CN112339037A

CN112339037A - Automatic production line for plate splicing

Info

Publication number: CN112339037A
Application number: CN202011273686.3A
Authority: CN
Inventors: 不公告发明人
Original assignee: Tianjin Hainayuan Technology Co ltd
Current assignee: Tianjin Hainayuan Technology Co ltd
Priority date: 2020-11-14
Filing date: 2020-11-14
Publication date: 2021-02-09

Abstract

The invention provides an automatic production line for plate splicing. Automatic production line is spliced to board includes the rectangular box, presses fixed knot to construct, the sweeps clearance collects the structure, the spraying structure, peculiar smell processing structure, the stirring structure, cutting structure and transportation structure, the spraying structure includes out the liquid standpipe, the coiled pipe, the drawing liquid pump, the liquid reserve tank, communicating pipe, first rectangle cover, feed liquor pipe and shower nozzle, a lateral wall top and the bottom of rectangular box communicate first rectangle cover respectively, the outside side fixed connection liquid reserve tank of first rectangle cover, the fixed even snakelike communicating pipe of embedded face of first rectangle cover. The automatic production line for plate splicing provided by the invention has the advantages that the original plate is lifted by one end height by opening the pressing fixing structure, and then the bottom liquid pump is opened, so that the coating spraying process of the bottom is completed, the two sides can be sprayed, the horizontal movement is carried out, the overturning by external force is not needed, and the working efficiency is improved.

Description

Automatic production line for plate splicing

Technical Field

The invention relates to the technical field of plate splicing production equipment, in particular to an automatic plate splicing production line.

Background

The finger joint board is a board splicing mode, the finger joint board is formed by splicing a plurality of boards, the upper part and the lower part are not bonded with clamping boards any more, and the vertical boards are connected by zigzag interfaces similar to the cross butt joint of two fingers, so that the strength and the appearance quality of wood are enhanced and improved, and the finger joint board is called the finger joint board. The material is used for superior materials such as furniture, cabinets, wardrobes and the like. .

Current splice plate processing need cut and spraying process, and the cutting can let one-tenth can splice and form, and the spraying mainly sprays some water proof coating or water proof coating, improves splice plate life under specific environment, carries out the spraying process again after the cutting, needs the manpower to move the transportation, or the former panel of manpower upset makes two-sided can both carry out the spraying, and the operation process is wasted time and energy, influences production efficiency.

Therefore, there is a need to provide a new automatic production line for splicing boards to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides an automatic production line for splicing plates, which is characterized in that a pressing fixing structure is opened, a raw material plate is lifted by one end height, and then a bottom liquid pump is opened, so that the coating spraying process of the bottom is completed, double surfaces can be sprayed, horizontal movement is carried out, external force is not required to overturn, and the working efficiency is improved.

The automatic production line for splicing plates provided by the invention comprises: the bottom of the long box is fixedly connected with a plurality of supporting rods which are uniformly arranged; the spraying structure is used for connecting the spraying structure for smearing the coatings on the splice plates to the top of one side wall of the strip box, and comprises a liquid outlet vertical pipe, a coiled pipe, a liquid pumping pump, a liquid storage tank, a communicating pipe, a first rectangular cover, a liquid inlet pipe and a spray head, wherein the top and the bottom of one side wall of the strip box are respectively communicated with the first rectangular cover, the external side surface of the first rectangular cover is fixedly connected with the liquid storage tank, the embedded surface of the first rectangular cover is fixedly connected with the coiled communicating pipe, the outer side wall of the coiled communicating pipe is communicated with a plurality of uniformly arranged liquid outlet vertical pipes, the other end of the liquid outlet vertical pipe is communicated with the spray head, the liquid pumping pump is installed on one side surface of the liquid storage tank, the inlet of the liquid pumping pump is communicated with one side surface of the bottom of the liquid storage tank through the communicating pipe; the peculiar smell treatment structure is used for adsorbing and cleaning peculiar smell of the internal coating and is connected to the side wall close to the support rod of the spraying structure; the stirring structure is used for preventing the paint from generating precipitation and is connected with the liquid storage tank; the cutting structure for splicing the plate cutting is connected to the top of the other side wall of the strip box; the transportation structure is used for transporting in the plate production process and is connected to the inside of the strip box; the pressing fixing structure is used for fixing the plate in the processing process and is connected to the spraying structure and the cutting structure; the sweeps clearance collection structure for the sweeps clearance collection structure that the panel cutting produced the sweeps clearance is connected in the bottom that rectangular box was located the position of cutting structure.

