CN116140951A - Enclose fender auxiliary installation equipment for electric power construction - Google Patents

Abstract

The invention relates to auxiliary installing equipment for a fence for electric power construction, which comprises a movable frame, baffles, a stock module and an installing module, wherein the movable frame is of a rectangular structure, the baffles are symmetrically arranged at the upper end of the movable frame and are of a trapezoid structure, the stock module is arranged at the left side between the baffles, and the installing module is arranged at the right side between the baffles. According to the invention, the installing die frame is arranged, when the installing die frame moves downwards to the lowest position, the PVC electric power fence on the rightmost side of the stock module is just positioned in the middle of the rectangular groove, the pushing component can synchronously push the PVC electric power fence left and right, so that the PVC electric power fence is positioned in the middle of the rectangular groove, then the adsorption component moves outwards to adsorb and fix the PVC electric power fence, when the rotating die roller moves upwards to the highest position, the PVC electric power fence is turned over to the upper end of the upright post, and when the rotating die roller moves downwards gradually, the PVC electric power fence can be accurately arranged in the slot between the upright posts.

Description

Enclose fender auxiliary installation equipment for electric power construction

Technical Field

The application relates to the technical field of power equipment installation, in particular to a fence auxiliary installation device for power construction.

Background

The fence is used in the electric power construction mainly on the building site, can effectively carry out the work of the grid of the internal and external positions through the fence, can prevent dust in the site from entering into the life road surface to a large extent, and through the setting of the fence, realize internal and external separation, be favorable to carrying out the protection of internal and external personnel, can prevent simultaneously that outside personnel from entering into the site through other positions of the site, realize the purpose of two-way protection.

At present, the existing power fence generally has the following defects in the installation process: 1. when the existing electric power fence is installed, the existing electric power fence is usually required to be manually carried and installed one by one, the installation effect is poor, the efficiency is low, and the automatic work of the electric power fence cannot be realized; 2. when the existing equipment is used for installing the electric power fence, the electric power fence cannot be accurately positioned, meanwhile, the electric power fence is easy to fall when ascending, and the anti-falling protection effect cannot be effectively achieved.

Disclosure of Invention

In order to realize enclosing the function that keeps off to PVC electric power and carry out automatic installation one by one, this application provides an electric power construction is with enclosing fender auxiliary installation equipment.

The application provides a enclose fender auxiliary installation equipment for electric power construction adopts following technical scheme:

the utility model provides an electric power construction is with enclosing fender auxiliary installation equipment, includes and removes frame, baffle, stock module and installation module, remove the frame and be rectangular structure, remove the frame lower extreme and evenly be provided with the universal wheel, remove the frame upper end symmetry and install the baffle, the baffle is trapezium structure, installs stock module in the left side between the baffle, installs the installation module in the right side between the baffle.

The installation module comprises a sliding rail frame, sliding blocks, tension adjusting ropes, rotating units and an installation die frame, wherein the sliding rail frame is installed on the inner wall of the baffle, a sliding groove is formed in the middle of the sliding rail frame, the sliding blocks are connected in the sliding groove in a sliding fit mode, the sliding rail frame is used for driving the sliding blocks to reciprocate up and down, the upper ends of the sliding blocks are connected with the tension adjusting ropes, the tension of the tension adjusting ropes is always kept consistent, the rotating units are installed between the two sliding blocks, and the installation die frame is installed in the middle of the rotating units.

The installation die carrier includes rotation die cylinder, rectangular channel, adsorption component and pushing component, rotation die cylinder is cylindrical structure, and rotation die cylinder installs at rotation unit middle part, evenly is provided with rectangular channel on the rotation die cylinder, and adsorption component is installed to rectangular channel middle part symmetry, and pushing component is installed to rectangular channel tip symmetry.

The adsorption component comprises a driving air cylinder, a moving plate and an adsorption plate, wherein trapezoid grooves are uniformly formed in the rotating die roller, the driving air cylinder is installed in each trapezoid groove, the top end of the driving air cylinder is connected with the moving plate through a flange, transverse grooves are uniformly formed in the moving plate, the adsorption plate is installed in each transverse groove, and negative pressure holes are uniformly formed in the adsorption plate.

