CN118004692A - UV curing machine composite set - Google Patents

Abstract

Including first UV curing machine and second UV curing machine, first UV curing machine sets up with the second UV curing machine side by side, be provided with first transport mechanism on the first UV curing oven, first transport mechanism includes first transmission band, be provided with second transport mechanism on the second UV curing oven, second transport mechanism includes the second transmission band, the portion structure of first UV curing machine with the portion structure mirror symmetry of second UV curing machine sets up, first transmission band with the second transmission band is not centrally located, because the portion structure of first UV curing machine sets up with the portion structure mirror symmetry of second UV curing machine, so have first transport mechanism and second transport mechanism mirror symmetry to set up, namely first transmission band 114 sets up with second transmission band 24 mirror symmetry, with first transmission band 114 and second transmission band 24 so to match the present setting of mill, can reduce the interval between first UV curing machine and the second UV curing machine, has consequently solved the problem that adjacent curing machine interval reduces.

Description

UV curing machine composite set

Technical Field

The invention relates to the field of manufacturing of battery pieces in the photovoltaic industry, in particular to a UV curing unit combination device.

Background

Patent application number 2023118082363 has filed an integrated UV curing machine, can set up the UV curing machine of many above-mentioned types and work together as required, and current mill or workshop, area and space are all limited, often can not install simultaneously by more than two UV curing machines, perhaps go to dock current equipment, and current equipment size all has been fixed, can only improve the structure of UV curing machine according to actual conditions, reduces area and space.

Aiming at the defects of the prior art, how to reduce the distance between two adjacent UV curing machines is a problem to be solved.

Disclosure of Invention

The invention aims to provide a combined device of UV curing machines, which solves the problem of installing two UV curing machines in a narrow space.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the invention provides a UV curing unit combination device which comprises a first UV curing machine and a second UV curing machine, wherein the first UV curing machine comprises a first UV curing furnace, the second UV curing machine comprises a second UV curing furnace, and the first UV curing machine and the second UV curing machine are arranged in parallel.

Optionally, the second UV curing machine is internally provided with a water collection tank, the water collection tank comprises a water collection shell, a first water inlet pipe and a second water inlet pipe are arranged on the water collection shell in a penetrating manner, a first water outlet pipe is arranged on the first water inlet pipe, a second water outlet pipe is arranged on the second water inlet pipe, a first valve is arranged on the first water inlet pipe or the first water outlet pipe, a second valve is arranged on the second water inlet pipe or the second water outlet pipe, and the first valve and the second valve are both positioned in the water collection shell.

Optionally, the second UV curing machine further comprises a receiving mechanism, the receiving mechanism comprises a driving shaft, a driven shaft and a support, the driving shaft and the driven shaft are rotatably arranged on the support, a first conveying belt and a second conveying belt are respectively sleeved at two ends of the driving shaft and two ends of the driven shaft, and the first conveying belt and the second conveying belt are in butt joint with the conveying belt.

Further, the second UV curing machine still includes storage mechanism, storage mechanism with receiving mechanism cooperation sets up, storage mechanism includes sharp module and slide, the slide slides and sets up on the sharp module, be provided with first curb plate on the slide, both ends are provided with roof and bottom plate respectively about the first curb plate, the roof with be provided with the second curb plate between the bottom plate, first curb plate with second curb plate looks interval sets up, be provided with first pillar on the first curb plate, be provided with the second pillar on the second curb plate, first pillar with the second pillar sets up relatively.

Further, the material receiving mechanism is provided with a clamping mechanism, the clamping mechanism comprises a servo motor and a driven rod, a supporting belt is sleeved on the servo motor and the driven rod, a first support plate and a second support plate are respectively arranged on two sides of the supporting belt, and the first support plate and the second support plate are close to each other or far away from each other.

Further, be provided with first diaphragm on the first extension board, be provided with the second diaphragm on the second extension board, set up a plurality of first gyro wheels on the first diaphragm, set up a plurality of second gyro wheels on the second extension board, a plurality of the cover is equipped with first centre gripping area on the first gyro wheel, a plurality of the cover is established the second centre gripping area on the second gyro wheel.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

According to the combined device of the UV curing machine, the part structure of the first UV curing machine and the part structure of the second UV curing machine are arranged in a mirror symmetry mode, so that the first transmission mechanism and the second transmission mechanism are arranged in a mirror symmetry mode, namely the first transmission belt and the second transmission belt are arranged in a mirror symmetry mode, the first transmission belt and the second transmission belt are used for matching with the existing equipment of a factory, the space between the first UV curing machine and the second UV curing machine can be reduced, the occupied space of the two UV curing machines is reduced, at least two UV curing machines can be installed in a narrow space, and the problem that two UV curing machines are installed in the narrow space is solved.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a perspective view of a UV curing machine assembly according to one embodiment of the invention;

FIG. 2 is a perspective view of the second UV curing machine shown in FIG. 1;

fig. 3 is a left side view of the header tank shown in fig. 2;