Preferably, peculiar smell processing structure includes intake pipe, second draught fan, handle the case, activated carbon, drawer net box and otter board, be close to the lateral wall fixed connection processing case of the bracing piece of spraying structure position one side, the uncovered setting in bottom of handling the case is and install the otter board, the lateral surface installation drawer net box of handling the case, activated carbon is filled to the inside of drawer net box, handle the top installation second draught fan of case, the export of second draught fan and the top intercommunication of handling the case, the import intercommunication intake pipe of second draught fan, the other end of intake pipe and the side intercommunication of adjacent first rectangle cover.

Preferably, the stirring structure includes stirring vane, agitator motor and (mixing) shaft, and the side central point that first rectangle cover was kept away from to the liquid reserve tank puts installation agitator motor, and agitator motor's output runs through the side of liquid reserve tank and the (mixing) shaft, a plurality of stirring vane of lateral wall fixed connection of (mixing) shaft.

Preferably, a liquid inlet is arranged on one side face of the top of the liquid storage box, the liquid inlet is in threaded connection with a sealing plug, and a transparent strip plate is installed on the front end face of the liquid storage box.

Preferably, the cutting structure includes pushing motor, the lead screw, the slip lug, second rectangle cover, the third cylinder, the cutting piece, play the board and cutting motor, second rectangle cover is connected in another lateral wall top of rectangular box, the interior top side of second rectangle cover is equipped with the spout, the inside sliding connection slip lug of spout, the inside lateral wall of spout rotates and connects the lead screw, terminal surface installation pushing motor before the second rectangle cover top, pushing motor's output runs through the second rectangle cover and with adjacent lead screw one end fixed connection, the inside of slip lug is equipped with lead screw assorted screw hole, the third cylinder is installed to the bottom of slip lug, the board that falls is connected to the output of third cylinder, play the board bottom installation cutting motor that falls, the output of cutting motor is connected the cutting piece.

Preferably, the sweeps clearance collection structure includes first draught fan, collection bits cover case, drawer box and blowing pipe, the side intercommunication collection bits cover case that the rectangular box is located the second rectangle cover under, the interior bottom mounting drawer box of collection bits cover case, the first draught fan of a side-mounting of second rectangle cover, the first draught fan export runs through second rectangle cover side and the blowing pipe that the intercommunication level set up, the side of blowing pipe is connected with the inside rear end face of second rectangle cover, the lateral surface of blowing pipe is equipped with the blowhole that a plurality of evenly set up.

Preferably, the pressing and fixing structure comprises a first cylinder, a first pressing plate, a second cylinder, an air pump, an air pipe, an expansion link, a second pressing plate and suckers, wherein the top of the first rectangular cover is provided with two first cylinders which are symmetrically arranged, the top of the second rectangular cover which is positioned above is provided with two second cylinders which are symmetrically arranged, the output end of the first cylinder penetrates through the top of the first rectangular cover and is connected with the first pressing plate, the output end of the second cylinder penetrates through the top of the second rectangular cover and is connected with the second pressing plate, the bottom of the second pressing plate is connected with the two suckers, the air pump is respectively arranged on the two outer side surfaces of the second rectangular cover which is positioned above, the outlet of the air pump is communicated with the two air pipes, the other end of the air pipe penetrates through the side surface of the second rectangular cover and is communicated with the side surface of the suckers, the top of the first pressing plate is connected with the inner bottom of the first rectangular cover through, the top of the lifting plate is connected with the bottom of the sliding lug through a telescopic rod.

