CN118025907A - Cable processing device for building engineering - Google Patents

Abstract

The invention discloses a cable processing device for construction engineering, which relates to the technical field of cable processing and comprises an expansion moving part, wherein the expansion moving part is provided with a row, and the middle part of the expansion moving part is provided with a through hole; the top of one row of the expansion moving parts is fixedly provided with a limiting supporting part respectively, and the middle of one row of the expansion moving parts is provided with a recovery limiting part; the limiting support piece is internally sleeved with the cooling liquid absorbing pieces respectively, the cooling liquid absorbing pieces are arranged in through holes in the middle of the extending moving piece respectively, the cable isolation and support work can be realized, the extending work of the cable can be realized, the cable can be effectively ensured to be isolated, the overheat risk caused by winding is avoided, the problem that the winding reel adopted at present is unfavorable for realizing flexible erection work of the cable, the cable moves on equipment and is directly rubbed on the ground, and the cable is also extremely easy to be dragged and damaged is solved.

Description

Cable processing device for building engineering

Technical Field

The invention relates to the technical field of cable treatment, in particular to a cable treatment device for constructional engineering.

Background

In the actual construction field of the building engineering, the cable is an important power source of electric equipment, a large number of equipment is mobile electric equipment in the actual building construction work, such as some ground polishing machines and other equipment, the cable is directly moved for use after being connected in the actual use process, and the cable is directly placed on the ground because the cable is required to have a sufficient length to adapt to the movement of the equipment, and the cable is collected and routed by adopting a take-up reel for the recovery of the cable at present, so that the cable is widely applied due to the advantages of cost and the like.

But the mode that the take-up reel that adopts at present carried out the collection of cable and discharged the processing, the take-up reel all need be discharged the cable is complete at every turn to use, because if the cable rolling uses its calorific capacity huge, do not accord with the safe power consumption standard, the take-up reel is unfavorable for realizing the nimble work of setting up of cable, the cable is all direct friction on ground in the equipment, the manual work needs often to take the cable to adjust and prevents to hinder the consumer to remove, because can not keep the distance with equipment in real time along with equipment removal, still be extruded by the equipment gyro wheel easily, there is huge potential safety hazard, the cable is also very easily dragged the damage, the automatic water receiving evaporation cooling work of the linkage control of cable still being inconvenient for realizing simultaneously, the cable more takes place abnormal conditions such as overheat.

For this purpose, we propose a cable handling device for construction engineering.

Disclosure of Invention

The invention aims to provide a cable treatment device for constructional engineering, which solves the problems that the current take-up reel is not beneficial to realizing flexible erection of cables, the cables move on equipment and are directly rubbed on the ground, the cables are easy to drag and damage, and meanwhile, the automatic water receiving, evaporating and cooling work of the linkage control of the cables is not convenient to realize.

In order to achieve the above purpose, the present invention provides the following technical solutions: the cable processing device for the building engineering comprises an expansion moving part, wherein the expansion moving part is provided with a row, and the middle part of the row of expansion moving parts is provided with through holes; the top of one row of the expansion moving parts is fixedly provided with a limiting supporting part respectively, the middle of one row of the expansion moving parts is provided with a recovery limiting part, and the recovery limiting part is used for controlling the one row of the expansion moving parts to shorten and perform corresponding limiting work; the top of one row of limiting supporting pieces is fixedly provided with a self-cooling cable piece; the inner parts of the limiting support pieces are respectively sleeved with a cooling liquid suction piece, and the cooling liquid suction pieces are respectively arranged in through holes formed in the middle of the expansion moving piece; the row of cooling liquid absorbing pieces are respectively connected to the bottom of the self-cooling cable piece; a row of expansion moving parts are respectively fixedly provided with a linkage extrusion disengaging part for controlling the cooling liquid absorbing parts to automatically disengage from the liquid level; a cable anti-drag alarm piece is sleeved on one row of the expansion moving pieces in a sliding way; the expansion moving member includes: the movable base is of a T-shaped structure; two rollers are respectively arranged on two sides of the movable base; a balancing weight is arranged in the movable base; the front end cover is in threaded connection with a through hole in the middle of the movable base at the front end; the movable base at the rear side is provided with a threaded pipe.

Preferably, the expansion moving member further includes: the device comprises a device connecting frame, a pair of cutting, a liquid guide hole, a rear end cover and a corrugated telescopic pipe, wherein the device connecting frame is fixedly arranged at the top of a movable base at the front end; the equipment connecting frame is provided with two through holes for being connected with electric equipment by bolts; the top of one row of movable bases is respectively provided with a liquid guide hole, and the liquid guide holes of the other row are all through holes; the rear end cover is in threaded connection with a threaded pipe of the movable base at the rear side; the front ends of the row of movable bases are respectively welded with opposite inserting strips, and the outer chamfer of each opposite inserting strip is processed; the rear sides of the row of movable bases are respectively provided with slots for inserting opposite cutting; the side walls of the row of movable bases are in closed connection through corrugated expansion pipes; the corrugated expansion pipe is of a metal structure.

