CN111262185B - Electric power engineering circuit laying protection device and implementation method thereof - Google Patents

Abstract

The invention discloses a protective device for laying an electric power engineering circuit and an implementation method thereof, belonging to the technical field of electric power engineering circuit laying protection, comprising an end part protective mechanism and an assembling protective mechanism, wherein the assembling protective mechanism is clamped with the end part protective mechanism, an appropriate number of assembling protective mechanisms are selected according to the length of a circuit groove to be laid, the assembling protective mechanism is convenient to carry in a disassembling structure, and can be adapted to circuit grooves with different lengths, the practicability is better, the assembling installation process between the end part protective mechanism and the assembling protective mechanism is very simple, the assembled protective mechanism and the end part protective mechanism after being assembled form a protective wall plate structure to play the roles of wind shielding and cold preventing, the operation environment of constructors is optimized, a wire guide cylinder softens the wire and cooperates with hot air blown out from an air groove to avoid the wire from hardening in a cold environment, the heating softening treatment is carried out on the wire, and the surface damage or fracture of the wire, the replacement frequency of the electric wire is reduced, and the efficiency of construction operation is improved.

Description

Electric power engineering circuit laying protection device and implementation method thereof

Technical Field

The invention relates to the technical field of electric power engineering circuit laying protection, in particular to an electric power engineering circuit laying protection device and an implementation method thereof.

Background

In modern national economic construction, electric power is an indispensable main energy source, electric power transportation between different places is realized through circuits, circuit laying modes are different according to different electric power transportation environments, electric power circuits and laying environments are closely related to an electric power system, power supply efficiency and power utilization safety, the quality and precision of circuit laying engineering determine the success and failure of the whole engineering, circuit network distribution is increasingly expanded along with the improvement of national electric power technical level and the increase of power grid construction strength, the circuit laying environments are various, most of the circuit laying engineering are outdoor operation, once the circuit laying engineering meets cold weather, a constructor only depends on a windproof clothing worn on the body to protect the constructor, an operation site does not have a special protection device to protect the operation environment of the constructor, and the operation environment of the constructor is quite severe, seriously influence the progress of circuit laying engineering, and the electric wire comprises metal core and insulating outer sheath, the electric wire under the non-use condition is that the lapping is preserved, the electric wire that will curl during the construction is flare-outed, outer insulating outer sheath is cracked or even is cracked taking place easily under cold environment, inside metal core exposes, cause very big threat to construction safety, in order to improve safe in utilization, need change epidermis fracture or cracked electric wire, the construction progress of circuit laying has been influenced greatly, the construction efficiency is reduced, the practicality is not good.

Disclosure of Invention

The invention aims to provide a circuit laying protection device for electric power engineering, which is convenient to carry, can be adapted to circuit grooves with different lengths, has better practicability, very simple installation process and easy operation, can play the roles of wind shielding and cold prevention, avoids the influence of cold air on the operation process of constructors when in operation in cold weather, optimizes the operation environment of the constructors, can effectively avoid the surface damage or fracture of electric wires in the cold environment, reduces the replacement frequency of the electric wires and improves the efficiency of construction operation, and an implementation method thereof, can solve the problems that most of the circuit laying operation proposed in the background technology is outdoor operation, once in cold weather, the constructors only depend on the wind shielding worn on the body to protect the clothing, the operation site does not have a special protection device to protect the operation environment of the constructors, and the operation environment of the constructors is very severe, seriously influence the progress of circuit laying engineering, and the electric wire comprises metal core and insulating outer sheath, the electric wire under the non-use condition is that the lapping is preserved, the electric wire that will curl during the construction is flare-outed, outer insulating outer sheath is cracked or even is cracked taking place easily under cold environment, inside metal core exposes, cause very big threat to construction safety, in order to improve safe in utilization, need change epidermis fracture or cracked electric wire, the construction progress of circuit laying has been influenced greatly, the construction efficiency is reduced, the not good problem of practicality.