Preferably, the transportation structure includes conveying roller, belt, pivot, belt pulley and servo motor, and the inside of rectangular box rotates respectively through the pivot that a plurality of quantity were even set up and connects the conveying roller, and the preceding terminal surface of rectangular box is run through to the one end of pivot and the belt pulley, and a plurality of quantity belt pulleys pass through belt drive and connect, and the rear end face of a lateral wall of rectangular box servo motor, servo motor's output run through rectangular box side and be connected with adjacent pivot.

Preferably, the two side faces of the first rectangular cover and the second rectangular cover located above the first rectangular cover are distributed with channels, and the side wall of the top in each channel is connected with a plurality of rubber strips which are uniformly arranged.

Compared with the related art, the automatic production line for splicing the plates, provided by the invention, has the following beneficial effects:

the invention provides an automatic production line for splicing plates, which comprises the following steps:

1. with the inside coating suction of top liquid reserve tank to the coiled pipe, through the shower nozzle blowout of even setting to carry out even spraying to the concatenation board surface, the spraying is accomplished the back, through opening and pressing fixed knot and construct, mentions the one end height with the former material board, opens the bottom drawing liquid pump again, thereby accomplishes the coating spraying process of bottom, can carry out the spraying to two-sided, and carry out horizontal migration, does not need external force to overturn, improves work efficiency.

2. Can produce the inside of the gaseous quick suction of peculiar smell to the treatment box with the first rectangle cover of spraying, the active carbon that sets up through the inside of drawer net box to the absorption produces the peculiar smell gas, guarantees that production line peculiar smell content is the most probable and reduces, guarantees around the supervision staff breathe healthily, and the peculiar smell clearance simultaneously, can cause the inside air of first rectangle cover to take place to flow, can let the spraying back raw materials receive wind-force effect air-dry fast, improves and dries efficiency.

3. Cutting sweeps can pile up on former timber plank surface, perhaps the part flows in the inside of collection bits cover case, and first draught fan is opened to the rethread, forms and bloies to former timber plank surface sweeps blows in a lateral wall department fast, thereby falls into collection bits cover incasement portion, can fall into the inside drawer of drawer box, prevents that the saw-dust from flying in disorder, does not need artifical clearance to clean, facilitates for clearing up the saw-dust.

4. The second cylinder is opened to make the second clamp plate rebound, can make second clamp plate bottom show completely, can guarantee that second clamp plate bottom evenly spouts the material process, after second clamp plate bottom raw materials dried naturally, through opening second cylinder and air pump, the second cylinder places former panel on transport structure, and the air pump pours into the air into the sucking disc into to make the inside gas quantity of sucking disc increase and take place to drop.

Drawings

FIG. 1 is a schematic structural diagram of an automatic production line for panel splicing according to a preferred embodiment of the present invention;

FIG. 2 is a side view partially in section of the second rectangular housing of FIG. 1;

FIG. 3 is an enlarged view of a portion A of FIG. 1;

FIG. 4 is a schematic view of a portion of the enlarged structure shown at B in FIG. 1;

fig. 5 is a schematic top view of the sliver can shown in fig. 1.

Reference numbers in the figures: 1. a sliver can; 2. a support bar; 3. pressing the fixing structure; 4. a scrap cleaning and collecting structure; 5. spraying a structure; 6. a peculiar smell processing structure; 7. a stirring structure; 8. cutting the structure; 9. a transport structure; 31. a first cylinder; 32. a first platen; 33. a telescopic sleeve; 34. a second cylinder; 35. an air pump; 36. a breather pipe; 37. a telescopic rod; 38. a second platen; 39. a suction cup; 41. a first induced draft fan; 42. a scrap collecting cover box; 43. a drawer box; 44. a blowpipe; 45. an air blowing hole; 51. a liquid outlet vertical pipe; 52. a serpentine tube; 53. a liquid pump; 54. a liquid storage tank; 55. a communicating pipe; 56. a first rectangular cover; 57. a liquid inlet pipe; 58. a spray head; 61. an air inlet pipe; 62. a second induced draft fan; 63. a treatment tank; 64. activated carbon; 65. a net box; 66. a screen plate; 71. a stirring blade; 72. a stirring motor; 73. a stirring shaft; 81. a chute; 82. a push motor; 83. a screw rod; 84. a sliding projection; 85. a rubber strip; 86. a channel; 87. a second rectangular cover; 88. a third cylinder; 89. cutting the slices; 8a, a lifting plate; 8b, cutting a motor; 91. a conveying roller; 92. a belt; 93. a rotating shaft; 94. a belt pulley; 95. a servo motor.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of an automatic production line for splicing boards according to the present invention; FIG. 2 is a side view partially in section of the second rectangular housing of FIG. 1; FIG. 3 is an enlarged view of a portion A of FIG. 1; FIG. 4 is a schematic view of a portion of the enlarged structure shown at B in FIG. 1; fig. 5 is a schematic top view of the sliver can shown in fig. 1. The board concatenation automatic production line includes: strip box 1, press fixed knot to construct 3, sweeps clearance collection structure 4, spraying structure 5, peculiar smell processing structure 6, stirring structure 7, cutting structure 8 and transportation structure 9.

