CN117300456A - Rapid splice welding device for civil air defense door frame and processing technology thereof - Google Patents

Abstract

The utility model relates to a people's air defense door frame rapid splice welding device and processing technology thereof relates to the field of people's air defense equipment technology, and it includes supporting component, slip subassembly, frock frame, rotating component, actuating component and four clamping components, supporting component includes backup pad and two bracing pieces, two bracing pieces can be towards being close to each other or keeping away from one side and slide, slip subassembly is connected with the backup pad, slip subassembly is connected with the bracing piece in order to drive the bracing piece motion, frock frame is located between two bracing pieces, rotating component includes two first rotating parts and two extensible members, extensible member one end is connected with first rotating parts, the other end is connected with frock frame, first rotating parts are used for driving frock frame upset; the drive assembly includes second lifting part and second rotating part, and the second lifting part is connected with the frock frame, and four clamping assemblies distribute along second rotating part circumference, and four door frame sides of centre gripping can splice adult and prevent the door frame, and this application has the difficult effect to door frame welded of improvement personnel.

Description

Rapid splice welding device for civil air defense door frame and processing technology thereof

Technical Field

The application relates to the field of civil air defense equipment technology, in particular to a rapid welding device for a civil air defense door frame and a processing technology thereof.

Background

The civil air defense is also called civil air defense, takes anti-air attack, anti-disaster and disaster relief measures, implements rescue actions, prevents and relieves the disaster damage, and belongs to civil air defense protection equipment.

In the related art, the application document with the publication number of CN116551279A discloses a civil air defense door frame and a splicing method thereof, the civil air defense door frame comprises a plurality of angle steels, the plurality of angle steels are arranged in a rectangular mode, the civil air defense door frame further comprises two mutually hinged positioning plates, the two positioning plates are all provided with clamping pieces, the clamping pieces comprise clamping plates arranged on the surface of the positioning plates and close to the end parts of the positioning plates, two groups of clamping plates are arranged at two ends of the positioning plates, one group of clamping plates comprises two fixing plates which are arranged vertically and at intervals, the other group of clamping plates positioned at the same end of the positioning plates are positioned on the outer side of one group of clamping plates, the angle steels are positioned between the two groups of clamping plates, the fixing plates in the two groups of clamping plates are provided with abutting blocks in a sliding mode, diagonal steels are fixed, when welding operation is needed to be carried out on the door frame, the angle steels are firstly tiled on the ground, then the positioning plates are hoisted to the upper part of the door frame, the positioning plates are positioned on diagonal lines of the door frame, the angle steels are positioned between the mutually opposite fixing plates, then the abutting blocks are slid, the angle steels are fixed on the positioning plates, and then the inside the door frame is supported and fixed.

To the relevant technique among the above-mentioned, through adjusting the angle steel to suitable position, hoist and mount the locating plate to the door frame top again, make angle steel and fixed plate fixed, weld the splice seam of angle steel again, but at welded in-process, the personnel accomplish the splice seam welding back of two adjacent angle steel wherein, need remove the position, splice seam welding to other two adjacent angle steel again, lead to the personnel to be difficult for the door frame welding.

Disclosure of Invention

In order to solve the problem that people are not easy to weld the door frame, the application provides a rapid welding device for a civil air defense door frame and a processing technology thereof.

The application provides a people's air defense door frame piece together welds device fast and processing technology adopts following technical scheme:

the utility model provides a people's air defense door frame quick welding device, includes supporting component, slip subassembly, frock frame, rotating assembly, actuating assembly and four clamping assembly, the supporting component includes backup pad and two bracing pieces, the backup pad is connected with ground, two the bracing piece is all vertical to be located the backup pad is kept away from ground one side, the bracing piece slide set up in the backup pad, two the bracing pieces can be moved towards being close to each other or keep away from one side and slide, slip subassembly with the backup pad is connected, slip subassembly with the bracing piece is connected in order to drive the bracing piece motion, the frock frame is located two between the bracing piece, rotating assembly includes two first rotating parts and two extensible members, one first rotating part is connected with one the bracing piece, one extensible member corresponds with one first rotating part, extensible member one end with first rotating part is connected, the other end with the frock frame is connected, first rotating member is used for driving the frock frame upset;

the driving assembly comprises a second lifting piece and a second rotating piece, the second lifting piece is connected with the tool frame, the second lifting piece is connected with the second rotating piece to drive the second rotating piece to lift, the clamping assemblies are all connected with the second rotating piece, the clamping assemblies are distributed along the circumferential direction of the second rotating piece, one clamping assembly is used for clamping one side edge of the door frame, and the four clamped side edges of the door frame can be spliced into an adult door frame.

