CN114275264A - Solar energy component hot pressing packaging hardware with dampproofing function - Google Patents

Abstract

The invention relates to a hot-pressing packaging device, in particular to a solar module hot-pressing packaging device with a moisture-proof function. The invention provides a solar module hot-pressing packaging device with a moisture-proof function, which can perform drying treatment. The invention provides a solar module hot-pressing packaging device with a damp-proof function, which comprises a bottom plate, table legs, first fixing plates, a hot-pressing mechanism and a drying mechanism, wherein the table legs are arranged on the left side and the right side of the bottom plate, the first fixing plates are arranged on the rear portion of the upper side of the bottom plate, the hot-pressing mechanism for sealing edges of packaging films is arranged on the inner sides of the first fixing plates, and the drying mechanism for drying solar modules is arranged in the middle of the upper side of the bottom plate. According to the invention, the hot air gun is started to generate heat, and when the mold drives the solar component to move backwards, the hot air gun can rotate, so that the solar component and the packaging film are dried continuously, and moisture is prevented from being packaged at the inner side.

Description

Solar energy component hot pressing packaging hardware with dampproofing function

Technical Field

The invention relates to a hot-pressing packaging device, in particular to a solar module hot-pressing packaging device with a moisture-proof function.

Background

After the solar module is produced and manufactured, the solar module generally needs to be packaged, so that the solar module is protected in the transportation process.

Chinese patent with patent application number CN201820947978.2 discloses a solar module packaging device, which comprises a first heating device, a first soft layer, a second soft layer and a second heating device sequentially arranged from top to bottom; a first laminating cavity is enclosed between the first heating device and the first soft layer and is connected with a first charging and discharging pipeline; a second laminating cavity is defined between the second heating device and the second soft layer, and the second laminating cavity is connected with a second charging and discharging pipeline; and a containing cavity for containing the solar module is formed between the first laminating cavity and the second laminating cavity. According to the solar module packaging device provided by the invention, the existing laminating device is improved to form two deformable laminating cavities, the two deformable laminating cavities can be attached to a module with any curved surface, the heat conduction effect is ensured, the uniformity of heating of the module is improved, the laminating effect of the module is greatly improved by laminating the two laminating cavities, and the laminating efficiency is ensured.

Therefore, the solar module hot-pressing packaging device with the moisture-proof function capable of performing drying treatment is designed to solve the problems.

Disclosure of Invention

In order to overcome the defect that a layer of water mist is produced on the surface of a solar component in a humid weather, and when the solar component is manually wiped, part of the water mist which is not wiped cleanly is inevitably remained, the invention provides the solar component hot-pressing packaging device with the moisture-proof function, which can be dried.

The invention is realized by the following technical approaches:

the utility model provides a solar energy component hot pressing packaging hardware with dampproofing function, including bottom plate, table foot, first fixed plate, hot pressing mechanism and weather the mechanism, the bottom plate bottom left and right sides all is equipped with the table foot, and bottom plate upside rear portion is equipped with first fixed plate, and first fixed plate inboard is equipped with the hot pressing mechanism that is used for the encapsulation film banding, and bottom plate upside middle part is equipped with the mechanism that weathers that is used for drying solar energy component.

Preferably, hot pressing mechanism is equipped with first hot plate, the inboard upper portion of first fixed plate, and first cylinder telescopic link downside is equipped with first clamp plate, and the inboard lower part of first clamp plate is equipped with the second hot plate.

Preferably, the mechanism weathers including the second fixed plate, the dwang, hot-blast rifle, second connecting plate and connecting rod, bottom plate upside middle part bilateral symmetry is equipped with the second fixed plate, the rotary type is equipped with the dwang between second fixed plate upper portion, dwang middle part interval evenly is equipped with a plurality of hot-blast guns, the quantity of hot-blast rifle is 3, the dwang left and right sides all slides and the rotation type is equipped with the second connecting plate, the inboard lower part of second connecting plate all is equipped with the connecting rod, the connecting rod all slides and the rotation type is connected with the mould.