Preferably, the self-cooling cable member includes: the cooling protection tube is provided with a row of through holes at the bottom; the bottom of the cooling protection pipe is fixedly arranged on a row of arc-shaped erection blocks, and the through holes at the bottom of the cooling protection pipe correspond to the through holes on the arc-shaped erection blocks; a row of evaporation slotted holes are formed in the top of the cooling protection pipe; the cable main body is positioned inside the cooling protection pipe; the cooling protection pipe is matched with the limiting supporting pipe to be used for isolating the cable main body and preventing overheating.

Preferably, the self-cooling cable part further comprises: the cable connection rubber strip and the water absorption cotton sliver are arranged in a row, and the cable connection rubber strip is fixedly arranged in the cooling protection pipe respectively; a cable main body is fixedly arranged at the bottom of one row of the cable connecting rubber strips; the water absorption cotton sliver is fixedly arranged inside the cooling protection tube; the water-absorbing cotton sliver is attached to the cable main body; the water-absorbing cotton sliver is used for coating the cable main body to evaporate and dissipate heat.

Preferably, the limit support member includes: the limiting support pipe and the arc-shaped erection block are fixedly arranged on the movable base; an arc-shaped erection block is fixedly arranged at the top of the limiting support pipe, and an arc-shaped groove is formed in the inner side of the arc-shaped erection block; the limiting support pipe is communicated with the middle part of the arc-shaped erection block; the limiting support pipe is used for supporting the cable and conducting cooling water.

Preferably, the cooling liquid absorbing member includes: the cooling liquid absorbing cotton column, the rotary connecting cylinder and the rotary connecting seat are fixedly sleeved in the limiting supporting pipe; the cooling liquid absorption cotton column is fixedly connected to the bottom of the water absorption cotton sliver; the cooling liquid absorption cotton column is used for absorbing liquid, evaporating and cooling; the bottom of the cooling liquid absorption cotton column is sleeved with a rotary connecting cylinder; two sides of the rotary connecting cylinder are respectively provided with a rotary connecting seat through shaft rotation; the two rotary connecting seats are respectively and fixedly arranged on the inner hole wall of the through hole in the middle of the movable base.

Preferably, the cooling liquid absorbing member further comprises: the linkage propulsion plate, the reset pulling plate and the water receiving spring are welded at the bottom of the rotary connecting cylinder; the reset pulling plate is fixedly arranged above the rotary connecting cylinder; the side surface of the reset pulling plate is fixedly connected with a water receiving spring, and the other end of the water receiving spring is fixedly connected to the inner hole wall of the through hole in the middle of the corresponding movable base.

Preferably, the recovery limiter comprises: the recovery positioning block, the positioning bolt and the pull-back steel wire rope are fixedly welded on the side surface of the movable base at the rearmost side; the recycling positioning block is connected with a positioning bolt in a threaded manner, and the end part of the positioning bolt penetrates through the inner wall of the recycling positioning block; the middle part of the recovery positioning block penetrates through the pull-back steel wire rope, and a positioning bolt is pressed on the pull-back steel wire rope; the end part of the pull-back steel wire rope is fixedly arranged on the side surface of the movable base at the forefront side; a hand wheel is arranged on the positioning bolt; the pull-back wire rope is used for guiding a row of mobile bases.

Preferably, the cable anti-drag alarm comprises: the cable anti-dragging installation shaft is provided with two rows, and the two rows of cable anti-dragging installation shafts are respectively and slidably installed on the movable base; buffer springs are respectively sleeved on two sides of the cable anti-dragging installation shaft, and the buffer springs are positioned on two sides of the movable base; the cable anti-drag mounting shafts of each row of cable anti-drag alarm pieces are connected through connecting ropes; the two mounting end plates are respectively and fixedly mounted at the end parts of the two cable anti-dragging mounting shafts of the movable base close to the rear side, the mounting end plates are fixedly sleeved with an alarm micro switch, the alarm micro switch is electrically connected with an alarm lamp, and the alarm lamp is mounted on the end mounting end plate; the alarm micro switch is powered by a battery; the alarm micro switch is used for preventing the cable from being excessively dragged.

Preferably, the linkage extrusion disengaging member includes: the pushing installation frame and the linkage extrusion rod are fixedly arranged on the side surface of the movable base; a linkage extrusion rod is fixedly arranged on the pushing installation frame; the linkage extrusion rod is aligned with the linkage propulsion plate; when the movable bases are spliced and attached through the opposite inserting strips, the length of the linkage extrusion rod is limited, the linkage propulsion plate can be extruded and propelled, the linkage propulsion plate receives lateral extrusion force, and the rotary connecting cylinder rotatably installed on the rotary connecting base can be driven to rotate by eighty-five degrees along the extrusion direction of the linkage extrusion rod.

Compared with the prior art, the invention has the beneficial effects that:

The invention adopts the spacing support piece, can realize the isolation supporting work of the auxiliary cable, and simultaneously cooperates with a row of extension moving pieces arranged, can realize the extension work of assisting in moving, can effectively ensure that the cable can be isolated and avoid overheat risk caused by winding, and ensure the service power of the cable main body.

