CN115305428A

CN115305428A - Power distribution power line slot processing equipment and processing technology

Info

Publication number: CN115305428A
Application number: CN202210974060.8A
Authority: CN
Inventors: 牛小龙
Original assignee: Individual
Current assignee: Runshida Engineering Co ltd
Priority date: 2022-08-15
Filing date: 2022-08-15
Publication date: 2022-11-08
Anticipated expiration: 2042-08-15
Also published as: CN115305428B

Abstract

The invention relates to the technical field of wire slot processing, in particular to a power distribution wire slot processing device and a processing technology, which comprises a base, a support plate, a feeding unit, a hot galvanizing pool, an installation unit and a discharging unit, and has the beneficial effects that: the installation unit is arranged, the plurality of wire grooves can be clamped and limited at the same time through the plurality of suspension assemblies, interference among the plurality of wire grooves is avoided, the galvanizing effect is improved, a certain number of wire grooves are placed in a certain space to the maximum extent, the space utilization rate is high, the galvanizing efficiency is improved, the wire grooves can rotate at a certain angle, the zinc liquid can smoothly flow down, the formation of bulges due to the accumulation on the surfaces of the wire grooves is prevented, and the galvanizing effect is more complete; the wire casing clamping device is provided with the feeding unit, the wire casing clamping device can simultaneously clamp a plurality of wire casings through matching with the mounting unit, the plurality of wire casings do not need to be fixed in sequence through manpower, and the working efficiency is greatly improved.

Description

Power distribution power line slot processing equipment and processing technology

Technical Field

The invention relates to the technical field of wire slot processing, in particular to power distribution power wire slot processing equipment and a processing technology.

Background

The wire casing is also called a wire casing, a wiring groove and the like, and the wire casing consists of a casing body and a casing cover which are generally processed and manufactured respectively, and then the complete wire casing is obtained by assembly, and is an electrician appliance for arranging wires such as power lines, data lines and the like in a standard way and fixing the wires on a wall or a ceiling. The wire slots can be various according to different materials, and are commonly an environment-friendly PVC wire slot, a halogen-free PPO wire slot, a galvanized wire slot and the like, wherein the galvanized wire slot has better corrosion resistance and heat resistance, is commonly applied to standard wiring of outdoor large-scale wires, and is commonly in a hot galvanizing mode.

However, the current processing of the body of the galvanized wire casing has the following problems: 1. generally, a steel wire rope is manually used for winding the head and the tail of a groove body of a wire groove, then the groove body is driven by a lifter to be immersed into zinc liquid, but the method has the defects of small galvanizing quantity and insufficient space utilization rate of the wire groove at one time; 2. when a plurality of metal parts are subjected to hot galvanizing, interference can occur among the metal parts, so that the galvanizing effect of the local outer surface is poor, and meanwhile, the galvanized part of the steel wire rope cannot be galvanized.

Disclosure of Invention

In order to solve the problems, the invention provides power distribution power line slot processing equipment which comprises a base, support plates, a feeding unit, a hot galvanizing pool, an installation unit and a discharging unit, wherein the two support plates are symmetrically arranged at the upper end of the base from left to right, the installation unit is arranged between the two support plates and at the upper parts of the opposite sides of the two support plates, the feeding unit and the discharging unit are sequentially arranged at the upper end of the base and between the two support plates from left to right, and the hot galvanizing pool is arranged at the upper end of the base and between the feeding unit and the discharging unit.

The feeding unit comprises an L-shaped supporting panel, a bearing plate, placing grooves and aligning assemblies, wherein the L-shaped supporting panel is arranged on the left side of the upper end of the base, a plurality of bearing plates are arranged on the vertical section of the L-shaped supporting panel close to one side of the hot galvanizing pool at equal intervals from top to bottom, the bearing plates are provided with the placing grooves at equal intervals, and the aligning assemblies are arranged on the base and located on the front side and the rear side of the bearing plates.

