CN114260618A - Safety electromagnetic ignition device and implementation method - Google Patents

Abstract

The invention relates to the technical field of welding protection, in particular to a safety electromagnetic ignition device and an implementation method thereof, the safety electromagnetic ignition device comprises an ignition device, the ignition device comprises a pair of baffles and a pair of side plates vertical to the baffles, adjacent baffles are connected through a connecting piece, the lower ends of the baffles are spliced with a plurality of groups of linearly spliced recovery module plates, one end of each side plate is fixed on the front end surface of the baffle, the inner side of each side plate is provided with a guide rail, and the plurality of groups of linearly distributed recovery module plates are clamped and fixed on a pair of side frames which are bilaterally symmetrical, and the safety electromagnetic ignition device has the advantages that: the workpiece is pre-installed by arranging the electromagnetic adsorption device, so that the ignition device is convenient to install in the high altitude, meanwhile, the recovery module plate which is linearly inserted is utilized, the adaptation with the installation stand column is realized, the lower end of the stand column is realized to realize closed ignition, the spark splashing is avoided, the dropping is avoided, and the welding safety is greatly improved.

Description

Safety electromagnetic ignition device and implementation method

Technical Field

The invention relates to the technical field of welding protection, in particular to a safe electromagnetic ignition device and an implementation method.

Background

In the operation process of steel structure welding, steel structure welding of a steel reinforced concrete structure, curtain wall keel high-altitude welding and gas cutting in the building field, the fire caused by spark scattering is difficult and weak link of safety control, a large amount of high-temperature slag and sparks are usually generated during steel structure engineering welding, and once a fire receiving measure is not in place and flammable materials near a welding point are not cleaned, the slag and the spark fall to easily cause the fire. Therefore, a special effective ignition device is required to be used, so that sparks and excess materials are prevented from falling, and the construction safety is ensured.

The traditional solution is to use a suspended type fire catching basin, which is usually a square container made of thin steel plates, to be suspended below section steel, and under windy weather operation conditions, the fire catching device is prone to deviation caused by wind blowing and difficult to control the scattering of sparks. The lower part of a steel structure or a curtain wall keel overhead welding and gas cutting working surface can not ensure that no combustible substance and constructors exist, and the probability of fire hazard and personnel injury is particularly high. Spark scattering is generated in the processes of high-altitude welding and gas cutting of steel structures or curtain wall keels, so that the danger of fire disasters is easily caused, and the safety of personnel is ensured, which is a difficult problem which puzzles the safety of the building industry for a long time.

Therefore, the safe electromagnetic ignition device and the implementation method are provided, and the problems of closed ignition and spark recovery are solved.

Disclosure of Invention

The present invention is directed to a safe electromagnetic ignition device and an implementation method thereof, so as to solve the problems of the background art.

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

a safety electromagnetic ignition device comprises an ignition device, wherein the ignition device comprises a pair of baffles and a pair of side plates perpendicular to the baffles, adjacent baffles are connected through a connecting piece, a plurality of groups of recovery module plates which are spliced linearly are spliced at the lower ends of the baffles in an inserted manner, one end of each side plate is fixed on the front end surface of the corresponding baffle, guide rails are arranged on the inner sides of the side plates, the plurality of groups of recovery module plates which are distributed linearly are clamped and fixed on a pair of side frames which are symmetrical left and right, the side frames are inserted on the baffles in a sliding manner through the guide rails and extend to the rear sides of the baffles, a cross beam is arranged at the rear side end part of each recovery module plate, an ignition plate for closing an opening at the front end of the side frame is vertically inserted above the front end of each recovery module plate, an insertion rod which is inserted on the cross beam in a sliding manner is arranged at the rear side of each recovery module plate, and a spring which is pressed between the recovery module plates and the cross beam is sleeved on the insertion rod, the lower end of the ignition plate is attached to the upper end face of the recovery module plate, and a workpiece is clamped and fixed between the ignition plate and the recovery module plate.

Preferably, the connecting piece is a rotating seat, a pair of adjacent baffles are rotatably connected through the rotating seat, and the front ends of the adjacent baffles are provided with telescopic supporting rods.

Preferably, the upper end of the recovery module board is provided with a magnetic magnet, the lower side of the recovery module board is made of insulating magnetic materials, one side of the recovery module board is provided with a cutting, the other side of the recovery module board is provided with a slot, and adjacent recovery module boards are spliced and installed in a matched mode through the cutting and the slot.

