CN113478196B

CN113478196B - Color steel plate splicing and mounting method

Info

Publication number: CN113478196B
Application number: CN202110766849.XA
Authority: CN
Inventors: 王海平
Original assignee: Shenzhen Hailong Lvjian Technology Co ltd
Current assignee: Shenzhen Hailong Steel Structure Material Co ltd
Priority date: 2021-07-07
Filing date: 2021-07-07
Publication date: 2022-11-08
Anticipated expiration: 2041-07-07
Also published as: CN113478196A

Abstract

The invention relates to a color steel plate splicing and mounting method, which adopts a color steel plate splicing device, wherein the color steel plate splicing device comprises a bottom rack, a movable alignment mechanism and a fixed splicing mechanism, and the invention can solve the following problems in the splicing and mounting process of color steel plates: a traditional various steel sheet concatenation installation is gone on through the manual work, because the concatenation installation process engineering volume of various steel sheet is big, it is long to splice the installation through the manual work and consume time, work efficiency is low, and the workman cost is higher, b traditional various steel sheet concatenation installation aligns through the manual work with the fixed orifices between two various steel sheets, the manual work is carrying out the counterpoint in-process to the fixed orifices because hand strength and sight scheduling problem probably can have the error between the fixed orifices, lead to the fixed orifices counterpoint between the various steel sheet inaccurate, cause the bolt-up to consume time long, influence concatenation installation effectiveness between the various steel sheet.

Description

Color steel plate splicing and mounting method

Technical Field

The invention relates to the technical field of color steel plates, in particular to a color steel plate splicing and mounting method.

Background

The color steel plate is formed by cold pressing, the surface of the color steel plate is in a wave edge shape, the surface of the steel plate is coated with a layer of organic coating after the steel plate is formed by pressing, therefore, the color steel plate can be obtained, and the color steel plate has the advantages of good corrosion resistance, bright color, attractive appearance, convenience in processing and forming, original strength of the steel plate and the like, so the color steel plate is widely applied to industries such as building appliances, transportation and the like, and is mainly applied to roof walls and doors of industrial and commercial buildings such as steel structure plants, airports, storehouses, refrigeration and the like.

At present, the following problems exist in the splicing and mounting process of color steel plates: a traditional various steel sheet concatenation installation is gone on through the manual work, because the concatenation installation process engineering volume of various steel sheet is big, it is long to splice the installation through the manual work and consume time, work efficiency is low, and the workman cost is higher, b traditional various steel sheet concatenation installation aligns through the manual work with the fixed orifices between two various steel sheets, the manual work is carrying out the counterpoint in-process to the fixed orifices because hand strength and sight scheduling problem probably can have the error between the fixed orifices, lead to the fixed orifices counterpoint between the various steel sheet inaccurate, cause the bolt-up to consume time long, influence concatenation installation effectiveness between the various steel sheet.

Disclosure of Invention

Technical problem to be solved

The invention provides a splicing and mounting method of color steel plates, which can solve the following problems in the splicing and mounting process of the color steel plates: a traditional various steel sheet concatenation installation is gone on through the manual work, because the concatenation installation process engineering volume of various steel sheet is big, it is long to splice the installation through the manual work and consume time, work efficiency is low, and the workman cost is higher, b traditional various steel sheet concatenation installation aligns through the manual work with the fixed orifices between two various steel sheets, the manual work is carrying out the counterpoint in-process to the fixed orifices because hand strength and sight scheduling problem probably can have the error between the fixed orifices, lead to the fixed orifices counterpoint between the various steel sheet inaccurate, cause the bolt-up to consume time long, influence concatenation installation effectiveness between the various steel sheet.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme: the color steel plate splicing and mounting method adopts a color steel plate splicing device which comprises a bottom rack, a movable aligning mechanism and a fixed splicing mechanism, wherein the movable aligning mechanism is arranged on the left side of the upper end face of the bottom rack in a sliding manner, and the fixed splicing mechanism is arranged on the right side of the upper end face of the bottom rack.

The utility model discloses a mobile alignment mechanism, including electronic slider, the frame that aligns, fine setting branch chain, align the board, align spring beam and grip block, wherein bottom frame up end seted up the sliding tray from the left hand right side, electronic slider slides and sets up inside the sliding tray, electronic slider top is installed and is aligned the frame, align the frame up end and install the fine setting branch chain, fine setting branch chain upper end is installed and is aligned the board, align the board up end front and back symmetry and slide and be provided with the grip block, the grip block back with align between the board up end bilateral symmetry be provided with the spring beam that aligns, align spring beam one end and install on the grip block, the spring beam other end that aligns is installed and is being aligned the board up end.