The installation unit is including removing the subassembly, the piece is held to the rectangle, square sliding block, the spliced pole, the connecting plate, fixed plate and suspension subassembly, two be provided with the removal subassembly between the backup pad, the removal subassembly is connected with the rectangle through first electric putter and holds the piece, the rectangle holds and runs through from the front to the back on the piece and has seted up square sliding groove, the symmetry is provided with two square sliding blocks around in the square sliding groove, and square sliding block and square sliding groove sliding fit, two square sliding block opposite sides are central symmetry and are provided with the removal rack that slides and set up in square sliding groove, it is provided with the running gear with two rack meshes to rotate between the upper and lower lateral wall at square sliding groove middle part, the rectangle holds a piece upper end middle part and has seted up the mounting groove, be provided with first positive and negative rotation motor in the mounting groove, first positive and negative rotation motor output shaft is connected with running gear, the rectangle holds a piece lower extreme longitudinal symmetry and has seted up two rectangle sliding grooves that communicate with square sliding groove, two square sliding block lower extremes all are provided with rectangle sliding groove sliding fit's inside wall, the lower extreme all is provided with rectangle sliding groove sliding fit, the connecting plate, one of which has set up the connecting plate, one of them is provided with the fixed plate, the lower extreme, the last grade of second electric putter is provided with the fixed plate, the spacing of the fixed plate, the second, the spacing is provided with the spacing of hanging plate, the spacing of the fixed plate, the equal spacing of the last fixed plate, the spacing of the rectangular groove.

According to a preferred technical scheme, the aligning assembly comprises a rectangular displacement groove, a circular groove, a rotating circular disc, an elliptical ring groove, rectangular supporting blocks, a pressing plate, a moving cylinder, a placing assembly and a rectangular sliding groove, the rectangular displacement groove is formed in the upper end of the base and located on the front side and the rear side of the bearing plate, the circular groove is formed in the base and located below the rectangular displacement groove, the rectangular displacement groove is communicated with the circular groove through the rectangular sliding groove, the cross section size of the rectangular sliding groove is smaller than that of the rectangular displacement groove, the rotating circular disc is rotatably arranged in the circular groove, the elliptical ring groove is formed in the upper end of the rotating circular disc, the lower end of the rotating circular disc is connected with an output shaft of a second forward and reverse rotation motor, the rectangular supporting blocks sliding along the length direction of the rectangular displacement groove are arranged in the two rectangular displacement grooves, the pressing plate is arranged at the upper end of each rectangular supporting block, the placing assembly is arranged in the pressing plate, the moving cylinder in sliding fit with the rectangular sliding groove is arranged below the rectangular supporting block, and the lower end of the moving cylinder passes through the rectangular sliding groove and then is in sliding fit with the elliptical ring groove.

As a preferred technical scheme of the invention, the moving assembly comprises support guide rods, a threaded rod and a moving support block, wherein the two support guide rods are arranged between the two support plates from front to back, the two support guide rods are sleeved with the moving support block together, the threaded rod is rotatably arranged between the two support plates and between the two support guide rods and penetrates through the moving support block in a threaded fit manner, the end part of the threaded rod penetrates through the support plate on any side and then is connected with an output shaft of a third forward and reverse rotation motor arranged on a motor base on the outer side wall of the support plate, and a first electric push rod is arranged on the lower end surface of the moving support block.

According to a preferable technical scheme, the placing assembly comprises rectangular placing grooves, extrusion plates, square grooves and U-shaped support frames, the plurality of rectangular placing grooves are formed in the opposite sides of the compression plates in a penetrating mode and distributed in a matrix mode, sliding grooves are formed in the upper ends of the compression plates, the extrusion plates which slide up and down are arranged in the sliding grooves, the square grooves corresponding to the rectangular placing grooves in the compression plates are formed in the front ends of the extrusion plates in a penetrating mode, the U-shaped support frames are arranged at the upper ends of the compression plates, and the lower ends of the horizontal sections of the U-shaped support frames are connected with the upper ends of the extrusion plates through third electric push rods.

As a preferred technical scheme of the invention, the inner bottom side wall of the rectangular placing groove is provided with a fan-shaped groove, and a rotating wheel is rotationally arranged in the fan-shaped groove.

According to a preferred technical scheme, the hanging assembly comprises a rectangular hanging plate, a rectangular clamping groove, a trapezoidal accommodating groove and hooks, the rectangular hanging plate is fixedly connected to the upper side wall of the limiting groove, the rectangular clamping groove is formed in the lower end of the rectangular hanging plate in a penetrating mode, the trapezoidal accommodating groove is formed in each of two sides of the rectangular clamping groove, the bottom side wall of the trapezoidal accommodating groove is an inclined surface, the hooks are rotatably arranged between the front side wall and the rear side wall of the trapezoidal accommodating groove and close to the rotating rectangular clamping groove, the opposite sides of the two hooks are connected with the trapezoidal accommodating groove through supporting springs, and the corners below the opposite sides of the two hooks are inclined surfaces.