Fig. 4 is a right side view of the header tank shown in fig. 2;

FIG. 5 is a left side view of a second UV curing oven;

FIG. 6 is a right side view of a second UV curing oven;

FIG. 7 is an enlarged view of FIG. 6 at A;

FIG. 8 is an enlarged view at B in FIG. 6;

FIG. 9 is a front view of FIG. 6;

FIG. 10 is an enlarged view at C in FIG. 9;

FIG. 11 is a side view of FIG. 6;

FIG. 12 is an enlarged view of the receiving and storage mechanisms;

FIG. 13 is an enlarged view of the clamping mechanism;

FIG. 14 is a diagram of the internal structure of the clamping mechanism;

fig. 15 is an enlarged view of the portion D shown in fig. 13;

FIG. 16 is a perspective view of the storage mechanism;

Fig. 17 is a perspective view of the transport mechanism;

FIG. 18 is a left side view of FIG. 17;

fig. 19 is an enlarged view of the portion E shown in fig. 18.

Wherein reference numerals are as follows:

2. A second transmission mechanism; 3. a support block; 4. a cooling box; 5. a material receiving mechanism; 6. a cooling tube; 7. a storage mechanism; 8. a clamping mechanism; 9. a slide rail; 10. a slide block; 11. a lower cover; 12. a UV irradiation lamp; 13. an upper cover; 14. a material conveying channel; 15. a vertical rod; 16. an air suction cover; 17. a vertical frame; 18. adjusting a screw; 20. a photovoltaic cell; 21. a motor; 22. a driving wheel; 23. driven wheel; 24. a second conveyor belt; 25. a first adjusting frame; 26. a second adjusting frame; 27. a first adjustment wheel; 28. a second adjustment wheel; 30. a groove; 33. a third clamping plate; 34. a fourth clamping plate; 35. a first limiting hole; 36. a second limiting hole; 40. a carrier; 41. a first correction wheel; 42. a second correction wheel; 43. a first limit wheel; 44. the second limiting wheel; 45. a first clamping plate; 46. a second clamping plate; 47. a first hook; 48. a second hook; 49. a first spring; 50. a second spring; 51. a driving shaft; 52. a driven shaft; 53. a bracket; 55. a first conveyor belt; 56. a second conveyor belt; 59. a position sensor; 60. a cooling hole; 70. a second cushion block; 71. a linear module; 72. a slide plate; 73. a first side plate; 74. a second side plate; 75. a top plate; 76. a bottom plate; 77. a first support column; 78. a second support; 79. a first pad; 81. a servo motor; 82. a driven rod; 83. a support belt; 84. a second clamping band; 85. a first support plate; 86. a second support plate; 87. a first cross plate; 88. a second cross plate; 89. a first clamping band; 100. a first UV curing machine; 110. a first UV curing oven; 120. a first transmission mechanism; 124. a first conveyor belt; 200. a second UV curing machine; 210. a second UV curing oven; 121. a fixing hole; 131. an air outlet; 151. a long hole; 161. An air inlet; 162. summarizing the exhaust ports; 250. a buffer layer; 300. a water collection tank; 310. a water collecting shell; 320. a pipe; 330. a control valve; 311. a water outlet hole; 312. an opening; 313. a first pallet; 314. a second pallet; 315. a water conduit; 321. a first water pipe; 322. a second water pipe; 323. a first clip; 324. a second clip; 331. a first valve; 332. a second valve; 333. a first water outlet pipe; 334. a second water outlet pipe; 751. a first top hole; 752. a second top hole; 753. a third top hole; 754. a fourth top hole; 761. a first bottom hole; 762. a second bottom hole; 763. a third bottom hole; 764. a fourth bottom hole; 891. a second roller; 842. and a second roller.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In addition, the technical features of the different embodiments of the present invention described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1 and 2, the first UV curing machine 100 and the second UV curing machine 200 are included, the first UV curing machine 100 and the second UV curing machine 200 are arranged in parallel, the first UV curing machine 100 includes a first UV curing furnace 110, the second UV curing machine 200 includes a second UV curing furnace 210, a first transmission mechanism 120 is disposed on the first UV curing furnace 110, the first transmission mechanism 120 includes a first transmission belt 124, a second transmission mechanism 2 is disposed on the second UV curing furnace 210, and the second transmission mechanism 2 includes a second transmission belt 24.

The part structure of the first UV curing machine 100 and the part structure of the second UV curing machine 200 are arranged in a mirror symmetry manner, the first conveying mechanism 120 and the second conveying mechanism 2 are arranged in a mirror symmetry manner, so that the first conveying belt 124 and the second conveying belt 24 are arranged in a mirror symmetry manner, the first conveying belt 124 and the second conveying belt 24 are used for abutting two devices of a factory, and the two devices are usually very close to each other, so that the first conveying belt 124 and the second conveying belt 24 are required to be very close to each other, and the key is that the first conveying belt 114 and the second conveying belt 24 are abutted, the first conveying belt 114 and the second conveying belt 24 are arranged in a non-centering manner, that is, the first conveying belt 114 is arranged at an edge-abutting position of the first UV curing machine 100, and the second conveying belt 24 is arranged at an edge-abutting position of the second UV curing machine 200, so that the whole first UV curing machine 100 and the second UV curing machine 200 occupy a small area and a small occupied space.