Adopt the cooling protection pipe can realize protecting the cable main part, improve cable main part life, the self-cooling cable spare that this structure adopted simultaneously can realize utilizing folding mode to retrieve or expand, can not lead to the laminating to cause between the cable the high temperature, utilize to set up evaporation slotted hole and the cotton sliver that absorbs water to assist and reduce cable main part overload and generate heat, especially on the building engineering scene in summer, can utilize evaporation heat dissipation, through adopting the mode of absorbing water in the cotton sliver that absorbs water, can carry out the effect of fire prevention when some special high heat take place for the cable main part, it is safer to use.

Adopt the cooling imbibition piece, realize automatic control and carry out water intaking work, the structure is more reasonable, can realize pulling open at the one row of removal base of this structure and use the back and carry out the work of leading to water, control mode is stable, can effectually avoid daily use extravagant water source, utilize the heat auxiliary protection cable main part that the evaporation of moisture was taken away, simultaneously last water supply, also more energy-conservation, need not extra energy consumption, simultaneously more important lie in this structure need not to carry out hydrologic cycle and causes a large amount of moisture extravagant, also can not appear the cooling water direct discharge that the spraying of common cooling leads to simultaneously and cause environmental pollution.

The cable that adopts prevents dragging alarm, can realize elasticity buffering work, can effectually prevent that cable main part from being excessively stretched and lead to the damage, this structure can realize spacing work simultaneously, when guaranteeing that cable main part can not harm, has automatic control alarm structure, and the cable that sets up prevents dragging alarm has adopted segmentation buffer structure, can further guarantee the flexibility that a row of removal base used, avoids influencing its work such as turning to.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the internal structure of the present invention;

FIG. 3 is a schematic view of the bottom structure of the present invention;

FIG. 4 is an enlarged view of the structure of area B of FIG. 2 in accordance with the present invention;

FIG. 5 is a schematic view of the structure of the expanding moving member of the present invention;

FIG. 6 is an enlarged view of a partial structure of the extension moving member of the present invention;

FIG. 7 is a schematic view of a spacing support according to the present invention;

FIG. 8 is a schematic view of the recovery limiting member structure of the present invention;

FIG. 9 is a schematic view of a self-cooling cable member according to the present invention;

FIG. 10 is a cross-sectional view of the self-cooling cable member of the present invention;

FIG. 11 is a schematic view of a cooling liquid suction member according to the present invention;

FIG. 12 is a schematic view of a cable anti-drag alarm of the present invention;

fig. 13 is an enlarged view of the inner side structure of the cable anti-drag alarm of the present invention.

In the figure:

1. An expansion moving member; 101. a movable base; 102. a front end cover; 103. an equipment connecting frame; 1011. cutting; 1012. a liquid guiding hole; 104. a rear end cover; 105. corrugated telescopic pipe; 2. a limit supporting member; 201. a limiting supporting pipe; 202. arc erection blocks; 3. recovering the limiting piece; 301. recovering the positioning block; 302. positioning bolts; 303. pulling back the steel wire rope; 4. self-cooling cable member; 401. cooling the protective tube; 4011. an evaporation slot; 402. a cable body; 403. the cable is connected with the rubber strip; 404. a water absorbing cotton sliver; 5. cooling the liquid absorbing piece; 501. cooling the liquid-absorbing cotton column; 502. rotating the connecting cylinder; 5021. rotating the connecting seat; 503. linkage propulsion plate; 504. resetting the pulling plate; 505. a water receiving spring; 6. linkage extrusion of the release member; 601. pushing the mounting frame; 602. a linkage extrusion rod; 7. a cable anti-drag alarm; 701. a cable anti-drag mounting shaft; 702. a buffer spring; 703. a connecting rope; 704. installing an end plate; 705. an alarm micro switch; 706. and an alarm lamp.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one: please refer to fig. 1-13:

the invention provides a technical scheme that: the cable processing device for the building engineering comprises an expansion moving part 1, wherein the expansion moving part 1 is provided with a row, and the middle part of the row of expansion moving parts 1 is provided with through holes; the top of the row of expansion moving parts 1 is fixedly provided with limiting supporting parts 2 respectively, the middle part of the row of expansion moving parts 1 is provided with a recovery limiting part 3, and the recovery limiting part 3 is used for controlling the row of expansion moving parts 1 to shorten and perform corresponding limiting work; the top of the row of limit supporting pieces 2 is fixedly provided with a self-cooling cable piece 4; the inside of the row of limiting supporting pieces 2 is respectively sleeved with a cooling liquid absorbing piece 5, and the row of cooling liquid absorbing pieces 5 are respectively arranged in through holes arranged in the middle of the expansion moving piece 1; a row of cooling liquid absorbing pieces 5 are respectively connected to the bottoms of the self-cooling cable pieces 4; a row of expansion moving parts 1 are respectively fixedly provided with a linkage extrusion disengaging part 6 for controlling the cooling liquid absorbing part 5 to automatically disengage from the liquid level; a cable anti-drag alarm 7 is sleeved on one row of expansion moving parts 1 in a sliding way; the expansion moving member 1 includes: a movable base 101 and a front end cover 102, wherein the movable base 101 is of a T-shaped structure; two rollers are respectively arranged on two sides of the movable base 101; a balancing weight is arranged in the movable base 101; the front end cover 102 is in threaded connection with a through hole in the middle of the movable base 101 at the front end; a threaded pipe is provided on the rear movable base 101.

