CN217475172U - Adjustment push system of special-shaped welding strip - Google Patents

Abstract

The utility model relates to an adjustment push system in dysmorphism welding strip, compress tightly main part, detecting element, draw gear and cutter including main part frame, welding strip adjustment. The welding strip adjusting and pressing main body is arranged on the main body frame. The welding strip adjusting and pressing main body comprises a plurality of welding strip adjusting and pressing units which are arranged side by side and can perform linear reciprocating motion along the length direction of the special-shaped welding strip. The welding strip adjusting and pressing unit can correspondingly press each special-shaped welding strip respectively. The detection unit is located main part frame top, and it can detect the position of the special-shaped solder strip middle transition node that a plurality of solder strip adjustment compress tightly the unit and compress tightly. Action complexity in this application reduces, leans on the traction clamping jaw to clip the solder strip when the dysmorphism solder strip node is adjusted, detects through detecting element and welds the tape node position, then utilizes the solder strip adjustment to compress tightly the unit and respectively to every dysmorphism solder strip forward alone tensile adjustment to the node flush, has so saved the middle transition node of aliging and has cut off the action in cutter department.

Description

Adjustment push system of special-shaped welding strip

Technical Field

The utility model relates to a photovoltaic cell production technical field especially relates to an adjustment push system of special-shaped solder strip.

Background

The cell string welding process is an important process in the production process of the solar cell panel, and a plurality of cells are sequentially welded to form a cell string by using a special-shaped welding strip.

The current photovoltaic cell slice assembly mainly comprises 12 individual cells, and two adjacent cells A are welded together by a welding strip which is cut into a circulating section by a cutter through a special-shaped welding strip (see figure 1). Specifically, each battery piece is welded through a special-shaped welding strip, each special-shaped welding strip comprises a flat section and a prismatic section, a middle transition node c is arranged at the junction of the flat section a and the prismatic section b, the middle transition node of each parallel welding strip is usually not on the same straight line due to the length deviation of the special-shaped welding strip in the welding process, in order to ensure that the middle transition nodes of the special-shaped welding strips are all aligned on the same straight line, the welding strips are generally compressed through an adjusting mechanism in the existing mode of aligning and adjusting a plurality of special-shaped welding strips, the middle transition nodes of the plurality of special-shaped welding strips are detected through a detection mechanism, if the detection mechanism is not on the same straight line, the special-shaped welding strips are pulled backwards (close to one side of a cutter) through the adjusting mechanism, so that the middle transition nodes on the plurality of special-shaped welding strips are on the same horizontal line, but the phenomenon that the special-shaped welding strips located at the rear part are pulled backwards through the adjusting mechanism is not staggered And if the welding strips are uniform, the irregular welding strips which are uneven need to be cut off downwards at the cutter by taking the shortest welding strip as a reference, so that the irregular welding strips are in a parallel and level state at the cutter, then the welding strips at the cutter are sent into a welding strip traction clamping jaw of the next procedure to be clamped, the welding strips are pulled out by a traction device, finally the welding strips are cut off by the cutter to form a circulating section welding strip, and the circulating section welding strip is welded on the battery piece to complete the welding of the battery piece.

Although the existing adjusting mechanism can adjust the special-shaped welding strip to enable the middle transition node under the detection mechanism to be positioned on the same straight line, a plurality of irregular-shaped welding strips which are uneven are formed at the position of the cutter after the existing adjusting mechanism adjusts the special-shaped welding strip, therefore, when the middle transition node of the welding strip is adjusted, a plurality of processes are needed, namely, the welding strip at the position of the cutter is cut off to enable the welding strip to be parallel and level, and then the welding strip is sent into the traction clamping jaw, so that the secondary cutting of the welding strip is caused, the cutting efficiency of the welding strip is influenced, the rhythm of welding of the battery piece is reduced, moreover, the existing cutting at the position of the cutter still needs to be provided with a pressing device for pressing the plurality of irregular-shaped welding strips, the cutting at the position of the cutter is facilitated, the structure is increased, the adjusting speed is low, and the adjusting precision is low.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In view of above-mentioned shortcoming, the deficiency of prior art, the utility model provides an adjustment push system in area is welded to dysmorphism, it needs many one processes to cut off so that its parallel and level of cutter department welding area promptly when having solved the middle transition node in adjustment welding area, and then send into in the traction clamping jaw, and then has caused the secondary in area of welding to cut off, and then has influenced the technical problem who welds the cutting efficiency in area.