In the specific implementation process, as shown in fig. 1 and 4, the bottom of the strip box 1 is fixedly connected with a plurality of uniformly arranged support rods 2, the spraying structure 5 for coating the splice plate is connected to the top of one side wall of the strip box 1, the spraying structure 5 comprises a liquid outlet vertical pipe 51, a serpentine pipe 52, a liquid pumping pump 53, a liquid storage tank 54, a communicating pipe 55, a first rectangular cover 56, a liquid inlet pipe 57 and a spray head 58, the top and the bottom of one side wall of the strip box 1 are respectively communicated with the first rectangular cover 56, the outer side surface of the first rectangular cover 56 is fixedly connected with the liquid storage tank 54, the embedded surface of the first rectangular cover 56 is fixedly connected with the serpentine communicating pipe 55, the outer side wall of the serpentine communicating pipe 55 is communicated with the plurality of uniformly arranged vertical pipes 51, the other end of the liquid outlet vertical pipe 51 is communicated with the spray head 58, one side surface of the liquid storage tank 54 is provided with the liquid pumping pump 53, the inlet of the, the export intercommunication feed liquor pipe 57 of drawing liquid pump 53, the other end of feed liquor pipe 57 runs through the side of first rectangle cover 56 and with the intercommunication of coiled pipe 52, it is required to explain, the splice plate former plate of process, at first open the drawing liquid pump 53 at the top of first rectangle cover 56, with the inside coating suction of top liquid reserve tank 54 to the inside of coiled pipe 52, 58 blowout through the shower nozzle of even setting, thereby to carry out the even spraying to the splice plate surface, the spraying is accomplished the back, through opening and pressing fixed knot and constructing 3, mention the one end height with former plate, reopen bottom drawing liquid pump 53, thereby accomplish the coating spraying process of bottom, can carry out the spraying to two-sided, and carry out horizontal migration, do not need external force to overturn, and the work efficiency is improved.

Referring to fig. 1, the odor treatment structure 6 for absorbing and cleaning the odor of the internal coating is connected to the side wall of the support rod 2 close to the spraying structure 5, the odor treatment structure 6 comprises an air inlet pipe 61, a second induced draft fan 62, a treatment box 63, activated carbon 64, a drawer net box 65 and a net plate 66, the side wall of the support rod 2 close to one side of the spraying structure 5 is fixedly connected with the treatment box 63, the bottom of the treatment box 63 is open and is provided with the net plate 66, the drawer net box 65 is arranged on the outer side surface of the treatment box 63, the activated carbon 64 is filled in the drawer net box 65, the second induced draft fan 62 is arranged on the top of the treatment box 63, the outlet of the second induced draft fan 62 is communicated with the top of the treatment box 63, the inlet of the second induced draft fan 62 is communicated with the air inlet pipe 61, the other end of the air inlet pipe 61 is communicated with the side, can produce the inside of peculiar smell gaseous quick suction to treatment box 63 with the first rectangle cover 56 of spraying, the active carbon 64 through the inside setting of drawer net box 65 to it produces the peculiar smell gaseous to adsorb, guarantees that production line peculiar smell content maximum possibility reduces, guarantees around monitor staff to breathe healthily, the peculiar smell clearance simultaneously, can cause the inside air of first rectangle cover 56 to take place to flow, can let the spraying back raw materials receive wind-force effect quick air-drying, the improvement dries efficiency.

