CN117506247B - Supporting part welding equipment for double-layer decoration component of glass curtain wall - Google Patents

Abstract

The invention relates to the technical field of glass curtain wall welding equipment, and discloses supporting part welding equipment for a double-layer decoration component of a glass curtain wall, which comprises a supporting frame and a glass welding device, wherein the supporting frame is used for installing glass; the clamping assembly is used for clamping and positioning the supporting frame; the welding assembly is used for automatically welding the connecting position of the supporting frame; and the middle component is used for controlling the welding position of the welding component. This a supporting part welding equipment for glass curtain wall double-deck decoration component through the welding set who sets up, can realize realizing automatic type U welding to the hookup location of the supporting part of glass curtain wall, need not operating personnel and carry out manual welding control to also need not to consider the influence of surrounding environment, need not operating personnel and carry out the aerial work, utilize this equipment centre gripping on supporting part, operating personnel directly can just can realize manual welding automatic control in the floor, both guaranteed the uniformity in the welding process, also can improve holistic welding efficiency.

Description

Supporting part welding equipment for double-layer decoration component of glass curtain wall

Technical Field

The invention relates to the technical field of glass curtain wall welding equipment, in particular to supporting part welding equipment for a double-layer decoration component of a glass curtain wall.

Background

At present, an aluminum alloy member is often adopted as a decorative line or a sunshade device for a building curtain wall, wherein according to some design requirements, some external decorative pieces in a shell shape are often needed to be hung on a building, aiming at the structure, when the building is in specific site construction, a steel structure supporting framework is needed to be constructed on the building, then workers climb to the high altitude, a plurality of aluminum alloy decorative pieces are fixed on the steel structure according to the design requirements, in the prior art, upright posts and cross beams are generally welded to form a latticed frame, glass is fixed on the frame, the supporting structure of the whole glass is supported by the upright posts and the cross beams, and meanwhile, the whole upright posts and the cross beams are the decorative structures of the curtain wall.

The welding mode of the traditional mode relies on the manual work to carry out the scaffold frame and pastes the wall type welding, and the manual work carries out the welding at the high altitude, at first the security is lower, need the manual work to hold welding face guard and hold welder and carry out junction welding rather than it, and the welding mode of this kind of mode, the manual work is when carrying out the welding, external space environment is great to welding effect, at first the wind or rainy, under this kind of condition, the manual work carries out the welding, can't guarantee the stability in the welding process, lead to the welding of supporting part insecure, manual work welded efficiency is lower simultaneously, because the welding direction is not plane but similar U-shaped structure, the variation direction of welder is more in the hand, and the manual work is in the high altitude operation, the angle of holding welder is inconvenient to be adjusted, lead to the welding difficulty, the problem that efficiency reduces, so a supporting part welding equipment for glass curtain wall bilayer decorates the component solves above-mentioned problem.

Disclosure of Invention

(One) solving the technical problems

Aiming at the defects of the prior art, the invention provides a supporting part welding device for a double-layer decorative component of a glass curtain wall, which solves the problems that the manual welding is adopted for the welding mode of the supporting part in the glass curtain wall in the prior art, the efficiency is low, the influence of the surrounding environment on the high-altitude operation is large, and the welding firmness and stability cannot be effectively ensured.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: a support part welding device for a double-layer decoration component of a glass curtain wall comprises a support frame for mounting glass; the clamping assembly is used for clamping and positioning the supporting frame; the welding assembly is used for automatically welding the connecting position of the supporting frame; and the middle component is used for controlling the welding position of the welding component.

Preferably, the clamping assembly comprises a grab handle, a fixed frame is connected to the grab handle, an upper frame is connected to the grab handle, two clamping plates are connected to the upper frame in a sliding mode, an extrusion spring is connected to one side of each clamping plate, and one end of each extrusion spring is connected to the upper frame.