Preferably, the device also comprises a pulling and sending mechanism for driving, the pulling and sending mechanism comprises a third fixed plate, a fourth fixed plate, a first motor and a reel, the stay cord, the fifth fixed plate, first spring, first baffle and layer board, bottom plate bottom right front side is equipped with the third fixed plate, bottom plate bottom left side front side is equipped with the fourth fixed plate, third fixed plate right side lower part is equipped with first motor, first motor output shaft left side is equipped with the reel, the reel left side is connected with the fourth fixed plate rotary type, the reel middle part round joint has the stay cord, the other end and the first connecting plate left side of stay cord are connected, bottom plate bottom rear side is equipped with the fifth fixed plate, bilateral symmetry is equipped with first spring between fifth fixed plate and the first connecting plate, bottom plate front side bilateral symmetry is equipped with first baffle, mould upside bilateral symmetry slidingtype is equipped with the layer board, the layer board can contact with first baffle when moving to the front side.

Preferably, still including the flattening trimmer mechanisms who is used for cutting unnecessary encapsulating film, flattening trimmer mechanisms is including cutter, first fixed column and first bumping post, and first clamp plate bottom all is equipped with the cutter all around, and first clamp plate bottom corner all is equipped with first fixed column, and the quantity of first fixed column is 4, all is equipped with first bumping post between the first fixed column, and the quantity of first bumping post is 4.

Preferably, the solar energy assembly automatic placing device further comprises a feeding mechanism for automatically placing the solar energy assembly, the feeding mechanism comprises a placing plate, a fixing frame, a second motor, a transmission assembly, a sixth fixing plate, a rotating shaft, a seventh fixing plate, a second cylinder, a lower clamping plate, an upper clamping plate, a third connecting plate, a sliding block, a second baffle column and a second spring, the placing plate is arranged on the front left side of the bottom plate, the fixing frame is arranged between the upper side of the placing plate and the front right part of the upper side of the bottom plate, the second motor is arranged on the left part of the upper side of the fixing frame, the sixth fixing plate is arranged on the right parts of the upper side and the lower side of the fixing frame, the rotating shaft is rotatably arranged between the front sides of the two sixth fixing plates, the transmission assembly is arranged between an output shaft of the second motor and the rotating shaft, the transmission assembly comprises 2 rotating wheels and 1 belt, 1 rotating wheel is arranged on the output shaft of the second motor, 1 rotating wheel is also arranged in the middle part of the rotating shaft, and 1 belt is wound between the two rotating wheels, the transmission assembly front side middle part is equipped with the seventh fixed plate, the seventh fixed plate front side is equipped with the second cylinder, second cylinder telescopic link downside is equipped with the lower plate, seventh fixed plate rear side lower part is equipped with the slider, slider downside and mount sliding connection, the inboard slidingtype of slider is equipped with the third connecting plate, third connecting plate downside is equipped with the punch holder, the punch holder is located the lower plate upside, the inboard bilateral symmetry slidingtype of slider is equipped with the second bumping post, the second bumping post can contact with the third connecting plate when moving to the inboard, the second bumping post outside is all around there being the second spring, the both ends of second spring are connected with slider and second bumping post respectively.

Preferably, the material pushing mechanism used for assisting in feeding is further included, the material pushing mechanism comprises a second fixing column, a connecting ring, a third spring, a sliding rail, a second pressing plate, a second baffle and an elastic baffle, the second fixing column is arranged on the left side of the upper portion of the fixing frame, the connecting ring is arranged on the lower portion of the second fixing column in a sliding mode, the third spring is wound in the middle of the second fixing column, two ends of the third spring are respectively connected with the connecting ring and the fixing frame, the sliding rail is arranged on the lower portion of the second fixing column in a sliding mode and located on the lower side of the connecting ring, the second pressing plate is arranged on the right portion of the front side of the sliding rail, the second baffle is arranged on the left front portion of the upper side of the second pressing plate, the elastic baffle is arranged on the left portion of the front side of the transmission assembly, and the second baffle can be in contact with the left and right of the elastic baffle.