(II) technical scheme

In order to achieve the above object, the utility model discloses a main technical scheme include:

the embodiment of the utility model provides an adjusting and pushing system for a special-shaped welding strip,

the welding strip adjusting and pressing device comprises a main body frame, a welding strip adjusting and pressing main body, a detection unit, a traction device and a cutter arranged between the welding strip adjusting and pressing main body and the traction device;

the welding strip adjusting and pressing main body is arranged on the main body frame; the welding strip adjusting and pressing main body comprises a plurality of welding strip adjusting and pressing units which are arranged side by side and can do linear reciprocating motion along the length direction of the special-shaped welding strip; the welding strip adjusting and pressing unit can respectively and correspondingly press each special-shaped welding strip;

the detection unit is positioned above the main body frame and can detect the positions of the intermediate transition nodes of the special-shaped welding strips compressed by the welding strip adjusting and compressing units;

the welding strip adjusting and pressing unit respectively presses each special-shaped welding strip, the movement of the welding strip adjusting and pressing unit drives each pressed special-shaped welding strip to move, and each special-shaped welding strip is sent into a clamping jaw of the traction device and clamped; and then the detection unit can detect the middle transition node on each special-shaped welding strip, the welding strip adjusting and pressing unit drives the corresponding special-shaped welding strips which are not aligned with the middle transition node to move towards one side far away from the cutter through the detection result, so that the middle transition node of each special-shaped welding strip is aligned.

Optionally, the welding strip adjusting and pressing unit comprises a moving guide rail, a pressing assembly and an adjusting and pushing assembly;

the pressing assembly can do reciprocating linear motion along the vertical direction so as to press/loosen the special-shaped welding strip;

the adjusting and pushing assembly is provided with a driving end, the driving end of the adjusting and pushing assembly is connected with the pressing assembly, and the pressing assembly can move along the movement guide rail under the driving of the driving end.

Optionally, the hold-down assembly comprises a hold-down cylinder, a cylinder mounting bracket and a connector;

the pressing cylinder is fixedly arranged on the cylinder mounting bracket; the cylinder installing support with the connecting piece can be dismantled and be connected, the connecting piece with adjustment propelling movement subassembly detachably connects, just connecting piece sliding connection in on the motion guide rail.

Optionally, the cylinder mounting bracket is an "L" shaped structural member.

Optionally, the connector comprises an inverted "L" shaped connector frame;

the connecting frame comprises a horizontal section and a vertical section which is perpendicular to the horizontal section; the horizontal section is detachably connected with the cylinder mounting bracket; the bottom of the horizontal section is integrally provided with a connecting sliding block; the connecting sliding block is matched with the moving guide rail to slide;

the vertical section is connected with the adjusting pushing assembly.

Optionally, the weld strap adjusts the compression body.

Optionally, the mounting frame comprises a lower U-shaped frame and an upper U-shaped frame;

the lower U-shaped frame is connected to the main body frame in a sliding mode through a ram; the two ends of the bottom of the upper U-shaped frame are detachably connected to the lower U-shaped frame.

Optionally, the adjusting and pushing assembly includes an adjusting motor and a motor mounting seat;

the motor mounting seat is fixedly mounted between the bottom of the main body frame and the lower U-shaped frame, and the adjusting motor is fixedly arranged on the motor mounting seat.

Optionally, the welding strip stretching and pressing device is further included;

the welding strip stretching and pressing device is arranged on the main body frame and can assist the stretching of the special-shaped welding strip.

Optionally, the welding strip stretching and pressing device further comprises a welding strip positioning mechanism arranged below the welding strip stretching and pressing device;

the welding strip positioning mechanism is internally provided with a plurality of welding strip positioning grooves corresponding to the plurality of special-shaped welding strips, and each special-shaped welding strip is respectively arranged in the corresponding welding strip positioning groove.