Through the technical scheme, when the door frame is required to be welded, firstly, the second lifting part is started, the second lifting part drives the second rotating part to lift, at the moment, the second rotating part drives the clamping component to move, the clamping component can be adjusted to a proper position, then, the side edges of the door frame required to be welded are clamped through the clamping component, the four side edges of the door frame are spliced into an anti-door frame, then, personnel weld the splicing seams of two adjacent side edges, after the welding is finished, the sliding component is started, the sliding component drives the two supporting rods to move towards one side far away from each other, at the moment, the telescopic part stretches, the second lifting part is started again, the second lifting part drives the second rotating part to move towards one side far away from the supporting plate, the clamping component clamped with the side edges of the door frame moves along with the second rotating part, the clamping component is required to move to a proper position, the second lifting part is closed, the second rotating member is started again, the second rotating member drives the clamping assembly to rotate, at this moment, the door frame rotates along with the clamping assembly, the splicing seams of two adjacent side edges which are not welded are rotated to the positions of people, the people weld the splicing seams of the two side edges, the second rotating member is driven again, the welding of the rest splicing seams is completed, then, the first rotating member is started, the first rotating member drives the tooling frame to turn over 180 degrees, according to the steps, the people only need to stand in situ to finish the welding of the splicing seams of the two adjacent side edges, compared with the prior art, the welding method has the advantages that the personnel can weld the splicing seams of one side of the door frame through the cooperation of the second lifting member and the second rotating member, the tooling frame can be turned over through the first rotating member, the personnel only need to stand in situ to weld the splicing seams of the other side of the door frame, and the personnel can finish the welding of the door frame without moving, is beneficial to improving the problem that the door frame is not easy to be welded by personnel.

Optionally, the first rotating member includes a turnover motor and a rotating plate, the turnover motor is connected with the supporting rod, an output shaft of the turnover motor faces to a side far away from the supporting rod, and the output shaft of the turnover motor is fixed with the rotating plate;

the telescopic parts comprise a first telescopic rod and springs, the first telescopic rod is horizontally arranged, one end of the first telescopic rod is fixed with the rotating plate, the other end of the first telescopic rod is fixed with the tool frame, the springs are sleeved on the peripheral wall of the first telescopic rod, one end of each spring is fixed with the rotating plate, and the other end of each spring is fixed with the tool frame.

Through adopting above-mentioned technical scheme, when needs rotate the door frame, personnel start the subassembly that slides, slide the subassembly and drive two bracing pieces and move towards keeping away from one side each other, at this moment, first telescopic link extension, the spring extension, interval grow between two bracing pieces, start the second rotating member and can make the door frame rotate, personnel weld the splice seam department of door frame; when the door frame needs to be overturned, the two overturning motors are started simultaneously, the overturning motors drive the rotating plate to rotate, at the moment, the telescopic rods rotate along with the rotating plate and can drive the tool frame to overturn, meanwhile, the door frame overturns along with the tool frame, the overturning of the tool frame is facilitated by arranging the overturning motors and the rotating plate, and on one hand, when the sliding assembly adjusts the distance between the two supporting rods, the situation that the tool frame is damaged due to the fact that the distance between the two supporting rods is enlarged is reduced; on the other hand, when the turnover motor drives the rotating plate to rotate, the first telescopic rod is favorable for driving the tool frame to rotate.

Optionally, the sliding component includes a bidirectional screw and a driving part, a chute is formed on one side of the support plate, which is close to the support plates, the setting direction of the chute is consistent with the distribution direction of the two support plates, the bidirectional screw is located in the chute, the setting direction of the bidirectional screw is consistent with the setting direction of the chute, both ends of the bidirectional screw are rotationally connected with the support plate, and one end of the support plate, which is close to the support plate, is in threaded connection with one end of the bidirectional screw;

the transmission piece is including placing board, first bevel gear, second bevel gear and first driving motor, place the board be fixed in the backup pad, place the board be close to the spout, first bevel gear is located place the board below, first bevel gear is located in the spout, first bevel gear with two-way screw rod coaxial fixation, the second bevel gear is located place the board below, the second bevel gear with first bevel gear meshing, first driving motor is located places the board top, first driving motor's casing pass through screw fixed connection in place the board, first driving motor's output shaft pass place behind the board with the mode coaxial fixation of second bevel gear through key connection.

Through adopting above-mentioned technical scheme, when needing the interval between two bracing pieces of adjustment, start first driving motor, first driving motor drive second bevel gear rotates, at second bevel gear pivoted in-process, first bevel gear rotates along with the second bevel gear, first bevel gear drives two-way screw rod and rotates, at two-way screw rod pivoted in-process, the bracing piece can follow two-way screw rod's length direction motion on two-way screw rod, thereby can adjust the interval of two bracing pieces, through setting up the driving medium, be favorable to adjusting the interval of two bracing pieces, be convenient for the rotation to the door frame.

Optionally, the slip subassembly still includes double-end motor and two threaded rods, double-end motor is located in the spout, double-end motor's casing pass through screw fixed connection in the backup pad, one the threaded rod with one double-end motor's output shaft corresponds, the setting direction of threaded rod with the setting direction of spout is unanimous, threaded rod one end with double-end motor's output shaft is fixed, the other end with the backup pad rotates to be connected, one the bracing piece with one threaded rod threaded connection.

Through adopting above-mentioned technical scheme, when needing the interval between two bracing pieces of adjustment, start the double-end motor, double-end motor drive threaded rod rotates, at threaded rod pivoted in-process, the bracing piece can be followed the length direction motion of screw rod on the threaded rod to can adjust the interval of two bracing pieces, through setting up double-end motor and threaded rod, be favorable to adjusting the interval of two bracing pieces, further be convenient for the rotation to the door frame.

Optionally, the second rotating member includes baffle and rotating electrical machines, the rotating electrical machines with the second elevating member is connected, the output shaft of rotating electrical machines with the baffle is fixed, four the centre gripping subassembly is followed the baffle circumference distributes.