As shown in fig. 3 and 4, the first UV curing machine 100 and the second UV curing machine 200 are both provided with a water collection tank 300, in this example, taking the water collection tank 300 in the second UV curing machine 200 as an example, the water collection tank 300 includes a water collection shell 310, a first water inlet pipe 321 and a second water inlet pipe 322 are perforated on the water collection shell 310, a water outlet 311 is provided at the bottom of the water collection shell 310, the water collection shell 310 is an insulator, the first water inlet pipe 321 and the second water inlet pipe 322 are disposed above the water outlet 311, the water outlet 311 is lower than the periphery, and liquid in the water collection shell 310 is sent out from the water outlet 311.

The first water inlet pipe 321 is provided with a first water outlet pipe 333, the second water inlet pipe 322 is provided with a second water outlet pipe 334, the first water inlet pipe 321 and the second water inlet pipe 322 are arranged in a vertically staggered mode, the first water inlet pipe 321 or the first water outlet pipe 333 is provided with a first valve 331, that is, the first valve 331 is arranged on the first water inlet pipe 321 or the first water outlet pipe 333, the second water inlet pipe 322 or the second water outlet pipe 334 is provided with a second valve 332, that is, the second valve 332 is arranged on the second water inlet pipe 322 or the second water outlet pipe 334.

Because the header tank in this case cooperates the UV curing machine to use to set up in the UV curing machine bottom, the UV curing machine outside is provided with the housing, so the header tank also is located the housing, and the one side board laminating of housing is on observation window 312, and the one side board of housing is equivalent to the door of observation window 312 department, and the housing is an integer during normal use, if the header tank needs maintenance or looks at, just unpacks a curb plate of housing.

The first valve 331 and the second valve 332 are arranged left and right in a staggered manner, the first valve 331 and the second valve 332 are both positioned in the water collecting shell 310, so that exudation liquid at the joint of the first valve 331 and the first water inlet pipe 321 falls into the water collecting shell 310, exudation liquid at the joint of the second valve 332 and the second water inlet pipe 322 also falls into the water collecting shell 310, and then exudation liquid is discharged from the water outlet hole 311 in the water collecting shell 310, and the bottom of the water collecting shell 310 is in a groove shape.

The height of first inlet tube 321 is less than the height of second inlet tube 322, be provided with viewing window 312 on the shell 310 that catchments, first inlet tube 321 is close to viewing window 312, in this example, first inlet tube 321 and second inlet tube 322 are parallel when getting into the shell 310 that catchments, first inlet tube 321 is crooked downwards in the shell 310 that catchments, then the straight line extends again, the height of first inlet tube 321 and the height of second inlet tube 322 are different, be convenient for inspect or maintain from viewing window 312, viewing window 312 bottom is provided with guard plate 316, the region that guard plate 316 encloses with the shell 310 that catchments is the ponding groove, aqueduct 315 is located the ponding groove.

The first water inlet pipe 321 is provided with a plurality of first water outlet pipes 333, the first water outlet pipes 333 are provided with first valves 331, the first valves 331 are uniformly arranged, so that a plurality of first water outlet pipes 333 are also uniformly arranged, the second water inlet pipe 322 is provided with a plurality of second water outlet pipes 334, the second water outlet pipes 334 are provided with second valves 332, the second water outlet pipes 332 are uniformly arranged, the second water outlet pipes 334 are also uniformly arranged, the first water outlet pipes 333 and the second water outlet pipes 334 are staggered in the vertical direction, so that each first water outlet pipe 333 and each second water outlet pipe 334 are observed from the observation window 312, and the first water outlet pipes 333 and the second water outlet pipes 334 upwards penetrate out of the water collecting shell 310.

Be provided with first layer board 313 and second layer board 314 in the catchment shell 310, first inlet tube 321 sets up on first layer board 313, and second inlet tube 322 sets up on second layer board 314, and first layer board 313 holds first inlet tube 321, and second layer board 314 holds second inlet tube 322, avoids first inlet tube 321 and second inlet tube 322 to take place to buckle, reduces the liquid velocity of flow.

The first inlet tube 321 cover is equipped with first clamp 323, and first clamp 323 joint is on first layer board 313, and second inlet tube 322 cover is established on second clamp 324, and second clamp 324 joint is on second layer board 314, and first clamp 323 and second clamp 324 are unrestricted in setting up the quantity, and first clamp 323 prevents that first inlet tube 321 from rocking, and second clamp 324 prevents that second inlet tube 322 from rocking.

A water conduit 315 is provided in the water outlet 311, the water conduit 315 extending outside the housing, in this case the water conduit 315 being straight, but may also be provided as a curved.