Fixed concatenation mechanism include support frame, concatenation frame, two-way lead screw, holding frame and counterpoint branch chain, wherein bottom frame up end right side around the symmetry be provided with two sets of support frames, the symmetry is installed at bottom frame up end around every group support frame, the concatenation frame is installed to the support frame up end, the spout has been seted up forward and backward from the concatenation frame up end, the symmetry slides around in the spout and is provided with the holding frame, run through between holding frame and the concatenation frame and set up threaded through-hole, two-way lead screw rotates to be installed inside the threaded through-hole, bottom frame up end is located concatenation frame below left side and installs the counterpoint branch chain.

The color steel plate splicing and mounting process by adopting the color steel plate splicing and mounting method comprises the following steps:

the first step, placing treatment: the color steel plates are respectively placed on the moving alignment mechanism and the fixed splicing mechanism through manual work or existing equipment;

second step, alignment treatment: the moving alignment mechanism is started to drive the color steel plate to move rightwards, and the color steel plate on the fixed splicing mechanism is aligned;

thirdly, connection and fixation: fixedly splicing the aligned and spliced color steel plates through a connecting piece;

step four, collecting and placing: and (4) carrying out centralized collection and stacking on the spliced color steel plates.

Preferably, the fine tuning branch chain comprises a fine tuning rack, a connecting shaft, a rocker, a gear and a rack, wherein the fine tuning rack is arranged on the upper end face of the aligning rack in a sliding manner, the lower end face of the fine tuning rack is provided with a rectangular through groove, the upper end of the aligning rack is positioned in the rectangular through groove and is rotatably arranged with the connecting shaft, the gear is arranged on the connecting shaft through a flat key, the rack is arranged right above the gear on the upper end face of the rectangular through groove, the gear and the rack are mutually meshed, and the rocker is fixedly arranged on the rear end face of the connecting shaft.

Preferably, the alignment branch chain comprises a bidirectional cylinder, an adjusting spring rod, a connecting block, an adjusting block, an alignment rack, an alignment block and an alignment rod, wherein the adjusting spring rod is symmetrically arranged on the upper end face of the bottom rack in front and back, the alignment rack is arranged on the upper end face of the adjusting spring rod, the connecting block is symmetrically arranged on the lower end face of the alignment rack in front and back, the upper end face of the bottom rack is arranged below the connecting block in a sliding manner, the bidirectional cylinder is arranged between the adjusting blocks on the upper end face of the bottom rack through a cylinder seat, a driving shaft of the bidirectional cylinder is connected with the adjusting block, the inclined plane is arranged on the opposite face of the adjusting block, the connecting block is abutted against the inclined plane, the alignment block is symmetrically arranged on the upper end face of the alignment rack in front and back, and the alignment rod is arranged on the upper end of the alignment block.

Preferably, concatenation frame up end be located the front and back symmetry and be provided with two sets of locking spring poles, every group locking spring pole bilateral symmetry installs at concatenation frame up end, the limiting plate is installed to locking spring pole up end, and the terminal surface evenly is provided with from the left hand right side under the limiting plate with the spacing arch of various steel sheet complex, concrete during operation, pass through locking spring pole rebound with the limiting plate through existing equipment, place various steel sheet in the concatenation frame this moment, put down the limiting plate again, spacing arch on the limiting plate is mutually supported with various steel sheet and is carried out spacing processing to various steel sheet, avoid various steel sheet to take place the relative movement of left right direction at the concatenation in-process, influence the concatenation effect of various steel sheet.

Preferably, the opposite surface of the clamping plate is provided with an inclined structure, and the inclined structure can guide the color steel plate in the placing process, so that the color steel plate is smoother in the placing process.

Preferably, counterpoint frame up end be provided with multiunit mushroom type recess from the front to the back, counterpoint piece joint is inside mushroom type recess, counterpoint pole upper end sets up to the protruding structure of circular cone, because the pitch-row between the fixed orifices is different on the various steel sheet, so the counterpoint pole is installed inside mushroom type recess through the mode of counterpoint piece joint, the quick installation of counterpoint piece of being convenient for and adjust and then can adjust the interval between the counterpoint pole, the suitability is stronger, wherein conical arch on the counterpoint pole plays the guide effect to the fixed orifices at the counterpoint in-process.