As a preferable technical scheme, the blanking assembly comprises an L-shaped plate and a placing plate, the L-shaped plate is arranged on the right side of the upper end of the base, the placing plates are arranged on the vertical section of the L-shaped plate and on one side, close to the hot galvanizing bath, of the L-shaped plate at equal intervals from top to bottom, and the distance between every two adjacent placing plates is the same as the distance between every two adjacent bearing plates.

As a preferred technical scheme of the invention, a plurality of limiting grooves are distributed in a matrix manner, and the cross sections of the limiting grooves are in a parallelogram shape.

The invention has the beneficial effects that:

1. the installation unit is arranged, the groove bodies of the wire grooves can be clamped and limited at the same time through the plurality of suspension assemblies, interference among the groove bodies is avoided, the galvanizing effect is improved, a certain number of groove bodies are placed in a certain space to the maximum extent, the space utilization rate is high, the galvanizing efficiency is improved, the groove bodies can rotate at a certain angle, the zinc liquid flows down smoothly, the protrusions are prevented from being accumulated on the surfaces of the groove bodies, and the galvanizing effect is ensured to be more complete.

2. The loading unit is arranged, the loading unit and the mounting unit are matched to clamp the plurality of groove bodies at the same time, and the plurality of groove bodies are not required to be fixed in sequence manually, so that the labor consumption is reduced, the safety of workers is protected, and the working efficiency is greatly improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a three-dimensional structure of a slot body of a working object slot of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 isbase:Sub>A sectional view taken along line A-A of FIG. 3 of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 in accordance with the present invention;

FIG. 6 is a cross-sectional view (from above looking down) of the circular groove, the rotating circular disk, and the elliptical ring groove of the present invention;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 3 in accordance with the present invention;

fig. 8 is a cross-sectional view (from front to back) of the suspension assembly of the present invention.

In the figure: 1. a base; 2. a support plate; 3. a feeding unit; 31. an L-shaped support panel; 32. carrying a plate; 33. placing a groove; 34. an alignment assembly; 341. a rectangular displacement slot; 342. a circular groove; 343. rotating the circular disc; 344. an elliptical ring groove; 345. a rectangular supporting block; 346. a compression plate; 347. moving the cylinder; 348. placing the component; 3481. a rectangular placing groove; 3482. a compression plate; 3483. a square groove; 3484. a U-shaped support frame; 3485. a sector groove; 3486. a rotating wheel; 349. a rectangular chute; 4. a hot galvanizing pool; 5. a mounting unit; 51. a moving assembly; 511. a support guide rod; 512. a threaded rod; 513. moving the support block; 52. a rectangular containing block; 53. a square slider; 54. connecting columns; 55. a connecting plate; 56. a fixing plate; 57. a suspension assembly; 571. a rectangular suspension plate; 572. a rectangular clamping groove; 573. a trapezoidal accommodating groove; 574. hooking; 6. a blanking unit; 58. a limiting groove; 61. an L-shaped plate; 62. a mounting plate; 71. a square sliding groove; 72. a rectangular sliding groove; 73. a rectangular groove.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Referring to fig. 2 and 3, a distribution power wire casing processing equipment, including base 1, backup pad 2, material loading unit 3, hot-galvanize pond 4, installation unit 5 and unloading unit 6, base 1 upper end bilateral symmetry is provided with two backup pads 2, and the position that just is located backup pad 2 opposite side upper portion between two backup pads 2 is provided with installation unit 5, and base 1 upper end just is located and has set gradually material loading unit 3 and unloading unit 6 from the left hand right side between two backup pads 2, and base 1 upper end just is located and has seted up hot-galvanize pond 4 between material loading unit 3 and the unloading unit 6.