Preferably, the plurality of groups of recovery module plates which are linearly inserted and installed are inserted and installed on a pair of bilateral symmetry side frames, the outer sides of the side frames are inserted and installed in guide rails in a sliding mode, the guide rails are fixedly welded on the inner walls of the side plates, the front ends of the side frames are provided with stop blocks which are pressed on the front end faces of the guide rails, and pull rings are arranged on the stop blocks.

Preferably, the front end fixed mounting of curb plate has the protective housing, be provided with last magnet and lower magnet that the power supply part is connected in the protective housing, go up magnet and lower magnet and be the electric energy magnet, the outside of protective housing is provided with switch and power source, goes up the upper end inner wall of magnet laminating protective housing, the inner chamber front end inner wall of lower magnet laminating protective housing.

Preferably, the inner side and the outer side of the side plate are both provided with lantern rings, the fire plate is provided with a pair of inserting columns which are distributed in a vertically staggered manner, the inserting columns which are distributed in a vertically staggered manner are respectively inserted into the lantern rings on the inner side and the outer side of the side plate, and the outer wall of the middle section of each inserting column is provided with a pin hole corresponding to a fixing piece inserted into the side plate in a penetrating manner.

Preferably, the fixing piece is a bolt or a hook, one end of the fixing piece is inserted into the side plate, and the other end of the fixing piece is inserted into the pin hole.

Preferably, the outer wall of the inner side of the fire receiving plate is provided with a connecting absorption sheet which is matched and adsorbed with the upper magnet and the lower magnet, the inner side of the lower end of the fire receiving plate is provided with a containing groove, and the outer side of the containing groove is provided with a scraping strip with a triangular cross section and pressed on the upper end face of the recovery module plate.

Preferably, the rear side of the side frame is provided with a mounting T-shaped groove, two ends of the cross beam are inserted into the mounting T-shaped groove, the cross beam is provided with a plurality of groups of jacks which are linearly distributed, a baffle plate is provided with through grooves which are in equal height correspondence with the jacks, a recovery bottom plate which is composed of the side frame and a plurality of groups of recovery module plates which are linearly inserted is inserted into the through grooves in a sliding mode, the rear side inserting rod inserting and wiping link of the recovery module plates is arranged in the jacks, and the end part, located on the rear side of the cross beam, of the inserting rod is provided with a limiting block.

An implementation method of the safety electromagnetic ignition device comprises the following steps:

s1: the adjacent baffle plates are connected through the connecting pieces, the assembly of the recovery module plate is realized through the matching of the slots and the inserting strips, and the sliding insertion installation of the recovery bottom plate is further realized through the matching of the side frames and the guide rails;

s2: inserting a fire welding device under the keel upright column at the position to be welded, compressing the spring through extrusion with the keel upright column, and enabling the recovery module plate which is in contact with and extruded by the upright column to slide towards the rear side;

s3: when the upright post is flush with the front end of the side plate, the ignition plate is inserted, the power supply in the protective box is closed, the pre-fixing is realized through the adsorption of the magnet and the ignition plate, and the position of the ignition plate is fixed through the matching of the insertion post and the fixing piece, so that the ignition device is clamped on the upright post under the reset elasticity of the spring and the extrusion of the ignition plate;

s4: after welding, solder joint, waste material all fall on retrieving the module board upper end, will meet the fire the device and dismantle on the stand, drive through the pull ring and retrieve the module board and slide at the lower extreme of board that meets the fire for the waste material is followed and is scraped the strip and is fallen in accomodating the groove.

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

1. the electromagnetic adsorption is arranged to realize the pre-installation of the workpiece, so that the high-altitude installation of the ignition device is facilitated, and meanwhile, the linear splicing recovery module plate is utilized to realize the adaptation with the installation upright column, so that the closed ignition of the lower end of the upright column is realized, the splashing and falling of sparks are avoided, and the welding safety is greatly improved;

2. the invention realizes the separation of the splashed sparks by arranging the fire-receiving plate, and realizes the scraping and cleaning of the upper end surface of the recovery module plate by utilizing a pull-type installation mode, thereby achieving the purpose of recovering waste materials, avoiding the splashed waste materials from falling off at high altitude, and further improving the safety performance of welding.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a view of the workpiece holding fixture installation of the present invention;

FIG. 3 is a side cross-sectional view of the present invention;

FIG. 4 is a schematic perspective view of the fire panel of the present invention;

FIG. 5 is a schematic perspective view of a recycling module board according to the present invention;

FIG. 6 is a schematic view of an assembly structure of the recycling floor of the present invention.