Preferably, the inclined plane on seted up spacing spout, connecting block sliding card connects inside spacing spout, the use of spacing spout plays limiting displacement to the connecting block, takes place relative slip when avoiding the connecting block to move on the inclined plane, influences the removal effect of connecting block.

Preferably, concatenation frame up end and alignment board up end be located same horizontal plane, guarantee that the various steel sheet of left and right sides is located same horizontal plane all the time, need not carry out the position control of vertical direction to various steel sheet.

(III) advantageous effects

1. The invention provides a splicing and installing method of color steel plates, which can solve the following problems in the splicing and installing process of the color steel plates: a traditional various steel sheet concatenation installation is gone on through the manual work, because the concatenation installation process engineering volume of various steel sheet is big, it is long to splice the installation through the manual work and consume time, work efficiency is low, and the workman cost is higher, b traditional various steel sheet concatenation installation aligns through the manual work with the fixed orifices between two various steel sheets, the manual work is carrying out the counterpoint in-process to the fixed orifices because hand strength and sight scheduling problem probably can have the error between the fixed orifices, lead to the fixed orifices counterpoint between the various steel sheet inaccurate, cause the bolt-up to consume time long, influence concatenation installation effectiveness between the various steel sheet.

2. In the moving alignment mechanism and the fixed splicing mechanism designed by the invention, the color steel plates are respectively placed on the upper end surfaces of the alignment plate and the splicing rack through the existing equipment, and in the process that the electric slide block is started to move rightwards, the color steel plate on the left side synchronously moves rightwards to be close to the color steel plate on the right side, so that the workload of workers for carrying the color steel plates is reduced, the carrying time is reduced, and the efficiency is improved; because there may be the excessive problem of removal among the mechanical alignment process, lead to the too big alignment effect that influences various steel sheet fixed orifices of various steel sheet migration range, in the fine setting branch chain, rotate the rocker and drive the axle and rotate, the axle rotates the in-process and drives the fine setting frame through gear and rack and remove each other, fine setting frame removes the in-process and drives various steel sheet fine setting and then carry out meticulous roll adjustment between the various steel sheet fixed orifices through mutually supporting with the alignment board, make the fixed orifices between the various steel sheet precision of mutually supporting higher.

3. In counterpoint branch chain, the counterpoint pole is through counterpoint frame rebound, and when the fixed orifices between the various steel sheet was mutually supported through the visual observation, the central axis between the fixed orifices probably was not coaxial, and the counterpoint pole remove the in-process can make between the fixed orifices coaxial, avoids the fixed orifices counterpoint between the various steel sheet to be inaccurate, influences follow-up bolt-up effect.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a flow chart of the color steel plate splicing and mounting process of the invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic view of the left side perspective of the present invention;

FIG. 4 is a right side perspective view of the present invention;

FIG. 5 is a right side view of the present invention;

FIG. 6 is a partial cross-sectional view taken at A of FIG. 2 in accordance with the present invention;

FIG. 7 is a schematic view of a three-dimensional structure for mounting the connecting block and the adjusting block according to the present invention;

fig. 8 is a schematic perspective view of a color steel plate according to the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 8, the color steel plate splicing and mounting method adopts a color steel plate splicing device, the color steel plate splicing device comprises a bottom rack 1, a movable aligning mechanism 2 and a fixed splicing mechanism 3, the movable aligning mechanism 2 is arranged on the left side of the upper end face of the bottom rack 1 in a sliding manner, and the fixed splicing mechanism 3 is arranged on the right side of the upper end face of the bottom rack 1.

Remove alignment mechanism 2 include electronic slider 21, align frame 22, fine setting branch chain 23, align board 24, align spring bar 25 and grip block 26, wherein bottom frame 1 up end seted up the sliding tray from the left hand right side, electronic slider 21 slides and sets up inside the sliding tray, electronic slider 21 top is installed and is aligned frame 22, align frame 22 up end and install fine setting branch chain 23, fine setting branch chain 23 upper end is installed and is aligned board 24, it is provided with grip block 26 to align board 24 up end front and back symmetry slip, the bilateral symmetry is provided with between the back of the looks of grip block 26 and the alignment board 24 up end and aligns spring bar 25, align spring bar 25 one end and install on grip block 26, the alignment spring bar 25 other end is installed and is being aligned board 24 up end.