Referring to fig. 1, a stirring structure 7 for preventing paint from precipitating is connected to a liquid storage tank 54, the stirring structure 7 includes a stirring blade 71, a stirring motor 72 and a stirring shaft 73, the side central position of the liquid storage tank 54 far away from a first rectangular cover 56 is provided with the stirring motor 72, the output end of the stirring motor 72 penetrates through the side of the liquid storage tank 54 and the stirring shaft 73, the outer side wall of the stirring shaft 73 is fixedly connected with a plurality of stirring blades 71, it should be noted that the stirring motor 72 is turned on, the internal paint in the liquid storage tank 54 can be stirred, the precipitate is easily generated in the standing process, and the paint discharging quality is prevented from being affected.

Referring to fig. 1, a liquid inlet is arranged on one side surface of the top of the liquid storage tank 54, the liquid inlet is in threaded connection with a sealing plug, a transparent strip plate is mounted on the front end surface of the liquid storage tank 54, and it should be noted that the transparent strip plate can display the internal coating amount by removing the sealing plug and adding the required amount of coating liquid.

Referring to fig. 1 and 3, a cutting structure 8 for cutting the spliced plates is connected to the top of the other side wall of the bar case 1, the cutting structure 8 includes a pushing motor 82, a screw rod 83, a sliding protrusion 84, a second rectangular cover 87, a third air cylinder 88, a cutting blade 89, a lifting plate 8a and a cutting motor 8b, the second rectangular cover 87 is connected to the top of the other side wall of the bar case 1, a sliding groove 81 is formed in the side surface of the inner top of the second rectangular cover 87, the sliding protrusion 84 is slidably connected to the inside of the sliding groove 81, a side wall inside the sliding groove 81 is rotatably connected to the screw rod 83, the pushing motor 82 is installed on the front end surface of the top of the second rectangular cover 87, the output end of the pushing motor 82 penetrates through the second rectangular cover 87 and is fixedly connected to one end of the adjacent screw rod 83, a threaded hole matched with the screw rod 83 is formed in the inside of the sliding protrusion 84, the third air cylinder 88 is installed at the bottom of, rise and fall board 8a bottom installation cutting motor 8b, cutting piece 89 is connected to cutting motor 8 b's output, it needs to explain, through opening push motor 82, can drive lead screw 83 rotatory to drive sliding block 84 horizontal migration, through opening and pressing fixed knot structure 3, can press fixedly to rolling the former material board, press fixed back, through opening third cylinder 88 and cutting motor 8b, accomplish and need the position cutting.

Referring to fig. 1, a scrap cleaning and collecting structure 4 for cleaning scrap generated in plate cutting is connected to the bottom of a position, located in a cutting structure 8, of a strip box 1, the scrap cleaning and collecting structure 4 comprises a first induced draft fan 41, a scrap collecting cover box 42, a drawer box 43 and a blowing pipe 44, the side face, located right below a second rectangular cover 87, of the strip box 1 is communicated with the scrap collecting cover box 42, the drawer box 43 is installed at the inner bottom of the scrap collecting cover box 42, the first induced draft fan 41 is installed on one side face of the second rectangular cover 87, an outlet of the first induced draft fan 41 penetrates through the side face of the second rectangular cover 87 and is communicated with the horizontally arranged blowing pipe 44, the side face of the blowing pipe 44 is connected with the inner rear end face of the second rectangular cover 87, the outer side face of the blowing pipe 44 is provided with a plurality of uniformly arranged blowing holes 45, it should be noted that cutting scraps can be accumulated on the surface of a raw wood board, or partially flow into the scrap collecting cover box 42, first draught fan 41 is opened to the rethread, forms and bloies to former timber plank surface sweeps blows in a lateral wall department fast, thereby falls into collection bits cover case 42 inside, can fall into the inside drawer of drawer box 43, prevents that the saw-dust from flying in disorder, does not need artifical clearance to clean, facilitates for the clearance saw-dust.