In order to achieve the purpose, the invention provides the following technical scheme:

a protection device for laying electric power engineering circuit comprises an end protection mechanism and an assembling protection mechanism, wherein the assembling protection mechanism is clamped with the end protection mechanism, the end protection mechanism comprises a wire component, a back plate A, a heating component, an upper installation sheet, a lower installation sheet, a wire roller, a connecting plate and a lighting lamp, the lighting lamp is fixed on the back plate A through the connecting plate, the heating component is arranged on the back surface of the back plate A, the wire component is fixedly arranged on the front surface of the back plate A and comprises an upper installation frame, a lower installation frame, an assembling block, an assembling groove, a clamping sleeve frame, a synchronous wheel, a synchronous belt and a wire cylinder, the assembling groove is processed at one end of the upper installation frame, the clamping sleeve frame is arranged on the upper installation frame and is sleeved with one end of the wire cylinder, the other end of the wire cylinder is sleeved in the clamping sleeve frame connected with the lower installation frame, the assembling block is arranged on one, the synchronous wheels of two adjacent guide cylinders are connected through a synchronous belt, an upper mounting frame is fixedly connected with an upper mounting sheet, a lower mounting frame is fixedly connected with a lower mounting sheet, a wire roller is sleeved between the lower mounting sheet and the upper mounting sheet, a heating assembly comprises a cylinder frame, a sliding chute, a cylinder, a power supply, a hot air blower, an air duct and a top conveying frame, the cylinder frame is fixed on a back plate A, the back plate A is fixedly connected with the sliding chute, the sliding chute is clamped with the top conveying frame, the top of the top conveying frame is connected with the power output end of the cylinder, the cylinder is fixed on the cylinder frame, the power supply is installed at the top of the cylinder frame and electrically connected with the hot air blower, the hot air blower is fixed on the top conveying frame, the air duct is processed in the back plate A;

the assembling protection mechanism comprises a back plate B and a communicating groove, the communicating groove is machined in the back plate B, and the communicating groove is communicated with the air groove.

Furthermore, a lead assembly is arranged on the front surface of the back plate B, and in the lead assembly connected with the back plate B, the assembling block is positioned above the assembling groove.

Furthermore, the assembling block connected with the back plate B is clamped with the assembling groove connected with the back plate A, and the assembling groove connected with the back plate B is clamped with the assembling block connected with the back plate A.

Furthermore, the illuminating lamp is connected with a power supply through a wire.

Furthermore, the wire roller is wound with wires, one ends of the wires are fixed on the wire roller, and the wires alternately penetrate through the wire guide cylinder in a wavy manner.

The invention provides another technical scheme: the implementation method of the electric power engineering circuit laying protection device comprises the following steps:

s1: placing a lower mounting rack of the end part protection mechanism on one side of a circuit groove to be laid, wherein the lower mounting rack plays a role in supporting the whole device, and selecting and using a proper number of splicing protection mechanisms according to the length of the circuit groove to be laid;

s2: splicing the end protection mechanism and the splicing protection mechanism is realized by clamping the splicing block connected with the back plate B with the splicing groove connected with the back plate A and clamping the splicing groove connected with the back plate B with the splicing block connected with the back plate A;

s3: splicing two adjacent splicing protection mechanisms by adopting the same operation as S2, so that the spliced splicing protection mechanisms and the end protection mechanisms form a protection wall plate structure on one side of a circuit slot to be laid;

s4: the air cylinder drives the jacking frame to move, so that the position of the air heater is adjusted, the position of an air outlet of the air heater is matched with that of the air groove, and hot air blown out by the air heater enters and exits the front surface of the back plate A through the air groove;

s5: the electric wire wound on the wire roller is pulled out manually and alternately passes through the wire guide cylinder in a wavy manner, and the surface of the electric wire is heated by hot air blown out of the air groove.

Furthermore, the air outlet of the air heater is arranged to be a strip-shaped air outlet, and the width of the air outlet of the air heater is consistent with that of the air groove.

Furthermore, the outlet of the wire roller is matched with the position of the air duct.

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

1. according to the electric power engineering circuit laying protection device and the implementation method thereof, the end protection mechanisms and the splicing protection mechanisms are spliced, the splicing protection mechanisms with proper quantity are selected according to the length of the circuit groove to be laid, the detachable structure is convenient to carry, can be adapted to the circuit grooves with different lengths, and is better in practicability, very simple in installation process and easy to operate.