Fixed splicing mechanism 3 include support frame 31, concatenation frame 32, two-way lead screw 33, holding frame 34 and counterpoint branch chain 35, wherein 1 up end right side of bottom frame around the symmetry be provided with two sets of support frames 31, the symmetry is installed at 1 up end of bottom frame around every group support frame 31, concatenation frame 32 is installed to support frame 31 up end, the spout has been seted up forward and backward to concatenation frame 32 up end, the symmetry slides around in the spout and is provided with holding frame 34, run through set up threaded through-hole between holding frame 34 and the concatenation frame 32, two-way lead screw 33 rotates to be installed inside threaded through-hole, 1 up end of bottom frame is located concatenation frame 32 below left side and installs counterpoint branch chain 35.

The fine-tuning branched chain 23 comprises a fine-tuning rack 231, a connecting shaft 232, a rocker 233, a gear 234 and a rack 235, wherein the fine-tuning rack 231 is arranged on the upper end face of the aligning rack 22 in a sliding manner, a rectangular through groove is formed in the lower end face of the fine-tuning rack 231, the upper end of the aligning rack 22 is positioned in the rectangular through groove and is rotatably provided with the connecting shaft 232, the gear 234 is arranged on the connecting shaft 232 through a flat key, the rack 235 is arranged on the upper end face of the rectangular through groove and is positioned right above the gear 234, the gear 234 is meshed with the rack 235, and the rocker 233 is fixedly arranged on the rear end face of the connecting shaft 232.

The alignment branched chain 35 comprises a bidirectional cylinder 351, an adjusting spring rod 352, a connecting block 353, an adjusting block 354, an alignment rack 355, an alignment block 356 and an alignment rod 357, wherein the adjusting spring rod 352 is symmetrically installed on the upper end surface of the bottom rack 1 in the front-back direction, the alignment rack 355 is installed on the upper end surface of the adjusting spring rod 352, the connecting block 353 is symmetrically installed on the lower end surface of the alignment rack 355 in the front-back direction, the adjusting block 354 is slidably arranged on the upper end surface of the bottom rack 1 below the connecting block 353, the bidirectional cylinder 351 is installed between the adjusting blocks 354 on the upper end surface of the bottom rack 1 through a cylinder seat, the driving shaft of the bidirectional cylinder 351 is connected with the adjusting block 354, the inclined surface is formed on the opposite surface of the adjusting block 354, the connecting block 353 abuts against the inclined surface, the alignment block 356 is symmetrically arranged on the front-back direction of the upper end surface of the alignment rack 355, and the alignment rod 357 is installed on the upper end of the alignment block 356.

When the color steel plate aligning device works, color steel plates are respectively placed on the upper end surfaces of an aligning plate 24 and a splicing rack 32 through the existing equipment, wherein a color steel plate connecting groove on the aligning plate 24 is positioned on the right side, a color steel plate connecting protrusion on the splicing rack 32 is positioned on the left side, a two-way screw 33 is rotated to drive a clamping rack 34 to clamp and limit color steel plates with different widths, an aligning spring rod 25 and a clamping plate 26 are matched with each other to limit the color steel plates with different widths, an electric slide block 21 is started to drive the aligning rack 22 to move, the aligning rack 22 is driven by a fine tuning branched chain 23 to move rightwards in the moving process, the color steel plates are driven to move rightwards in the rightwards moving process of the aligning rack 24, when the color steel plate on the left side moves to the vicinity of the color steel plate on the right side, a rocker 233 is rotated to drive a connecting shaft 232 to rotate, and the fine tuning rack 231 is driven by the gear 234 and the rack 235 to move in the rotating process of the connecting shaft 232, the fine adjustment frame 231 is subjected to fine adjustment processing on the left color steel plate through mutual matching with the alignment plate 24 in the moving process, the left color steel plate can move slowly towards the right, fixing holes in the connecting grooves are matched with fixing holes in the connecting protrusions through visual observation, the phenomenon that the relative positions between the fixing holes cannot be identified by naked eyes due to the fact that the electric sliding blocks 21 move too fast is avoided, and errors exist in the alignment of the fixing holes, after fine adjustment of the color steel plate is finished, the bidirectional air cylinder 351 is started to drive the adjusting blocks 354 to move towards each other, the adjusting blocks 354 drive the connecting blocks 353 to move upwards through the inclined surfaces in the moving process towards each other, the aligning frame 355 is driven to move upwards through the adjusting spring rods 352 in the moving process towards the adjusting blocks 354, the aligning rods 357 are driven to move upwards through mutual matching of the aligning blocks 356 in the moving process towards the aligning frames, and the fixing holes in the connecting grooves and the fixing holes in the connecting protrusions are enabled to be in the same direction through the fixing holes in the moving process towards the aligning rods 357, and the fixing holes in the moving process towards the aligning rods The axis makes the fixed orifices on the connecting groove and the fixed orifices on the connecting protrusion align more accurately, and avoids the fixed orifices on the connecting groove and the fixed orifices on the connecting protrusion to have deviation and influence the bolt fastening effect.