In the embodiment of the present disclosure, the extension moving member 1 further includes: the device comprises a device connecting frame 103, opposite inserting strips 1011, a liquid guide hole 1012, a rear end cover 104 and a corrugated expansion pipe 105, wherein the device connecting frame 103 is fixedly arranged at the top of a mobile base 101 at the front end; the equipment connecting frame 103 is provided with two through holes for being connected with electric equipment by bolts; the top of the row of mobile bases 101 is respectively provided with a liquid guide hole 1012, and the liquid guide holes 1012 of the row are all through holes; the rear end cover 104 is screwed on the threaded pipe of the rear movable base 101; the front ends of the row of movable bases 101 are respectively welded with opposite inserting strips 1011, and the outer chamfer of the opposite inserting strips 1011 is processed; the rear side of the row of movable bases 101 is respectively provided with a slot for inserting the opposite plug strip 1011; the side walls of the row of mobile bases 101 are in closed connection through a corrugated telescopic pipe 105; the corrugated telescopic tube 105 is of a metal structure; the limit bracket 2 includes: a limiting support pipe 201 and an arc-shaped erection block 202, wherein the limiting support pipe 201 is fixedly arranged on the movable base 101; an arc-shaped erection block 202 is fixedly arranged at the top of the limit erection pipe 201, and an arc-shaped groove is formed in the inner side of the arc-shaped erection block 202; the limiting support pipe 201 is communicated with the middle part of the arc-shaped erection block 202 through a liquid guide hole 1012; the limiting support pipe 201 is used for supporting cables and conducting cooling water; the recovery limiter 3 includes: the recovery positioning block 301, the positioning bolt 302 and the pull-back steel wire rope 303, wherein the recovery positioning block 301 is fixedly welded on the side surface of the rearmost movable base 101; a positioning bolt 302 is connected to the recycling positioning block 301 in a threaded manner, and the end part of the positioning bolt 302 penetrates through the inner wall of the recycling positioning block 301; the middle part of the recovery positioning block 301 passes through the pull-back steel wire rope 303, and the pull-back steel wire rope 303 is pressed with a positioning bolt 302; the end part of the pull-back steel wire rope 303 is fixedly arranged on the side surface of the forefront movable base 101; a hand wheel is arranged on the positioning bolt 302; the pullback wire rope 303 is used for guiding a row of mobile bases 101, the spacing supporting piece 2 is adopted, the isolation supporting work of auxiliary cables can be realized, a row of expansion mobile pieces 1 which are matched with each other are arranged at the same time, the expansion work of auxiliary movement can be realized, the overheat risk caused by winding can be effectively avoided by isolating cables, the using power of a cable main body 402 is ensured, meanwhile, a row of mobile bases 101 of the structure is matched with rollers at the bottoms of the mobile bases 101, the extension and retraction can be adjusted in a labor-saving sliding manner, the integration of a row of mobile bases 101 is ensured at the same time through the corrugated telescopic pipes 105, the actual use is more stable, meanwhile, the corrugated telescopic pipes 105 can realize water storage, can be used for the cooling work of the whole section of cable main body 402, the structure is not required to be used after the wire harness is discharged like the using mode of the traditional winding disc, the adopted independent erection mode is more reasonable, meanwhile, the row of movable bases 101 adopted by the structure can be butted with electric equipment, the automatic control and the extension can be realized along with the movement of the equipment, the position of the cable main body 402 is not required to be manually regulated, the erection mode is adopted, the electric leakage and the abrasion caused by the mopping of a circuit or the potential safety hazard caused by the extrusion of equipment rollers are avoided, the whole structure is more reasonable, the recovery operation of the auxiliary pull-back row of movable bases 101 can be realized through the recovery limiting piece 3, the efficiency and the convenience can be improved, the auxiliary limit operation can be realized through the screwing of the positioning bolts 302, the stability of the plug connection between the row of movable bases 101 can be ensured, the movable bases 101 at the end parts are driven by the pull-back steel wire ropes 303 to be moved back one by one, the plug connection grooves at the rear side of the movable bases 101 in the process are respectively plugged to limit the plug strips 1011, at this time, the cable main body 402 will fall independently, and will not be wound, and the positioning bolt 302 can be screwed to press the positioning pull-back wire rope 303 for positioning.