2. According to the electric power engineering circuit laying protection device and the implementation method thereof, the spliced splicing protection mechanism and the end protection mechanism form a protection wall plate structure on one side of a circuit groove to be laid, the circuit groove is positioned on the inner side of the protection wall plate structure, and the protection wall plate plays a role in wind shielding and cold proofing, so that the influence of cold air on the operation process of constructors during operation in cold weather is avoided, and the operation environment of the constructors is optimized.

3. According to the electric power engineering circuit laying protection device and the implementation method thereof, the friction force between the electric wire and the wire guide cylinder drives the wire guide cylinder to continuously rotate along with the pulling of the electric wire, so that the electric wire is softened, the hardening of the outer coating of the electric wire in a cold environment is avoided by matching with hot air blown out from the air duct, the hardened outer coating of the electric wire is heated and softened, the surface damage or breakage of the electric wire in the cold environment is effectively avoided, the replacement frequency of the electric wire is reduced, and the construction operation efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the protection device for laying electric power engineering circuits after splicing;

fig. 2 is a schematic diagram of the disassembly of an end protection mechanism and an assembling protection mechanism of the electric power engineering circuit laying protection device;

fig. 3 is a schematic structural diagram of a front side of an end protection mechanism of the electric power engineering circuit laying protection device of the invention;

fig. 4 is a schematic structural view of the back side of the end protection mechanism of the electric power engineering circuit laying protection device of the present invention;

FIG. 5 is a schematic structural diagram of the front side of the assembled protection mechanism of the electric power engineering circuit laying protection device of the present invention;

fig. 6 is a schematic structural view of the back surface of the assembled protection mechanism of the electric power engineering circuit laying protection device of the invention;

FIG. 7 is an enlarged view of part A of the assembly of FIG. 2 according to the present invention;

FIG. 8 is an enlarged view of the assembly shown in FIG. 2B.

In the figure: 1. an end protection mechanism; 11. a wire assembly; 111. mounting a frame; 112. a lower mounting frame; 113. assembling blocks; 114. assembling the grooves; 115. a card sleeve frame; 116. a synchronizing wheel; 117. a synchronous belt; 118. a wire guide cylinder; 12. a back plate A; 13. a heating assembly; 131. a cylinder frame; 132. a chute; 133. a cylinder; 134. a power source; 135. a hot air blower; 136. an air duct; 137. a top conveying frame; 14. mounting a sheet; 15. a lower mounting plate; 16. a wire roller; 17. connecting plates; 18. an illuminating lamp; 2. assembling a protection mechanism; 21. a back plate B; 22. a communicating groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, a protection device is laid to electric power engineering circuit, includes tip protection machanism 1 and assembles protection machanism 2, assembles protection machanism 2 and tip protection machanism 1 block, realizes tip protection machanism 1 and assembles protection machanism 2 concatenation, selects to use the protection machanism 2 of assembling of appropriate quantity according to the length of the circuit groove of waiting to lay, and the structure of reassembling type is convenient to carry, can the circuit groove of different length of adaptation, and the practicality is better.