Through adopting above-mentioned technical scheme, when needs rotate the door frame, start the second elevating member, second elevating member drive rotating electrical machines motion, treat rotating electrical machines motion to suitable position, close the second elevating member, start the rotating electrical machines simultaneously, rotating electrical machines drive baffle is rotatory, at the rotatory in-process of baffle, the clamping assembly rotates along with the baffle, at this moment, the door frame moves along with the clamping assembly, realizes the rotation of door frame, through setting up the rotating electrical machines, is convenient for realize the rotatory automation of door frame.

Optionally, the device further comprises an adjusting assembly, wherein the adjusting assembly comprises a guide seat and four adjusting pieces, the guide seat is fixed on one side of the guide plate, which is far away from the rotating motor, and one adjusting piece corresponds to one side wall of the guide seat along the vertical direction;

the adjusting part comprises a second air cylinder and an adjusting rod, the second air cylinder is horizontally arranged, the cylinder body of the second air cylinder is fixed on the guide seat, the piston rod of the second air cylinder faces away from one side of the guide seat, the piston rod of the second air cylinder is connected with the adjusting rod, the adjusting rod is arranged by the guide seat towards one side away from the guide seat, the top of the adjusting rod is flush with the top of the tool frame, and one clamping assembly is connected with one adjusting rod.

Through adopting above-mentioned technical scheme, when needs carry out the welding to the side of different length door frames, start the second cylinder, second cylinder drive adjusts pole and is close to or keep away from guide holder one side motion, at the in-process of adjusting pole motion, clamping component along with adjusting pole synchronous motion, adjust clamping component to suitable position as required the length size of welded side of door frame, rethread clamping component carries out the centre gripping to the door frame, welds the splice seam of door frame again, through setting up adjusting component, is convenient for weld the side of adaptation different length door frames.

Optionally, the rotating assembly further includes two first lifting members, one of the first lifting members is connected to one of the support rods, and the first lifting member is connected to the turnover motor to drive the two turnover motors to move along the length direction of the support rods.

Through adopting above-mentioned technical scheme, start first lifting piece, first lifting piece drive upset motor moves along the length direction of bracing piece, and at this moment, the rotor plate moves along with the upset motor, and simultaneously, the frock frame moves along with the rotor plate, through setting up first lifting piece, is favorable to adjusting the height of frock frame.

Optionally, the clamping assembly includes the clamping assembly, the clamping assembly includes baffle, first splint, second splint and twists the piece, the baffle vertical be fixed in adjust the pole and keep away from backup pad one side, first splint is located the baffle is kept away from guide holder one side, first splint with it is fixed to adjust the pole, second splint is located first splint with between the baffle, the second splint slide set up in adjust the pole, the second splint can be towards being close to or keep away from first splint one side motion, first splint with second splint can be with one of them side centre gripping of door frame, twist the piece with the baffle is connected, twist the piece and be used for the drive second splint motion.

Through adopting above-mentioned technical scheme, when needs carry out the centre gripping to the door frame side, start to twist the piece, it is towards keeping away from first splint one side motion to twist a drive second splint, wait that the second splint moves to suitable position, put the side of door frame between second splint and first splint, afterwards, start again and twist a, it is towards being close to first splint one side motion to twist a drive second splint, until second splint and first splint press from both sides the door frame side tightly, according to above-mentioned step, through other centre gripping subassemblies with remaining door frame side centre gripping, through setting up first splint and second splint, on the one hand, make the area of contact of first splint and second splint and door frame side great, be favorable to the centre gripping to the door frame side, on the other hand, be favorable to reducing the door frame side because of the centre gripping produces the condition of damaging.

Optionally, a first flexible pad is fixed on one side of the first clamping plate, which is close to the second clamping plate, and a second flexible pad is fixed on one side of the second clamping plate, which is close to the first clamping plate.

Through adopting above-mentioned technical scheme, through setting up first flexible pad and second flexible pad, further be favorable to reducing the door frame side and produce the circumstances of damage because of the centre gripping.

A processing technology of a rapid splice welding device for a civil air defense door frame comprises the following steps,

s1: simultaneously starting two first lifting pieces, adjusting the tool frame to a proper position, starting the driving assembly to adjust the guide plate to a proper position, and enabling the top of the adjusting rod to be level with the top of the tool frame;

s2: starting an adjusting assembly according to the size of the side edges of the door frame to be welded, adjusting the four clamping assemblies to proper positions, clamping the side edges of the door frame, splicing the side edges of the door frame into a civil air defense door frame, and welding the splicing seams of two adjacent side edges;

s3: after the welding of the splicing seams of the two adjacent side edges is finished, the second lifting piece is started, the guide plate moves to a proper position, the sliding component is started, the sliding component can drive the two support rods to move towards one side far away from each other, the second rotating piece is started, and the splicing seams of the two unwelded adjacent side edges are welded;

s4: and starting a turnover motor, wherein the turnover motor drives the tool frame to turn over 180 degrees, and according to the steps, personnel only need to stand on site to finish welding the splicing seams of two adjacent side edges.

Through adopting above-mentioned technical scheme, according to the above-mentioned step, with clamping component adjustment to suitable position, with door frame side centre gripping through clamping component, at this moment, door frame side splice adult prevents the door frame, later, personnel weld the splice seam of two adjacent door frame sides, and the cooperation of rethread slip subassembly, second lifting part, second rotating part and upset motor welds the splice seam of other two adjacent sides.