Preferably, the stock module includes stock case, closing plate, carriage, pressure strip, extension spring and striker plate, stock case cross-section is L type structure, and stock case upper end demountable installation has the closing plate, and the carriage is installed to stock incasement portion symmetry, slides on the carriage and is provided with the pressure strip, is provided with extension spring between pressure strip and the carriage, and stock case right-hand member mid-mounting has the striker plate.

Through adopting above-mentioned technical scheme, enclose the PVC electric power that waits to install and keep off inside evenly placing the storage case, hold-down plate passes through telescopic spring and drives the PVC electric power and enclose keep off and compress tightly right for the PVC electric power on right side encloses the fender and can hug closely with the striker plate surface, when installation die carrier downward movement arrives the minimum, the installation die carrier can enclose the PVC electric power on right side and keep off and adsorb fixedly, the accurate of PVC electric power of being convenient for encloses the fender takes.

Preferably, the striker plate is rectangular in structure, rolling grooves are uniformly formed in the inner side face of the striker plate, and rolling shafts are arranged in the rolling grooves.

Through adopting above-mentioned technical scheme, the striker plate plays the effect that blocks, and then can be accurate fix a position PVC electric power encloses the fender, and the roller bearing can play the effect of reducing friction.

Preferably, the cross section of the sliding block is of an H-shaped structure, anti-falling assemblies are symmetrically arranged in the sliding block, the upper ends of the anti-falling assemblies are connected with tension adjusting ropes, and clamping grooves matched with the anti-falling assemblies are uniformly formed in the sliding rail frame.

Through adopting above-mentioned technical scheme, when slider up-and-down reciprocating motion, the tension of tension adjusting rope remains unanimous throughout, and when the slider falls down suddenly, tension of tension adjusting rope changes, prevents that the subassembly of weighing down is outwards moved rapidly and is connected with the draw-in groove on the slide rail frame, and then can prevent that the installation die carrier from taking place the phenomenon that falls.

Preferably, the anti-falling assembly comprises a connecting switch, a sliding plate, an electromagnet, clamping columns and a connecting spring, wherein the connecting switch is arranged at the upper end of the sliding block, the upper end of the connecting switch is connected with a tension adjusting rope, grooves are symmetrically formed in the sliding block, the sliding plate is arranged in the grooves, the clamping columns are uniformly arranged on the sliding plate, the connecting spring is arranged on the clamping columns, through holes matched with the clamping columns are uniformly formed in the sliding block, the electromagnet is symmetrically arranged at the end part of the sliding plate, the electromagnet is electrically connected with the connecting switch, and iron sheets matched with the electromagnet are arranged inside the sliding block.

Through adopting above-mentioned technical scheme, when the slider falls downwards suddenly, connecting switch drives the electro-magnet and circular telegram rapidly, and the electro-magnet outwards moves and the inside iron sheet of slider adsorbs mutually, and the chucking post can pass the outside extension of through-hole for the chucking post can be accurate be connected with the draw-in groove, and then can realize the function of installing the die carrier and prevent weighing down.

Preferably, the rotating unit comprises a rotating shaft, a bearing seat, a rotating gear and rack plates, the rotating shaft is arranged on the sliding block through a bearing, the bearing seat is symmetrically arranged on the rotating shaft, the end part of the installation die carrier is connected with the bearing seat, the rotating gear is arranged at the end part of the rotating shaft, and the rack plates meshed with the rotating gear are arranged on the inner wall of the sliding rail frame.

Through adopting above-mentioned technical scheme, when installation die carrier upward movement, the installation die carrier can drive the synchronous upward movement of rotation gear, and when rotation gear contacted with the rack board, the rack board can drive the installation die carrier through gear engagement's mode and overturn.

Preferably, right angle grooves are uniformly formed in the rack plate, openings of the right angle grooves are downward, clamping teeth are movably arranged in the right angle grooves through pin shafts, and reset torsion springs are arranged on the pin shafts.

Through adopting above-mentioned technical scheme, when the rotation gear upward movement, latch and right angle groove looks joint, rotation gear can mesh with the latch mutually, and then the latch can drive rotation gear and rotate, and when rotation gear downward movement, the latch atress inwards overturns, and latch and rotation gear do not mesh for installation die carrier does not take place to rotate in the downward movement in-process.

Preferably, the pushing component comprises a pushing plate and a guide groove, the guide groove is uniformly formed in the rotary die roller, the pushing plate is mounted on the guide groove, and an electric sliding block connected with the pushing plate is mounted in the guide groove.