Referring to fig. 3, 4, 5 and 6, the feeding unit 3 includes an L-shaped supporting panel 31, a bearing plate 32, a placing groove 33 and an aligning assembly 34, the L-shaped supporting panel 31 is disposed on the left side of the upper end of the base 1, a plurality of bearing plates 32 are disposed at equal intervals from top to bottom on the side of the vertical section of the L-shaped supporting panel 31 close to the hot galvanizing bath 4, the bearing plates 32 are disposed with a plurality of placing grooves 33 at equal intervals, and the aligning assembly 34 is disposed on the base 1 and on the front and rear sides of the bearing plates 32; the aligning assembly 34 comprises rectangular displacement grooves 341, circular grooves 342, rotating circular discs 343, elliptical ring grooves 344, rectangular supporting blocks 345, a pressing plate 346, a moving cylinder 347, a placing assembly 348 and rectangular sliding grooves 349, the rectangular displacement grooves 341 are formed in the upper end of the base 1 and located on the front side and the rear side of the bearing plate 32, the circular grooves 342 are formed below the rectangular displacement grooves 341 in the base 1, the rectangular displacement grooves 341 and the circular grooves 342 are communicated through the rectangular sliding grooves 349, the cross section size of each rectangular sliding groove 349 is smaller than that of each rectangular displacement groove 341, the rotating circular discs 343 are rotatably arranged in the circular grooves 342, the elliptical ring grooves 344 are formed in the upper end of each rotating circular disc 343, the lower ends of the rotating circular discs 343 are connected with output shafts of the second forward and reverse rotating motors, the rectangular supporting blocks 345 sliding along the length directions of the rectangular displacement grooves 341 are arranged in the two rectangular displacement grooves 341, the pressing plate 346 is arranged at the upper end of the rectangular groove 345, the placing assembly 348 is arranged in the pressing plate 346, the moving cylinder 347 slidably matched with the rectangular sliding grooves 349 under the rectangular sliding grooves 347; the placing assembly 348 comprises a rectangular placing groove 3481, a plurality of rectangular placing grooves 3481, a square groove 3483 and a U-shaped supporting frame 3484, wherein the opposite side of the pressing plate 346 is provided with the rectangular placing grooves 3481 in a penetrating manner, the rectangular placing grooves 3481 are distributed in a matrix manner, the upper end of the pressing plate 346 is provided with a sliding groove, the sliding groove is internally provided with the pressing plate 3482 which slides up and down, the front end of the pressing plate 3482 is provided with the square grooves 3483 corresponding to the rectangular placing grooves 3481 on the pressing plate 346 in a penetrating manner, the upper end of the pressing plate 346 is provided with the U-shaped supporting frame 3484, the lower end of the horizontal section of the U-shaped supporting frame 3484 is connected with the upper end of the pressing plate 3482 through a third electric push rod; the inner bottom side wall of the rectangular placing groove 3481 is provided with a sector groove 3485, and the sector groove 3485 is internally and rotatably provided with a rotating wheel 3486.

When the pressing plate type electric power tool works specifically, the second forward and reverse rotation motor is started firstly, the second forward and reverse rotation motor drives the rotating circular disc 343 to rotate, the oval ring groove 344 in the rotating circular disc 343 drives the moving cylinder 347 to move, so that the rectangular supporting blocks 345 connected with the two moving cylinders 347 are driven to be away from each other along the rectangular displacement groove 341, the distance between the two rectangular supporting plates 2 is ensured to be larger than the length of the groove body, at the moment, the second forward and reverse rotation motor stops, then the groove body is manually placed in the placing groove 33 in the bearing plate 32 along the rectangular placing groove 3481 in the pressing plate 346 and the square groove 3483 in the pressing plate 3482, then the third electric push rod is started, the third electric push rod drives the pressing plate 3482 to move upwards until the rectangular placing groove 3481 and the square groove 3483 do not coincide, at the moment, the third electric push rod stops, the pressing plate 346 is driven to be close to each other through the second forward and reverse rotation motor, in the process, the opposite sides of the pressing plate 3482 push the two ends of the groove body until the pressing plates 3482 are tightly abutted against the groove body, the groove body is located at the central position of the placing groove body, and then the second forward and reverse rotation motor is started, so as to be away from each other, and driven.