Preferably, the welding assembly comprises a welding gun, a clamping sleeve is clamped on the surface of the welding gun, a connecting frame is connected to the clamping sleeve in a rotating mode, a motor is installed on the connecting frame, the output end of the motor is connected with a driving gear, a movable gear is meshed below the driving gear, a U-shaped frame is meshed and transmitted on the surface of the movable gear, and the connecting frame is connected to the U-shaped frame in a sliding mode.

Preferably, the U-shaped frame is connected to the clamping plate through the connecting rod, the welding gun is provided with a sliding frame in a sliding mode through the T-shaped groove, the sliding frame is in a ball-shaped groove formed in the auxiliary frame in a sliding mode, the U-shaped frame is connected with the auxiliary frame through the connecting plate, the structures of the U-shaped frame and the auxiliary frame are all U-shaped, the U-shaped frame is provided with a sliding groove, and the driving gear and the moving gear are all in the sliding groove in a sliding mode.

Preferably, the middle-position dividing assembly comprises a bidirectional shaft rod, two ends of the bidirectional shaft rod are connected with first gears, second gears are meshed with the first gears, the second gears are connected with third gears through the shaft rods, positioning frames are rotatably connected to the first gears, the other sides of the positioning frames are rotatably connected to the second gears, limiting sleeves are connected to the fixing frames, two toothed bars are slidably connected to the limiting sleeves, one ends of the toothed bars are connected with clamping bars, and the two toothed bars are meshed with two sides of the third gears respectively.

Preferably, the auxiliary frame is connected with a limiting rod, the limiting rod is connected with a limiting sleeve in a sliding mode, a contraction spring is sleeved on the surface of the limiting rod, one end of the contraction spring is connected with the auxiliary frame, the other end of the contraction spring is connected with the limiting sleeve, the auxiliary frame is connected with a poking plate, the bidirectional shaft rod is connected with an adjusting plate in a threaded mode, the adjusting plate is in butt joint with the poking plate, and two ends of the auxiliary frame are connected with the inside of the connecting plate in a sliding mode through sliding blocks.

Preferably, a sleeve body is fixed on the grab handle, and the bidirectional shaft lever is rotationally connected to the sleeve body.

Preferably, the welding device further comprises a detection assembly for detecting the deformation amount of the support frame during welding; the detection assembly comprises a dial, the dial is fixed on an upper frame, an inserting shaft is rotatably connected to the center of the dial, a pointer is connected to one end of the inserting shaft, a pinion is connected to the other end of the inserting shaft, a limiting frame is meshed with the surface of the pinion, a positioning rod is connected to the bottom of the limiting frame, a support is connected to the surface of the positioning rod in a sliding mode, the support is mounted on a fixed frame, a compression spring is connected to the support, and the top of the compression spring is connected with the positioning rod.

Preferably, the side of the upper frame is connected with a supporting rod, and the supporting rod is connected in a sliding groove on the limiting frame in a sliding way.

(III) beneficial effects

Compared with the prior art, the invention provides the supporting part welding equipment for the double-layer decorative component of the glass curtain wall, which has the following beneficial effects:

1. This a supporting part welding equipment for glass curtain wall double-deck decoration component through the welding set who sets up, can realize realizing automatic type U welding to the hookup location of glass curtain wall's supporting part, need not operating personnel and carry out manual welding control, and also need not to consider the influence of surrounding environment, need not operating personnel and carry out the aerial work, utilize this equipment centre gripping on supporting part, operating personnel directly can just can realize manual welding automatic control in the floor, both guaranteed the uniformity in the welding process, also can improve holistic welding efficiency, operating personnel's security has been improved simultaneously, operating personnel's manual operation can directly be avoided.

2. This a supporting part welding equipment for glass curtain wall double-deck decoration component, the clamping component that through setting up and divide in the subassembly can the whole welding equipment of direct control's position, guarantees that welding equipment can aim at the welded part, and the position of both sides all is in the position of equal distance, reduces the welding deviation, and then improves welding quality.

3. This a supporting part welding equipment for glass curtain wall double-deck decoration component can carry welding deformation volume on numerical value through the detection component that sets up, provides operating personnel and consults, avoids welding high temperature to lead to braced frame to warp for the influence that blocks appears in later stage glass installation.