Referring to fig. 3-4, the end protection mechanism 1 includes a wire assembly 11, a back plate a12, a heating assembly 13, an upper mounting plate 14, a lower mounting plate 15, a wire roller 16, a connecting plate 17 and a lighting lamp 18, the lighting lamp 18 is connected to a power supply 134 through a wire, the lighting lamp 18 is fixed to a back plate a12 through the connecting plate 17, the heating assembly 13 is disposed on the back surface of the back plate a12, the wire assembly 11 is fixedly disposed on the front surface of the back plate a12, the wire assembly 11 includes an upper mounting frame 111, a lower mounting frame 112, an assembling block 113, an assembling groove 114, a ferrule frame 115, a synchronizing wheel 116, a synchronizing belt 117 and a wire cylinder 118, the assembling groove 114 is formed at one end of the upper mounting frame 111, the ferrule frame 115 is disposed on the upper mounting frame 111, the ferrule frame 115 is sleeved to one end of the wire cylinder 118, a ferrule of the other end of the wire cylinder 118 is sleeved in the assembling, the wire guide cylinders 118 are fixedly connected with the synchronizing wheels 116, the synchronizing wheels 116 of two adjacent wire guide cylinders 118 are connected through a synchronous belt 117, the upper mounting frame 111 is fixedly connected with the upper mounting sheet 14, the lower mounting frame 112 is fixedly connected with the lower mounting sheet 15, the wire roller 16 is sleeved between the lower mounting sheet 15 and the upper mounting sheet 14, wires are wound on the wire roller 16, one ends of the wires are fixed on the wire roller 16, the wires alternately penetrate through the wire guide cylinders 118 in a wavy manner, the wires wound on the wire roller 16 are pulled out through manpower and alternately penetrate through the wire guide cylinders 118 in a wavy manner, hot air blown out of the air grooves 136 heats the surfaces of the wires, the wire guide cylinders 118 continuously rotate along with the pulling of the wires under the action of friction force of the wires and the wire guide cylinders 118, the wire guide cylinders soften the wires, the outer coating of the wires are prevented from hardening in a cold environment by matching with the hot air blown out of the air grooves 136, and the hardened wire coating is softened, effectively avoiding the surface damage or breakage of the electric wire in a cold environment, reducing the replacement frequency of the electric wire, improving the efficiency of construction operation, the heating component 13 comprises a cylinder frame 131, a chute 132, a cylinder 133, a power supply 134, a hot air blower 135, an air duct 136 and a top conveying frame 137, the cylinder frame 131 is fixed on a back plate A12, the back plate A12 is fixedly connected with the chute 132, the chute 132 is clamped with the top conveying frame 137, the top of the top conveying frame 137 is connected with the power output end of the cylinder 133, the cylinder 133 is fixed on the cylinder frame 131, the power supply 134 is arranged at the top of the cylinder frame 131, the power supply 134 is electrically connected with the hot air blower 135, the air outlet of the hot air blower 135 is arranged to be a strip-shaped air outlet, the width of the air outlet of the hot air blower 135 is consistent with the width of the air duct 136, the hot air blower 135 is fixed on the top conveying frame 137, the top conveying frame 137 is driven by, the air outlet position of the hot air blower 135 is matched with the position of the air groove 136, hot air blown out by the hot air blower 135 enters and exits the front face of the back plate A12 through the air groove 136, the wire outlet position of the wire roller 16 is matched with the position of the air groove 136, the wire outlet position can gradually move upwards along with gradual reduction of cables on the wire roller 16, at the moment, the winding cables need to be pushed downwards through manpower, the wire outlet position of the wire roller 16 is matched with the position of the air groove 136 again, the air groove 136 is processed inside the back plate A12, and the air groove 136 is communicated with the splicing protection mechanism 2.

Referring to fig. 5-6, the splicing protection mechanism 2 includes a back plate B21 and a communication groove 22, the communication groove 22 is formed in the back plate B21, the communication groove 22 is communicated with the air groove 136, a part of hot air blown from the air heater 135 flows into the communication groove 22 from the side of the air groove 136 to heat the electric wire passing through the surface of the communication groove 22, the heating effect of the end protection mechanism 1 of the electric wire is better than the heating effect of the electric wire at the splicing protection mechanism 2, damage to the surface of the electric wire due to overheating is avoided, the circuit groove is located on the inner side of the protection wall plate structure, the protection wall plate plays a role in wind and cold protection, the influence of cold air on the operation process of constructors during operation in cold weather is avoided, the operation environment of the constructors is optimized, and the front face of the back plate B21 is provided with the wire assembly.

Referring to fig. 7-8, in the wire assembly 11 connected to the back plate B21, the assembling block 113 is located above the assembling groove 114, the assembling block 113 connected to the back plate B21 is engaged with the assembling groove 114 connected to the back plate a12, and the assembling groove 114 connected to the back plate B21 is engaged with the assembling block 113 connected to the back plate a 12.