Referring to fig. 1 and 4, a pressing and fixing structure 3 for fixing a plate processing process is connected to the inside of a spraying structure 5 and a cutting structure 8, the pressing and fixing structure 3 includes a first air cylinder 31, a first pressing plate 32, a second air cylinder 34, an air pump 35, an air pipe 36, an expansion rod 37, a second pressing plate 38 and suction cups 39, two first air cylinders 31 symmetrically arranged are installed on the top of a first rectangular cover 56, two second air cylinders 34 symmetrically arranged are installed on the top of an upper second rectangular cover 87, the output end of the first air cylinder 31 penetrates through the top of the first rectangular cover 56 and is connected with the first pressing plate 32, the output end of the second air cylinder 34 penetrates through the top of the second rectangular cover 87 and is connected with the second pressing plate 38, the bottom of the second pressing plate 38 is connected with the two suction cups 39, the air pump 35 is installed on two outer side surfaces of the upper second rectangular cover 87, the outlet of the air pump 35 is communicated with the two air pipes, the other end of the vent pipe 36 penetrates through the side of the second rectangular cover 87 and is communicated with the side of the suction cup 39, the top of the first press plate 32 is connected with the inner bottom of the first rectangular cover 56 through the telescopic sleeve 33, the top of the second press plate 38 is connected with the inner bottom of the second rectangular cover 87 through the telescopic rod 37, the top of the lifting plate 8a is connected with the bottom of the sliding bump 84 through the telescopic rod 37, it should be noted that the first cylinder 31 is opened to drive the first press plate 32 to move downwards, the preliminary extrusion and fixation of the cutting process is completed, the second cylinder 34 is opened to drive the second press plate 38 to move downwards, the suction cup 39 is extruded and adsorbed on the surface of the original plate, the top surface of the circular plate is adsorbed, the second cylinder 34 is opened to drive the second press plate 38 to move upwards, the bottom of the second press plate 38 can be completely exposed, and the uniform material spraying process at the bottom of the, after the raw materials are naturally dried at the bottom of the second pressing plate 38, the second air cylinder 34 and the air pump 35 are opened, the original plates are placed on the transportation structure 9 by the second air cylinder 34, and air is injected into the suction cup 39 by the air pump 35, so that the amount of the air inside the suction cup 39 is increased and the falling-off occurs.

Referring to fig. 1 and 5, a transportation structure 9 for transporting during the plate production process is connected inside a sliver can 1, the transportation structure 9 comprises a transportation roller 91, a belt 92, a rotating shaft 93, belt pulleys 94 and a servo motor 95, the interior of the sliver can 1 is respectively and rotatably connected with the transportation roller 91 through a plurality of uniformly arranged rotating shafts 93, one end of the rotating shaft 93 penetrates through the front end surface of the sliver can 1 and the belt pulley 94, the plurality of belt pulleys 94 are in transmission connection through the belt 92, the rear end surface of one side wall of the sliver can 1 is provided with the servo motor 95, the output end of the servo motor 95 penetrates through the side surface of the sliver can 1 and is connected with the adjacent rotating shaft 93, it should be noted that the servo motor 95 can control the transportation roller 91 to rotate forwards and backwards, can control the horizontal movement of the substrate plate, thereby control the horizontal movement cutting position during the cutting process, without adopting the traditional chain plate type, do benefit to the cutting process sweeps and collect the clearance, do benefit to the timber board and accomplish the cutting process, guarantee timber board bottom machine spraying process.

Referring to fig. 2, the first rectangular cover 56 and the second rectangular cover 87 located above are provided with channels 86 in a distributed manner on two side surfaces, the top side wall in the channel 86 is connected with a plurality of rubber strips 85 which are uniformly arranged, it should be noted that the rubber strips 85 reduce the possibility that wood chips of the first rectangular cover 56 fly outwards, the rubber strips 85 can reduce the internal odor outflow of the second rectangular cover 87, the rubber strips 85 can be lifted when being touched by a raw material plate in the transportation process, the transportation process of the raw material plate is not affected, and it is additionally noted that the related circuits and control are the prior art.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. An automatic production line for plate splicing is characterized by comprising:

the bottom of the long box (1) is fixedly connected with a plurality of uniformly arranged support rods (2);

the spraying structure (5) is used for connecting the spraying structure (5) for coating the splice plates with paint to the top of one side wall of the strip box (1), the spraying structure (5) comprises a liquid outlet vertical pipe (51), a coiled pipe (52), a liquid pump (53), a liquid storage tank (54), a communication pipe (55), a first rectangular cover (56), a liquid inlet pipe (57) and a spray head (58), the top and the bottom of one side wall of the strip box (1) are respectively communicated with the first rectangular cover (56), the external side surface of the first rectangular cover (56) is fixedly connected with the liquid storage tank (54), the embedded surface of the first rectangular cover (56) is fixedly connected with the coiled communication pipe (55), the outer side wall of the coiled communication pipe (55) is communicated with a plurality of uniformly arranged vertical pipes (51), the other end of the liquid outlet vertical pipe (51) is communicated with the spray head (58), the liquid pump (53) is installed on one side surface of the liquid storage tank (54), the inlet of the liquid pump (53) is communicated with, the outlet of the liquid pump (53) is communicated with a liquid inlet pipe (57), and the other end of the liquid inlet pipe (57) penetrates through the side surface of the first rectangular cover (56) and is communicated with the coiled pipe (52);

the peculiar smell treatment structure (6) is used for adsorbing and cleaning peculiar smell of the internal coating, and the peculiar smell treatment structure (6) is connected to the side wall of the support rod (2) close to the spraying structure (5);

the stirring structure (7) is used for preventing the coating from generating precipitation, and the stirring structure (7) is connected to the liquid storage tank (54);

the cutting structure (8) is used for splicing the cutting structures (8) for cutting the plates and is connected to the top of the other side wall of the strip box (1);

the transportation structure (9) is used for transporting the plate in the plate production process, and the transportation structure (9) is connected to the inside of the long strip box (1);

the pressing fixing structure (3) is used for fixing the pressing fixing structure (3) in the plate processing process and is connected to the spraying structure (5) and the cutting structure (8);

the scrap cleaning and collecting structure (4) is used for connecting the scrap cleaning and collecting structure (4) for cleaning scrap generated by cutting the plate to the bottom of the position, located on the cutting structure (8), of the strip box (1).

2. The automatic production line for splicing plates according to claim 1, wherein the peculiar smell treatment structure (6) comprises an air inlet pipe (61), a second induced draft fan (62) and a treatment box (63), activated carbon (64), drawer net box (65) and otter board (66), be close to lateral wall fixed connection processing case (63) of bracing piece (2) of spraying structure (5) position one side, the uncovered setting in bottom of processing case (63) and installation otter board (66), the lateral surface installation drawer net box (65) of processing case (63), activated carbon (64) are filled to the inside of drawer net box (65), the top installation second draught fan (62) of processing case (63), the export of second draught fan (62) and the top intercommunication of processing case (63), the import intercommunication intake pipe (61) of second draught fan (62), the other end of intake pipe (61) and the side intercommunication of adjacent first rectangle cover (56).

3. The automatic production line for splicing plates according to claim 1, wherein the stirring structure (7) comprises stirring blades (71), a stirring motor (72) and a stirring shaft (73), the stirring motor (72) is installed at the side center position of the liquid storage tank (54) far away from the first rectangular cover (56), the output end of the stirring motor (72) penetrates through the side surface of the liquid storage tank (54) and the stirring shaft (73), and the outer side wall of the stirring shaft (73) is fixedly connected with the stirring blades (71).

4. The automatic production line for splicing boards as claimed in claim 3, wherein a liquid inlet is arranged on one side surface of the top of the liquid storage tank (54), the liquid inlet is in threaded connection with a sealing plug, and a transparent strip board is arranged on the front end surface of the liquid storage tank (54).