The inclined structure is arranged on the opposite surface of the clamping plate 26, and the inclined structure can be guided in the placing process of the color steel plate, so that the color steel plate is smoother in the placing process.

The upper end face of the splicing rack 32 and the upper end face of the aligning plate 24 are located on the same horizontal plane, so that the color steel plates on the left side and the right side are always located on the same horizontal plane, and the position of the color steel plates in the vertical direction does not need to be adjusted.

Splicing frame 32 up end be located the front and back symmetry and be provided with two sets of locking spring rod 321, every group locking spring rod 321 bilateral symmetry installs at splicing frame 32 up end, limiting plate 322 is installed to locking spring rod 321 up end, and terminal surface evenly is provided with from the left side to the right side under limiting plate 322 with the spacing arch of various steel sheet complex, concrete during operation, pass through locking spring rod 321 rebound with limiting plate 322 through existing equipment, place various steel sheet on splicing frame 32 this moment, put down limiting plate 322 again, spacing arch on limiting plate 322 is mutually supported with various steel sheet and is carried out spacing processing to various steel sheet, avoid the relative movement of various steel sheet about taking place at the concatenation in-process, influence the concatenation effect of various steel sheet.

The inclined plane on seted up spacing spout, connecting block 353 slip joint inside the spacing spout, the use of spacing spout plays limiting displacement to connecting block 353, takes place relative slip when avoiding connecting block 353 to move on the inclined plane, influences the removal effect of connecting block 353.

Counterpoint frame 355 up end be provided with multiunit mushroom type recess from front to back, counterpoint piece 356 joint is inside mushroom type recess, counterpoint pole 357 upper end sets up to the protruding structure of circular cone, because the hole distance between the fixed orifices is different on the various steel sheet, the event is counterpointed pole 357 and is installed inside mushroom type recess through the mode of counterpoint piece 356 joint, the quick installation of counterpoint piece 356 of being convenient for and adjust and then can adjust the interval between counterpoint pole 357, the suitability is stronger, wherein the conical arch on the counterpoint pole 357 plays the guide effect to the fixed orifices at the counterpoint in-process.

the first step, placing treatment: placing the color steel plates on the aligning plate 24 and the splicing frame 32 respectively by manpower or existing equipment;

second step, alignment treatment: the electric slide block 21 is started to drive the aligning rack 22 to move, and the aligning plate 24 drives the color steel plate to move rightwards in the moving process of the aligning rack 22 and aligns the color steel plate on the splicing rack 32;

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a various steel sheet concatenation mounting method, this various steel sheet concatenation mounting method has adopted a various steel sheet splicing apparatus, this various steel sheet splicing apparatus includes bottom frame (1), removes alignment mechanism (2) and fixed splicing mechanism (3), its characterized in that: the left side of the upper end surface of the bottom rack (1) is provided with a movable alignment mechanism (2) in a sliding manner, and the right side of the upper end surface of the bottom rack (1) is provided with a fixed splicing mechanism (3); wherein:

the movable alignment mechanism (2) comprises an electric slider (21), an alignment rack (22), a fine adjustment branched chain (23), an alignment plate (24), an alignment spring rod (25) and a clamping plate (26), wherein a sliding groove is formed in the upper end face of the bottom rack (1) from left to right, the electric slider (21) is arranged in the sliding groove in a sliding mode, the alignment rack (22) is arranged above the electric slider (21), the fine adjustment branched chain (23) is arranged on the upper end face of the alignment rack (22), the alignment plate (24) is arranged at the upper end of the fine adjustment branched chain (23), the clamping plate (26) is symmetrically arranged on the upper end face of the alignment plate (24) in a sliding mode from front to back, the alignment spring rod (25) is symmetrically arranged between the opposite face of the clamping plate (26) and the upper end face of the alignment plate (24) from left to right, one end of the alignment spring rod (25) is arranged on the clamping plate (26), and the other end of the alignment spring rod (25) is arranged on the upper end face of the alignment plate (24);