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

1. compared with the related art, the door frame welding device has the advantages that by means of the cooperation of the second lifting piece and the second rotating piece, a person can weld the splicing seam on one surface of the door frame, then the first rotating piece turns over the tool frame, the person only needs to stand in place and can weld the splicing seam on the other surface of the door frame, the person does not need to move, and the door frame can be welded, so that the problem that the person is not easy to weld the door frame is solved;

2. by arranging the first telescopic rod and the spring, on one hand, when the sliding component adjusts the distance between the two support rods, the situation that the tool frame is damaged due to the fact that the distance between the two support rods is enlarged is reduced; on the other hand, when the turnover motor drives the rotating plate to rotate, the first telescopic rod is beneficial to driving the tool frame to rotate;

3. through setting up double-end motor and threaded rod, be favorable to adjusting the interval of two bracing pieces, further be convenient for to the rotation of door frame.

Drawings

Fig. 1 is a schematic overall structure of a first view angle in embodiment 1;

FIG. 2 is a cross-sectional view of the support assembly of example 1;

FIG. 3 is an enlarged view of A in FIG. 2;

fig. 4 is a schematic overall structure of a second view angle in embodiment 1;

FIG. 5 is an enlarged view of B in FIG. 4;

fig. 6 is a schematic overall structure of a third view angle in embodiment 1;

FIG. 7 is an enlarged view of C in FIG. 6;

fig. 8 is a schematic overall structure in embodiment 2.

Reference numerals illustrate: 1. a support assembly; 11. a support plate; 111. a chute; 12. a support rod; 121. a sliding seat; 122. a sliding groove; 2. a slip assembly; 21. a bidirectional screw; 22. a transmission member; 221. placing a plate; 222. a first bevel gear; 223. a second bevel gear; 224. a first driving motor; 23. a double-ended motor; 24. a threaded rod; 3. a tool frame; 31. an avoidance groove; 4. a rotating assembly; 41. a first lifting member; 411. lifting screw rods; 412. a guide rod; 413. a connecting seat; 414. a second driving motor; 42. a first rotating member; 421. a turnover motor; 422. a rotating plate; 43. a telescoping member; 431. a first telescopic rod; 432. a spring; 5. a drive assembly; 51. a second lifting member; 511. a connecting plate; 512. a first cylinder; 513. a second telescopic rod; 52. a second rotating member; 521. a guide plate; 5211. a ring groove; 522. a rotating electric machine; 6. an adjustment assembly; 61. a guide seat; 62. an adjusting member; 621. a second cylinder; 622. an adjusting rod; 7. a clamping assembly; 71. a baffle; 72. a first clamping plate; 721. a first flexible pad; 73. a second clamping plate; 731. a second flexible pad; 74. and screwing the piece.

Detailed Description

The embodiment of the application discloses a rapid splice welding device for a civil air defense door frame and a processing technology thereof.

Example 1

Referring to fig. 1, a rapid welding device for a civil air defense door frame comprises a supporting component 1, a sliding component 2, a tool frame 3 and a rotating component 4, wherein the sliding component 2 is arranged on the supporting component 1, the tool frame 3 is connected with the rotating component 4, the rotating component 4 is arranged on the supporting component 1, and the rotating component 4 is used for driving the tool frame 3 to rotate.

Referring to fig. 1, the support assembly 1 includes a support plate 11 and two support rods 12, the support plate 11 may be a rectangular plate, or may be a circular plate, in this embodiment, the support plate 11 is a rectangular plate, the support plate 11 is horizontally disposed, the support plate 11 is fixedly connected to the ground through a reinforcing bolt, the two support rods 12 are located on one side of the support plate 11 far away from the ground, the two support rods 12 are vertically disposed, the support rods 12 are rectangular rods, the support rods 12 are slidably disposed on the support plate 11, the two support rods 12 can slide toward or away from one side of each other, and a space is left between the two support rods 12.

Referring to fig. 1 and 2, a sliding groove 111 is formed on one side of a supporting plate 11, which is close to supporting rods 12, the setting direction of the sliding groove 111 is consistent with the distribution direction of the two supporting rods 12, one ends of the two supporting rods 12, which are close to the supporting plates 11, are respectively provided with a sliding seat 121, the sliding seats 121 are welded to the supporting rods 12, in this embodiment, the longitudinal section of the sliding seats 121 is T-shaped, one ends of the sliding seats 121 are located in the sliding groove 111, the sliding seats 121 can slide in the sliding groove 111 along the length direction of the sliding groove 111, the sliding assembly 2 comprises a bidirectional screw rod 21 and a transmission piece 22, the bidirectional screw rod 21 is located in the sliding groove 111, the setting direction of the bidirectional screw rod 21 is consistent with the setting direction of the sliding groove 111, two ends of the bidirectional screw rod 21 are rotationally connected with the supporting plates 11, and a rotation gap is reserved between the bidirectional screw rod 21 and the supporting rods 12.