Through adopting above-mentioned technical scheme, when the rotation mould roller downward movement arrives the lowest, the PVC electric power on the material storage module right side encloses and keeps off and just is located the rectangle groove middle part, and electronic slider can drive the synchronous inward movement of the flitch of rectangle groove tip for the PVC electric power encloses and keeps off and be in the rectangle groove centre that can be accurate, and then can realize enclosing the function that keeps off and fix a position to the PVC electric power, does benefit to the PVC electric power and encloses and keep off subsequent accurate installation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in order to accurately mount the PVC power fence, the mounting die frame is arranged in the invention, when the rotary die roller moves downwards to the lowest position, the PVC power fence on the rightmost side of the stock module is just positioned in the middle of the rectangular groove, the pushing component can synchronously push the PVC power fence left and right, so that the PVC power fence is positioned in the middle of the rectangular groove, then the adsorption component moves outwards to adsorb and fix the PVC power fence, when the rotary die roller moves upwards to the highest position, the rotary die roller turns over 90 degrees, the PVC power fence positioned at the uppermost end of the rotary die roller turns over to the upper end of the upright post, and when the rotary die roller moves downwards gradually, the PVC power fence can be accurately mounted in the slot between the upright posts;

2. in order to accurately position the PVC electric power fence, the pushing assembly is arranged in the invention, and the electric sliding block can drive the pushing plate at the end part of the rectangular groove to synchronously move inwards, so that the PVC electric power fence can be accurately positioned in the middle of the rectangular groove, further the function of positioning the PVC electric power fence can be realized, and the subsequent accurate installation of the PVC electric power fence is facilitated;

3. in order to accurately avoid the falling phenomenon of the installation die carrier during working, the anti-falling assembly is arranged in the invention, when the sliding block suddenly falls down, the connecting switch drives the electromagnet to be electrified rapidly, the electromagnet moves outwards to be adsorbed with the iron sheet inside the sliding block, and the clamping column can pass through the through hole to expand outwards, so that the clamping column can be accurately connected with the clamping groove, and the anti-falling function of the installation die carrier can be realized.

Drawings

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

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic view of a cut-away structure of the present application.

Fig. 3 is a schematic view of a first cross-sectional structure of the present application.

Fig. 4 is a schematic view of a second cross-sectional structure of the present application.

Fig. 5 is a schematic view of a cross-sectional structure between the slider, the tension adjusting rope, the rotating unit and the mounting die frame of the present application.

Fig. 6 is a schematic cross-sectional structure of the installation die carrier of the present application.

FIG. 7 is a schematic cross-sectional view of the slide, fall arrest assembly and tension adjustment cord of the present application.

Reference numerals illustrate: 1. a moving rack; 2. a baffle; 3. a stock module; 31. a storage box; 32. a sealing plate; 33. a carriage; 34. a compacting plate; 35. a telescopic spring; 36. a striker plate; 4. installing a module; 41. a slide rail frame; 42. a slide block; 421. an anti-falling assembly; 4211. a connection switch; 4212. a sliding plate; 4213. an electromagnet; 4124. clamping the column; 4215. a connecting spring; 43. a tension adjusting rope; 44. a rotation unit; 441. a rotating shaft; 442. a bearing seat; 443. rotating the gear; 444. rack plate; 45. installing a die carrier; 451. rotating the die roller; 452. rectangular grooves; 453. an adsorption assembly; 4531. a driving cylinder; 4532. a moving plate; 4533. an adsorption plate; 454. a pushing component; 4541. a pushing plate; 4542. a guide groove; 5. PVC electric power enclosure; 6. and (5) a column.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

The embodiment of the application discloses electric power construction is with enclosing fender auxiliary installation equipment can realize enclosing the function that keeps off automatic installation one by one to the PVC electric power.

Embodiment one:

referring to fig. 1-3, for the power construction is with enclosing supplementary erection equipment that keeps off that this embodiment discloses, including removing frame 1, baffle 2, stock module 3 and installation module 4, remove frame 1 and be rectangular structure, remove frame 1 lower extreme and evenly be provided with the universal wheel, remove frame 1 upper end symmetry and install baffle 2, baffle 2 is trapezoidal structure, installs stock module 3 in the left side between the baffle 2, installs installation module 4 in the right side between the baffle 2.