Referring to fig. 1, 2, 3 and 7, the mounting unit 5 includes a moving assembly 51, a rectangular accommodating block 52, a square sliding block 53, a connecting column 54, a connecting plate 55, a fixing plate 56 and a suspension assembly 57, the moving assembly 51 is disposed between the two support plates 2, the moving assembly 51 is connected to the rectangular accommodating block 52 through a first electric push rod, a square sliding groove 71 is formed in the rectangular accommodating block 52 from front to back in a penetrating manner, the two square sliding blocks 53 are symmetrically disposed in the square sliding groove 71 from front to back, the square sliding blocks 53 are in sliding fit with the square sliding grooves 71, moving racks which are arranged in the square sliding grooves 71 in a sliding mode are arranged on the opposite sides of the two square sliding blocks 53 in a centrosymmetric mode, rotating gears which are meshed with the two racks are arranged between the upper side wall and the lower side wall of the middle portion of the square sliding grooves 71 in a rotating mode, an installation groove is formed in the middle portion of the upper end of the rectangular containing block 52, a first forward and reverse rotating motor is arranged in the installation groove, an output shaft of the first forward and reverse rotating motor is connected with the rotating gears, two rectangular sliding grooves 72 which are communicated with the square sliding grooves 71 are arranged on the lower end of the rectangular containing block 52 in a front-back symmetric mode, connecting columns 54 which are in sliding fit with the rectangular sliding grooves 72 are arranged at the lower ends of the two square sliding blocks 53, connecting plates 55 are arranged at the lower ends of the connecting columns 54, the lower end of one of the connecting plates 55 is provided with a fixing plate 56, the lower end of the other connecting plate 55 is provided with a rectangular groove 73, the fixing plate 56 which slides up and down is arranged in the rectangular groove 73, the upper end of the fixed plate 56 is connected with the rectangular groove 73 through a second electric push rod, a plurality of limiting grooves 58 are formed in the fixed plate 56 in a penetrating mode at equal intervals, the limiting grooves 58 are distributed in a matrix mode, the cross section of each limiting groove 58 is a parallelogram, and the inner side walls of the limiting grooves 58 are provided with hanging assemblies 57; the movable component 51 comprises supporting guide rods 511, a threaded rod 512 and a movable supporting block 513, wherein the two supporting guide rods 511 are arranged between the two supporting plates 2 from front to back, the movable supporting block 513 is sleeved on the two supporting guide rods 511 together, the threaded rod 512 is rotatably arranged between the two supporting plates 2 and between the two supporting guide rods 511, the threaded rod 512 penetrates through the movable supporting block 513 in a threaded fit manner, the end part of the threaded rod 512 penetrates through the supporting plate 2 on any side and then is connected with an output shaft of a third forward and reverse rotation motor arranged on a motor base on the outer side wall of the supporting plate 2, and a first electric push rod is arranged on the lower end face of the movable supporting block 513; in the initial state, the two square sliders 53 are farthest apart.

During specific work, a groove body is installed, wherein a first electric push rod drives a rectangular containing block 52 to descend to a proper position, then a first forward and reverse rotation motor is started, the first forward and reverse rotation motor drives a rotation gear to rotate, the rotation gear drives two racks to move towards the direction close to each other, so that a square sliding block 53 connected with the racks is driven to move, until the two ends of the groove body enter limiting grooves 58 in a fixing plate 56, the groove body is positioned below a suspension assembly 57, then the first electric push rod drives the rectangular containing block 52 to descend, so that hole grooves at the two ends of the groove body are limited by the suspension assembly 57, the groove body is installed on the suspension assemblies 57 at the two sides, a third forward and reverse rotation motor drives a threaded rod to rotate, so that the rectangular containing block 52 is driven to move, when the groove body is driven to be above a hot galvanizing bath 4, the fixing plate 56 connected with the second electric push rod is driven to move downwards for a certain distance, so that the groove body rotates, finally, the groove body keeps a certain inclination angle, the groove body is driven to pass through the first electric push rod, so that the groove body is immersed into a hot galvanizing bath 4, and the hot galvanizing bath liquid flows downwards along the bottom side of the hot galvanizing bath 4, and the hot galvanizing bath is lifted by the residual zinc bath 4, and the hot galvanizing bath liquid flowing on the bottom side of the hot galvanizing bath 4, and the hot galvanizing bath 4; after the trough body is cooled after hot galvanizing is finished, the fixed plate 56 connected with the trough body is driven to reset through the second electric push rod, and then the trough bodies are all driven to the blanking unit 6.

Referring to fig. 8, the suspension assembly 57 includes a rectangular suspension plate 571, a rectangular clamping groove 572, trapezoidal accommodation grooves 573 and hooks 574, the rectangular suspension plate 571 is fixedly connected to the upper side wall of the limiting groove 58, the rectangular clamping groove 572 is penetratingly formed at the lower end of the rectangular suspension plate 571, the trapezoidal accommodation grooves 573 are formed at both sides of the rectangular clamping groove 572, the bottom side wall of the trapezoidal accommodation groove 573 is an inclined surface, the hooks 574 are rotatably disposed between the front and rear side walls of the trapezoidal accommodation groove 573 and near the position where the rectangular clamping groove 572 is rotated, opposite sides of the two hooks 574 are connected with the trapezoidal accommodation grooves 573 through support springs, and corners below opposite sides of the two hooks 574 are inclined surfaces; during specific work, the groove body is installed: when the upper end of the tank body is in contact with the inclined plane on the hook 574, the hook 574 swings towards the trapezoid accommodating groove 573 by the driving force of the rectangular suspension plate 571, at this time, one end of the hook 574 close to the tank body is always in contact with the outer wall of the tank body until the hole on the tank body moves to the position corresponding to the hook 574, the hook 574 enters the hole on the tank body under the elastic force of the supporting spring, then the rectangular suspension plate 571 moves upwards for a certain distance, and at this time, the tank body is suspended on the hook 574.