Drawings

FIG. 1 is a schematic view of the whole and back structure of a wall body of a support member welding apparatus for a glass curtain wall double-layer decoration member according to the present invention;

FIG. 2 is a schematic diagram of the whole and front structure of a wall body of a welding device for a support part of a double-layer decoration member of a glass curtain wall;

FIG. 3 is a schematic connection diagram of a clamping assembly, a welding assembly, a centering assembly and a detecting assembly of a supporting component welding device for a double-layer decoration component of a glass curtain wall;

FIG. 4 is a schematic view of a clamping assembly of a supporting component welding apparatus for a glass curtain wall double-layer decoration member according to the present invention;

FIG. 5 is a schematic diagram of a welding assembly of a support member welding apparatus for a glass curtain wall double-layer decoration member according to the present invention;

FIG. 6 is a schematic diagram showing a connection structure between a welding gun and an auxiliary frame of a supporting component welding device for a double-layer decoration component of a glass curtain wall;

FIG. 7 is a schematic diagram of a connection structure of a pulling piece of a welding device for a support part of a double-layer decoration member of a glass curtain wall;

fig. 8 is a schematic diagram of a detection assembly of a welding device for a support component of a double-layer decoration member of a glass curtain wall according to the present invention.

In the figure: 1. a support frame; 2. a wall body; 3. a clamping assembly; 301. a fixed frame; 302. a grab handle; 303. a clamping plate; 304. an upper frame; 305. extruding a spring; 4. welding the assembly; 401. a welding gun; 402. a U-shaped frame; 403. an auxiliary frame; 404. a moving gear; 405. a drive gear; 406. a motor; 407. a connecting frame; 408. a sliding groove; 409. a carriage; 410. a cutting sleeve; 411. a spherical groove; 412. a limit rod; 413. a retraction spring; 414. a pulling piece; 415. a regulating piece; 416. a slide block; 417. a connecting plate; 5. a centering component; 501. a bidirectional shaft; 502. a positioning frame; 503. a first gear; 504. a second gear; 505. a third gear; 506. a limit sleeve; 507. a clamping rod; 508. a toothed bar; 6. a detection assembly; 601. a bracket; 602. a limiting frame; 603. a support rod; 604. a pinion gear; 605. a dial; 606. inserting a shaft; 607. a pointer; 608. a positioning rod; 609. compressing the spring.

Detailed Description

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

Referring to fig. 1 to 8, a supporting member welding apparatus for a glass curtain wall double-layered decoration member includes a supporting frame 1 for mounting glass; the supporting frame 1 is assembled by the transverse beams and the vertical beams, and the joints of the supporting frame are required to be welded after the assembling, and the traditional mode relies on manual welding, so that the consistency and the stability of the welding cannot be maintained. And the support frame 1 is provided with a notch for installing glass so that the glass can be installed on the support frame 1 in a matching way, and the whole support frame 1 is installed on the wall body 2.

In this embodiment, the clamping assembly 3 is used for clamping and positioning the support frame 1;

Referring to fig. 4, the clamping assembly 3 includes a handle 302, a fixing frame 301 is connected to the handle 302, an upper frame 304 is connected to the handle 302, two clamping plates 303 are slidably connected to the upper frame 304, one side of each clamping plate 303 is connected to a compression spring 305, one end of each compression spring 305 is connected to the upper frame 304, the two clamping plates 303 are inserted into a vertical beam of the supporting frame 1, and clamp two clamping rods 507 on a cross beam of the supporting frame 1, and the two clamping plates 303 are compressed by elastic forces of the compression springs 305 on two sides, so that the clamping plates are controlled to clamp on the vertical beam to form a primary clamping and fixing, and after the clamping, the clamping plates are also compressed and fixed by virtue of the four compression springs 305, so that the elastic force of the compression springs 305 needs to be strong enough.