In order to be convenient for PVC electric power encloses fender to get material one by one, set up stock module 3 in this embodiment, stock module 3 includes stock box 31, closing plate 32, carriage 33, pinch plate 34, extension spring 35 and striker plate 36, stock box 31 cross-section is L type structure, and stock box 31 upper end demountable installation has closing plate 32, and stock box 31 internally symmetric installs carriage 33, and the slip is provided with pinch plate 34 on the carriage 33, is provided with extension spring 35 between pinch plate 34 and the carriage 33, and stock box 31 right-hand member mid-mounting has striker plate 36.

In the in-service use, the PVC electric power that will wait to install encloses fender 5 evenly places inside storage box 31, and pressure strip 34 passes through extension spring 35 and drives PVC electric power and enclose fender 5 and compress tightly right for the PVC electric power on rightmost encloses fender 5 can hug closely with striker plate 36 surface, and when installation die carrier 45 downward movement arrives the lowest department, installation die carrier 45 can enclose the fender to adsorb fixedly to the PVC electric power on rightmost, and the PVC electric power of being convenient for encloses the accuracy of keeping off 5 and takes.

The striker plate 36 is of a rectangular structure, rolling grooves are uniformly formed in the inner side surface of the striker plate 36, and rolling shafts are arranged in the rolling grooves.

In the actual use process, the baffle plate 36 plays a role in blocking, so that the PVC electric power fence 5 can be accurately positioned, and the roller can play a role in reducing friction.

Embodiment two:

referring to fig. 4 to 7, in order to realize the function of automatically installing PVC power enclosures one by one on the basis of the first embodiment, a corresponding installation module 4 is provided in the second embodiment.

Referring to fig. 6, the installation module 4 includes a sliding rail frame 41, a sliding block 42, a tension adjusting rope 43, a rotation unit 44 and an installation mold frame 45, the sliding rail frame 41 is installed on the inner wall of the baffle 2, a sliding groove is arranged in the middle of the sliding rail frame 41, the sliding block 42 is connected in the sliding groove in a sliding fit manner, the sliding rail frame 41 is used for driving the sliding block 42 to reciprocate up and down, the upper end of the sliding block 42 is connected with the tension adjusting rope 43, the tension of the tension adjusting rope 43 is always kept consistent, the rotation unit 44 is installed between the two sliding blocks 42, and the installation mold frame 45 is installed in the middle of the rotation unit 44.

In order to achieve accurate angle adjustment of the mounting die carrier 45, in this embodiment, a rotating unit 44 is provided, the rotating unit 44 includes a rotating shaft 441, a bearing seat 442, a rotating gear 443 and a rack plate 444, the rotating shaft 441 is mounted on the slider 42 through a bearing, the bearing seat 442 is symmetrically mounted on the rotating shaft 441, an end portion of the mounting die carrier 45 is connected with the bearing seat 442, the rotating gear 443 is mounted on an end portion of the rotating shaft 441, and the rack plate 444 meshed with the rotating gear 443 is provided on an inner wall of the slide rail frame 41.

In the actual use process, when the mounting die frame 45 moves upwards, the mounting die frame 45 can drive the rotating gear 443 to move upwards synchronously, and when the rotating gear 443 contacts with the rack plate 444, the rack plate 444 can drive the mounting die frame 45 to overturn in a gear meshing mode.

It should be noted that, when the rotation gear 443 passes through the rack plate 444 completely, the mounting mold frame 45 can just turn over a certain angle, and the PVC power enclosure adsorbed on the mounting mold frame 45 can synchronously turn over, so that the PVC power enclosure is just positioned in the middle of the upper end of the upright post, and the subsequent accurate one-by-one laying of the PVC power enclosures is facilitated.

In order to ensure that the installation die carrier 45 only rotates in the ascending process, in this embodiment, right-angle grooves are uniformly formed in the rack plate 444, openings of the right-angle grooves are downward, clamping teeth are movably arranged in the right-angle grooves through pin shafts, and reset torsion springs are installed on the pin shafts.

In the actual use process, when the rotating gear 443 moves upwards, the latch is clamped with the right-angle groove, the rotating gear 443 can be meshed with the latch, and then the latch can drive the rotating gear 443 to rotate, when the rotating gear 443 moves downwards, the latch is stressed to turn inwards, the latch is not meshed with the rotating gear 443, and the mounting die frame 45 does not rotate in the downward movement process.