Preferably, the upper side of the lower splint and the lower side of the upper splint are both provided with rubber pads.

Preferably, round holes are uniformly formed in the lower portions of the table legs at intervals.

The invention has the remarkable advantages that:

1. according to the invention, the first cylinder is used as a driving force, and the second heating plate can be driven to move downwards, so that the second heating plate and the first heating plate can seal edges of the packaging film.

2. According to the invention, the hot air gun is started to generate heat, and when the mold drives the solar component to move backwards, the hot air gun can rotate, so that the solar component and the packaging film are dried continuously, and moisture is prevented from being packaged at the inner side.

3. According to the solar module packaging machine, the first motor is used as a driving force, the reel can be driven to rotate, so that the die moves forwards, and when the supporting plate is in contact with the first baffle, the supporting plate can jack up the packaged solar module under the action of the first baffle, so that people can take the solar module conveniently.

4. According to the solar module feeding device, the second motor is used as a driving force, the transmission assembly can be driven to rotate, the lower clamping plate and the upper clamping plate move rightwards, and therefore the solar module is conveyed to a mold, and the function of automatic feeding is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional view of a three-dimensional structure of the hot press mechanism of the present invention.

Fig. 3 is a schematic perspective view of the blow-drying mechanism of the present invention.

Fig. 4 is a schematic perspective view of the drawing mechanism of the present invention.

Fig. 5 is a schematic sectional view of a part of the three-dimensional structure of the pulling mechanism of the present invention.

Fig. 6 is a schematic cross-sectional view of the three-dimensional structure of the leveling and trimming mechanism of the present invention.

Fig. 7 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 8 is a sectional view of a part of the three-dimensional structure of the feeding mechanism of the present invention.

Fig. 9 is an enlarged view of the invention at a.

Fig. 10 is a schematic sectional view of the three-dimensional structure of the pushing mechanism of the present invention.

Fig. 11 is an enlarged view of the invention at B.

Fig. 12 is a schematic partial perspective view of the pushing mechanism of the present invention.

Part names and serial numbers in the figure: 1. a base plate, 2, a table leg, 3, a first fixing plate, 4, a hot press mechanism, 41, a first connecting plate, 42, a mold, 43, a first heating plate, 44, a first cylinder, 45, a first pressing plate, 46, a second heating plate, 5, a blow-drying mechanism, 51, a second fixing plate, 52, a rotating rod, 53, a hot air gun, 54, a second connecting plate, 55, a connecting rod, 6, a drawing mechanism, 61, a third fixing plate, 62, a fourth fixing plate, 63, a first motor, 64, a reel, 65, a pull rope, 66, a fifth fixing plate, 67, a first spring, 68, a first baffle, 69, a supporting plate, 7, a leveling and trimming mechanism, 71, a cutter, 72, a first fixing column, 73, a first blocking column, 8, a feeding mechanism, 81, a placing plate, 82, a fixing frame, 83, a second motor, 84, a transmission assembly, 85, a sixth fixing plate, 86, a rotating shaft, 87, and a seventh fixing plate, 88. the device comprises a second cylinder, 89, a lower clamping plate, 810, an upper clamping plate, 811, a third connecting plate, 812, a sliding block, 813, a second blocking column, 814, a second spring, 9, a pushing mechanism, 91, a second fixing column, 92, a connecting ring, 93, a third spring, 94, a sliding rail, 95, a second pressing plate, 96, a second baffle, 97 and an elastic baffle.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

The utility model provides a solar energy component hot pressing packaging hardware with dampproofing function, please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 7, including bottom plate 1, table foot 2, first fixed plate 3, hot pressing mechanism 4 and weather mechanism 5, table foot 2 has all been welded to the 1 bottom left and right sides of bottom plate, the equal interval in 2 lower parts of table foot is evenly opened has the round hole for the installation is fixed, 1 upside rear portion of bottom plate is equipped with first fixed plate 3, 3 inboards of first fixed plate are equipped with hot pressing mechanism 4, 1 upside middle part of bottom plate is equipped with weathers mechanism 5.