(III) advantageous effects

The utility model has the advantages that: the utility model discloses an adjustment push system of dysmorphism welding strip, when adjusting the dysmorphism welding strip, compress tightly the dysmorphism welding strip through welding strip adjustment pressing unit, and make welding strip adjustment pressing unit push the dysmorphism welding strip forward along the length direction of dysmorphism welding strip according to the detection information of detecting element, compared with the prior art, the welding strip adjustment pressing unit in this application welds the strip pushing mechanism and cuts off pressing mechanism and integrates into an organic whole, cancels original compaction running gear, has saved the cost, and the structure is simplified; the action complexity is reduced, the pushing mechanism is driven by the servo electric cylinder, the pushing precision and speed are improved, and the welding strip cutting efficiency is improved. The design of the special-shaped welding strip positioning guide groove improves the positioning guide precision of the triangular welding strip, reduces the risk of groove jumping and deviation of the welding strip during cutting, and provides stable position precision for subsequent welding strip traction. The welding strip is clamped by the traction clamping jaw during adjustment of the special-shaped welding strip node, the PLC detects the position of the welding strip node through the vision system, and then the pushing mechanism is used for respectively stretching and adjusting each welding strip forwards independently until the node is flushed, so that the action of cutting double knives of the welding strip is omitted, and the cutting beat is improved.

Drawings

FIG. 1 is a perspective view of a special-shaped solder strip according to the background art of the present invention;

fig. 2 is a front view of the welding of the special-shaped welding strip to the battery piece in the background art of the present invention;

fig. 3 is a schematic perspective view of the adjusting and pushing system for the special-shaped welding strip of the present invention;

FIG. 4 is a schematic partial front view of FIG. 3;

FIG. 5 is an enlarged view of a portion of the solder strip positioning slot of FIG. 3.

[ description of reference ]

1: a main body frame; 2: special-shaped welding strips; 3: a detection unit; 4: a cutter; 5: a welding strip adjusting and pressing unit; 51: a moving guide rail; 52: a compression assembly; 521: a pressing cylinder; 522: a cylinder mounting bracket; 523: a connecting frame; 524: connecting the sliding block; 53: adjusting the pushing assembly; 531: adjusting the motor; 532: a motor mounting base; 6: welding a belt positioning groove; 7: mounting the frame; 71: a lower U-shaped frame; 72: an upper U-shaped frame; 8: a ram; 9: a welding strip stretching and pressing device; 10: a clamping jaw.

Detailed Description

For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings. Where directional terms such as "upper", "lower", "front" and "rear" are used herein, reference is made to the orientation of FIG. 3. Wherein the left and right directions in fig. 3 are defined as the length directions of the special-shaped welding strip 2 and the main frame 1; the left side in fig. 3 is defined as "front".

Referring to fig. 4, the embodiment of the utility model provides an adjustment push system of special-shaped solder strip, compress tightly main part, detecting element, draw gear and set up in the solder strip adjustment and compress tightly cutter 4 between main part and the draw gear including main part frame 1, solder strip adjustment.

The main body frame 1 has an incoming terminal on the left side and an outgoing terminal on the right side. The welding strip adjusting and pressing main body is arranged on the main body frame 1, and the welding strip adjusting and pressing main body is arranged at a wire outlet end of the main body frame 1. The solder ribbon adjustment pressing body includes a mounting frame 7 which can move back and forth along the main body frame 1 with respect to the main body frame 1 and can include a plurality of solder ribbon adjustment pressing units 5 arranged side by side. The welding strip adjusting and pressing unit 5 can correspondingly press each special-shaped welding strip 2. And each welding strip adjusting and compressing unit 5 can make the compressed special-shaped welding strip 2 do linear reciprocating motion along the length direction of the welding strip, and adjust the middle transition nodes of the special-shaped welding strips 2 so as to enable the middle transition nodes of the special-shaped welding strips 2 to be positioned on the same straight line.

It should be noted that the mounting frame 7 is capable of reciprocating linear motion in the longitudinal direction with respect to the main body frame 1 by the ram 8. The mounting frame 7 can move back and forth along the main body frame 1 relative to the main body frame 1, so that the welding strip can be adjusted and pressed to move back and forth along the main body frame during the whole equipment maintenance, and the equipment maintenance and disassembly are facilitated. However, when the whole apparatus is used, the mounting frame 7 of the welding strip adjusting and pressing body is fixed, and the welding strip adjusting and pressing unit 5 reciprocates in the longitudinal direction of the special-shaped welding strip 2 relative to the mounting frame 7.