Further, the welding assembly 4 is used for automatically welding the connecting position of the supporting frame 1;

Referring to fig. 5, the welding assembly 4 includes a welding gun 401, a clamping sleeve 410 is clamped on the surface of the welding gun 401, a connecting frame 407 is rotatably connected to the clamping sleeve 410, a motor 406 is mounted on the connecting frame 407, a driving gear 405 is connected to an output end of the motor 406, a moving gear 404 is meshed below the driving gear 405, a U-shaped frame 402 is meshed and transmitted on the surface of the moving gear 404, the connecting frame 407 is slidably connected to the U-shaped frame 402, the driving gear 405 is driven to rotate by rotation of the motor 406, the moving gear 404 is driven to rotate by meshing of the gears, and under the condition that the moving gear 404 rotates, a meshing transmission state is formed between the moving gear 404 and the gears inside the U-shaped frame 402, so that at this time, the moving gear 404 can follow the U-shaped structure of the U-shaped frame 402 to realize U-shaped movement, and then the welding gun 401 on the clamping sleeve 410 can be driven by the connecting frame 407 to realize U-shaped movement, and further moving welding of the corner position of the joint of the support frame 1.

Still further, referring to fig. 4-5, the U-shaped frame 402 is connected to the clamping plate 303 through a connecting rod, the welding gun 401 is slidably connected with a sliding frame 409 through a T-shaped slot, the sliding frame 409 is slidably connected in a spherical slot 411 formed in the auxiliary frame 403, the U-shaped frame 402 is connected to the auxiliary frame 403 through a connecting plate 417, the structures of the U-shaped frame 402 and the auxiliary frame 403 are both U-shaped, because the auxiliary frame 403 and the U-shaped frame 402 are parallel structures, the welding gun 401 under the parallel structures moves, large shaking can be avoided when the welding gun is welded, the welding gun can only move along with the U-shaped structure, the sliding slot 408 is formed in the U-shaped frame 402, the driving gear 405 and the moving gear 404 are slidably connected in the sliding slot 408, and the sliding gear 404 can be limited to slide along the position of the sliding slot 408 only through the sliding slot 408, so that the U-shaped movement can be limited.

Further, a centering assembly 5 for controlling the welding position of the welding assembly 4.

Referring to fig. 4, the middle component 5 includes a bidirectional shaft 501, two ends of the bidirectional shaft 501 are connected with a first gear 503, a second gear 504 is meshed with the first gear 503, the second gear 504 is connected with a third gear 505 through the shaft, a positioning frame 502 is rotatably connected with the first gear 503, the other side of the positioning frame 502 is rotatably connected with the second gear 504, a limiting sleeve 506 is connected with the fixed frame 301, two toothed bars 508 are slidably connected with the limiting sleeve 506, one ends of the toothed bars 508 are connected with clamping bars 507, the two toothed bars 508 are respectively meshed with two sides of the third gear 505, the rotation of the first gear 503 is driven by the rotation of the bidirectional shaft 501, the third gear 505 connected with the first gear is driven to rotate by the meshing transmission of bevel gears, and the two sides of the third gear 505 are driven to rotate in different transmission directions of meshing directions of toothed plates, so that the two toothed bars 508 are relatively moved to form extrusion force, and the clamping bars 508 are driven to be clamped on a beam 507 of the supporting frame 1.

It should be noted that, referring to fig. 7, a stop lever 412 is connected to the auxiliary frame 403, the stop lever 412 is slidably connected to the stop collar 506, a contraction spring 413 is sleeved on the surface of the stop lever 412, one end of the contraction spring 413 is connected to the auxiliary frame 403, the other end of the contraction spring 413 is connected to the stop collar 506, a pulling piece 414 is connected to the auxiliary frame 403, an adjusting piece 415 is screwed to the bidirectional shaft 501, the adjusting piece 415 abuts against the pulling piece 414, two ends of the auxiliary frame 403 are slidably connected to the inside of the connecting plate 417 through a sliding block 416, if the angle of the welding gun 401 is to be adjusted, the adjusting piece 415 can be rotated, because a distance between the adjusting piece 415 and the bidirectional shaft 501 is in threaded connection, the adjusting piece 415 can be controlled to move left and right, when the pulling piece 414 is moved by using a step, the auxiliary frame 403 is driven to move, and the auxiliary frame 403 moves transversely, and the welding gun 401 is driven by the sliding frame 409. The handle 302 is fixed with a sleeve body, the bidirectional shaft lever 501 is rotationally connected to the sleeve body, the bidirectional shaft lever 501 is relatively fixed in position through the sleeve body, so that the bidirectional shaft lever 501 can only rotate, the sleeve body and the bidirectional shaft lever 501 are connected with damping, and the joint of the sleeve body and the bidirectional shaft lever 501 is damped, so that the bidirectional shaft lever 501 cannot easily rotate and can only rotate under the stress state.