Referring to fig. 2 and 3, the transmission member 22 includes a placement plate 221, a first bevel gear 222, a second bevel gear 223 and a first driving motor 224, the placement plate 221 is close to the middle of the bi-directional screw rod 21, the placement plate 221 is fixedly connected to the support plate 11 through a screw, the first bevel gear 222 is located below the placement plate 221, the first bevel gear 222 is located in the chute 111, the first bevel gear 222 is fixedly connected with the bi-directional screw rod 21 coaxially through a key connection mode, the second bevel gear 223 is located below the placement plate 221, the second bevel gear 223 can be meshed with the first bevel gear 222, the first driving motor 224 is located above the placement plate 221, a casing of the first driving motor 224 is fixedly connected to the placement plate 221 through a screw, an output shaft of the first driving motor 224 passes through the placement plate 221 and is fixedly connected with the second bevel gear 223 coaxially through a key connection mode, and the first driving motor 224 drives the second bevel gear 223 to rotate; two sliding seats 121 are respectively located at one side of the placing plate 221, and the two sliding seats 121 are both in threaded connection with the bidirectional screw 21, and the sliding seats 121 can slide on the bidirectional screw 21 along the length direction of the bidirectional screw 21.

Referring to fig. 4, the tool frame 3 is located at one side of the support plate 11 far away from the ground, and the tool frame 3 is located between two support rods 12, the tool frame 3 is slidably disposed in the support rods 12, the tool frame 3 can move towards one side close to or far away from the support plate 11, the rotating assembly 4 comprises two first lifting members 41, two first rotating members 42 and two telescopic members 43, the first lifting members 41 comprise lifting screws 411, guide rods 412, connecting seats 413 and second driving motors 414, one sliding groove 122 is respectively formed in one side of each of the two support rods 12 close to each other, the sliding groove 122 is formed in the length direction of the support rods 12, one first lifting member 41 is close to one sliding groove 122, the lifting screws 411 are located in the sliding grooves 122, the setting direction of the lifting screws 411 is consistent with the setting direction of the sliding grooves 122, rotary gaps are reserved between the lifting screws 411 and the support rods 12, the guide rods 412 are located in the sliding grooves 122, the setting direction of the guide rods 412 is consistent with the setting direction of the lifting screws 411, the two ends of the guide rods 412 are welded to the support rods 12, the connecting seats 413 are connected with the connecting seats 413 in the length direction of the lifting screws 413, and the connecting seats can move along the length direction of the lifting screws 413.

Referring to fig. 4 and 5, a first rotating member 42 corresponds to a connection seat 413, the first rotating member 42 includes a turnover motor 421 and a rotating plate 422, a casing of the turnover motor 421 is fixedly connected to the connection seat 413 through a screw, an output shaft of the turnover motor 421 faces to a side far away from the sliding groove 122, an output shaft of the turnover motor 421 is welded to the rotating plate 422, the turnover motor 421 drives the rotating plate 422 to rotate, a telescopic member 43 corresponds to the rotating plate 422, the telescopic member 43 is located on one side where the two rotating plates 422 are close to each other, the telescopic member 43 includes a first telescopic rod 431 and a spring 432, the first telescopic rod 431 is horizontally arranged, one end of the first telescopic rod 431 is welded to the rotating plate 422, the other end of the first telescopic rod 431 is welded to the tool frame 3, the spring 432 is sleeved on the outer peripheral wall of the first telescopic rod 431, one end of the spring 432 is welded to the rotating plate 422, and the other end of the spring 432 is welded to the tool frame 3.

Referring to fig. 4, 6 and 7, a rapid welding device for a civil air defense door frame further comprises a driving assembly 5, an adjusting assembly 6 and four clamping assemblies 7, wherein the driving assembly 5 is arranged on the tool frame 3, the driving assembly 5 is connected with the adjusting assembly 6, and the clamping assemblies 7 are arranged on the adjusting assembly 6.

Referring to fig. 4, the driving assembly 5 includes a second lifting member 51 and a second rotating member 52, the second lifting member 51 includes a connection plate 511, a first cylinder 512 and a second telescopic rod 513, the connection plate 511 is located in the middle of the tool frame 3, in this embodiment, the connection plate 511 is U-shaped, an opening of the connection plate 511 faces one side of the tool frame 3, the connection plate 511 is welded on one side of the tool frame 3 close to the support plate 11, the first cylinder 512 is vertically disposed, a cylinder body of the first cylinder 512 is fixedly connected to the connection plate 511 through screws, a piston rod of the first cylinder 512 faces one side far away from the support plate 11, the second rotating member 52 includes a guide plate 521 and a rotating motor 522, the piston rod of the first cylinder 512 is slidably connected with the guide plate 521, the guide plate 521 is horizontally disposed, a ring groove 5211 is formed in the bottom of the guide plate 521, the piston rod of the first cylinder 512 can slide in the ring groove 5211, one end of the second telescopic rod 513 is vertically disposed, the other end of the second telescopic rod 513 is welded with the connection plate 511, the other end of the second telescopic rod is fixedly connected with the casing of the rotating motor 522 through screws, an output shaft of the rotating motor 522 is welded with the guide plate 521, the rotating motor 522 is driven by the rotating motor 521, the adjusting assembly 6 is located on one side far away from the guide plate 11, and is connected with the adjusting assembly 521.