In the presently disclosed embodiment, the self-cooling cable member 4 includes: the cooling protection tube 401, the evaporation slotted hole 4011 and the cable main body 402, wherein a row of through holes are arranged at the bottom of the cooling protection tube 401; the bottom of the cooling protection pipe 401 is fixedly arranged on a row of arc-shaped erection blocks 202, and through holes at the bottom of the cooling protection pipe 401 correspond to through holes on the arc-shaped erection blocks 202; a row of evaporation slotted holes 4011 are formed in the top of the cooling protection tube 401; the cable body 402 is located inside the cooling shield tube 401; the cooling protection tube 401 is matched with the limit supporting tube 201 to isolate the cable main body 402 from overheating; the self-cooling cable part 4 further comprises: the cable connection rubber strip 403 and the water absorption cotton sliver 404, wherein the cable connection rubber strip 403 is provided with a row, and the row of cable connection rubber strips 403 are respectively and fixedly arranged in the cooling protection tube 401; a cable main body 402 is fixedly arranged at the bottom of the row of cable connecting rubber strips 403; the water absorbing cotton sliver 404 is fixedly arranged inside the cooling protection tube 401; a water absorbing cotton sliver 404 is attached to the cable body 402; the water absorption cotton sliver 404 is used for coating the cable main body 402 and evaporating and radiating, the cable main body 402 can be protected by adopting the cooling protection pipe 401, the service life of the cable main body 402 is prolonged, meanwhile, the self-cooling cable piece 4 adopted by the structure can be recycled or unfolded in a folding mode, the too high temperature caused by bonding between cables cannot be caused, the self-cooling cable piece 4 can be adopted to be naturally erected on the arc-shaped erection block 202, more importantly, the self-cooling cable piece 4 can be adopted to realize self-cooling auxiliary work, the overload heating of the cable main body 402 can be reduced by adopting the evaporation slotted holes 4011 and the water absorption cotton sliver 404 in an auxiliary mode, particularly in the summer building engineering site, the evaporation heat radiation can be utilized, the cable main body 402 is safer to use, the water evaporation can be realized through the water absorption cotton sliver 404, the heat exchange work can be realized, the fire prevention function can be realized when the cable main body 402 generates some special high heat by adopting the water absorption mode, the use is safer, and the high-hanging self-cooling cable piece 4 can also accord with the actual construction cable requirements.

In the presently disclosed embodiment, the cooling liquid suction member 5 includes: the cooling liquid-absorbing cotton column 501, the rotary connecting cylinder 502 and the rotary connecting seat 5021 are fixedly sleeved in the limiting support pipe 201; the cooling liquid absorbing cotton column 501 is fixedly connected to the bottom of the water absorbing cotton sliver 404; the cooling liquid-absorbing cotton column 501 is used for liquid absorption, evaporation and temperature reduction; a rotary connecting cylinder 502 is sleeved at the bottom of the cooling liquid absorbing cotton column 501; a rotary connecting seat 5021 is rotatably arranged on two sides of the rotary connecting cylinder 502 through shafts respectively; the two rotary connecting seats 5021 are respectively fixedly arranged on the inner hole wall of the through hole in the middle of the mobile base 101; the cooling liquid suction member 5 further comprises: the linkage propulsion plate 503, the reset pulling plate 504 and the water receiving spring 505 are welded at the bottom of the rotary connecting cylinder 502 by the linkage propulsion plate 503; the reset pulling plate 504 is fixedly arranged above the rotary connecting cylinder 502; the side surface of the reset pulling plate 504 is fixedly connected with a water receiving spring 505; the other end of the water receiving spring 505 is fixedly connected to the inner hole wall of the through hole in the middle of the corresponding movable base 101; the interlocking press release member 6 includes: the pushing installation frame 601 and the linkage extrusion rod 602 are pushed, and the pushing installation frame 601 is fixedly arranged on the side surface of the movable base 101; a linkage extrusion rod 602 is fixedly arranged on the pushing installation frame 601; the linkage extrusion bar 602 is aligned with the linkage advancing plate 503; when the row of movable bases 101 are spliced and attached through the inserting strip 1011, the length of the linkage extrusion rod 602 is limited, the linkage extrusion rod 503 is extruded and propelled, the linkage extrusion plate 503 is subjected to lateral extrusion force, the rotary connecting cylinder 502 which is rotationally arranged on the rotary connecting seat 5021 is driven to rotate by eighty five degrees along the extrusion direction of the linkage extrusion rod 602, the arranged linkage extrusion disengaging piece 6 is adopted, the cooling liquid absorbing piece 5 which is matched with the arrangement can be realized, the automatic control water taking work is realized, the structure is more reasonable, the water feeding work after the row of movable bases 101 of the structure are pulled open for use can be realized, the control mode is stable, the daily use waste of water sources can be effectively avoided, the cooling structure adopting the structure does not need a complex ventilation structure, the heat taken away by water evaporation is utilized to assist the protection cable main body 402, the continuous water supply is simultaneously, the energy is saved, the structure does not need extra energy consumption, and more importantly, the structure does not need to carry out water circulation to cause a large amount of water waste, meanwhile, the environment pollution caused by direct discharge of cooling water caused by common cooling and spraying can not occur, meanwhile, the movement of the movable base 101 of the structure does not influence the absorption and supply of the structure, the control mode of the cooling structure is that when a row of movable bases 101 are far away and the electrified length needs to be prolonged, the installation frame 601 and the linkage extrusion rod 602 are pushed at the moment and do not extrude the linkage propulsion plate 503 any more, the cooling liquid absorbing cotton column 501 rotates downwards under the pulling of the water receiving spring 505, the water adding height of the corrugated expansion pipe 105 does not need to be excessive, the cooling liquid absorbing cotton column 501 rotates downwards and can be inserted into the liquid level, at the moment, the liquid level at the bottom of the corrugated expansion pipe 105 can be inserted to absorb water, and then the water absorbing cotton sliver 404 is led into for water source circulation, the final water-through operation of the cable body 402 is achieved.