Referring to fig. 2, 3, 4, 5, 6 and 7, the hot pressing mechanism 4 includes a first connecting plate 41, a mold 42, a first heating plate 43, a first cylinder 44, a first pressing plate 45 and a second heating plate 46, the first connecting plate 41 is slidably disposed at the front of the bottom plate 1, the mold 42 is disposed at the upper side of the first connecting plate 41, the first heating plate 43 is disposed at the upper side of the mold 42, the first cylinder 44 is bolted to the upper part of the inner side of the first fixing plate 3, the first pressing plate 45 is disposed at the lower side of the telescopic rod of the first cylinder 44, the second heating plate 46 is disposed at the lower part of the inner side of the first pressing plate 45, and people can activate the first cylinder 44 to move the second heating plate 46 downward, and the second heating plate 46 and the first heating plate 43 can seal the package bag.

Referring to fig. 3, the drying mechanism 5 includes a second fixing plate 51, a rotating rod 52, hot air guns 53, a second connecting plate 54 and connecting rods 55, the second fixing plate 51 is symmetrically arranged at the left and right of the upper side of the bottom plate 1, the rotating rod 52 is rotatably arranged between the upper parts of the second fixing plates 51, the hot air guns 53 are uniformly bolted at intervals in the middle of the rotating rod 52, the number of the hot air guns 53 is 3, people can start the hot air guns 53, so that the hot air guns 53 generate heat to continuously dry the solar module, the second connecting plate 54 is rotatably arranged at the left and right sides of the rotating rod 52, the connecting rods 55 are respectively arranged at the inner lower parts of the second connecting plates 54, and the connecting rods 55 are rotatably connected with the molds 42 in a sliding manner.

When people need to package the solar module, firstly, the table legs 2 are fixed by penetrating bolts through the round holes, so that the device is fixed, then a packaging film is arranged in the mold 42, then the solar module is placed on the packaging film, then a packaging film is arranged on the solar module, then the hot air gun 53 is started, the hot air gun 53 generates heat, then the mold 42 moves towards the rear side, when the connecting rod 55 moves to the foremost side of the mold 42, the mold 42 drives the connecting rod 55 to rotate, so that the second connecting plate 54 is driven to rotate, meanwhile, the second connecting plate 54 moves upwards, so that the rotating rod 52 and the hot air gun 53 are driven to rotate, when the mold 42 penetrates through the second fixing plate 51, the second connecting plate 54 moves downwards to reset, so that the hot air gun 53 always dries the packaging film and the solar module, when the mold 42 moves to be right below the first pressing plate 45, stopping moving the mold 42, starting the first heating plate 43, the second heating plate 46 and the first cylinder 44, wherein the first heating plate 43 and the second heating plate 46 generate heat, controlling the extension of the telescopic rod of the first cylinder 44, the telescopic rod of the first cylinder 44 can drive the first pressing plate 45 to move downwards, thereby driving the second heating plate 46 to move downwards, so that the first heating plate 43 and the second heating plate 46 can seal the packaging film, thereby completing the packaging of the solar module, then controlling the telescopic rod of the first cylinder 44 to shorten, the telescopic rod of the first cylinder 44 can drive the first pressing plate 45 to move upwards for resetting, thereby driving the second heating plate 46 to move upwards for resetting, stopping moving the telescopic rod of the first cylinder 44, then moving the mold 42 forwards for resetting, when the connecting rod 55 moves to the last side of the mold 42, the mold 42 can drive the connecting rod 55 to rotate backwards, thereby driving the second connecting plate 54 to rotate backwards, meanwhile, the second connecting plate 54 moves upwards to drive the rotating rod 52 and the hot air gun 53 to reversely reset, after the mold 42 passes through the second fixing plate 51, the second connecting plate 54 moves downwards to reset, then people take the packaged solar module away, then the next solar module is put on the mold 42 again, and the process is repeated, and after the solar modules are completely packaged, the first heating plate 43, the second heating plate 46 and the first air cylinder 44 are closed.