The observation window 312 faces the extending directions of the first water inlet pipe 321 and the second water inlet pipe 322, that is, the extending directions of the first water inlet pipe 321 and the second water inlet pipe 322 do not pass through the observation window 312, so that an operator can conveniently observe the first water inlet pipe 321 and the second water inlet pipe 322 from the observation window 312, that is, the first water inlet pipe 321 and the second water inlet pipe 322 are not obstructed from the observation window 312.

As shown in fig. 5, the second UV curing oven 210 includes a lower housing 11, a UV irradiation lamp 12, and an upper housing 13, and the second transfer mechanism 2 includes a motor 21, a driving wheel 22, and a driven wheel 23.

The UV irradiation lamp 12 is connected to the lower cover 11, the upper cover 13 is arranged in a liftable manner, and when the upper cover 13 ascends, the distance between the upper cover 13 and the lower cover 11 is increased, so that maintenance of the UV irradiation lamp 12 is facilitated.

A material conveying channel 14 is arranged in the lower cover 11, a UV irradiation lamp 12 is arranged above the material conveying channel 14, and the UV irradiation lamp 12 is used for irradiating products on the material conveying channel 14.

The cooling box 4 is provided on the rotation path of the second conveyor belt 24, the second conveyor belt 24 passes through the cooling box 4, and both the second conveyor belt 24 and the photovoltaic cell 20 are cooled in the cooling box 4.

As shown in fig. 6, the edge of the lower cover 11 is provided with a plurality of vertical rods 15, the vertical rods 15 are used for connecting the UV irradiation lamps 12, the driving end of the motor 21 is connected with the driving wheel 22 through a chain, the driving wheel 22 and the driven wheel 23 are sleeved on the second conveying belt 24, the material conveying channel 14 is positioned on the conveying path of the second conveying belt 24, the photovoltaic cell 20 is placed on the second conveying belt 24, then the photovoltaic cell 20 on the second conveying belt 24 is irradiated by the UV irradiation lamps 12, the UV irradiation lamps 12 generate heat in the irradiation process, and gaps are reserved between the lower cover 11 and the upper cover 13 for gas circulation, so that the UV irradiation lamps 12 generate hot gas in the irradiation process and automatically disperse, and heat dissipation is realized.

As shown in fig. 7, which is an enlarged view of the portion a shown in fig. 2, each upright 15 is provided with two elongated holes 151 extending vertically in parallel.

As shown in fig. 8, the top of the upright 15 extends inwards to form an extension part 152, an adjusting screw 18 is rotatably arranged in the extension part 152, the adjusting screw 18 extends vertically downwards, the adjusting screw 18 is in threaded connection with the UV irradiation lamp 12, a bolt head is arranged in the top of the adjusting screw 18, and the adjusting screw 18 can be rotated by screwing the bolt head, so that the height of the UV irradiation lamp 12 is finely adjusted, after the fine adjustment, the UV irradiation lamp 12 is screwed in the long hole 151 again, and due to the hanging and pulling action of the adjusting screw 18 on the UV irradiation lamp 12, the UV irradiation lamp 12 does not fall in the adjusting process, and no additional part is required for supporting the UV irradiation lamp 12.

As shown in fig. 9, fig. 9 is an enlarged view of fig. 8 at C, and the UV irradiation lamp 12 is provided with a fixing hole 121. The UV irradiation lamp 12 can be fastened by passing through the long holes 151 and screwing in the fixing holes 121 by bolts, and the UV irradiation lamp 12 can be adjusted in height within the length range of the long holes 151, only one long hole 151 in a single upright 15 can be provided, and the provision of two long holes 151 is favorable for stabilizing the UV irradiation lamp 12.

As shown in fig. 6, three suction hoods 16 are provided at the top of the upper hood 13, and four air inlets 161 are provided at the sides of each suction hood 16. At the top of the upper housing 3, four air outlets 131 are provided corresponding to each suction housing 16, and the air outlets 131 are connected to the inside of the upper housing 13. The air outlet 131 and the air inlet 161 are connected through a connecting pipe not shown in the figure, the top of the air suction cover 16 is provided with a collecting air outlet 162, the collecting air outlet 162 is connected into a negative pressure pipe, hot air generated during operation in the upper cover 13 can be extracted, and the three air suction covers 16 are distributed in the length direction of the upper cover 13, so that the extraction efficiency is improved, and in other embodiments, the number of the air suction covers 16 is not particularly limited.

As shown in fig. 6 and 11, the second UV curing oven 210 further includes a stand 17, a vertically extending slide rail 9 is provided on the stand 17, a slider 10 is provided at the rear side of the upper cover 3, and the slider 10 is slidably connected to the slide rail 9, so that the upper cover 13 can be lifted up and down on the stand 17, and in this example, a lifting driving member, which is not shown in the drawings, is a cylinder, the driving end of which is connected to the upper cover 13, and the upper cover 13 can be lifted up and down by the cylinder.