The detecting component 6 is used for detecting the deformation of the supporting frame 1 during welding;

Referring to fig. 8, the detecting assembly 6 includes a dial 605, the dial 605 is fixed on the upper frame 304, a shaft 606 is rotatably connected at the center of the dial 605, a pointer 607 is connected at one end of the shaft 606, a pinion 604 is connected at the other end of the shaft 606, a limiting frame 602 is engaged on the surface of the pinion 604, a positioning rod 608 is connected at the bottom of the limiting frame 602, when the welding is deformed at high temperature, the positioning rod 608 slides up and down in the bracket 601, and then the positioning rod 608 drives the limiting frame 602 to move up and down, and the limiting frame 602 is engaged with the pinion 604, so that the shaft 606 is driven to rotate by the meshing relationship between the gear and the toothed plate, the pointer 607 at the other end of the shaft 606 is driven to rotate by the rotation of the shaft 606, and when the beam is tilted up, the pointer 607 rotates anticlockwise, and the deformation of the welding of the supporting frame 1 is directly displayed by the rotation of the pointer 607, thereby facilitating the subsequent regulation and control of the operator. The surface sliding connection of locating lever 608 has support 601, and support 601 installs on fixed frame 301, is connected with compression spring 609 on the support 601, and compression spring 609's top is connected with locating lever 608, through compression spring 609's setting, can provide the bottom butt that the spring tension pulling locating lever 608 was pulled all the time on braced frame 1 crossbeam. The side of the upper frame 304 is connected with a support rod 603, the support rod 603 is slidably connected in a chute on the limiting frame 602, and the limiting frame 602 can be limited to slide at the upper and lower positions only through the arranged support rod 603, so that the condition that the limiting frame 602 shakes and the pinion 604 is removed is avoided. When all welding is finished, operators only need to withdraw the whole equipment outwards and weld the joint of the next supporting frame, excessive operation is not needed, the welding efficiency is improved, the labor intensity of the operators is reduced, and the safety of the operators is ensured to a certain extent.

The electrical components are all connected with an external main controller and 220V mains supply, and the main controller can be conventional known equipment for controlling a computer and the like.