Further, the mounting frame 7 includes a lower U-shaped frame 71 and an upper U-shaped frame 72;

the lower U-shaped frame 71 is connected to the main body frame 1 in a sliding manner through a ram 8; both ends of the bottom of the upper U-shaped frame 72 are detachably attached to the lower U-shaped frame 71. The mounting frame 7 is divided into two parts, one upper part and the other lower part, so that the installation and maintenance of the welding strip adjusting and pressing unit 5 are facilitated. Two legs of the upper U-shaped frame 72 are detachably connected to two ends of the top of the lower U-shaped frame 71 through bolts, so that an adjustment area capable of accommodating a plurality of solder ribbon adjustment pressing units 5 is formed between the lower side of the upper U-shaped frame 72 and the top of the lower U-shaped frame 71.

Further, a plurality of the solder strip adjusting and pressing units 5 are arranged side by side in the adjusting area of the mounting frame 7, and the moving guide rail 51 is laid at the bottom of the inner side of the mounting frame 7. The plurality of welding strip adjusting and pressing units 5 are provided with top fixed ends and bottom movable ends, the fixed ends are connected with an external driving source through pipelines, and the driving source can drive the bottom movable ends of the welding strip adjusting and pressing units 5 to move downwards so as to press and adjust the special-shaped welding strips 2.

Further, the welding strip adjusting and pressing unit 5 comprises a moving guide rail 51 laid on the top of the outer side of the lower U-shaped frame 71 of the mounting frame 7; a pressing component 52 which can move up and down under the driving of a driving source and an adjusting pushing component 53 which can drive the pressing component 52 to reciprocate along the moving guide rail 51.

The pressing assembly 52 can perform reciprocating linear motion in the vertical direction so as to press or release the profiled welding strip 2. When the special-shaped welding strip 6 needs to be compressed, the bottom of the compressing assembly 52 is a movable end, the movable end moves downwards to compress the special-shaped welding strip 2, and the pushing assembly 53 is adjusted to adjust the special-shaped welding strip 2, so that the special-shaped welding strip 2 is driven to move back and forth.

The adjusting and pushing assembly 53 has a driving end, the driving end of the adjusting and pushing assembly is connected to the pressing assembly 52, and the pressing assembly 52 can move along the movement guide rail 51 under the driving of the driving end.

Further, the adjusting pushing assembly 53 includes an adjusting motor 531 and a motor mounting base 532.

The motor mounting base 532 is fixedly mounted between the bottom of the main body frame 1 and the lower U-shaped frame 71, and the adjustment motor 531 is fixedly arranged on the motor mounting base 532.

In this embodiment, the adjusting motors 531 include a plurality of welding strip adjusting and pressing units 5, and the plurality of adjusting motors 531 are distributed and staggered up and down. Saving space and occupation of land proportion.

The detection unit is positioned above the main body frame 1 and can detect the positions of the middle transition nodes of the special-shaped welding strips 2 pressed by the plurality of welding strip adjusting and pressing units 5.

In this embodiment, the detection unit includes a camera and a visual light source system for detecting the middle transition node of the special-shaped welding strip 2, and the camera is located right above the main body frame 1, so as to facilitate the shooting of the middle transition node. The visual light source system can form a reference surface on the plane where the special-shaped welding strips 2 are located, a photographing camera can shoot the reference surface, a reference line is formed at the same time, and therefore middle transition nodes behind the reference line move forwards during adjustment and reach the position of the reference line.

It should be noted that the reference line is located in front of the reference plane, and the middle transition node of the special-shaped welding strip 2 compressed by the compressing assembly 52 moves forward under the driving of the adjustment pushing assembly. Then the heavy hammer in front of the welding strip moves downwards, so that the special-shaped welding strip 2 is always in a tight state and cannot be coiled or turned over.

In the present embodiment, the plurality of the profiled welding strips 2 is 9 strips. Only 1 strip is shown in the figure.