For can be accurate install PVC electric power enclose fender, set up installation die carrier 45 in this embodiment, installation die carrier 45 includes rotation mould roller 451, rectangular channel 452, adsorption component 453 and pushing component 454, rotation mould roller 451 is cylindrical structure, and rotation mould roller 451 installs at rotation unit 44 middle part, evenly is provided with rectangular channel 452 on the rotation mould roller 451, and adsorption component 453 is installed to rectangular channel 452 mid-symmetry, and pushing component 454 is installed to rectangular channel 452 tip symmetry.

In the in-service use, when rotating the mould roller 451 downwardly moving to the lowest, the PVC electric power on the right side of stock module 3 encloses and keeps off and just is located rectangular channel 452 middle part, pushing component 454 can enclose and keep off and control synchronous promotion to the PVC electric power for the PVC electric power encloses and keep off and be in rectangular channel 452 in the middle, later the outward movement of adsorption component 453 is enclosed and is kept off and adsorb fixedly to the PVC electric power, when rotating the mould roller 451 upwardly moving to the highest, rotate mould roller 451 upset 90, the PVC electric power that is located the uppermost end of rotating mould roller 451 encloses and keeps off and overturn to stand 5 upper end, when rotating mould roller 451 gradually downwardly moving, the PVC electric power encloses and keeps off and then can the accurate installation in the slot between the stand.

In order to realize enclosing the fixed function of absorption to PVC electric power, set up the absorption subassembly 453 in this embodiment, the absorption subassembly 453 includes actuating cylinder 4531, movable plate 4532 and absorption board 4533, evenly be provided with the dovetail groove on the rotating die roller 451, install actuating cylinder 4531 in the dovetail groove, actuating cylinder 4531's top has movable plate 4532 through flange joint, evenly is provided with the transverse groove on the movable plate 4532, installs absorption board 4533 in the transverse groove, evenly is provided with the negative pressure hole on the absorption board 4533.

In the in-service use, drive cylinder 4531 can drive the outward motion of adsorption plate 4533 through movable plate 4532 for adsorption plate 4533 can be accurate enclose and keep off the surface with the PVC electric power and contact, and adsorption plate 4533 is linked together with the negative pressure pump, and then can be accurate realization enclose and keep off the fixed function of adsorbing to the PVC electric power.

In order to accurately position the PVC electric power fence, a pushing assembly 454 is arranged in the embodiment, the pushing assembly 454 comprises a pushing plate 4541 and a guide groove 4542, the guide groove 4542 is uniformly formed in the rotary die roller 451, the pushing plate 4541 is arranged on the guide groove 4542, and an electric sliding block connected with the pushing plate 4541 is arranged in the guide groove 4542.

In the in-service use process, when the rotary die roller 451 moves downwards to the lowest position, the PVC electric power on the rightmost side of the stock module 3 is enclosed and is just located in the middle of the rectangular groove 452, and the electric sliding block can drive the pushing plate 4541 at the end of the rectangular groove 452 to synchronously move inwards, so that the PVC electric power is enclosed and is located in the middle of the rectangular groove 452 accurately, the function of locating the PVC electric power is realized, and the follow-up accurate installation of the PVC electric power enclosing and is facilitated.

Embodiment III:

referring to fig. 7, in order to prevent the falling phenomenon of the installation formwork 45 during the installation process on the basis of the first embodiment, a corresponding falling prevention assembly 421 is provided in the third embodiment.

The cross section of the sliding block 42 is of an H-shaped structure, anti-falling assemblies 421 are symmetrically arranged in the sliding block 42, the upper ends of the anti-falling assemblies 421 are connected with tension adjusting ropes 43, and clamping grooves matched with the anti-falling assemblies 421 are uniformly formed in the sliding rail frames 41.

In the actual use process, when the sliding block 42 reciprocates up and down, the tension of the tension adjusting rope 43 is always consistent, when the sliding block 42 suddenly falls down, the tension of the tension adjusting rope 43 is changed, the falling prevention assembly 421 rapidly moves outwards to be connected with the clamping groove on the sliding rail frame 41, and then the falling phenomenon of the installation die frame 45 can be prevented.

