 is started simultaneously, the tightening claw 45 is driven to clamp and slide the cable line, so that the cable line is collected, the first worm 211 drives the spiral line gear 321 to rotate in the moving process, the spiral line gear 321 drives the heat dissipation driving gear 328 to rotate, the heat dissipation driving gear 328 drives the heat dissipation fan 311 to rotate, the heat dissipation fan 311 dissipates the heat of the cable polymerization and the heat generated by the transformer and the electric module, when maintenance is needed, the second worm 211 drives the separating plate 231 to move from top to bottom, and the telescopic rod 41 is started to slightly loosen the polymerized cable line, so that the tightening claw 45 slightly loosens the polymerized cable line, the cable line is enabled to separate from top to bottom, and various types of heat dissipation fans are started again, and accordingly maintenance is convenient.

Although the invention has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. A box low voltage cable hiding mechanism comprising:

the transformer cabinet comprises a transformer cabinet body (1), wherein a transformer and an electric module can be placed inside the transformer cabinet body;

the power transformation cabinet body (1) comprises:

a transformer cabinet housing (11) in which a transformer and an electric module can be placed;

the bottom plate (12) is arranged at the bottom of the transformer cabinet shell (11), is in contact with the ground, and can store and place the driving end of the whole wire and separating device (2);

the cabinet door (13) is rotatably connected to the front end of the power transformation cabinet shell (11) and can encapsulate a transformer and an electric module which are placed in the power transformation cabinet shell (11);

the side plate assemblies (14) are arranged at two ends of the power transformation cabinet shell (11), are matched with the baffle plate assemblies (15), and can be used for placing the whole wire and the separating device (2);

the baffle assemblies (15) are arranged at two ends of the inside of the transformer cabinet shell (11), and the whole wire and the separating device (2) can be placed between the baffle assemblies (15) and the side plate assemblies (14) and simultaneously the cable lines of the transformer and the electric module can be placed;

a placement plate (16) which is provided between the two sets of partition plate assemblies (15) and is capable of mounting and placing the transformer and the electric module;

the side plate assembly (14) includes:

side plates (141) provided at both ends of the power transformation cabinet housing (11);

side plate grooves (142) which are provided at both ends of the inner wall of the side plate (141) and in which the output end of the whole wire and separation device (2) can be placed;

the diaphragm assembly (15) comprises:

the partition plates (151) are arranged at two ends of the inside of the transformer cabinet shell (11) and are arranged in two groups, and the transformer and the electric module can be installed and placed between the two groups of partition plates (151);

the hollowed-out surfaces (152) are arranged at two ends of the surface of the partition plate (151), and the hollowed-out surfaces (152) can be penetrated by cables of the transformer and the electric module and are placed and connected between the partition plate (151) and the side plate (141);

a separator groove (153) which is provided at both ends of the outer wall of the separator (151) and in which the output end of the whole wire and separation device (2) can be placed;

the method is characterized in that: the wire-arranging and separating device (2) is arranged at two ends of the inside of the power transformation cabinet body (1) and can separate and aggregate the cable lines of the transformer and the electric module;

the wire-arranging and separating device (2) comprises:

a first lifting assembly (21) which is disposed between the partition plate (151) and the side plate (141) and which positions the first lifting assembly (21) diagonally;

the second lifting assembly (22) is arranged between the partition plate (151) and the side plate (141), the second lifting assembly (22) and the first lifting assembly (21) are arranged diagonally, and the second lifting assembly (22) and the first lifting assembly (21) are arranged crosswise;

the separation assembly (23) is connected to the outer wall of the output end of the second lifting assembly (22), and the inside of the separation assembly (23) can be penetrated by the cables of the transformer and the electric module and can separate and place various cables, and meanwhile, the cables can be separated when moving;

the aggregation assembly (24) is connected to the outer wall of the output end of the first lifting assembly (21), the interior of the aggregation assembly (24) can be penetrated by the cables of the transformer and the electric module, the cables separated by the separation assembly (23) can be aggregated and placed, and meanwhile, the aggregation assembly can be matched with the tightening device (4) to aggregate and tighten the cables when moving;

the heat dissipation devices (3) are arranged at two ends of the inside of the whole wire and separation device (2) and can rotate along with the driving of the whole wire and separation device (2), so that heat generated by cable aggregation and heat generated by the transformer and the electric module can be dissipated;

the tightening device (4) is arranged at the bottom of the lower end of the whole wire and separating device (2) and can be matched with the lower end component of the whole wire and separating device (2) to pull and tighten the polymerized wire.

2. A low-voltage cable hiding mechanism for a tank according to claim 1, characterized in that said first lifting assembly (21) comprises:

the first worms (211) are arranged in two groups, one group is rotationally connected inside the front end side plate groove (142), the other group is rotationally connected inside the rear end baffle plate groove (153), and the lower ends of the outer walls of the two groups of first worms (211) are in transmission connection through a chain wheel and a chain;

the second lifting assembly (22) comprises:

the second worm is arranged in two groups, and the first worm (211) and the second worm are arranged in a crossing way;

and the lifting motor (212) is arranged at two ends of the inside of the bottom plate (12), and the output end of the lifting motor is connected with bottom ports of a group of first worms (211) and a group of second worms.