Referring to fig. 6, the adjusting assembly 6 includes a guide seat 61 and four adjusting members 62, in this embodiment, the guide seat 61 is a rectangular seat, the guide seat 61 is welded to the guide plate 521, the guide seat 61 is hollow, one adjusting member 62 corresponds to one side wall of the guide seat 61 along the vertical direction, the adjusting member 62 includes a second cylinder 621 and an adjusting rod 622, the second cylinder 621 is horizontally arranged, the second cylinder 621 is located in the guide seat 61, the cylinder body of the second cylinder 621 is fixedly connected to the guide seat 61 through a screw, a piston rod of the second cylinder 621 passes through the guide seat 61 and then is welded with the adjusting rod 622, in this embodiment, the adjusting rod 622 is a rectangular rod, the adjusting rod 622 is horizontally arranged, the second cylinder 621 drives the adjusting rod 622 to move towards one side close to or far from the guide seat 61, and the top of the adjusting rod 622 is flush with the top of the tool frame 3; the four sides of the tool frame 3, which are far away from the supporting plate 11, are respectively provided with an avoidance groove 31 for the adjusting rod 622 to pass through.

Referring to fig. 6 and 7, one clamping assembly 7 corresponds to one adjusting rod 622, the clamping assembly 7 comprises a baffle 71, a first clamping plate 72, a second clamping plate 73 and a screwing piece 74, the baffle 71 is vertically arranged on one side of the adjusting rod 622 far away from the supporting plate 11, the baffle 71 is welded to the adjusting rod 622, the first clamping plate 72 is located on one side of the adjusting rod 622 far away from the supporting plate 11, the first clamping plate 72 is located on one side of the baffle 71 far away from the guide seat 61, the first clamping plate 72 is vertically arranged, the first clamping plate 72 is welded with the adjusting rod 622, the second clamping plate 73 is located between the first clamping plate 72 and the baffle 71, the second clamping plate 73 is slidably arranged on the adjusting rod 622, the second clamping plate 73 can move towards one side close to or far away from the first clamping plate 72, the first clamping plate 72 and the second clamping plate 73 can clamp one side of the door frame, the screwing piece 74 penetrates through the baffle 71 and then is in rotary connection with the second clamping plate 73, in this embodiment, the screwing piece 74 is a screw, the screwing piece 74 is in threaded connection with the baffle 71, the screwing piece 74 can drive the second clamping plate 73 to move, one side of the second clamping plate 73 is in a fixed bonding pad, one side of the first clamping plate 72 is close to the second clamping plate 73, one side is in a fixed bonding pad, one side is close to the first flexible pad 73 is in a fixed to the second side of the bonding pad is close to the first side of the first clamping plate 72.

The implementation principle of the embodiment 1 is as follows: when the civil air defense door frame needs to be welded, firstly, two first lifting pieces 41 are started simultaneously, the tooling frame 3 can be adjusted to a proper position, the driving assembly 5 is started, the guide plate 521 can be adjusted to a proper position, at the moment, the adjusting rod 622 moves synchronously along with the guide plate 521, the top of the adjusting rod 622 is flush with the top of the tooling frame 3, the adjusting assembly 6 is started according to the size of the side edge of the door frame which is welded as required, the four clamping assemblies 7 are adjusted to a proper position, then, the side edge of the civil air defense door frame is clamped by the clamping assemblies 7, one side edge corresponds to one clamping assembly 7, the four side edges are spliced into the civil air defense door frame, and then, a person welds the splice seam of two adjacent side edges.

When the welding of the splice seam of two adjacent side edges is required, after the fixing of the side edges is completed, a person starts the first cylinder 512, the first cylinder 512 drives the guide plate 521 to move towards the side far away from the supporting plate 11, the sliding component 2 is started to move to a proper position, the sliding component 2 can drive the two supporting rods 12 to move towards the side far away from each other, at the moment, the first telescopic rod 431 is stretched, the spring 432 is stretched, then, the rotating motor 522 is started, the rotating motor 522 drives the guide plate 521 to rotate, the adjusting rod 622 synchronously moves along with the guide plate 521, at the moment, the door frame rotates along with the adjusting rod 622, the splice seam of two unwelded side edges is rotated to the person, the person can weld the splice seam of two side edges, and after the welding is completed, the rotating motor 522 is driven until the welding of the rest splice seam is completed, then the overturning motor 421 is started, the overturning motor 421 drives the tooling frame 3 to overturn 180 degrees, and the person only needs to stand in place to weld the splice seam of two adjacent side edges.

Example 2

Referring to fig. 8, the present embodiment is different from embodiment 1 in that the sliding assembly 2 further includes a double-headed motor 23 and two threaded rods 24, the double-headed motor 23 is located in the sliding groove 111, the casing of the double-headed motor 23 is fixedly connected to the supporting plate 11 through screws, one threaded rod 24 corresponds to the output shaft of the single-headed motor 23, the setting direction of the threaded rod 24 is consistent with the setting direction of the sliding groove 111, one end of the threaded rod 24 is welded to the output shaft of the double-headed motor 23, the other end is rotationally connected to the supporting plate 11, a thread gap is left between the threaded rod 24 and the supporting plate 11, a sliding seat 121 corresponds to the one threaded rod 24, the sliding seat 121 is in threaded connection with the threaded rod 24, and the sliding seat 121 can move on the threaded rod 24 along the length direction of the threaded rod 24.