In the figure: 1. a baffle plate; 2. a side plate; 3. recovering the module board; 4. a side frame; 5. a protective box; 6. a guide rail; 7. a cross beam; 8. inserting a rod; 9. a spring; 10. a connecting member; 11. a fire plate; 12. a stopper; 13. a pull ring; 14. a collar; 15. a switch; 16. inserting a column; 17. a fixing member; 18. an upper magnet; 19. a power supply member; 20. a lower magnet; 21. connecting the suction sheet; 22. cutting; 23. a limiting block; 24. a jack; 25. scraping the strips; 26. a receiving groove; 27. a through groove; 28. a workpiece; 29. a rotating seat; 30. a telescopic support rod; 31. installing a T-shaped groove; 32. a slot; 33. a pin hole.

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 to 6, the present invention provides a technical solution:

the utility model provides a security electromagnetism device of starting to exchange fire, includes the device of starting to exchange fire, and the device of starting to exchange fire includes a pair of curb plate 2 of a pair of baffle 1 and perpendicular baffle 1, connects through connecting piece 10 between an adjacent pair of baffle 1, and connecting piece 10 is for rotating seat 29, rotates through rotating seat 29 between an adjacent pair of baffle 1 and connects, and the front end of adjacent baffle 1 is provided with flexible bracing piece 30, realizes the fixed parallel connection between the adjacent baffle 1 through connecting piece 10.

The lower extreme of baffle 1 is pegged graft and is had the multiunit recovery module board 3 of linear concatenation, the upper end of retrieving module board 3 is for taking magnetic magnet, the downside of retrieving module board 3 is insulating magnetic material, one side of retrieving module board 3 is provided with cutting 22, the opposite side of retrieving module board 3 is provided with slot 32, it pegs graft the installation through cutting 22 and slot 32 cooperation between the adjacent recovery module board 3, utilize slot 32 and cutting 22's cooperation, realize the grafting installation between the adjacent recovery module board 3, retrieve the material of module board 3 upper end through injecing, and then realize adsorbing the waste material that drops, realize concentrating and retrieve.

One end of a side plate 2 is fixed on the front end face of a baffle plate 1, a guide rail 6 is arranged on the inner side of the side plate 2, a plurality of groups of recovery module plates 3 which are linearly distributed are clamped and fixed on a pair of bilateral symmetrical side frames 4, the side frames 4 penetrate through the baffle plate 1 in a sliding mode through the guide rail 6 and extend to the rear side of the baffle plate 1, the plurality of groups of recovery module plates 3 which are linearly inserted and installed are inserted and installed on the pair of bilateral symmetrical side frames 4 in a inserting mode, the outer sides of the side frames 4 are inserted and installed in the guide rail 6 in a sliding mode, the guide rail 6 is fixedly welded on the inner wall of the side plate 2, a stop block 12 which is pressed on the front end face of the guide rail 6 is arranged at the front end of the side frame 4, pull rings 13 are arranged on the stop block 12, the insertion and installation of the side frames 4 in a sliding mode is achieved through the guide rail 6, the insertion and insertion positions of the side frames 4 are limited through the stop blocks 12, and the pull rings 13 are convenient to achieve the detachment of the side frames 4.

The rear end of the side frame 4 is provided with a cross beam 7, the rear side of the side frame 4 is provided with a mounting T-shaped groove 31, two ends of the cross beam 7 are inserted into the mounting T-shaped grooves 31, and the cross beam 7 is inserted and mounted through the mounting T-shaped grooves 31.