In order to better show the implementation process of the protection device for laying the electric power engineering circuit, the embodiment provides an implementation method of the protection device for laying the electric power engineering circuit, which includes the following steps:

the method comprises the following steps: the lower mounting frame 112 of the end protection mechanism 1 is fixed on one side of a circuit groove to be laid, the lower mounting frame 112 plays a role in supporting the whole device, the assembling protection mechanisms 2 with proper quantity are selected and used according to the length of the circuit groove to be laid, the detachable structure is convenient to carry, can be adapted to circuit grooves with different lengths, and is better in practicability;

step two: splicing between the end protection mechanism 1 and the splicing protection mechanism 2 is realized by clamping the splicing block 113 connected with the back plate B21 with the splicing groove 114 connected with the back plate A12 and clamping the splicing groove 114 connected with the back plate B21 with the splicing block 113 connected with the back plate A12, and the mounting process is very simple and easy to operate;

step three: splicing two adjacent spliced protection mechanisms 2 is realized by adopting the same operation as the second step, so that the spliced protection mechanisms 2 and a plurality of end protection mechanisms 1 form a protection wall plate structure on one side of a circuit groove to be laid, the spliced communication groove 22 is communicated with the air groove 136, a part of hot air blown out from the air heater 135 is circulated into the communication groove 22 from the side surface of the air groove 136, an electric wire passing through the surface of the communication groove 22 is heated, the heating effect of the end protection mechanism 1 of the electric wire is superior to that of the electric wire at the spliced protection mechanism 2, the damage to the surface of the electric wire due to overheating is avoided, the circuit groove is positioned on the inner side of the protection wall plate structure, the protection wall plate plays a role in wind shielding and cold proofing, the influence of cold air on the operation process of constructors is avoided, and the operation environment of constructors is optimized;

step four: the cylinder 133 drives the top feeding frame 137 to move, so that the top feeding frame 137 moves up and down along the sliding groove 132 to realize position adjustment of the hot air blower 135, the position of an air outlet of the hot air blower 135 is matched with the position of the air groove 136, hot air blown out by the hot air blower 135 enters and exits the front face of the back plate A12 through the air groove 136, the wire outlet position of the wire roller 16 is matched with the position of the air groove 136, the wire outlet position gradually moves upwards along with the gradual reduction of the cables on the wire roller 16, at the moment, the wound cables need to be pushed downwards through manpower, and the wire outlet position of the wire roller 16 is matched with the position of the air groove 136 again;

step five: the electric wire wound on the wire roller 16 is pulled out through manpower, the electric wire is in a wave shape and alternately passes through the wire guide cylinder 118, hot air blown out from the air groove 136 heats the surface of the electric wire, under the action of friction force of the electric wire and the wire guide cylinder 118, the wire guide cylinder 118 continuously rotates along with the pulling of the electric wire, the electric wire is softened, hot air blown out from the air groove 136 is matched, the outer coating of the electric wire is prevented from being hardened in a cold environment, the hardened outer coating of the electric wire is heated and softened, the surface damage or breakage of the electric wire in the cold environment is effectively avoided, the replacement frequency of the electric wire is reduced, and the efficiency of construction operation is improved.

The working principle is as follows: fixing a lower mounting frame 112 of the end protection mechanism 1 at one side of a circuit slot to be laid, wherein the lower mounting frame 112 plays a role of supporting the whole device, selecting and using a proper number of splicing protection mechanisms 2 according to the length of the circuit slot to be laid, splicing the end protection mechanism 1 and the splicing protection mechanism 2 by clamping a splicing block 113 connected with a back plate B21 with a splicing groove 114 connected with a back plate A12 and clamping a splicing groove 114 connected with a back plate B21 with a splicing block 113 connected with a back plate A12, splicing two adjacent splicing protection mechanisms 2 by adopting the same operation as the step 2, forming a wall protection plate structure on one side of the circuit slot to be laid by the spliced splicing protection mechanism 2 and the end protection mechanism 1, communicating a communicating groove 22 after splicing with an air groove 136, and circulating a part of hot air blown out from an air heater 135 into the communicating groove 22 from the side of the air groove 136, the electric wire passing through the surface of the communicating groove 22 is heated, the heating effect of the electric wire end part protection mechanism 1 is better than that of the electric wire at the assembling protection mechanism 2, the cylinder 133 drives the jacking frame 137 to move, so as to realize the position adjustment of the hot air blower 135, the air outlet position of the hot air blower 135 is matched with the position of the air groove 136, the hot air blown out by the hot air blower 135 enters and exits the front surface of the back plate a12 through the air groove 136, the outlet position of the wire roller 16 is matched with the position of the air groove 136, the outlet position gradually moves upwards as the cable on the wire roller 16 gradually decreases, at the moment, the coiled cable needs to be pushed downwards through manpower, so that the outlet position of the wire roller 16 is matched with the position of the air groove 136 again, the electric wire wound around the wire roller 16 is pulled out by a manual force and alternately passed through the wire guide drum 118 in a wave shape, and the surface of the electric wire is heated by hot air blown from the air groove 136.