The welding strip adjusting and pressing unit 5 respectively presses each special-shaped welding strip 2, the movement of the welding strip adjusting and pressing unit 5 drives each pressed special-shaped welding strip 2 to move, and each special-shaped welding strip 2 is sent into a clamping jaw 10 of the traction device and clamped; the detection unit can detect the middle transition node on each special-shaped welding strip 2, the welding strip adjusting and pressing unit 5 drives the special-shaped welding strips 2 corresponding to the welding strip adjusting and pressing unit through the detection result, and the special-shaped welding strips 2 with the unaligned middle transition nodes move towards one side far away from the cutter 4, so that the middle transition nodes of each special-shaped welding strip 2 are aligned.

In the embodiment, when the special-shaped welding strip 2 is adjusted, the special-shaped welding strip 2 is pressed through the welding strip adjusting and pressing unit 5, and the welding strip adjusting and pressing unit 5 pushes the special-shaped welding strip 2 forwards along the length direction of the special-shaped welding strip 2 according to detection information of the detection unit, so that compared with the prior art, the welding strip adjusting and pressing unit 5 in the application integrates a welding strip pushing mechanism and a cutting and pressing mechanism, an original pressing walking mechanism is omitted, the cost is saved, and the structure is simplified; the action complexity is reduced, the pushing mechanism is driven by the servo electric cylinder, the pushing precision and speed are improved, and the welding strip cutting efficiency is further improved. The design of the welding strip positioning guide groove 6 of the special-shaped welding strip 2 improves the positioning guide precision of the triangular welding strip, reduces the risk of groove jumping and deviation of the welding strip during cutting, and provides stable position precision for subsequent welding strip traction. The welding strip is clamped by the traction clamping jaw during adjustment of the 2 nodes of the special-shaped welding strip, the PLC detects the node position of the welding strip through the vision system, and then the pushing mechanism is used for respectively stretching and adjusting each welding strip forwards independently to the node to be flushed, so that the action of cutting double knives of the welding strip is omitted, and the cutting beat is improved.

The working principle is as follows:

when the middle nodes of the special-shaped welding strips 2 need to be adjusted, firstly, the middle transition nodes of the special-shaped welding strips 2 are shot by a shooting camera to obtain the specific positions of the middle transition nodes of the 9 special-shaped welding strips; then the shot information is transmitted to a PLC control system, the PLC control system sends out a control instruction after receiving the shot specific information, and controls an adjustment pushing component 53 (specifically, an adjustment motor 531) of the welding strip adjustment pressing unit 5 to work, the adjustment motor 531 controls a driving end of the adjustment motor 531 to drive an inverted L-shaped connecting frame 523 to move according to the control instruction, the inverted L-shaped connecting frame 523 drives a cylinder mounting frame 522 to move, the cylinder mounting frame 522 drives a pressing cylinder 521 to move forward along the length direction of the special-shaped welding strip 2, and further drives the special-shaped welding strip pressed by the special-shaped welding strip to move forward until all middle transition nodes of the 9 special-shaped welding strips 2 are moved to a datum line and are positioned on the same straight line to align the 9 special-shaped welding strips 2.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; either as communication within the two elements or as an interactive relationship of the two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the present application, unless otherwise expressly stated or limited, a first feature may be "on" or "under" a second feature, and the first and second features may be in direct contact, or the first and second features may be in indirect contact via an intermediate. Also, a first feature "on," "above," and "over" a second feature may be directly on or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lower level than the second feature.

In the description herein, the description of the terms "one embodiment," "some embodiments," "an embodiment," "an example," "a specific example" or "some examples" or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent.

While embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that modifications, alterations, substitutions and variations may be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. The adjusting and pushing system for the special-shaped welding strip is characterized by comprising a main body frame (1), a welding strip adjusting and pressing main body, a detection unit, a traction device and a cutter (4) arranged between the welding strip adjusting and pressing main body and the traction device;

the welding strip adjusting and pressing main body is arranged on the main body frame (1); the welding strip adjusting and compressing main body comprises a plurality of welding strip adjusting and compressing units (5) which are arranged side by side, and each special-shaped welding strip (2) can be respectively and correspondingly compressed by the welding strip adjusting and compressing units (5); the compressed special-shaped welding strip (2) can be linearly reciprocated along the length direction of the special-shaped welding strip;