The rear side of the recovery module plate 3 is provided with an inserting rod 8 which is inserted on the cross beam 7 in a sliding penetrating manner, the inserting rod 8 is sleeved with a spring 9 which is pressed between the recovery module plate 3 and the cross beam 7, the cross beam 7 is provided with a plurality of groups of jacks 24 which are distributed in a linear manner, the baffle plate 1 is provided with a penetrating groove 27 which corresponds to the jacks 24 in a height-equal manner in a penetrating manner, a recovery bottom plate which is composed of the side frame 4 and the plurality of groups of recovery module plates 3 which are inserted in the linear manner is inserted on the penetrating groove 27 in a sliding manner, the inserting rod 8 at the rear side of the recovery module plate 3 is inserted in the jacks 24, a limiting block 23 is arranged at the end part of the rear side of the cross beam 7 of the inserting rod 8, the position at the rear side of the recovery module plate 3 is limited by the limiting block 23, and then the contraction of the spring 9 is realized under the extrusion of a workpiece 28, so that the plurality of groups of recovery module plates 3 which are distributed in a linear manner are adapted to the outline of the upright column, thereby forming a closed recovery bottom plate.

Retrieve vertical grafting in front end top of module board 3 and have the board 11 that connects of closing the device front end open-ended that connects to fire, the front end fixed mounting of curb plate 2 has protective housing 5, be provided with last magnet 18 and lower magnet 20 that power supply 19 connects in the protective housing 5, it is electric degerming magnet to go up magnet 18 and lower magnet 20, the outside of protective housing 5 is provided with switch 15 and power source, the upper end inner wall of going up magnet 18 laminating protective housing 5, the inner chamber front end inner wall of lower magnet 20 laminating protective housing 5, the inboard outer wall of board 11 that connects to fire is provided with and goes up magnet 18 and lower magnet 20 cooperation adsorbed connection suction disc 21, through last magnet 18, the absorption that connects suction disc 21 on magnet 20 and the board 11 that connects realizes fixing in advance, be convenient for realize high altitude installation operation.

Connect the lower extreme laminating of board 11 to retrieve the up end of module board 3, and connect the centre gripping to be fixed with work piece 28 between board 11 and the recovery module board 3 of starting to exchange fire, 2 inside and outside both sides of curb plate all are provided with the lantern ring 14, a pair of post 16 of inserting of dislocation distribution about being provided with on the board 11 of starting to exchange fire, the post 16 of inserting of dislocation distribution about going up pegs graft respectively on the lantern ring 14 of 2 inside and outside both sides of curb plate, the interlude outer wall of post 16 runs through and is provided with the pinhole 33 corresponding with grafting on curb plate 2 mounting 17, utilize mounting 17 and the cooperation of inserting post 16, realize the rigidity of board 11 of starting to exchange fire, and then under spring 9 and the extrusion of board 11 of starting to exchange fire, realize the fixed mounting of device of starting to exchange fire on work piece 28.

The fixing member 17 is a latch or a hook, one end of the fixing member 17 is inserted into the side plate 2, and the other end of the fixing member 17 is inserted into the pin hole 33.

The lower end inner side of the fire receiving plate 11 is provided with a containing groove 26, the outer side of the containing groove 26 is provided with a scraping strip 25 with a triangular cross section and pressed on the upper end surface of the recovery module plate 3, and when the recovery module plate 3 is disassembled, the purpose of drawing the recovery module plate 3 is achieved through the pull ring 13, so that waste materials at the upper end of the recovery module plate 3 are scraped off through the scraping strip 25 and are recovered into the containing groove 26.

An implementation method of the safety electromagnetic ignition device comprises the following steps:

s1: the adjacent baffle plates 1 are connected through the connecting pieces 10, the assembly of the recovery module plate 3 is realized through the matching of the slots 32 and the inserting strips 22, and the sliding insertion installation of the recovery bottom plate is further realized through the matching of the side frames 4 and the guide rails 6;

s2: inserting the ignition device under the keel upright column at the position to be welded, compressing the spring 9 through the extrusion of the keel upright column, and enabling the recovery module plate 3 which is in contact with and extruded by the upright column to slide towards the rear side;

s3: when the upright column is flush with the front end of the side plate 2, the ignition plate 11 is inserted, the power supply in the protective box 5 is closed, the pre-fixing is realized through the adsorption of the magnet and the ignition plate 11, and the position of the ignition plate 11 is fixed through the matching of the inserted column 16 and the fixing piece 17, so that the ignition device is clamped on the upright column under the reset elasticity of the spring 9 and the extrusion of the ignition plate 11;

s4: after welding, solder joint, waste material all fall on retrieving module board 3 upper end, will connect the device of starting to exchange sparks to dismantle on the stand, drive through pull ring 13 and retrieve module board 3 and slide at the lower extreme of board 11 that connects sparks for the waste material is followed and is scraped strip 25 and is fallen in accomodating groove 26.