Referring to fig. 2 and 3, the blanking assembly comprises an L-shaped plate 61 and a placing plate 62, the L-shaped plate 61 is arranged on the right side of the upper end of the base 1, the placing plates 62 are arranged on the vertical section of the L-shaped plate 61 and on the side close to the hot galvanizing bath 4 at equal intervals from top to bottom, and the distance between the adjacent placing plates 62 is the same as the distance between the adjacent bearing plates 32; during specific work, the rectangular suspension plate 571 moves downwards and drives the groove body to move downwards under the pushing of the first electric push rod, firstly, the bottom side wall of the outer portion of the groove body is in contact with the placing plate 62, then, the groove body and the rectangular clamping groove 572 move relatively, the inclined surface of the hook 574 is in contact with the hole groove in the groove body, under the action of the pushing force between the hole groove and the inclined surface, the hook 574 rotates and enters the hole groove in the groove body, then, one end, close to the groove body, of the hook 574 is in contact with the outer wall of the groove body, at the moment, the rectangular suspension plate 571 stops moving downwards, then, the third forward and reverse motor is started, so that the movable supporting block 513 is driven to move leftwards through the threaded rod 512, until the hook 574 breaks away from the groove body, at the moment, the groove body is completely unloaded from the suspension assembly 57 and placed on the placing plate 62, and finally, the groove body on the placing plate 62 is collected in a concentrated mode.

The invention also provides a processing technology of the power distribution wire slot, which is completed by matching the power distribution wire slot processing equipment, and comprises the following specific working steps:

the first step is as follows: the second forward and reverse rotation motor is started firstly, the second forward and reverse rotation motor drives the rotating circular disc 343 to rotate, the elliptical ring groove 344 on the rotating circular disc 343 drives the moving cylinder 347 to move, so that the rectangular supporting blocks 345 connected with the two moving cylinders 347 are driven to be away from each other along the rectangular displacement groove 341, and the distance between the two rectangular supporting plates 2 is ensured to be larger than the length of the groove body, then the groove body is manually placed in the placing groove 33 on the bearing plate 32 along the rectangular placing groove 3481 on the pressing plate 346 and the square groove 3483 on the squeezing plate 3482, the third electric push rod drives the squeezing plate 3482 to move upwards until the rectangular placing groove 3481 and the square groove 3483 are not overlapped, the pressing plate 346 is driven to be close to each other through the second forward and reverse rotation motor, in the process, the opposite sides of the squeezing plate 3482 push the two ends of the groove body until the squeezing plates 3482 on the two sides of the squeezing plate 3482 are tightly abutted against the groove body, the groove body is located at the center of the groove body 33, and then the second forward and reverse rotation motor is started, so that the pressing plates 346 are driven to be away from each other.

The second step: the first electric push rod drives the rectangular containing block 52 to descend to a proper position, then the first forward and reverse rotating motor is started, the first forward and reverse rotating motor drives the rotating gear to rotate, the rotating gear drives the two racks to move towards the mutually approaching direction, so that the square sliding block 53 connected with the racks is driven to move, until the two ends of the groove body enter the limiting grooves 58 in the fixing plate 56, the groove body is positioned below the hanging component 57, then the first electric push rod pushes the rectangular containing block 52 to descend, so that the hole grooves at the two ends of the groove body are limited by the hanging component 57, at the moment, the groove body is installed on the hanging components 57 at the two sides, the third forward and reverse rotating motor is started, drives the threaded rod to rotate, so that the rectangular containing block 52 is driven to move, when the cell body is driven to hot-galvanize top of pond 4, promote the fixed plate 56 that links through second electric putter and remove certain distance downwards, make the cell body take place to rotate, final cell body keeps certain inclination, then through first electric putter, make the cell body all soak hot-galvanize inside the pond 4, after the zinc-plating is accomplished, with its lifting and keep away from hot-galvanize pond 4, be in remaining unnecessary zinc liquid on the tilt state cell body this moment, can flow down along its surface, and through the bottom side of the interior slope of spacing groove 58, unnecessary zinc liquid can flow away along the inclined plane, after the cell body cooling after the hot-galvanize finishes, drive fixed plate 56 that links through second electric putter and reset, all drive unloading unit 6 departments with a plurality of cell bodies afterwards.