The working principle is that the whole equipment is clamped on the supporting frame 1, an operator holds the grab handle 302, two clamping plates 303 are inserted into the vertical beams of the supporting frame 1, two clamping rods 507 are clamped on the cross beams of the supporting frame 1, the two clamping plates 303 are extruded by the elastic force of the extrusion springs 305 at two sides, and the clamping plates are controlled to be clamped on the vertical beams to form preliminary clamping fixation. Then an operator rotates the bidirectional shaft lever 501, the rotation of the bidirectional shaft lever 501 drives the first gear 503 to rotate, the meshing transmission of the bevel gears drives the third gear 505 connected with the bidirectional shaft lever 501 to rotate, the transmission directions of the two sides of the third gear 505 and the meshing directions of the toothed plates are different, at the moment, the two toothed bars 508 relatively move to form extrusion force, the clamping bars 507 on the two toothed bars 508 are further driven to clamp on the cross beam of the supporting frame 1, the whole equipment can be ensured to be positioned in the middle position of welding because of the two staggered structures, and the limiting sleeve 506 is abutted against the side surface of the cross beam in the clamping process, the calibration of the reference surface is realized, the welding components 4 on two sides are ensured to be positioned at the absolute middle position of the supporting frame 1, so that final clamping is realized, if the upper position and the lower position are not in the middle part during preliminary clamping, the middle clamping can be realized along with the clamping of the two clamping rods 507, the clamping plate 303 is driven to move up and down, and then the bidirectional shaft rod 501 is loosened, and the four extrusion springs 305 are used for elastically extruding and keeping the position of the equipment to be fixed. Then the motor 406 is controlled to rotate, the driving gear 405 is driven to rotate, the moving gear 404 is driven to rotate through the meshing of the gears, and under the condition that the moving gear 404 rotates, a meshing transmission state is formed between the moving gear 404 and the gears inside the U-shaped frame 402, so that the moving gear 404 can follow the U-shaped structure of the U-shaped frame 402 to realize U-shaped movement, the welding gun 401 on the clamping sleeve 410 is driven by the connecting frame 407 to realize U-shaped movement, the corner position of the joint of the supporting frame 1 is further welded in a moving way, the welding gun 401 can be clamped by the clamping sleeve 410, and an operator can slide the welding gun 401 on the clamping sleeve 410, the distance between the welding gun 401 and the welding seam is adjusted, the whole U-shaped movement is realized, the whole welding gun 401 is subjected to the principle of parallel structure by sliding the arranged sliding frame 409 on the spherical slot 411, the auxiliary frame 403 and the U-shaped frame 402 are parallel structures, the welding gun 401 under the parallel structures moves, the welding gun 401 can be ensured not to shake greatly during welding and only can move along with the U-shaped structure for welding, if the angle of the welding gun 401 is required to be adjusted, the adjusting sheet 415 can be rotated, because the adjusting sheet 415 has a certain distance which is in threaded connection with the bidirectional shaft lever 501, the adjusting sheet 415 can be rotated to control the welding gun to move left and right, when the auxiliary frame 403 moves transversely, the auxiliary frame 403 moves transversely to drive the angle of the welding gun 401 through the sliding frame 409, and the welding gun 401 in an inclined state changes when the distance between the auxiliary frame 403 and the U-shaped frame 402 changes, and one end of the sliding frame 409 is connected with the welding gun 401 through a T-shaped groove, so that the relative position of the welding gun 401 can be guaranteed when the welding gun is adjusted or moved in a U-shaped manner, and the welding gun 401 cannot change. If the spacing is increased, the adjusting piece 415 rotates reversely, the auxiliary frame 403 is acted by the contraction spring 413, and the auxiliary frame 403 is pulled to perform resetting movement, so that the spacing is adjusted. And the whole device is also provided with a detection component 6 for detecting the deformation condition of the support frame 1 during welding, an operator is required to act a positioning rod 608 on the upper surface of a beam of the support frame 1, when welding high-temperature deformation occurs, the positioning rod 608 can slide up and down in the bracket 601, then the positioning rod 608 can drive the limiting frame 602 to move up and down, and the limiting frame 602 is in a meshed state with the pinion 604, so that the meshing relationship between the gear and the toothed plate can drive the rotation of the inserting shaft 606, and the pointer 607 at the other end of the inserting shaft 606 can be driven to rotate under the rotation of the inserting shaft 606, and when the crossbeam upwarps, the pointer 607 will anticlockwise rotate, otherwise, through the rotation of pointer 607, will directly show braced frame 1 welded deflection to this makes things convenient for operating personnel to carry out subsequent regulation and control, avoids warping seriously and leads to the condition that later stage glass can't carry out the matching installation.