The working principle is as follows: the fixed parallel connection between adjacent baffle plates 1 is realized through the connecting piece 10, the insertion installation between adjacent recovery module plates 3 is realized by utilizing the matching of the inserting grooves 32 and the inserting strips 22, and the falling waste materials are adsorbed by limiting the materials at the upper ends of the recovery module plates 3, so that the concentrated recovery is realized.

The insertion type sliding installation of the side frames 4 is achieved through the guide rails 6, the insertion positions of the side frames 4 are limited through the stop blocks 12, the side frames 4 are convenient to detach through the pull rings 13, the insertion installation of the cross beams 7 is achieved through the installation T-shaped grooves 31, the rear positions of the recovery module plates 3 are limited through the limiting blocks 23, and then the contraction of the springs 9 is achieved under the extrusion of the workpiece 28, so that multiple groups of recovery module plates 3 which are distributed linearly are adapted to the outer contour of the upright column, and a closed recovery bottom plate is formed.

Through last magnet 18, the absorption that is connected on magnet 20 and the board 11 of receiving a fire and inhales piece 21 realizes fixing in advance, be convenient for realize high altitude installation operation, utilize mounting 17 and the cooperation of inserting post 16, realize the rigidity of board 11 of receiving a fire, and then under the extrusion of spring 9 and board 11 of receiving a fire, realize the fixed mounting of device of receiving a fire on work piece 28, during the dismantlement, reach the purpose of pull recovery module board 3 through pull ring 13, make the waste material of recovery module board 3 upper end scrape through scraping strip 25 and fall and retrieve to receiving in the groove 26.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 utility model provides a security electromagnetism device of starting to exchange fire, includes the device of starting to exchange fire, its characterized in that: the fire receiving device comprises a pair of baffle plates (1) and a pair of side plates (2) perpendicular to the baffle plates (1), wherein the adjacent baffle plates (1) are connected through a connecting piece (10), a plurality of groups of linearly spliced recovery module plates (3) are spliced at the lower ends of the baffle plates (1), one end of each side plate (2) is fixed on the front end surface of each baffle plate (1), guide rails (6) are arranged on the inner sides of the side plates (2), the plurality of groups of linearly distributed recovery module plates (3) are clamped and fixed on a pair of side frames (4) which are bilaterally symmetrical, the side frames (4) penetrate through the baffle plates (1) in a sliding mode through the guide rails (6) and extend to the rear side of the baffle plates (1), a cross beam (7) is arranged at the rear side end part of each side frame (4), a fire receiving plate (11) for closing an opening at the front end of the fire receiving device is vertically spliced above the front end of each recovery module plate (3), and an inserting rod (8) penetrating through the cross beam (7) in a sliding mode is arranged at the rear side of each recovery module plate (3), the plug rod (8) is sleeved with a spring (9) which is pressed between the recovery module plate (3) and the cross beam (7), the lower end of the ignition plate (11) is attached to the upper end face of the recovery module plate (3), and a workpiece (28) is clamped and fixed between the ignition plate (11) and the recovery module plate (3).

2. A safety electromagnetic fire-lighting device as defined in claim 1, wherein: the connecting piece (10) is a rotating seat (29), the adjacent baffles (1) are rotatably connected through the rotating seat (29), and the front ends of the adjacent baffles (1) are provided with telescopic supporting rods (30).

3. A safety electromagnetic fire-lighting device as defined in claim 1, wherein: the upper end of the recovery module board (3) is provided with a magnetic magnet, the lower side of the recovery module board (3) is made of insulating magnetic materials, one side of the recovery module board (3) is provided with an inserting strip (22), the other side of the recovery module board (3) is provided with a slot (32), and adjacent recovery module boards (3) are matched, spliced and installed through the inserting strip (22) and the slot (32).

4. A safety electromagnetic fire-lighting device as defined in claim 3, wherein: the recovery module plates (3) are linearly inserted and installed on a pair of bilateral symmetry side frames (4), the outer sides of the side frames (4) are inserted into guide rails (6) in a sliding mode, the guide rails (6) are fixedly welded on the inner walls of the side plates (2), the front ends of the side frames (4) are provided with stop blocks (12) pressed on the front end faces of the guide rails (6), and pull rings (13) are arranged on the stop blocks (12).