Example 2

In addition to embodiment 1, referring to fig. 1, 4 and 5, the drawing and feeding mechanism 6 is further included, the drawing and feeding mechanism 6 includes a third fixing plate 61, a fourth fixing plate 62, a first motor 63, a reel 64, a pull rope 65, a fifth fixing plate 66, a first spring 67, a first baffle 68 and a support plate 69, the third fixing plate 61 is disposed on the right front side of the bottom plate 1, the fourth fixing plate 62 is disposed on the left front side of the bottom plate 1, the first motor 63 is bolted to the lower portion of the right side of the third fixing plate 61, the reel 64 is disposed on the left side of the output shaft of the first motor 63, the left side of the reel 64 is rotatably connected with the fourth fixing plate 62, the pull rope 65 is wound around the middle portion of the reel 64, the other end of the pull rope 65 is connected with the left side of the first connecting plate 41, the fifth fixing plate 66 is disposed on the rear side of the bottom plate 1, the first spring 67 is symmetrically disposed between the fifth fixing plate 66 and the first connecting plate 41, bottom plate 1 front side bilateral symmetry is equipped with first baffle 68, and mould 42 upside bilateral symmetry slidingtype is equipped with layer board 69, and layer board 69 can contact with first baffle 68 when moving to the front side, when mould 42 moves to the front side, can drive first baffle 68 and move to the front side and contact with layer board 69, and first baffle 68 can jack up layer board 69 to the solar panel who will encapsulate is ejecting, conveniently takes.

Initially, the first spring 67 is in a stretching state, when a person needs to move the mold 42, the first motor 63 can be started to control the output shaft of the first motor 63 to rotate forward, the output shaft of the first motor 63 drives the reel 64 to rotate forward, so that the reel 64 loosens the pull rope 65, at this time, the first spring 67 is restored to drive the first connecting plate 41 to move to the rear side, so as to drive the mold 42 and the supporting plate 69 to move to the rear side, when the supporting plate 69 is separated from the first baffle 68, the supporting plate 69 can move downward under the action of gravity, when the mold 42 moves to the position right below the first pressing plate 45, the rotation of the output shaft of the first motor 63 is stopped, when the person finishes packaging the solar module, the output shaft of the first motor 63 is controlled to rotate reversely, the output shaft of the first motor 63 drives the reel 64 to rotate reversely, so that the reel 64 winds up the pull rope 65, the pull rope 65 pulls the first connecting plate 41 to move to the front side to reset, thereby drive mould 42 and move the reset to the front side, first spring 67 is tensile, then the stall first motor 63 output shaft, when layer board 69 and first baffle 68 contact, first baffle 68 can promote layer board 69 rebound to reset to with the solar module jack-up that encapsulates, people take away the solar module that encapsulates after that, so repeatedly, after the whole good backs of encapsulating of solar module, it can to close first motor 63.

Referring to fig. 6, the leveling and trimming mechanism 7 further includes a cutting knife 71, first fixing posts 72 and first blocking posts 73, the cutting knife 71 is welded at all positions of the bottom of the first pressing plate 45, the cutting knife 71 is welded at all positions of the bottom of the first pressing plate, the bottom of the first pressing plate 45 can cut off redundant packaging films when the cutting knife 71 moves downwards, the first fixing posts 72 are arranged at all corners of the bottom of the first pressing plate 45, the number of the first fixing posts 72 is 4, the first blocking posts 73 are arranged between the first fixing posts 72, and the number of the first blocking posts 73 is 4.