The third step: through the pushing of the first electric push rod, the rectangular suspension plate 571 moves downwards and drives the tank body to move downwards, firstly, the bottom side wall of the outer portion of the tank body is in contact with the placing plate 62, then the tank body and the rectangular clamping groove 572 move relatively, the inclined surface of the hook 574 is in contact with the hole groove in the tank body, under the action of the pushing force between the hole groove and the inclined surface, the hook 574 rotates and enters the hole groove in the tank body, then one end, close to the tank body, of the hook 574 is in contact with the outer wall of the tank body, at the moment, the rectangular suspension plate 571 stops moving downwards, then the third forward and reverse rotation motor is started, so that the movable supporting block 513 is driven by the threaded rod 512 to move leftwards until the hook 574 disengages from the tank body, at the moment, the tank body is completely unloaded from the suspension assembly 57 and placed on the placing plate 62, and finally, the tank body on the placing plate 62 is collected in a concentrated mode.

The foregoing shows and describes the general principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a distribution power line groove processing equipment, includes base (1), backup pad (2), material loading unit (3), hot galvanizing bath (4), installation unit (5) and unloading unit (6), its characterized in that: base (1) upper end bilateral symmetry is provided with two backup pads (2), and the position that just is located backup pad (2) opposite side upper portion between two backup pads (2) is provided with installation unit (5), and base (1) upper end just is located and has set gradually material loading unit (3) and unloading unit (6) from the left hand right side between two backup pads (2), and hot galvanizing pond (4) have been seted up to base (1) upper end just is located between material loading unit (3) and unloading unit (6), wherein:

the feeding unit (3) comprises an L-shaped supporting panel (31), bearing plates (32), placing grooves (33) and aligning assemblies (34), the L-shaped supporting panel (31) is arranged on the left side of the upper end of the base (1), a plurality of bearing plates (32) are arranged on one side, close to the hot galvanizing bath (4), of the vertical section of the L-shaped supporting panel (31) at equal intervals from top to bottom, the bearing plates (32) are provided with the placing grooves (33) at equal intervals, and the aligning assemblies (34) are arranged on the base (1) and located on the front side and the rear side of each bearing plate (32);

the mounting unit (5) comprises a moving assembly (51), a rectangular containing block (52), square sliding blocks (53), a connecting column (54), a connecting plate (55), a fixing plate (56) and a hanging assembly (57), the moving assembly (51) is arranged between the two supporting plates (2), the moving assembly (51) is connected with the rectangular containing block (52) through a first electric push rod, a square sliding groove (71) is formed in the rectangular containing block (52) in a penetrating manner from front to back, the two square sliding blocks (53) are symmetrically arranged in the square sliding groove (71) from front to back, the square sliding blocks (53) are in sliding fit with the square sliding groove (71), moving racks which are arranged in the square sliding groove (71) in a sliding manner are centrally and symmetrically arranged on opposite sides of the two square sliding blocks (53), rotating gears which are meshed with the two racks are rotatably arranged between upper and lower side walls in the middle of the square sliding groove (71), a mounting groove is formed in the middle of the upper end of the rectangular containing block (52), a first rectangular forward and reverse rotating motor is arranged in the mounting groove, an output shaft of the first forward and reverse rotating motor is connected with the rotating gears, the lower end of the rectangular containing block (52) is symmetrically arranged with the two sliding grooves (72) which are communicated with the sliding grooves (71), and the sliding grooves (72), and the sliding grooves of the sliding blocks (72), the lower end of the connecting column (54) is provided with connecting plates (55), the lower end of one connecting plate (55) is provided with a fixing plate (56), the lower end of the other connecting plate (55) is provided with a rectangular groove (73), the rectangular groove (73) is internally provided with the fixing plate (56) which can slide up and down, the upper end of the fixing plate (56) is connected with the rectangular groove (73) through a second electric push rod, the fixing plate (56) is provided with a plurality of limiting grooves (58) in an equidistant penetrating mode, and the inner side walls of the limiting grooves (58) are provided with hanging assemblies (57).