In order to accurately avoid the falling phenomenon of the installation die carrier 45 during operation, an anti-falling assembly 421 is arranged in the embodiment, the anti-falling assembly 421 comprises a connecting switch 4211, a sliding plate 4212, an electromagnet 4213, a clamping column 4214 and a connecting spring 4215, the connecting switch 4211 is arranged at the upper end of the sliding block 42, the upper end of the connecting switch 4211 is connected with a tension adjusting rope 43, grooves are symmetrically arranged in the sliding block 42, the sliding plate 4212 is arranged in the grooves, the clamping column 4214 is uniformly arranged on the sliding plate 4212, the connecting spring 4215 is arranged on the clamping column 4214, through holes matched with the clamping column 4214 are uniformly arranged on the sliding block 42, the electromagnet 4213 is symmetrically arranged at the end part of the sliding plate 4212 and is electrically connected with the connecting switch 4211, and iron sheets matched with the electromagnet 4213 are arranged in the sliding block 42.

In the actual use process, when the sliding block 42 suddenly falls down, the connecting switch 4211 drives the electromagnet 4213 to be rapidly electrified, the electromagnet 4213 moves outwards to be adsorbed with an iron sheet in the sliding block 42, the clamping column 4214 can pass through the through hole to expand outwards, the clamping column 4214 can be accurately connected with the clamping groove, and then the anti-falling function of the installation die carrier 45 can be realized.

The embodiment also provides a use method of the enclosure auxiliary installation equipment for electric power construction, which comprises the following steps:

s1, moving and adjusting a moving frame 1, and manually driving the moving frame 1 to move so that the moving frame 1 is just positioned between two adjacent upright posts 5;

s2, feeding a PVC electric power fence, namely placing the PVC electric power fence in a storage box 31, and driving the PVC electric power fence to press rightwards by a compression plate 34 through a telescopic spring 35, so that the rightmost PVC electric power fence can be tightly attached to the surface of a baffle plate 36, and when a mounting die frame 45 moves downwards to the lowest position, the mounting die frame 45 can adsorb and fix the rightmost PVC electric power fence, thereby facilitating accurate taking of the PVC electric power fence;

s3, PVC electric power encloses fender and adsorbs the installation one by one, when rotating the mould roller 451 downwardly moving to the lowest department, the PVC electric power on the right side of stock module 3 encloses and keeps off and just is located rectangular channel 452 middle part, pushing component 454 can enclose and keep off and control synchronous promotion to the PVC electric power, make the PVC electric power enclose keep off and be in rectangular channel 452 in the middle, later the outward movement of adsorption component 453 encloses and keep off and adsorb fixedly to the PVC electric power, when rotating mould roller 451 upwardly moving to the highest department, rotate mould roller 451 upset 90, the PVC electric power that is located the uppermost end of rotating mould roller 451 encloses and keeps off the upset to stand 5 upper end, when rotating mould roller 451 gradually downwardly moving, the PVC electric power encloses and keeps off and then can the accurate installation in the slot between the stand.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (8)

1. Enclose fender auxiliary assembly equipment for electric power construction, including removing frame (1), baffle (2), stock module (3) and installation module (4), a serial communication port, remove frame (1) and be rectangular structure, remove frame (1) lower extreme and evenly be provided with the universal wheel, remove frame (1) upper end symmetry and install baffle (2), baffle (2) are trapezium structure, installs stock module (3) in the left side between baffle (2), installs installation module (4) in the right side between baffle (2), wherein:

the installation module (4) comprises a sliding rail frame (41), sliding blocks (42), tension adjusting ropes (43), rotating units (44) and an installation die frame (45), wherein the sliding rail frame (41) is installed on the inner wall of the baffle (2), sliding grooves are formed in the middle of the sliding rail frame (41), the sliding blocks (42) are connected in the sliding grooves in a sliding fit mode, the sliding rail frame (41) is used for driving the sliding blocks (42) to reciprocate up and down, the upper ends of the sliding blocks (42) are connected with the tension adjusting ropes (43), the tension of the tension adjusting ropes (43) is always kept consistent, the rotating units (44) are installed between the two sliding blocks (42), and the installation die frame (45) is installed in the middle of the rotating units (44);

the mounting die frame (45) comprises a rotary die roller (451), rectangular grooves (452), an adsorption assembly (453) and a pushing assembly (454), wherein the rotary die roller (451) is of a cylindrical structure, the rotary die roller (451) is mounted at the middle part of the rotary unit (44), the rectangular grooves (452) are uniformly formed in the rotary die roller (451), the adsorption assembly (453) is symmetrically mounted at the middle part of each rectangular groove (452), and the pushing assembly (454) is symmetrically mounted at the end part of each rectangular groove (452);