5. The automatic production line for splicing plates according to claim 1, wherein the cutting structure (8) comprises a pushing motor (82), a screw rod (83), a sliding lug (84), a second rectangular cover (87), a third air cylinder (88), a cutting sheet (89), a lifting plate (8a) and a cutting motor (8b), the second rectangular cover (87) is connected to the top of the other side wall of the long box (1), a sliding groove (81) is formed in the side surface of the inner top of the second rectangular cover (87), the sliding lug (84) is slidably connected to the inside of the sliding groove (81), the screw rod (83) is rotatably connected to one side wall inside the sliding groove (81), the pushing motor (82) is installed on the front end face of the top of the second rectangular cover (87), the output end of the pushing motor (82) penetrates through the second rectangular cover (87) and is fixedly connected to one end of the adjacent screw rod (83), a threaded hole matched with the screw rod (83) is formed in the inside of the sliding lug (84, the bottom of the sliding bump (84) is provided with a third air cylinder (88), the output end of the third air cylinder (88) is connected with a lifting plate (8a), the bottom of the lifting plate (8a) is provided with a cutting motor (8b), and the output end of the cutting motor (8b) is connected with a cutting piece (89).

6. The automatic production line for plate splicing according to claim 5, wherein the scrap cleaning and collecting structure (4) comprises a first induced draft fan (41), a scrap collecting cover box (42), a drawer box (43) and a blowing pipe (44), the side face of the sliver box (1) which is positioned right below the second rectangular cover (87) is communicated with the scrap collecting cover box (42), the drawer box (43) is installed at the inner bottom of the scrap collecting cover box (42), the first induced draft fan (41) is installed on one side face of the second rectangular cover (87), the outlet of the first induced draft fan (41) penetrates through the side face of the second rectangular cover (87) and is communicated with the blowing pipe (44) which is horizontally arranged, the side face of the blowing pipe (44) is connected with the inner rear end face of the second rectangular cover (87), and the outer side face of the blowing pipe (44) is provided with a plurality of uniformly arranged blowing holes (45).

7. The automatic production line for splicing plates according to claim 6, wherein the pressing and fixing structure (3) comprises a first air cylinder (31), a first pressing plate (32), a second air cylinder (34), an air pump (35), an air pipe (36), an expansion link (37), a second pressing plate (38) and suction cups (39), two first air cylinders (31) are symmetrically arranged on the top of a first rectangular cover (56), two second air cylinders (34) are symmetrically arranged on the top of a second rectangular cover (87) positioned above, the output end of each first air cylinder (31) penetrates through the top of the first rectangular cover (56) and is connected with the first pressing plate (32), the output end of each second air cylinder (34) penetrates through the top of the second rectangular cover (87) and is connected with the second pressing plate (38), the bottom of each second pressing plate (38) is connected with the two suction cups (39), the air pumps (35) are respectively arranged on the two outer side surfaces of the second rectangular cover (87) positioned above, the outlet of the air pump (35) is communicated with two air pipes (36), the other ends of the air pipes (36) penetrate through the side face of the second rectangular cover (87) and are communicated with the side face of the suction disc (39), the top of the first pressing plate (32) is connected with the inner bottom of the first rectangular cover (56) through an expansion sleeve (33), the top of the second pressing plate (38) is connected with the inner bottom of the second rectangular cover (87) through an expansion rod (37), and the top of the lifting plate (8a) is connected with the bottom of the sliding bump (84) through the expansion rod (37).

8. The automatic production line for plate splicing according to claim 7, wherein the transportation structure (9) comprises a transportation roller (91), a belt (92), a rotating shaft (93), a belt pulley (94) and a servo motor (95), the transportation roller (91) is respectively and rotatably connected to the inside of the strip box (1) through a plurality of rotating shafts (93) which are uniformly arranged in number, one end of each rotating shaft (93) penetrates through the front end face of the strip box (1) and each belt pulley (94), the plurality of belt pulleys (94) are in transmission connection through the belt (92), the servo motor (95) is arranged on the rear end face of one side wall of the strip box (1), and the output end of each servo motor (95) penetrates through the side face of the strip box (1) and is connected with the adjacent rotating shaft (93).

9. Automatic production line for splicing plates according to claim 8, characterized in that the first rectangular cover (56) and the second rectangular cover (87) positioned above are provided with channels (86) on both sides, and the side wall of the top inside the channel (86) is connected with a plurality of rubber strips (85) which are uniformly arranged.