The implementation principle of the embodiment 2 is as follows: when the distance between the two support rods 12 needs to be adjusted, the double-headed motor 23 is started, the double-headed motor 23 drives the threaded rod 24 to rotate, the sliding seat 121 can move on the threaded rod 24 along the length direction of the threaded rod 24 in the process of rotating the threaded rod 24, at this time, the two sliding seats 121 move towards one side far away from or close to each other, and the two support rods 12 can move towards one side far away from or close to each other.

A processing technology of a rapid splice welding device for a civil air defense door frame comprises the following steps:

s1: the first lifting piece 41 is started, the tool frame 3 can be adjusted to a proper position, the driving assembly 5 is started again, the guide plate 521 can be adjusted to a proper position, at the moment, the adjusting rod 622 moves synchronously with the guide plate 521, and the top of the adjusting rod 622 is flush with the top of the tool frame 3;

s2: starting an adjusting assembly 6 according to the size of the side edge of the door frame to be welded, and adjusting four clamping assemblies 7 to proper positions;

s3: the side edges of the civil air defense door frame are clamped by the clamping assemblies 7, one side edge corresponds to one clamping assembly 7, the four side edges are spliced into the civil air defense door frame, and the splicing seams of the two adjacent side edges are welded;

s4: after the welding of the splicing seams of the two adjacent side edges is finished, a first air cylinder 512 is started, the sliding component 2 is started after the guide plate 521 moves to a proper position, and the sliding component 2 can drive the two support rods 12 to move towards the side far away from each other;

s5: starting a rotating motor 522, wherein the rotating motor 522 drives a guide plate 521 to rotate, an adjusting rod 622 synchronously moves along with the guide plate 521, and at the moment, a door frame rotates along with the adjusting rod 622, so that the joint seams of two adjacent non-welded side edges rotate to a person, and the person can weld the joint seams of the two side edges until the welding of the rest joint seams is completed;

s6: the overturning motor 421 is started, the overturning motor 421 drives the tool frame 3 to overturn 180 degrees, and according to the steps, personnel only need to stand on site to finish welding the splicing seams of two adjacent sides.

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

Claims (10)

1. The utility model provides a people's air defense door frame piece together welds device fast which characterized in that: including supporting component (1), slip subassembly (2), frock frame (3), rotating component (4), actuating component (5) and four clamping components (7), supporting component (1) are including backup pad (11) and two bracing piece (12), backup pad (11) are connected with ground, two bracing piece (12) are all vertical to be located backup pad (11) keep away from ground one side, bracing piece (12) slip set up in backup pad (11), two bracing piece (12) can be towards being close to each other or keep away from one side slip, slip subassembly (2) with backup pad (11) are connected, slip subassembly (2) with bracing piece (12) are connected in order to drive bracing piece (12) motion, frock frame (3) are located two between bracing piece (12), rotating component (4) include two first rotating member (42) and two telescopic member (43), one first rotating member (42) with one bracing piece (12) are connected, one telescopic member (43) with one rotating member (42) are connected with one end (3) and one telescopic member (43) are connected with one end, the first rotating piece (42) is used for driving the tool frame (3) to turn over;

the driving assembly (5) comprises a second lifting part (51) and a second rotating part (52), the second lifting part (51) is connected with the tool frame (3), the second lifting part (51) is connected with the second rotating part (52) to drive the second rotating part (52) to lift, the clamping assemblies (7) are all connected with the second rotating part (52), the clamping assemblies (7) are distributed along the circumference of the second rotating part (52), one clamping assembly (7) is used for clamping one side edge of a door frame, and the clamped four side edges of the door frame can be spliced into an adult door frame.

2. The rapid splice welding device for a civil air defense door frame according to claim 1, wherein: the first rotating piece (42) comprises a turnover motor (421) and a rotating plate (422), the turnover motor (421) is connected with the supporting rod (12), an output shaft of the turnover motor (421) faces to one side far away from the supporting rod (12), and the output shaft of the turnover motor (421) is fixed with the rotating plate (422);

the telescopic piece (43) comprises a first telescopic rod (431) and a spring (432), the first telescopic rod (431) is horizontally arranged, one end of the first telescopic rod (431) is fixed with the rotating plate (422), the other end of the first telescopic rod is fixed with the tool frame (3), the spring (432) is sleeved on the peripheral wall of the first telescopic rod (431), one end of the spring (432) is fixed with the rotating plate (422), and the other end of the spring (432) is fixed with the tool frame (3).

3. The rapid splice welding device for a civil air defense door frame according to claim 2, wherein: the sliding assembly (2) comprises a bidirectional screw (21) and a transmission part (22), a chute (111) is formed in one side, close to the supporting rods (12), of the supporting plate (11), the setting direction of the chute (111) is consistent with the distribution direction of the two supporting rods (12), the bidirectional screw (21) is located in the chute (111), the setting direction of the bidirectional screw (21) is consistent with the setting direction of the chute (111), two ends of the bidirectional screw (21) are rotationally connected with the supporting plate (11), and one end, close to the supporting plate (11), of one supporting rod (12) is in threaded connection with one end of the bidirectional screw (21);

the transmission piece (22) comprises a placing plate (221), a first bevel gear (222), a second bevel gear (223) and a first driving motor (224), wherein the placing plate (221) is fixed on the supporting plate (11), the placing plate (221) is close to the sliding groove (111), the first bevel gear (222) is located below the placing plate (221), the first bevel gear (222) is located in the sliding groove (111), the first bevel gear (222) is coaxially fixed with the bidirectional screw (21), the second bevel gear (223) is located below the placing plate (221), the second bevel gear (223) is meshed with the first bevel gear (222), the first driving motor (224) is located above the placing plate (221), a casing of the first driving motor (224) is fixedly connected with the placing plate (221) through a screw, and an output shaft of the first driving motor (224) penetrates through the placing plate (221) and then is coaxially fixed with the second bevel gear (223) through the second bevel gear (223).