When the first pressing plate 45 moves downwards, the cutter 71 and the first blocking column 73 can be driven to move downwards, when the first blocking column 73 is in contact with the packaging film, the first blocking column 73 can flatten the wrinkles at the redundant part of the packaging film, when the cutter 71 is in contact with the packaging film, the cutter 71 can cut off the redundant part of the packaging film, and when the first pressing plate 45 moves upwards and resets, the cutter 71 and the first blocking column 73 can be driven to move upwards and reset.

Referring to fig. 1, 7, 8, 9, 10 and 11, the present invention further includes a feeding mechanism 8, the feeding mechanism 8 includes a placement board 81, a fixing frame 82, a second motor 83, a transmission assembly 84, a sixth fixing board 85, a rotating shaft 86, a seventh fixing board 87, a second cylinder 88, a lower clamping board 89, an upper clamping board 810, a third connecting board 811, a sliding block 812, a second pillar 813 and a second spring 814, the placement board 81 is disposed on the left front side of the bottom board 1, the fixing frame 82 is disposed between the upper side of the placement board 81 and the upper side of the bottom board 1, the second motor 83 is bolted to the left portion of the upper side of the fixing frame 82, the sixth fixing boards 85 are disposed on the right portions of the upper and lower sides of the fixing frame 82, the rotating shaft 86 is rotatably disposed between the front sides of the two sixth fixing boards 85, the transmission assembly 84 is disposed between the output shaft of the second motor 83 and the rotating shaft 86, the transmission assembly 84 is composed of 2 rotating wheels and 1 belt, 1 rotating wheel is disposed on the output shaft of the second motor 83, the middle part of the rotating shaft 86 is also provided with 1 rotating wheel, 1 belt is wound between the two rotating wheels, the middle part of the front side of the transmission assembly 84 is provided with a seventh fixing plate 87, the front side of the seventh fixing plate 87 is bolted with a second cylinder 88, the lower side of the telescopic rod of the second cylinder 88 is provided with a lower clamping plate 89, the lower part of the rear side of the seventh fixing plate 87 is provided with a sliding block 812, the lower side of the sliding block 812 is connected with a fixing frame 82 in a sliding way, the inner side of the sliding block 812 is provided with a third connecting plate 811 in a sliding way, the lower side of the third connecting plate 811 is provided with an upper clamping plate 810, the upper side of the lower clamping plate 89 and the lower side of the upper clamping plate 810 are provided with rubber pads for increasing friction force, the upper clamping plate 810 is positioned on the upper side of the lower clamping plate 89, the inner side of the sliding block 812 is provided with a second blocking column 813 in a sliding way symmetrically left and right, the second blocking column 813 can be contacted with the third connecting plate 811 when the second blocking column 813 moves inwards, one can activate the second cylinder 88 to move the lower clamp plate 89 upward so that the lower clamp plate 89 and the upper clamp plate 810 clamp the solar module in place, and then activate the second motor 83 to transport the solar module above the mold 42.

Referring to fig. 1, 10, 11 and 12, the device further includes a pushing mechanism 9, the pushing mechanism 9 includes a second fixed column 91, a connection ring 92, a third spring 93, a slide rail 94, a second pressing plate 95, a second baffle 96 and an elastic baffle 97, the left side of the upper portion of the fixing frame 82 is provided with the second fixed column 91, the lower portion of the second fixed column 91 is slidably provided with the connection ring 92, the middle portion of the second fixed column 91 is wound with the third spring 93, two ends of the third spring 93 are respectively connected with the connection ring 92 and the fixing frame 82, the lower portion of the second fixed column 91 is slidably provided with the slide rail 94, the slide rail 94 is located at the lower side of the connection ring 92, the right portion of the front side of the slide rail 94 is welded with the second pressing plate 95, the left front portion of the upper side of the second pressing plate 95 is welded with the second baffle 96, the left portion of the front side of the transmission assembly 84 is provided with the elastic baffle 97, when the elastic baffle 97 moves left and right, when a person starts the second motor 83, the elastic baffle 97 is moved to the right, thereby pushing the second baffle 96 to the right, so that the second pressing plate 95 pushes out the uppermost solar module to the right.