the detection unit is positioned above the main body rack (1) and can detect the position of a transition node in the middle of the special-shaped welding strip (2) pressed by the plurality of welding strip adjusting and pressing units (5);

the welding strip adjusting and pressing unit (5) respectively presses each special-shaped welding strip (2), the movement of the welding strip adjusting and pressing unit (5) drives each pressed special-shaped welding strip (2) to move, and each special-shaped welding strip (2) is sent into a clamping jaw (10) of the traction device and clamped; and then the detection unit can detect the middle transition node on each special-shaped welding strip (2), the welding strip adjusting and pressing unit (5) respectively drives the special-shaped welding strips (2) which correspond to the welding strip adjusting and pressing unit through the detection result, and the special-shaped welding strips (2) with the unaligned middle transition nodes move towards one side far away from the cutter (4), so that the middle transition node of each special-shaped welding strip (2) is aligned.

2. The adjusting and pushing system for the special-shaped welding strip as recited in claim 1, characterized in that the welding strip adjusting and pressing unit (5) comprises a moving guide rail (51), a pressing assembly (52) and an adjusting and pushing assembly (53);

the pressing component (52) can do reciprocating linear motion along the vertical direction so as to press/loosen the special-shaped welding strip (2);

the adjusting pushing assembly (53) is provided with a driving end, the driving end of the adjusting pushing assembly is connected with the pressing assembly (52), and the pressing assembly (52) can move along the movement guide rail (51) under the driving of the driving end.

3. The modified weld profile of claim 2, wherein the hold-down assembly (52) includes a hold-down cylinder (521), a cylinder mounting bracket (522), and a connector;

the pressing cylinder (521) is fixedly arranged on the cylinder mounting bracket (522); the cylinder mounting bracket (522) is detachably connected with the connecting piece, the connecting piece is detachably connected with the adjusting and pushing assembly (53), and the connecting piece is slidably connected to the moving guide rail (51).

4. The modified weld fillet adjusting and pushing system as recited in claim 3, wherein the cylinder mounting bracket (522) is an "L" shaped structural member.

5. The strip conditioner feed system as set forth in claim 4, wherein said connector comprises an inverted "L" shaped connecting frame (523);

the connecting frame (523) comprises a horizontal section and a vertical section which is perpendicular to the horizontal section; the horizontal section is detachably connected with the cylinder mounting bracket (522); the bottom of the horizontal section is integrally provided with a connecting slide block (524); the connecting sliding block (524) is matched with the moving guide rail (51) to slide;

the vertical section is connected with the adjusting and pushing assembly (53).

6. The strip conditioner pushing system as claimed in claim 5, wherein said strip conditioner pressing body further comprises a mounting frame (7), a plurality of said strip conditioner pressing units (5) are arranged side by side in said mounting frame (7), and said moving guide rail (51) is laid on the bottom inside said mounting frame (7).

7. The strip conditioner feed system as claimed in claim 6, characterized in that said mounting frame (7) comprises a lower U-shaped frame (71) and an upper U-shaped frame (72);

the lower U-shaped frame (71) is connected to the main body frame (1) in a sliding mode through a ram (8); the two ends of the bottom of the upper U-shaped frame (72) are detachably connected to the lower U-shaped frame (71).

8. The strip conditioner feed system of claim 7, wherein the conditioner feed assembly (53) includes a conditioner motor (531), a motor mount (532);

the motor mounting seat (532) is fixedly mounted between the bottom of the main body frame (1) and the lower U-shaped frame (71), and the adjusting motor (531) is fixedly arranged on the motor mounting seat (532).

9. The adjusting and pushing system for the profiled welding strip as recited in claim 1, further comprising a strip tension and compression device (9);

the welding strip stretching and pressing device (9) is arranged on the main body rack (1) and can assist the stretching of the special-shaped welding strip (2).

10. The adjusting and pushing system for the special-shaped welding strip as recited in claim 9, characterized by further comprising a welding strip positioning mechanism arranged below the welding strip stretching and pressing device (9);

a plurality of welding strip positioning grooves (6) corresponding to the special-shaped welding strips (2) are formed in the welding strip positioning mechanism, and each special-shaped welding strip (2) is arranged in the corresponding welding strip positioning groove (6) respectively.

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