As shown in fig. 12, a receiving mechanism 5 is arranged outside the second transmission mechanism 2, the receiving mechanism 5 comprises a driving shaft 51, a driven shaft 52 and a support 53, the driving shaft 51 and the driven shaft 52 are rotatably arranged on the support 53, the driving shaft 51 is connected with a driving end of a driver through a belt, the driver is not shown in the drawing, the driving end enables the driving shaft 51 to rotate through the belt, and the end of the support 53 is lapped on the second transmission mechanism 2.

The two ends of the driving shaft 51 and the two ends of the driven shaft 52 are respectively sleeved with a first conveying belt 55 and a second conveying belt 56, the first conveying belt 55 and the second conveying belt 56 are in butt joint with the second conveying belt 24, the photovoltaic cell 20 on the second conveying belt 24 moves onto the first conveying belt 55 and the second conveying belt 56, the second conveying belt 24 circularly rotates on the driving wheel 22 and the driven wheel 23, and the photovoltaic cell 20 is placed on the upper half part of the second conveying belt 24.

The number of the material receiving mechanisms 5 is not limited, in this example, a plurality of material receiving mechanisms 5 are provided, the photovoltaic cell 20 can dissipate heat on the material receiving mechanisms 5, and the plurality of material receiving mechanisms 5 are arranged on the circulation path of the material receiving mechanisms 5.

The storage mechanism 7 is arranged in cooperation with the material receiving mechanism 5, the storage mechanism 7 and the clamping mechanism 8 are respectively arranged on the adjacent material receiving mechanism 5, the storage mechanism 7 comprises a linear module 71 and a sliding plate 72, the sliding plate 72 can be slidably arranged on the linear module 71, a first side plate 73 is arranged on the sliding plate 72 in parallel with the linear module 71, a top plate 75 and a bottom plate 76 are respectively arranged at the upper end and the lower end of the first side plate 73, a second side plate 74 is arranged between the top plate 75 and the bottom plate 76, the first side plate 73 and the second side plate 74 are arranged at intervals, the first side plate 73 and the second side plate 74 are arranged opposite to each other, the solidified photovoltaic cell 20 is contained between the first side plate 73 and the second side plate 74, and the distance between the first side plate 73 and the second side plate 74 is adjustable.

The first side plate 73 is provided with a first support column 77, the second side plate 74 is provided with a second support column 78, the first support column 77 is opposite to the second support column 78, the first support column 77 and the second support column 78 are used for supporting the solidified photovoltaic cell 20 in a co-directional mode, the width of the photovoltaic cell 20 is smaller than the distance between the first conveyor belt 55 and the second conveyor belt 56, that is, two ends of the photovoltaic cell 20 extend to the outside of the first conveyor belt 55 and the second conveyor belt 56 respectively, meanwhile, the first support column 77 is flush with the first conveyor belt 55, and the second support column 78 is flush with the second conveyor belt 56.

As shown in fig. 13 and 14, a clamping mechanism 8 is arranged on the material receiving mechanism 5, the clamping mechanism 8 comprises a servo motor 81 and a driven rod 82, a supporting belt 83 is sleeved on the driving end of the servo motor 81 and the driven rod 82, a first supporting plate 85 and a second supporting plate 86 are respectively arranged on two sides of the supporting belt 83, the servo motor 81 drives the supporting belt 83 to rotate back and forth, the moving length of the supporting belt 83 is limited, and the corresponding first supporting plate 85 and second supporting plate 86 move back and forth, so that the first supporting plate 85 and the second supporting plate 86 are close to each other or far away from each other.

The first support plate 85 is provided with a first transverse plate 87, the second support plate 86 is provided with a second transverse plate 88, the first transverse plate 87 is provided with a plurality of first rollers 89, the second support plate 86 is provided with a plurality of second rollers 84, the first rollers 89 are sleeved with first clamping belts 891, the second rollers 84 are sleeved with second clamping belts 842, the photovoltaic cell 20 is placed on the first conveyor belt 55 and the second conveyor belt 56, the photovoltaic cell 20 is possibly inclined between entering the storage mechanism 7, the first conveyor belt 55 and the second conveyor belt 56 are located between the first clamping belts 891 and the second clamping belts 842, and therefore the inclined photovoltaic cell 20 is clamped by the first clamping belts 891 and the second clamping belts 842 together, and the inclined photovoltaic cell 20 is corrected by the first clamping belts 891 and the second clamping belts 842.

While the first clamping band 891 is rotatable on the first roller 89 and the second clamping band 842 is rotatable on the second roller 84, so that the photovoltaic cell 20 is in rolling friction with the first roller 89 and the second clamping band 842.

A position sensor 59 is disposed between the first conveyor belt 55 and the second conveyor belt 56, and when the photovoltaic cell 20 reaches the set position, the position sensor 59 is in signal connection with the linear module 71, the position sensor 59 signals the linear module 71, and the linear module 71 drives the slide plate 72 to move upward, so that the storage mechanism 7 completes one-time storage of the photovoltaic cell 20, and the first conveyor belt 55 and the second conveyor belt 56 are located between the first side plate 73 and the second side plate 74.