the adsorption component (453) comprises a driving air cylinder (4531), a moving plate (4532) and an adsorption plate (4533), trapezoid grooves are uniformly formed in the rotating die roller (451), the driving air cylinder (4531) is installed in each trapezoid groove, the moving plate (4532) is connected to the top end of the driving air cylinder (4531) through a flange, transverse grooves are uniformly formed in the moving plate (4532), the adsorption plate (4533) is installed in each transverse groove, and negative pressure holes are uniformly formed in the adsorption plate (4533).

2. The enclosure auxiliary installation device for electric power construction according to claim 1, wherein: the material storage module (3) comprises a material storage box (31), a sealing plate (32), a sliding frame (33), a pressing plate (34), a telescopic spring (35) and a striker plate (36), wherein the section of the material storage box (31) is of an L-shaped structure, the sealing plate (32) is detachably arranged at the upper end of the material storage box (31), the sliding frame (33) is symmetrically arranged inside the material storage box (31), the pressing plate (34) is arranged on the sliding frame (33) in a sliding manner, the telescopic spring (35) is arranged between the pressing plate (34) and the sliding frame (33), and the striker plate (36) is arranged at the middle part of the right end of the material storage box (31).

3. The enclosure auxiliary installation device for electric power construction according to claim 2, wherein: the material baffle (36) is of a rectangular structure, rolling grooves are uniformly formed in the inner side face of the material baffle (36), and rolling shafts are arranged in the rolling grooves.

4. The enclosure auxiliary installation device for electric power construction according to claim 1, wherein: the cross section of the sliding block (42) is of an H-shaped structure, anti-falling assemblies (421) are symmetrically arranged inside the sliding block (42), the upper ends of the anti-falling assemblies (421) are connected with tension adjusting ropes (43), and clamping grooves matched with the anti-falling assemblies (421) are uniformly formed in the sliding rail frames (41).

5. The enclosure auxiliary installation device for electric power construction according to claim 4, wherein: the anti-falling assembly (421) comprises a connecting switch (4211), a sliding plate (4212), an electromagnet (4213), clamping columns (4214) and a connecting spring (4215), wherein the connecting switch (4211) is installed at the upper end of the sliding block (42), the upper end of the connecting switch (4211) is connected with a tension adjusting rope (43), grooves are symmetrically formed in the sliding block (42), the sliding plate (4212) is installed in the grooves, the clamping columns (4214) are uniformly installed on the sliding plate (4212), the connecting spring (4215) is arranged on the clamping columns (4214), through holes matched with the clamping columns (4214) are uniformly formed in the sliding block (42), the electromagnet (4213) is symmetrically installed at the end part of the sliding plate (4212), the electromagnet (4213) is electrically connected with the connecting switch (4211), and iron sheets matched with the electromagnet (4213) are arranged in the sliding block (42).

6. The enclosure auxiliary installation device for electric power construction according to claim 1, wherein: the rotating unit (44) comprises a rotating shaft (441), a bearing seat (442), a rotating gear (443) and a rack plate (444), the rotating shaft (441) is installed on the sliding block (42) through bearings, the bearing seat (442) is symmetrically installed on the rotating shaft (441), the end part of the installation die carrier (45) is connected with the bearing seat (442), the rotating gear (443) is installed at the end part of the rotating shaft (441), and the rack plate (444) meshed with the rotating gear (443) is arranged on the inner wall of the sliding rail frame (41).

7. The enclosure auxiliary installation device for electric power construction according to claim 5, wherein: the rack plate (444) is uniformly provided with right-angle grooves, the openings of the right-angle grooves are downward, clamping teeth are movably arranged in the right-angle grooves through pin shafts, and reset torsion springs are arranged on the pin shafts.

8. The enclosure auxiliary installation device for electric power construction according to claim 1, wherein: the pushing assembly (454) comprises a pushing plate (4541) and a guide groove (4542), the guide groove (4542) is uniformly formed in the rotary die roller (451), the pushing plate (4541) is mounted on the guide groove (4542), and an electric sliding block connected with the pushing plate (4541) is mounted in the guide groove (4542).

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