In the second embodiment, on the basis of the first embodiment, the cable anti-drag alarm 7 includes: the cable anti-drag mounting shaft 701, the buffer spring 702, the connecting rope 703, the mounting end plate 704, the alarm micro switch 705 and the alarm lamp 706 are arranged in two rows, and the two rows of cable anti-drag mounting shafts 701 are respectively and slidably mounted on the mobile base 101; buffer springs 702 are respectively sleeved on two sides of the cable anti-dragging mounting shaft 701, and the buffer springs 702 are positioned on two sides of the movable base 101; the cable anti-drag mounting shafts 701 of each row of cable anti-drag alarm pieces 7 are connected through a connecting rope 703; the two mounting end plates 704 are arranged, the two mounting end plates 704 are respectively and fixedly arranged at the end parts of the two cable anti-dragging mounting shafts 701 of the mobile base 101 close to the rear side, the mounting end plates 704 are fixedly sleeved with the alarm micro switch 705, the alarm micro switch 705 is electrically connected with the alarm lamp 706, and the alarm lamp 706 is arranged on the end mounting end plates 704; the alarm microswitch 705 is powered by the battery; the alarm micro switch 705 is used for preventing the cable from being excessively dragged, the cable anti-dragging alarm 7 that this structure adopted can realize elasticity buffering work, can effectually prevent that cable main part 402 from being excessively stretched and lead to the damage, while this structure can realize spacing work, ensure that cable main part 402 can not harm, have automatic control alarm structure, guarantee the protective quality of cable main part 402, the cable anti-dragging alarm 7 that sets up has adopted segmentation buffer structure, can further guarantee the flexibility that a row of removal base 101 used, avoid influencing its work such as turning to, keep pulling the separation distance between the removal base 101 or the moment pulling is great, buffer spring 702 is compressed completely this moment, the alarm micro switch 705 extrusion on the drive installation end plate 704 removes the base 101 side, can control alarm lamp 706 and report to the police, the staff of being convenient for learn fast.

The working principle of the embodiment is as follows: the movable base 101 at the rear side is fixed on the ground through bolts, the end parts of the cable main bodies 402 at the same side are connected with electricity, the number of the movable bases 101 is set according to the requirements, the equipment connecting frame 103 can be connected with electric equipment through bolts, the end parts of the cable main bodies 402 at the same side are connected with the electric equipment, or the movable bases 101 are directly pushed to move and adjust, the cable main bodies 402 on the arc-shaped erection blocks 202 erected in the process can be freely adapted, the corrugated expansion pipes 105 can also be adapted and expanded, when water is required to be added into the corrugated expansion pipes 105, the front end cover 102 or the rear end cover 104 can be disassembled through rotation, the distance between the movable bases 101 is reduced, when a row of movable bases 101 is required to be recovered by adopting the lengths of the pullback steel wire ropes 303, the pullback steel wire ropes 303 are pulled to drive the movable bases 101 at the most to move back one by one, slots at the rear side of the movable bases 101 are respectively inserted in the process to limit the cutting 1011, at this time, the cable main body 402 will fall independently and will not cause winding, at this time, a row of moving bases 101 are spliced and attached by the inserting strip 1011, the linkage pushing plate 503 is gathered by the moving bases 101, the length of the linkage extruding rod 602 is limited, the linkage pushing plate 503 is extruded and pushed, the linkage pushing plate 503 is subjected to lateral extrusion force, the rotating connecting cylinder 502 rotatably installed on the rotating connecting seat 5021 is driven to rotate eighty-five degrees along the extrusion direction of the linkage extruding rod 602, at this time, the positioning bolt 302 can be screwed to extrude and position the pull-back steel wire 303, the stability of a row of moving bases 101 is ensured, when a row of moving bases 101 are pulled far, and the energizing length needs to be prolonged, the pushing installation frame 601 and the linkage extruding rod 602 are driven to move simultaneously, at this time, the linkage pushing plate 503 is not extruded by the pushing installation frame 601 and the linkage extruding rod 602, at this time, the pulling of the water receiving spring 505, the cooling liquid absorbing cotton column 501 can rotate downwards by rotating the connecting cylinder 502, the liquid level at the bottom of the corrugated expansion pipe 105 can be controlled to be inserted at the moment, the water adding height of the corrugated expansion pipe 105 is not needed to be excessive, the cooling liquid absorbing cotton column 501 can be inserted into the liquid level after rotating downwards, at the moment, the cooling liquid absorbing cotton column 501 absorbs water by utilizing a self cotton column structure and then is led into the water absorbing cotton sliver 404 to circulate a water source, so that the water passing work of the cable main body 402 is finally realized, otherwise, when the inserting and bonding are carried out between a row of moving bases 101, the linkage extrusion rod 602 extrudes and pushes the linkage propulsion plate 503 to drive the rotating connecting cylinder 502 to rotate by eighty-five degrees; when the movable base 101 is pulled to increase the distance to obtain a longer line, when the maximum distance between the movable bases 101 is pulled to the limit, the connecting rope 703 can be straightened, at the moment, the movable base 101 is pulled again, the buffer spring 702 on the cable anti-dragging installation shaft 701 can be compressed to buffer, if the movable base 101 is continuously pulled or the instant pulling force is relatively large, the buffer spring 702 is completely compressed at the moment, the alarming micro switch 705 on the installation end plate 704 is driven to extrude the side surface of the movable base 101, the passage alarming of the alarming lamp 706 can be controlled, and the dangerous condition can be rapidly known by staff conveniently.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The cable processing device for the building engineering comprises an expansion moving part (1), wherein the expansion moving part (1) is provided with a row, and the middle part of the expansion moving part (1) is provided with a through hole; the top of the extension moving part (1) is fixedly provided with a limiting supporting part (2) respectively, and the extension moving part is characterized in that: a recovery limiting piece (3) is arranged in the middle of one row of the expansion moving pieces (1), and the recovery limiting piece (3) is used for controlling the one row of the expansion moving pieces (1) to shorten and perform corresponding limiting work; the top of one row of limiting supporting pieces (2) is fixedly provided with a self-cooling cable piece (4);