Further, the first support column 77 may be provided in two or more at the same height, the second support column 78 may be provided in two or more at the same height, the first support column 77 and the second support column 78 may be provided in a plurality symmetrically in the vertical direction, two adjacent first support columns 77 and two second support columns 78 in the vertical direction are used for accommodating the photovoltaic cell 20, and the first support column 77 and the second support column 78 may be a cylinder or a flat plate.

As shown in fig. 15, two supporting blocks 3 are provided between the driving shaft 51 and the driven shaft 52, the two supporting blocks 3 are arranged at intervals, grooves 30 are provided on the supporting blocks 3, the grooves 30 extend to the outer edges of both ends of the supporting blocks 3, the first conveyor belt 55 and the second conveyor belt 56 are positioned on the corresponding grooves 30, and because the photovoltaic cell 20 has weight, the middle parts of the first conveyor belt 55 and the second conveyor belt 56 may bend downwards, so that the middle sinking parts of the first conveyor belt 55 and the second conveyor belt 56 fall on the grooves 30, but the first conveyor belt 55 and the second conveyor belt 56 do not contact with the inner bottom walls of the grooves 30, and when the first conveyor belt 55 and the second conveyor belt 56 sink, the photovoltaic cell 20 does not fall on the supporting blocks 3, that is, the photovoltaic cell 20 does not fall on the top ends of both side walls of the grooves 30.

As shown in fig. 16, the top plate 75 is provided with a first top hole 751, a second top hole 752, a third top hole 753 and a fourth top hole 754, the bottom plate 76 is correspondingly provided with a first bottom hole 761, a second bottom hole 762, a third bottom hole 763 and a fourth bottom hole 764, the first side plate 73 is movably arranged in the first top hole 751, the second top hole 752, the first bottom hole 761 and the second bottom hole 762, the second side plate 74 is movably arranged in the third top hole 753, the fourth top hole 754, the third bottom hole 763 and the fourth bottom hole 764, and the first side plate 73 and the second side plate 74 can move close to each other or move away from each other.

The first top hole 751, the second top hole 752, the third top hole 753, and the fourth top hole 754 are kidney-shaped holes, may be rectangular holes, and the first bottom hole 761, the second bottom hole 762, the third bottom hole 763, and the fourth bottom hole 764 are kidney-shaped holes, and may be rectangular holes.

The first support posts 77 and the second support posts 78 are at least two in the horizontal direction, that is, the first support posts 77 are at least two in the horizontal direction, and the second support posts 78 are also at least two, so that the photovoltaic cell 20 can be stably placed on the two first support posts 77 and the two second support posts 78, the first support posts 77 and the second support posts 78 are preferably cylinders, so that the contact area of the photovoltaic cell 20 with the cylinders is small, the photovoltaic cell 20 dissipates heat quickly, the first support posts 77 and the second support posts 78 can also be cubes, so that the contact area of the first support posts 77 and the second support posts 78 with the photovoltaic cell 20 is large, and the stability effect is better.

The first support posts 77 and the second support posts 78 are uniformly spaced apart from each other in the vertical direction, so that when the first support posts 77 and the second support posts 78 of the upper layer support the photovoltaic cells 20, the linear module 71 drives the slide plate to move upward, and then the first support posts 77 and the second support posts 78 of the second layer are flush with the first conveyor belt 55 and the second conveyor belt 56, respectively, to wait for the next photovoltaic cell 20 to reach the set position.

A position sensor 59 is disposed between the first conveyor belt 55 and the second conveyor belt 56, and the position sensor 59 is in signal connection with the linear module 71 when the photovoltaic cell 20 reaches the set position.

The bottom plate 76 bottom symmetry is provided with first cushion 79 and second cushion 70, and first cushion 79 and second cushion 70 looks interval setting, and first cushion 79 and second cushion 70 mainly play the cushioning effect, and bottom plate 76 is in the decline in-process, or in the handling, and bottom plate 76 always lands earlier, if place photovoltaic cell 20 on first pillar 77 and the second pillar 78, then first cushion 79 and second cushion 70 just can reduce the vibration of photovoltaic cell 20, avoid few photovoltaic cell 20 landing.

The top plate 75 is provided with a first fixing groove 755, the bottom plate 76 is provided with a second fixing groove 756, the first fixing groove 755 is opposite to the second fixing groove 756, the first side plate 73 and the second side plate 74 are alternately arranged in the first fixing groove 755 and the second fixing groove 756, the first side plate 73 is movable in the first fixing groove 755 and the second fixing groove 756, and the second side plate 74 is movable in the first fixing groove 755 and the second fixing groove 756.