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

Claims (4)

1. A support component welding equipment for glass curtain wall double-deck decoration component, its characterized in that: comprising

A support frame (1) for mounting glass;

the clamping assembly (3) is used for clamping and positioning the supporting frame (1);

The welding assembly (4) is used for automatically welding the connecting position of the supporting frame (1);

a centering component (5) for controlling the welding position of the welding component (4);

the clamping assembly (3) comprises a grab handle (302), a fixed frame (301) is connected to the grab handle (302), an upper frame (304) is connected to the grab handle (302), two clamping plates (303) are connected to the upper frame (304) in a sliding mode, an extrusion spring (305) is connected to one side of each clamping plate (303), and one end of each extrusion spring (305) is connected to the upper frame (304);

The welding assembly (4) comprises a welding gun (401), a clamping sleeve (410) is clamped on the surface of the welding gun (401), a connecting frame (407) is connected to the clamping sleeve (410) in a rotating mode, a motor (406) is installed on the connecting frame (407), a driving gear (405) is connected to the output end of the motor (406), a movable gear (404) is meshed below the driving gear (405), a U-shaped frame (402) is meshed and transmitted on the surface of the movable gear (404), and the connecting frame (407) is connected to the U-shaped frame (402) in a sliding mode;

The welding gun is characterized in that the U-shaped frame (402) is connected to the clamping plate (303) through a connecting rod, a sliding frame (409) is connected to the welding gun (401) in a sliding mode through a T-shaped groove, the sliding frame (409) is connected to the auxiliary frame (403) in a ball-shaped groove (411) formed in the auxiliary frame (403), the U-shaped frame (402) is connected with the auxiliary frame (403) through a connecting plate (417), the structures of the U-shaped frame (402) and the auxiliary frame (403) are both U-shaped, a sliding groove (408) is formed in the U-shaped frame (402), and the driving gear (405) and the moving gear (404) are both connected to the sliding groove (408) in a sliding mode;

The middle separating assembly (5) comprises a bidirectional shaft lever (501), two ends of the bidirectional shaft lever (501) are connected with first gears (503), second gears (504) are meshed with the first gears (503), third gears (505) are connected with the second gears (504) through the shaft lever, a locating rack (502) is rotatably connected to the first gears (503), the other side of the locating rack (502) is rotatably connected to the second gears (504), a limiting sleeve (506) is connected to the fixed frame (301), two toothed bars (508) are connected to the limiting sleeve (506) in a sliding mode, clamping bars (507) are connected to one ends of the toothed bars (508), and the two toothed bars (508) are meshed with two sides of the third gears (505) respectively;

Be connected with gag lever post (412) on auxiliary frame (403), gag lever post (412) sliding connection is on stop collar (506), shrinkage spring (413) has been cup jointed on the surface of gag lever post (412), the one end and the auxiliary frame (403) of shrinkage spring (413) are connected, the other end of shrinkage spring (413) is connected on stop collar (506), be connected with plectrum (414) on auxiliary frame (403), threaded connection has regulating plate (415) on bidirectional shaft pole (501), regulating plate (415) and plectrum (414) butt, the inside of connecting plate (417) is passed through slider (416) sliding connection at the both ends of auxiliary frame (403).

2. A support member welding apparatus for a glass curtain wall double-layer trim member according to claim 1, wherein: the grab handle (302) is fixedly provided with a sleeve body, and the bidirectional shaft lever (501) is rotatably connected to the sleeve body.

3. A support member welding apparatus for a glass curtain wall double-layer trim member according to claim 1, wherein: the welding device also comprises a detection assembly (6) for detecting the deformation of the support frame (1) during welding;

The detection assembly (6) comprises a dial (605), the dial (605) is fixed on an upper frame (304), an inserting shaft (606) is rotatably connected to the center of the dial (605), one end of the inserting shaft (606) is connected with a pointer (607), the other end of the inserting shaft (606) is connected with a pinion (604), a limiting frame (602) is meshed with the surface of the pinion (604), a positioning rod (608) is connected to the bottom of the limiting frame (602), a support (601) is connected to the surface of the positioning rod (608) in a sliding mode, the support (601) is mounted on the fixed frame (301), a compression spring (609) is connected to the support (601), and the top of the compression spring (609) is connected with the positioning rod (608).

4. A support member welding apparatus for a glass curtain wall double-layer trim member according to claim 3, wherein: the side of the upper frame (304) is connected with a supporting rod (603), and the supporting rod (603) is connected in a sliding groove on the limiting frame (602) in a sliding mode.