A row of cooling liquid absorbing pieces (5) are respectively sleeved in the limiting supporting pieces (2), and the row of cooling liquid absorbing pieces (5) are respectively arranged in through holes formed in the middle of the expansion moving piece (1); a row of cooling liquid absorbing pieces (5) are respectively connected to the bottom of the self-cooling cable piece (4);

a row of expansion moving parts (1) are respectively fixedly provided with a linkage extrusion disengaging part (6) for controlling the cooling liquid absorbing parts (5) to automatically disengage from the liquid level;

a cable anti-drag alarm (7) is sleeved on one row of the expansion moving parts (1) in a sliding way;

The expansion moving member (1) includes: the liquid guide device comprises a movable base (101), a liquid guide hole (1012) and a corrugated telescopic pipe (105), wherein the movable base (101) is of a T-shaped structure; two rollers are respectively arranged on two sides of the movable base (101); a balancing weight is arranged in the movable base (101); the top of one row of the movable bases (101) is respectively provided with a liquid guide hole (1012), and the liquid guide holes (1012) of one row are all through holes; the side walls of a row of the movable bases (101) are in closed connection through corrugated telescopic pipes (105); the corrugated expansion pipe (105) is of a metal structure; the cooling liquid suction piece (5) passes through the liquid guide hole (1012).

2. A cable processing apparatus for construction engineering according to claim 1, wherein: the expansion moving member (1) further comprises: the device comprises a front end cover (102), a device connecting frame (103), opposite inserting strips (1011) and a rear end cover (104), wherein the front end cover (102) is in threaded connection with a through hole in the middle of a movable base (101) at the front end; a threaded pipe is arranged on the movable base (101) at the rear side; the equipment connecting frame (103) is fixedly arranged at the top of the mobile base (101) at the front end; two through holes are formed in the equipment connecting frame (103); the rear end cover (104) is in threaded connection with a threaded pipe of the rear movable base (101); the front ends of one row of the movable bases (101) are respectively welded with opposite cutting strips (1011), and the outer chamfer of the cutting strips (1011) is processed; the rear side of one row of the movable bases (101) is respectively provided with a slot for inserting the opposite cutting (1011).

3. A cable processing apparatus for construction engineering according to claim 2, wherein: the limit support (2) comprises: the device comprises a limiting support pipe (201) and an arc-shaped erection block (202), wherein the limiting support pipe (201) is fixedly arranged on a movable base (101); an arc-shaped erection block (202) is fixedly arranged at the top of the limiting erection pipe (201), and an arc-shaped groove is formed in the inner side of the arc-shaped erection block (202); the limiting support pipe (201) is communicated with the middle part of the arc-shaped erection block (202) to form a liquid guide hole (1012); the limiting support pipe (201) is used for supporting the cable and conducting cooling water.

4. A cable processing apparatus for construction engineering according to claim 1, wherein: the recovery limiting piece (3) comprises: the device comprises a recovery positioning block (301), a positioning bolt (302) and a pull-back steel wire rope (303), wherein the recovery positioning block (301) is fixedly welded on the side surface of a movable base (101) at the rearmost side; a positioning bolt (302) is connected to the recycling positioning block (301) in a threaded manner, and the end part of the positioning bolt (302) penetrates through the inner wall of the recycling positioning block (301); the middle part of the recovery positioning block (301) passes through the pull-back steel wire rope (303), and the pull-back steel wire rope (303) is pressed with a positioning bolt (302); the end part of the pull-back steel wire rope (303) is fixedly arranged on the side surface of the forefront movable base (101); a hand wheel is arranged on the positioning bolt (302); the pullback wire (303) is used for guiding a row of mobile bases (101).