The first top hole 751, the second top hole 752, the third top hole 753, and the fourth top hole 754 are all disposed in the first fixing groove 755, and the first bottom hole 761, the second bottom hole 762, the third bottom hole 763, and the fourth bottom hole 764 are all disposed in the second fixing groove 756, and the extending direction of the first fixing groove 755 is the same as that of the first top hole 751, the second top hole 752, the third top hole 753, and the fourth top hole 754, and the extending direction of the second fixing groove 756 is the same as that of the first bottom hole 761, the second bottom hole 762, the third bottom hole 763, and the fourth bottom hole 764.

As shown in fig. 17, 18 and 19, the second conveying mechanism 2 is provided with a cooling pipe 6, the cooling pipe 6 is provided with a cooling hole 60, the cooling hole 60 is aligned with the second conveying belt 24, and high-pressure gas is introduced into the cooling pipe 6, so that the second conveying belt 24 is heated together when the photovoltaic cell 20 is solidified, and the second conveying belt 24 is continuously at a high temperature in the process of circulating rotation, so that the high-pressure gas is discharged by the cooling pipe 6, and the high-pressure gas is blown to the second conveying belt 24 through the cooling hole 60, so as to further cool the second conveying belt 24.

The outer layer of the second transmission belt 24 is provided with a buffer layer 250, the buffer layer 250 is attached to the outer surface of the second transmission belt 24, and the photovoltaic cell 20 has elasticity when the buffer layer 250 is subjected to external force.

The cooling tube 6 is internally filled with high-pressure gas, and the second conveyor belt 24 is heated together when the photovoltaic cell 20 is solidified, so that the second conveyor belt 24 is continuously at high temperature in the process of circulating rotation, the cooling tube 6 is used for discharging the high-pressure gas, and the high-pressure gas is blown to the second conveyor belt 24 through the cooling holes 60 to further cool the second conveyor belt 24.

The second transmission belt 24 is provided with a first adjusting frame 25 and a second adjusting frame 26 on a rotating path, the first adjusting frame 25 and the second adjusting frame 26 are arranged at intervals, namely, the distance between the first adjusting frame 25 and the second adjusting frame 26 is adjustable, the driving wheel 22 and the driven wheel 23 are respectively arranged above the first adjusting frame 25 and the second adjusting frame 26, the second transmission belt 24 is used for a long time at high temperature, and the second transmission belt 24 is loosened on the driving wheel 22 and the driven wheel 23.

The first adjusting frame 25 is rotatably provided with a first adjusting wheel 27, the second adjusting frame 26 is rotatably provided with a second adjusting wheel 28, and the second conveying belt 24 is sleeved on the first adjusting wheel 27 and the second adjusting wheel 28, so that the second conveying belt 24 can keep the set looseness, and the second conveying belt 24 returns to the original state when the temperature is reduced.

A bearing frame 40 is arranged between the first adjusting frame 25 and the second adjusting frame 26, the rotating path of the second conveying belt 24 is arranged at the upper part of the bearing frame 40, the first adjusting frame 25 and the second adjusting frame 26 cannot lean far or lean close, when the temperature of the second conveying belt 24 is too high, the second conveying belt 24 between the first adjusting wheel 27 and the second adjusting wheel 28 sags, and thus the sagged second conveying belt 24 falls onto the bearing frame 40.

The two sides of the bearing frame 40 are respectively provided with a first correcting wheel 41 and a second correcting wheel 42, the rotating path of the second transmission belt 24 is positioned between the first correcting wheel 41 and the second correcting wheel 42, namely, the second transmission belt 24 is positioned between the first correcting wheel 41 and the second correcting wheel 42, the second transmission belt 24 can move in position in the rotating process, and the first correcting wheel 41 and the second correcting wheel 42 are rotatably arranged, so that the shifted second transmission belt 24 is in rolling friction with the first correcting wheel 41 and the second correcting wheel 42, and the second transmission belt 24 is corrected in position by the first correcting wheel 41 and the second correcting wheel 42.

Further, the first correction wheel 41 and the second correction wheel 42 are symmetrically arranged, and a plurality of first correction wheels 41 and a plurality of second correction wheels 42 can be symmetrically arranged, so that the second conveyor belt 24 has better correction effect.

A first limiting wheel 43 is arranged between the first adjusting frame 25 and the driving wheel 22, a first clamping plate 45 and a second clamping plate 46 are respectively arranged at two ends of the first limiting wheel 43, the first clamping plate 45 and the second clamping plate 46 are hinged and overlapped on a curing machine (the curing machine is not shown in the drawing), the second transmission belt 24 is wound on the first limiting wheel 43, when the first clamping plate 45 and the second clamping plate 46 are rotated, the first limiting wheel 43 can abut against the second transmission belt 24, or the first limiting wheel 43 is far away from the second transmission belt 24, and the first limiting wheel 43 is adjusted according to the looseness of the second transmission belt 24.

The first limiting wheel 43 is provided with a first hook 47, the first hook 47 is provided with a first spring 49, the second clamping plate 46 is provided with a second hook 48, the second hook 48 is provided with a second spring 50, the first spring 49 and the second spring 50 are arranged in parallel, meanwhile, the first spring 49 and the second spring 50 are symmetrically arranged, the first spring 49 and the second spring 50 are used for being clamped on a curing machine, and therefore the first limiting wheel 43 can be freely adjusted according to looseness of the second conveying belt 24.