5. A safety electromagnetic fire-lighting device as defined in claim 1, wherein: the front end fixed mounting of curb plate (2) has protective housing (5), be provided with last magnet (18) and lower magnet (20) that power supply spare (19) are connected in protective housing (5), it is the electric energy magnet to go up magnet (18) and lower magnet (20), and the outside of protective housing (5) is provided with switch (15) and power source, goes up the upper end inner wall of magnet (18) laminating protective housing (5), and the inner chamber front end inner wall of lower magnet (20) laminating protective housing (5).

6. A safety electromagnetic fire-lighting device as defined in claim 1, wherein: lantern rings (14) are arranged on the inner side and the outer side of the side plate (2), a pair of inserting columns (16) which are distributed in a vertically staggered mode are arranged on the fire connecting plate (11), the inserting columns (16) which are distributed in a vertically staggered mode are respectively inserted into the lantern rings (14) on the inner side and the outer side of the side plate (2), and pin holes (33) corresponding to fixing pieces (17) inserted into the side plate (2) penetrate through the outer wall of the middle section of each inserting column (16).

7. A safety electromagnetic fire-lighting device as defined in claim 1, wherein: the fixing piece (17) is a bolt or a hook, one end of the fixing piece (17) is inserted into the side plate (2), and the other end of the fixing piece (17) is inserted into the pin hole (33).

8. A safety electromagnetic fire-lighting device as claimed in claim 5, wherein: the outer wall of the inner side of the fire receiving plate (11) is provided with a connecting absorption sheet (21) which is matched and adsorbed with the upper magnet (18) and the lower magnet (20), the inner side of the lower end of the fire receiving plate (11) is provided with an accommodating groove (26), and the outer side of the accommodating groove (26) is provided with a scraping strip (25) with a triangular cross section and pressed on the upper end face of the recovery module plate (3).

9. A safety electromagnetic fire-lighting device as defined in claim 1, wherein: the rear side of the side frame (4) is provided with a mounting T-shaped groove (31), two ends of the cross beam (7) are inserted into the mounting T-shaped groove (31), a plurality of groups of jacks (24) which are linearly distributed are arranged on the cross beam (7), a through groove (27) which corresponds to the jacks (24) in height is arranged on the baffle plate (1) in a penetrating mode, a recovery bottom plate which is composed of the side frame (4) and a plurality of groups of recovery module plates (3) which are linearly inserted is inserted in the through groove (27) in a sliding mode, an inserting rod (8) at the rear side of each recovery module plate (3) is inserted in the corresponding jack (24), and a limiting block (23) is arranged at the end part, located at the rear side of the cross beam (7), of each inserting rod (8).

10. An implementation method implemented by the safety electromagnetic fire-receiving device according to any one of claims 1 to 9, characterized by comprising the following steps: the implementation method comprises the following steps:

s1: the adjacent baffle plates (1) are connected through the connecting piece (10), the assembly of the recovery module plate (3) is realized through the matching of the slot (32) and the inserting strip (22), and the sliding insertion installation of the recovery bottom plate is further realized through the matching of the side frame (4) and the guide rail (6);

s2: inserting the ignition device under the keel upright column at the position to be welded, compressing the spring (9) through the extrusion of the keel upright column, and enabling the recovery module plate (3) which is in contact with and extruded by the upright column to slide towards the rear side;

s3: when the upright post is flush with the front end of the side plate (2), the fire-connecting plate (11) is inserted, a power supply in the protective box (5) is closed, pre-fixing is realized through the adsorption of the magnet and the fire-connecting plate (11), and the position of the fire-connecting plate (11) is fixed through the matching of the inserted post (16) and the fixing piece (17), so that the fire-connecting device is clamped on the upright post under the reset elastic force of the spring (9) and the extrusion of the fire-connecting plate (11);

s4: after welding, welding spots and waste materials all fall on the upper end of the recovery module plate (3), the ignition device is disassembled on the stand column, and the recovery module plate (3) is driven by the pull ring (13) to slide at the lower end of the ignition plate (11), so that the waste materials fall in the storage groove (26) along the scraping strip (25).

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