5. A cable processing apparatus for construction engineering according to claim 3, wherein: the self-cooling cable part (4) comprises: the cooling protection tube (401), the evaporation slotted hole (4011) and the cable main body (402), wherein a row of through holes are formed in the bottom of the cooling protection tube (401); the bottom of the cooling protection pipe (401) is fixedly arranged on a row of arc-shaped erection blocks (202), and through holes at the bottom of the cooling protection pipe (401) correspond to through holes on the arc-shaped erection blocks (202); a row of evaporation slotted holes (4011) are formed in the top of the cooling protection tube (401); the cable body (402) is positioned inside the cooling protection tube (401); the cooling protection pipe (401) is matched with the limiting support pipe (201) and used for isolating the cable main body (402) from overheating.

6. The cable processing apparatus for construction engineering according to claim 5, wherein: the self-cooling cable part (4) further comprises: the cable connection rubber strip (403) and the water absorption cotton sliver (404), wherein the cable connection rubber strip (403) is provided with a row, and the row of cable connection rubber strips (403) are respectively and fixedly arranged in the cooling protection pipe (401); a cable main body (402) is fixedly arranged at the bottom of one row of the cable connecting rubber strips (403); the water absorbing cotton sliver (404) is fixedly arranged inside the cooling protection tube (401); the water absorbing cotton sliver (404) is attached to the cable main body (402); the water absorbing sliver (404) is used for coating the cable main body (402) and radiating heat through evaporation.

7. The cable processing apparatus for construction engineering according to claim 6, wherein: the cooling liquid suction member (5) comprises: the cooling liquid absorbing cotton column (501), the rotary connecting cylinder (502) and the rotary connecting seat (5021), wherein the cooling liquid absorbing cotton column (501) is fixedly sleeved in the limiting support pipe (201); the cooling liquid absorption cotton column (501) is fixedly connected to the bottom of the water absorption cotton sliver (404); the cooling liquid absorption cotton column (501) is used for absorbing liquid, evaporating and cooling; the bottom of the cooling liquid absorption cotton column (501) is sleeved with a rotary connecting cylinder (502); two sides of the rotary connecting cylinder (502) are respectively provided with a rotary connecting seat (5021) through shaft rotation; the two rotary connecting seats (5021) are respectively and fixedly arranged on the inner hole wall of the through hole in the middle of the movable base (101).

8. The cable processing apparatus for construction engineering according to claim 7, wherein: the cooling liquid suction member (5) further comprises: the device comprises a linkage propulsion plate (503), a reset pulling plate (504) and a water receiving spring (505), wherein the linkage propulsion plate (503) is welded at the bottom of a rotary connecting cylinder (502); the reset pulling plate (504) is fixedly arranged above the rotary connecting cylinder (502); the side of the reset pulling plate (504) is fixedly connected with a water receiving spring (505), and the other end of the water receiving spring (505) is fixedly connected to the inner hole wall of the through hole in the middle of the corresponding movable base (101).

9. The cable processing apparatus for construction engineering according to claim 7, wherein: the linked extrusion disengaging piece (6) comprises: the pushing installation frame (601) and the linkage extrusion rod (602), wherein the pushing installation frame (601) is fixedly arranged on the side surface of the movable base (101); a linkage extrusion rod (602) is fixedly arranged on the pushing installation frame (601); the linkage extrusion rod (602) is aligned with the linkage propulsion plate (503); when the row of movable bases (101) are spliced and attached through inserting strips (1011), the length of the linkage extrusion rod (602) is limited, the linkage propulsion plate (503) can be extruded and propelled, the linkage propulsion plate (503) receives lateral extrusion force, and the rotary connecting cylinder (502) rotatably installed on the rotary connecting seat (5021) can be driven to rotate by eighty-five degrees along the extrusion direction of the linkage extrusion rod (602).

10. A cable processing apparatus for construction engineering according to claim 1, wherein: the cable anti-drag alarm (7) comprises: the anti-dragging cable installation device comprises a cable anti-dragging installation shaft (701), a buffer spring (702), a connecting rope (703), an installation end plate (704), an alarm micro switch (705) and an alarm lamp (706), wherein the cable anti-dragging installation shaft (701) is provided with two rows, and the two rows of cable anti-dragging installation shafts (701) are respectively and slidably installed on a mobile base (101); buffer springs (702) are respectively sleeved on two sides of the cable anti-dragging installation shaft (701), and the buffer springs (702) are positioned on two sides of the movable base (101); the cable anti-drag mounting shafts (701) of each row of the cable anti-drag alarm pieces (7) are connected through a connecting rope (703); the two mounting end plates (704) are arranged, the two mounting end plates (704) are respectively and fixedly mounted at the end parts of two cable anti-dragging mounting shafts (701) of the movable base (101) close to the rear side, an alarm micro switch (705) is fixedly sleeved on the mounting end plates (704), an alarm lamp (706) is electrically connected to the alarm micro switch (705), and the alarm lamp (706) is mounted on the end mounting end plates (704); the alarm micro switch (705) is powered by a battery; an alarm microswitch (705) is used to prevent the cable from being excessively dragged.