4. A civil air defense door frame rapid splice welding apparatus according to claim 3, wherein: the sliding assembly (2) further comprises a double-headed motor (23) and two threaded rods (24), the double-headed motor (23) is located in the sliding groove (111), a casing of the double-headed motor (23) is fixedly connected to the supporting plate (11) through screws, one threaded rod (24) corresponds to an output shaft of the double-headed motor (23), the setting direction of the threaded rod (24) is consistent with the setting direction of the sliding groove (111), one end of the threaded rod (24) is fixed with the output shaft of the double-headed motor (23), the other end of the threaded rod is connected with the supporting plate (11) in a rotating mode, and one supporting rod (12) is in threaded connection with one threaded rod (24).

5. The rapid splice welding device for a civil air defense door frame according to claim 1, wherein: the second rotating member (52) comprises a guide plate (521) and a rotating motor (522), the rotating motor (522) is connected with the second lifting member (51), an output shaft of the rotating motor (522) is fixed with the guide plate (521), and four clamping assemblies (7) are circumferentially distributed along the guide plate (521).

6. The rapid splice welding device for civil air defense door frames according to claim 5, wherein: the device further comprises an adjusting assembly (6), wherein the adjusting assembly (6) comprises a guide seat (61) and four adjusting pieces (62), the guide seat (61) is fixed on one side, away from the rotating motor (522), of the guide plate (521), and one adjusting piece (62) corresponds to one side wall of the guide seat (61) along the vertical direction;

the adjusting piece (62) comprises a second air cylinder (621) and an adjusting rod (622), the second air cylinder (621) is horizontally arranged, the cylinder body of the second air cylinder (621) is fixed on the guide seat (61), a piston rod of the second air cylinder (621) faces away from one side of the guide seat (61), the piston rod of the second air cylinder (621) is connected with the adjusting rod (622), the adjusting rod (622) is arranged by the guide seat (61) towards one side away from the guide seat (61), the top of the adjusting rod (622) is flush with the top of the tool frame (3), and one clamping component (7) is connected with one adjusting rod (622).

7. The rapid splice welding device for a civil air defense door frame according to claim 2, wherein: the rotating assembly (4) further comprises two first lifting pieces (41), one first lifting piece (41) is connected with one supporting rod (12), and the first lifting pieces (41) are connected with the overturning motor (421) to drive the two overturning motors (421) to move along the length direction of the supporting rod (12).

8. The rapid splice welding device for civil air defense door frames according to claim 6, wherein: clamping assembly (7) are including clamping assembly (7), clamping assembly (7) include baffle (71), first splint (72), second splint (73) and revolve and twist piece (74), baffle (71) vertical be fixed in adjust pole (622) keep away from backup pad (11) one side, first splint (72) are located baffle (71) are kept away from guide holder (61) one side, first splint (72) with adjust pole (622) are fixed, second splint (73) are located first splint (72) with between baffle (71), second splint (73) slide set up in adjust pole (622), second splint (73) can be towards being close to or keep away from first splint (72) one side motion, first splint (72) with second splint (73) can be with one of them side centre gripping of door frame, revolve piece (74) with baffle (71) are connected, revolve and twist piece (74) be used for second splint (73) motion.

9. The rapid splice welding device for civil air defense door frames according to claim 8, wherein: a first flexible pad (721) is fixed on one side of the first clamping plate (72) close to the second clamping plate (73), and a second flexible pad (731) is fixed on one side of the second clamping plate (73) close to the first clamping plate (72).

10. A processing technology of a rapid splice welding device for a civil air defense door frame is characterized in that: a rapid splice welding device for a civil air defense door frame according to any one of claims 1 to 9 comprises the following steps,

s1: simultaneously starting two first lifting pieces (41), adjusting the tool frame (3) to a proper position, and starting the driving assembly (5) to adjust the guide plate (521) to a proper position, wherein the top of the adjusting rod (622) is level with the top of the tool frame (3);

s2: according to the size of the side edges of the door frame to be welded, an adjusting assembly (6) is started, four clamping assemblies (7) are adjusted to proper positions, the side edges of the door frame are clamped, the side edges of the door frame are spliced into a civil air defense door frame, and splicing seams of two adjacent side edges are welded;

s3: after the welding of the splicing seams of two adjacent side edges is finished, the second lifting piece (51) is started, the guide plate (521) moves to a proper position, the sliding component (2) is started, the sliding component (2) can drive the two supporting rods (12) to move towards one side far away from each other, the second rotating piece (52) is started, and the welding of the splicing seams of two unwelded adjacent side edges is performed;

s4: and starting the overturning motor (421), wherein the overturning motor (421) drives the tool frame (3) to overturn by 180 degrees, and according to the steps, personnel only need to stand in situ to finish welding the splicing seams of two adjacent sides.