the fixed splicing mechanism (3) comprises a support frame (31), a splicing rack (32), a bidirectional screw rod (33), a clamping frame (34) and an alignment branched chain (35), wherein two groups of support frames (31) are symmetrically arranged on the right side of the upper end surface of the bottom rack (1) front and back, each group of support frames (31) is symmetrically arranged on the upper end surface of the bottom rack (1) front and back, the splicing rack (32) is arranged on the upper end surface of the support frame (31), a sliding groove is formed in the upper end surface of the splicing rack (32) from front to back, the clamping frames (34) are symmetrically arranged in the sliding groove in a sliding manner front and back, a threaded through hole is formed between each clamping frame (34) and the splicing rack (32) in a penetrating manner, the bidirectional screw rod (33) is rotatably arranged in the threaded through hole, and the alignment branched chain (35) is arranged on the left side of the upper end surface of the bottom rack (1) below the splicing rack (32);

the aligning branched chain (35) comprises a bidirectional air cylinder (351), an adjusting spring rod (352), a connecting block (353), an adjusting block (354), an aligning rack (355), an aligning block (356) and an aligning rod (357), wherein the adjusting spring rod (352) is symmetrically arranged on the upper end surface of the bottom rack (1) in the front-back direction, the aligning rack (355) is arranged on the upper end surface of the adjusting spring rod (352), the connecting blocks (353) are symmetrically arranged on the front-back direction of the lower end surface of the aligning rack (355), the adjusting block (354) is arranged on the upper end surface of the bottom rack (1) in the sliding mode below the connecting block (353), the bidirectional air cylinder (351) is arranged on the upper end surface of the bottom rack (1) between the adjusting blocks (354) through an air cylinder seat, a driving shaft of the bidirectional air cylinder (351) is connected with the adjusting block (354), an inclined plane is formed on the opposite surface of the adjusting block (354), the connecting block (353) abuts against the inclined plane, the aligning block (356) is symmetrically arranged on the front-back direction of the upper end surface of the aligning rack (355), and the aligning block (356) is provided with the aligning block (357);

the first step, placing treatment: the color steel plates are respectively placed on the moving alignment mechanism (2) and the fixed splicing mechanism (3) manually or by the existing equipment;

second step, alignment treatment: the moving alignment mechanism (2) is started to drive the color steel plate to move rightwards and align the color steel plate on the fixed splicing mechanism (3);

fourthly, collecting and placing: and (4) carrying out centralized collection and stacking on the spliced color steel plates.

2. The color steel plate splicing and mounting method according to claim 1, wherein: fine setting branch (23) including fine setting frame (231), even axle (232), rocker (233), gear (234) and rack (235), wherein fine setting frame (231) slide and set up and align frame (22) up end, the rectangle is led to the groove has been seted up to fine setting frame (231) lower terminal surface, it is located the inside rotation of rectangle through groove and installs even axle (232) to align frame (22) upper end, even install gear (234) through the parallel key on axle (232), the rectangle leads to the inside up end of groove and is located gear (234) and install rack (235) directly over, and gear (234) and rack (235) intermeshing, even axle (232) rear end fixed mounting has rocker (233).

3. The color steel plate splicing and mounting method according to claim 1, wherein: concatenation frame (32) up end be located the front and back symmetry and be provided with two sets of locking spring pole (321), every group locking spring pole (321) bilateral symmetry installs at concatenation frame (32) up end, limiting plate (322) are installed to locking spring pole (321) up end, and under limiting plate (322) the terminal surface evenly be provided with from the left hand right side with the spacing arch of various steel sheet complex.

4. The color steel plate splicing and mounting method according to claim 1, wherein: the opposite surface of the clamping plate (26) is provided with an inclined structure.

5. The color steel plate splicing and mounting method according to claim 1, wherein: the upper end face of the alignment rack (355) is provided with a plurality of groups of mushroom-shaped grooves from front to back, the alignment block (356) is clamped inside the mushroom-shaped grooves, and the upper end of the alignment rod (357) is of a conical protruding structure.

6. The color steel plate splicing and mounting method according to claim 1, wherein: the inclined plane on seted up spacing spout, connecting block (353) slip joint inside spacing spout.

7. The color steel plate splicing and mounting method according to claim 1, wherein: the upper end surface of the splicing rack (32) and the upper end surface of the aligning plate (24) are positioned on the same horizontal plane.