In summary, the following steps: the electric power engineering circuit laying protection device and the implementation method thereof are characterized in that a lower mounting rack 112 of an end protection mechanism 1 is placed on one side of a circuit groove to be laid, the lower mounting rack 112 plays a role of supporting the whole device, a proper number of splicing protection mechanisms 2 are selected according to the length of the circuit groove to be laid, the detachable structure is convenient to carry and can be adapted to the circuit grooves with different lengths, the practicability is better, splicing between the end protection mechanism 1 and the splicing protection mechanism 2 is realized by clamping a splicing block 113 connected with a back plate B21 with a splicing groove 114 connected with a back plate A12 and clamping a splicing groove 114 connected with a back plate B21 with a splicing block 113 connected with a back plate A12, the splicing between the end protection mechanism 1 and the splicing protection mechanism 2 is very simple in installation process and easy to operate, the spliced splicing protection mechanism 2 and the end protection mechanism 1 form a protection wall structure on one side of the circuit groove to be laid, and a communication groove 22 after splicing is communicated with an air groove 136, part of hot air blown out from the air heater 135 flows into the communicating groove 22 from the side surface of the air groove 136 to heat the electric wire passing through the surface of the communicating groove 22, the heating effect of the electric wire end protection mechanism 1 is superior to the heating effect of the electric wire at the assembling protection mechanism 2, the damage of overheating to the surface of the electric wire is avoided, the circuit groove is positioned at the inner side of the protection wall plate structure, the protection wall plate plays a role of wind shielding and cold proofing, the influence of cold air on the operation process of constructors in the cold weather is avoided, the operation environment of constructors is optimized, the electric wire wound on the wire roller 16 is pulled out through manpower and alternately passes through the wire guide cylinders 118 in a wavy manner, the hot air blown out from the air groove 136 heats the surface of the electric wire, under the friction force between the electric wire and the wire guide cylinders 118, the wire guide cylinders 118 continuously rotate along with the pulling of the electric wire, and play a role of softening the electric wire, the hot-blast that blows out in the cooperation wind groove 136 avoids the outer cladding of electric wire sclerosis under cold circumstance to the outer cladding of electric wire that will harden heats the softening process, effectively avoids the electric wire to take place surface damage or fracture under cold circumstance, reduces the change frequency of electric wire, improves the efficiency of construction operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. The utility model provides a protector is laid to electric power engineering circuit, includes tip protection machanism (1) and assembles protection machanism (2), assembles protection machanism (2) and tip protection machanism (1) block, a serial communication port, tip protection machanism (1) includes wire subassembly (11), backplate A (12), heating element (13), goes up installation piece (14), installs piece (15), line roller (16), even board (17) and light (18) down, and light (18) are fixed on backplate A (12) through even board (17), and the back of backplate A (12) sets up heating element (13), and the front of backplate A (12) is fixed and is set up wire subassembly (11), wire subassembly (11) are including last mounting bracket (111), lower mounting bracket (112), assemble piece (113), assemble groove (114), cutting ferrule frame (115), synchronizing wheel (116), Hold-in range (117) and wire barrel (118), the one end at last mounting bracket (111) is processed in concatenation groove (114), it is provided with cutting ferrule frame (115) on mounting bracket (111) to go up, cutting ferrule frame (115) cup joints with the one end of wire barrel (118), the other end suit of wire barrel (118) is in cutting ferrule frame (115) that meets with lower mounting bracket (112), a terminal surface of lower mounting bracket (112) is provided with assembles piece (113), wire barrel (118) and synchronizing wheel (116) fixed connection, meet through hold-in range (117) between synchronizing wheel (116) of two adjacent wire barrels (118), go up mounting bracket (111) and last installation piece (14) fixed connection, lower mounting bracket (112) and installation piece (15) fixed connection down, suit line roller (16) between installation piece (15) and last installation piece (14) down, heating element (13) include cylinder frame (131), spout (132), The air cylinder (133), the power supply (134), the air heater (135), the air groove (136) and the top conveying frame (137), the air cylinder frame (131) is fixed on the back plate A (12), the back plate A (12) is fixedly connected with the sliding groove (132), the sliding groove (132) is clamped with the top conveying frame (137), the top of the top conveying frame (137) is connected with the power output end of the air cylinder (133), the air cylinder (133) is fixed on the air cylinder frame (131), the power supply (134) is installed at the top of the air cylinder frame (131), the power supply (134) is electrically connected with the air heater (135), the air heater (135) is fixed on the top conveying frame (137), the air groove (136) is processed inside the back plate A (12), and the air groove (136) is communicated with the assembling protection mechanism (2);