2. The electrical distribution power trunking machining facility of claim 1 wherein: the aligning component (34) comprises a rectangular displacement groove (341), a circular groove (342), a rotating circular disc (343), an elliptical ring groove (344), rectangular supporting blocks (345), a pressure plate (346), a moving cylinder (347), a placing component (348) and rectangular sliding grooves (349), the rectangular displacement grooves (341) are formed in the upper end of the base (1) and located on the front side and the rear side of the bearing plate (32), the circular groove (342) is formed below the rectangular displacement groove (341) in the base (1), the rectangular displacement grooves (341) are communicated with the circular groove (342) through the rectangular sliding grooves (349), the cross section size of each rectangular sliding groove (349) is smaller than that of each rectangular displacement groove (341), the rotating circular disc (343) is rotatably arranged in the circular groove (342), the elliptical ring groove (344) is formed in the upper end of the rotating circular disc (343), the lower end of the rotating circular disc (343) is connected with an output shaft of a second forward-reverse rotating motor, the rectangular supporting blocks (346) sliding along the length direction are arranged in each rectangular displacement groove (341), the pressure plate (345) is arranged at the upper end of the supporting blocks (345), the pressure plate (348) is arranged in the rectangular sliding grooves (345), the lower end of the cylinder (349) and matched with the cylinder (349), the lower end of the moving cylinder (347) passes through the rectangular sliding groove (349) and then is in sliding fit with the elliptical ring groove (344).

3. The electrical distribution power trunking machining facility of claim 1 wherein: remove subassembly (51) including supporting guide arm (511), threaded rod (512) and removal supporting shoe (513), two be provided with two supporting guide arm (511) from preceding back between backup pad (2), two support guide arm (511) go up common cover and are equipped with removal supporting shoe (513), just be located to rotate between two supporting guide arm (511) and be provided with threaded rod (512) between two backup pad (2), and threaded rod (512) pass removal supporting shoe (513) with screw-thread fit's mode, the tip of threaded rod (512) is passed behind backup pad (2) of arbitrary one side and is connected with the output shaft through the third positive and negative motor that sets up on the motor cabinet of backup pad (2) lateral wall, the terminal surface is provided with first electric putter under removal supporting shoe (513).

4. A distribution power trunking machining facility according to claim 2 wherein: the placing assembly (348) comprises rectangular placing grooves (3481), a plurality of rectangular placing grooves (3481), square grooves (3483) and a U-shaped supporting frame (3484), the opposite sides of the pressing plate (346) are provided with the rectangular placing grooves (3481) in a penetrating mode, the rectangular placing grooves (3481) are distributed in a matrix mode, the upper end of the pressing plate (346) is provided with a sliding groove, the pressing plate (3482) which slides up and down is arranged in the sliding groove, the front end of the pressing plate (3482) is provided with the square grooves (3483) corresponding to the rectangular placing grooves (3481) on the pressing plate (346) in a penetrating mode, the upper end of the pressing plate (346) is provided with the U-shaped supporting frame (3484), and the lower end of the horizontal section of the U-shaped supporting frame (3484) is connected with the upper end of the pressing plate (3482) through a third electric push rod.

5. A distribution power trunking machining facility of claim 4 wherein: the inner bottom side wall of the rectangular placement groove (3481) is provided with a fan-shaped groove (3485), and the fan-shaped groove (3485) is rotatably provided with a rotating wheel (3486).

6. The electrical trunking machining apparatus of claim 1 wherein: the suspension assembly (57) comprises a rectangular suspension plate (571), a rectangular clamping groove (572), a trapezoid containing groove (573) and hooks (574), the rectangular suspension plate (571) is fixedly connected to the upper side wall of the limiting groove (58), the rectangular clamping groove (572) is formed in the lower end of the rectangular suspension plate (571) in a penetrating mode, the trapezoid containing grooves (573) are formed in the two sides of the rectangular clamping groove (572), the bottom side wall of each trapezoid containing groove (573) is an inclined plane, the hooks (574) are rotatably arranged between the front side wall and the rear side wall of each trapezoid containing groove (573) and close to the position where the rectangular clamping groove (572) rotates, opposite sides of the two hooks (574) are connected with the trapezoid containing grooves (573) through supporting springs, and the lower sides of the two hooks (574) on opposite sides are inclined planes.

7. The electrical distribution power trunking machining facility of claim 1 wherein: the blanking assembly comprises L-shaped plates (61) and placing plates (62), the L-shaped plates (61) are arranged on the right side of the upper end of the base (1), a plurality of placing plates (62) are arranged on the vertical section of each L-shaped plate (61) and on one side close to the hot galvanizing bath (4) at equal intervals from top to bottom, and the distance between every two adjacent placing plates (62) is the same as the distance between every two adjacent bearing plates (32).

8. The electrical distribution power trunking machining facility of claim 1 wherein: the limiting grooves (58) are distributed in a matrix mode, and the cross sections of the limiting grooves (58) are parallelogram.