A second limiting wheel 44 is arranged between the second adjusting frame 26 and the driven wheel 23, a third clamping plate 33 and a fourth clamping plate 34 are respectively arranged at two ends of the second limiting wheel 44, the third clamping plate 33 and the fourth clamping plate 34 are movably arranged on the curing machine, the second transmission belt 24 is wound on the second limiting wheel 44, and the positions of the third clamping plate 33 and the fourth clamping plate 34 are adjusted according to the looseness of the second transmission belt 24, so that the second transmission belt 24 keeps the looseness.

The third clamping plate 33 is provided with a plurality of first limiting holes 35, the fourth clamping plate 34 is provided with a plurality of second limiting holes 36, the first limiting holes 35 and the second limiting holes 36 are symmetrically arranged, the centers of the first limiting holes 35 are on the same straight line, the centers of the second limiting holes 36 are also on the same straight line, and the first limiting holes 35 and the second limiting holes 36 to be fixed are determined according to the looseness of the second conveying belt 24.

The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and to implement the same, but are not intended to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be included in the scope of the present invention.

Claims (6)

1. The utility model provides a UV curing machine combination device, includes first UV curing machine (100) and second UV curing machine (200), first UV curing machine (100) include first UV curing stove (110), second UV curing machine (200) include second UV curing stove (210), first UV curing machine (100) set up with second UV curing machine (200) side by side, its characterized in that, be provided with first transport mechanism (120) on first UV curing stove (110), first transport mechanism (120) include first conveyer belt (114), be provided with second transport mechanism (2) on second UV curing stove (210), second transport mechanism (2) include second conveyer belt (24), the partial structure of first UV curing machine (100) with the partial structure mirror symmetry of second UV curing machine (200) sets up, first transport mechanism (120) with second transport mechanism (2) mirror symmetry sets up, first conveyer belt (114) with second conveyer belt (24) are non-centering.

2. The UV curing unit assembly according to claim 1, wherein a water collection tank (300) is provided in the second UV curing machine (200), the water collection tank (300) comprises a water collection shell (310), a first water inlet pipe (321) and a second water inlet pipe (322) are provided on the water collection shell (310), a first water outlet pipe (333) is provided on the first water inlet pipe (321), a second water outlet pipe (334) is provided on the second water inlet pipe (322), a first valve (331) is provided on the first water inlet pipe (321) or the first water outlet pipe (333), a second valve (332) is provided on the second water inlet pipe (322) or the second water outlet pipe (334), and the first valve (331) and the second valve (332) are both positioned in the water collection shell (310).

3. UV curing unit assembly according to claim 1, wherein the second UV curing machine (200) further comprises a receiving mechanism (5), the receiving mechanism (5) comprises a driving shaft (51), a driven shaft (52) and a support (53), the driving shaft (51) and the driven shaft (52) are rotatably arranged on the support (53), a first conveyor belt (55) and a second conveyor belt (56) are respectively sleeved at two ends of the driving shaft (51) and two ends of the driven shaft (52), and the first conveyor belt (55) and the second conveyor belt (56) are abutted to the conveyor belt (24).

4. The UV curing unit assembly device according to claim 3, wherein the second UV curing machine (200) further comprises a storage mechanism (7), the storage mechanism (7) is arranged in cooperation with the material receiving mechanism (5), the storage mechanism (7) comprises a linear module (71) and a sliding plate (72), the sliding plate (72) is slidably arranged on the linear module (71), a first side plate (73) is arranged on the sliding plate (72), a top plate (75) and a bottom plate (76) are respectively arranged at the upper end and the lower end of the first side plate (73), a second side plate (74) is arranged between the top plate (75) and the bottom plate (76), the first side plate (73) and the second side plate (74) are arranged at intervals, a first support column (77) is arranged on the first side plate (73), a second support column (78) is arranged on the second side plate (74), and the first support column (77) and the second support column (78) are arranged opposite to each other.

5. A UV curing unit assembly according to claim 3, wherein the material receiving mechanism (5) is provided with a clamping mechanism (8), the clamping mechanism (8) comprises a servo motor (81) and a driven rod (82), a supporting belt (83) is sleeved on the servo motor (81) and the driven rod (82), a first support plate (85) and a second support plate (86) are respectively arranged on two sides of the supporting belt (83), and the first support plate (85) and the second support plate (86) are close to each other or far from each other.

6. The UV curing unit assembly according to claim 5, wherein the first support plate (85) is provided with a first transverse plate (87), the second support plate (86) is provided with a second transverse plate (88), the first transverse plate (87) is provided with a plurality of first rollers (89), the second support plate (86) is provided with a plurality of second rollers (84), the first rollers (89) are sleeved with first clamping strips (891), and the second rollers (84) are sleeved with second clamping strips (842).