the assembling protection mechanism (2) comprises a back plate B (21) and a communicating groove (22), the communicating groove (22) is machined in the back plate B (21), and the communicating groove (22) is communicated with an air groove (136).

2. The electrical engineering circuit laying protection device according to claim 1, wherein the front surface of the back plate B (21) is provided with the wire assembly (11), and in the wire assembly (11) connected with the back plate B (21), the assembling block (113) is positioned above the assembling groove (114).

3. The electrical engineering circuit laying protection device according to claim 1, wherein the splicing block (113) connected with the back plate B (21) is clamped with the splicing groove (114) connected with the back plate A (12), and the splicing groove (114) connected with the back plate B (21) is clamped with the splicing block (113) connected with the back plate A (12).

4. An electrical engineering circuit laying protection device according to claim 1, characterized in that the illumination lamp (18) is connected to the power source (134) by a wire.

5. An electrical engineering circuit laying protection device according to claim 1, wherein the wire roller (16) is wound with wires, one end of the wires is fixed on the wire roller (16), and the wires alternately pass through the wire barrel (118) in a wave shape.

6. An implementation method of the electrical engineering circuit laying protection device according to any one of claims 1 to 5, comprising the following steps:

s1: a lower mounting frame (112) of the end part protection mechanism (1) is placed on one side of a circuit groove to be laid, the lower mounting frame (112) plays a role of supporting the whole device, and a proper number of splicing protection mechanisms (2) are selected and used according to the length of the circuit groove to be laid;

s2: splicing between the end part protection mechanism (1) and the splicing protection mechanism (2) is realized by clamping the splicing block (113) connected with the back plate B (21) with the splicing groove (114) connected with the back plate A (12) and clamping the splicing groove (114) connected with the back plate B (21) with the splicing block (113) connected with the back plate A (12);

s3: splicing two adjacent splicing protection mechanisms (2) by adopting the same operation as S2, so that the spliced splicing protection mechanisms (2) and the end protection mechanism (1) form a protection wall plate structure on one side of a circuit slot to be laid;

s4: the air cylinder (133) drives the top conveying frame (137) to move, so that the position of the hot air blower (135) is adjusted, the position of an air outlet of the hot air blower (135) is matched with the position of the air groove (136), and hot air blown out by the hot air blower (135) enters and exits the front face of the back plate A (12) through the air groove (136);

s5: the electric wire wound on the wire roller (16) is pulled out by manpower and alternately passes through the wire guide cylinder (118) in a wave shape, and the surface of the electric wire is heated by hot air blown out from the air groove (136).

7. The implementation method of the electrical engineering circuit laying protection device as claimed in claim 6, wherein the air outlet of the hot air blower (135) is configured as a strip-shaped air outlet, and the width of the air outlet of the hot air blower (135) is consistent with the width of the air duct (136).

8. An implementation method of the electric power engineering circuit laying protection device according to claim 6, characterized in that the outlet line of the line roller (16) is matched with the position of the wind groove (136).

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