3. A low-voltage cable hiding mechanism as claimed in claim 2, wherein said separating assembly (23) comprises:

a separation plate (231) which is provided between the side plate (141) and the partition plate (151) and is connected to the upper end of the first worm (211);

mounting grooves (232) which are provided at both ends of the surface of the separation plate (231) and in which the heat sink (3) can be placed;

a driving groove (233) which is provided in the middle of the inner wall of the mounting groove (232) and can rotatably mount the heat sink (3);

a separation groove (234) which is provided around the surface of the separation plate (231) and in which the cables of the transformer and the electric module can be inserted, thereby allowing the cables to be placed separately;

the driving blocks (235) are arranged in two groups, one group is arranged on the right side of the front end of the outer wall of the separation plate (231), and the other end is arranged on the left side of the rear end of the outer wall of the separation plate (231);

the threaded lug (236) is arranged on the inner wall of the driving block (235) and is in meshed connection with the second worm of the second lifting assembly (22), so that the second worm can drive the driving block (235) to lift through the threaded lug (236);

a notch groove (237) which is provided on the inner wall of the drive block (235) and can enable the drive end of the heat sink (3) to penetrate through the notch groove (237) and be in meshed connection with the second worm;

the sliding blocks (238) are arranged in two groups, one group is arranged on the left side of the front end of the outer wall of the separating plate (231), the other group is arranged on the right side of the rear end of the outer wall of the separating plate (231), and the inner parts of the sliding blocks (238) are in sliding connection with the first worm (211) of the first lifting assembly (21);

the polymeric assembly (24) includes:

a polymerization plate (241) connected to the lower end of the outer wall of the first worm (211) of the first elevating assembly (21);

a polymerization tank (242) which is provided on the surface of the polymerization plate (241) and which is capable of polymerizing the cable lines passing through the separation tank (234) and passing the polymerized cable lines through the polymerization tank (242);

and an embedded groove (243) which is arranged at the bottom of the aggregation plate (241), is arranged around the bottom of the aggregation groove (242), and can be used for placing the output end of the tightening device (4).

4. -a low-voltage cable hiding mechanism for a tank according to claim 3, characterized in that said heat dissipating means (3) comprise:

a heat dissipation assembly (31) rotatably connected to the inside of the driving groove (233) of the separation plate (231) and the polymerization plate (241);

the heat dissipation driving assembly (32) is arranged at two ends of the inside of the separating plate (231) and the polymerizing plate (241), one end of the heat dissipation driving assembly is connected with the outer wall of the second worm, the other end of the heat dissipation driving assembly is meshed with the outer wall of the heat dissipation assembly (31), and the heat dissipation driving assembly can drive the heat dissipation assembly (31) along with the movement of the separating plate (231) and the movement of the polymerizing plate (241), so that the heat dissipation assembly (31) dissipates heat of a cable line during polymerization and separation.

5. A low-voltage cable hiding mechanism of a tank according to claim 4, characterized in that said heat dissipating assembly (31) comprises:

a heat radiation fan (311) which is rotatably connected to the inside of the installation groove (232) and can radiate heat of the cable lines during aggregation and separation;

and a tooth plate (312) which is provided on the outer wall of the radiator fan (311) and is rotatably connected to the inside of the drive groove (233), wherein the outer wall can be connected by a radiator drive unit (32) penetrating the drive groove (233).

6. The low-voltage cable hiding mechanism of claim 5, wherein said heat dissipating drive assembly (32) comprises:

the spiral gear (321) is rotationally connected inside the separating plate (231) and the polymerizing plate (241), is arranged inside the notch groove (237), and enables the outer wall of the spiral gear (321) to penetrate through the notch groove (237) to be in meshed connection with the second worm so that the second worm can drive the spiral gear (321) to rotate;

a drive gear (322) which is arranged at the rear end of the spiral thread gear (321) and is connected with the spiral thread gear (321) on the outer wall of the same rotating shaft rod;

a follower gear 323 engaged with one end of the driving gear 322 and rotatably connected to the inside of the separation plate 231 and the polymerization plate 241;

a bevel gear (324) provided at an inner port of the follower gear (323);

a direction-changing bevel gear (325) which is engaged with and connected to the outer wall of the bevel gear (324);

a first gear (326) which is provided at the upper end of the steering bevel gear (325) and is connected to the outer wall of the same rotating shaft rod together with the steering bevel gear (325);

a second gear (327) engaged with the outer wall of the first gear (326);

and the heat dissipation driving gear (328) is arranged at the bottom of the second gear (327) and enables the heat dissipation driving gear (328) and the turning bevel gear (325) to be connected with the outer wall of the same rotating shaft rod, and meanwhile, the heat dissipation driving gear can be driven together with the second gear (327), and one end of the outer wall penetrates through the driving groove (233) and is connected with the outer wall of the tooth disc (312) in a meshed manner.

7. -a low-voltage cable hiding mechanism of a tank according to claim 6, characterized in that said tightening device (4) comprises:

a telescopic rod (41) which is arranged inside the embedded groove (243);

a rotation seat (42) which is arranged at the bottom of the embedded groove (243) and enables the output end of the telescopic rod (41) to penetrate through the output end of the rotation seat (42);

the top of the rotating rod (43) is rotationally connected to the bottom of the telescopic rod (41), and the bottom of the rotating rod is rotationally connected to the inside of the shaft seat (44);

the tightening claw (45) is arranged at the bottom of the shaft seat (44) and can be clamped and driven by the telescopic rod (41), and meanwhile, the cable line penetrating through the aggregation groove (242) can be clamped and pulled, so that the aggregated cable line can be tightened.