One can lay a packaging film on the mold 42, move the second baffle plate 96 upwards to drive the slide rails 94, the second pressing plate 95 and the second baffle plate 96 to move upwards, compress the third spring 93, stack several solar modules on the upper side of the object placing plate 81, move the uppermost solar module to the right a little bit to make the right side of the uppermost solar module between the lower clamping plate 89 and the upper clamping plate 810, then release the second baffle plate 96, recover the third spring 93 to drive the connecting ring 92 to move downwards, drive the slide rails 94, the second pressing plate 95 and the second baffle plate 96 to move downwards to make the second pressing plate 95 press the left part of the upper side of the next solar module, then start the second cylinder 88 to control the telescopic rod of the second cylinder 88 to shorten, the telescopic rod of the second cylinder 88 drives the lower clamping plate 89 to move upwards, when the lower clamping plate 89 contacts with the uppermost solar module, the lower clamp 89 drives the uppermost solar module to move upwards and contact with the upper clamp 810, so as to drive the upper clamp 810 to move upwards, so that the uppermost solar module is clamped by the lower clamp 89 and the upper clamp 810, the second blocking column 813 clamps the third connecting plate 811, looseness during the upward movement of the upper clamp 810 is avoided, the third connecting plate 811 is driven to move upwards when the upper clamp 810 moves upwards, the third connecting plate 811 extrudes the second blocking column 813 to move outwards, the second spring 814 is compressed, when the uppermost solar module is separated from the rest solar modules, the telescopic rod of the second cylinder 88 stops moving, at the moment, the second spring 814 is restored, the second blocking column 813 is driven to move inwards, so that the second blocking column 813 clamps the third connecting plate 811 again, then the second motor 83 is started, the positive rotation of the output shaft of the second motor 83 is controlled, the output shaft of the second motor 83 drives the transmission module 84 to rotate, the transmission assembly 84 drives the seventh fixing plate 87 and the elastic baffle 97 to move rightwards, so as to drive the sliding block 812, the third connecting plate 811, the lower clamping plate 89 and the upper clamping plate 810 to move rightwards, when the elastic baffle 97 contacts with the second baffle 96, the elastic baffle 97 can push the second baffle 96 to move rightwards, so as to drive the second pressing plate 95 and the sliding rail 94 to move rightwards, the second pressing plate 95 can push the next solar energy assembly to move rightwards, when the sliding rail 94 moves to the rightmost side, the second pressing plate 95 stops moving, the elastic baffle 97 continues moving rightwards and deforms, when the elastic baffle 97 is separated from the second baffle 96, the elastic baffle 97 recovers, when the uppermost solar energy assembly moves rightmost to the upper side of the mold 42, the telescopic rod of the second cylinder 88 is controlled to extend, the second cylinder 88 drives the lower clamping plate 89 to move downwards to reset, when the lower clamping plate 89 contacts with the lower side of the upper clamping plate 810, the lower clamp plate 89 drives the upper clamp plate 810 to move downwards for resetting, so as to drive the third connecting plate 811 to move downwards for resetting, so that the lower clamp plate 89 and the upper clamp plate 810 loosen the solar component, the third connecting plate 811 can press the second blocking column 813 to move outwards when moving downwards, the second spring 814 is compressed, after the lower clamp plate 89 completely resets, the telescopic rod of the second cylinder 88 stops moving, at the moment, the second spring 814 recovers, the second blocking column 813 moves inwards for resetting, so that the second blocking column 813 blocks the third connecting plate 811 again, when the lower clamp plate 89 and the upper clamp plate 810 continue to move rightwards, the solar component can be separated from the lower clamp plate 89 and the upper clamp plate 810 and fall onto the mold 42, people lay the packaging film on the upper side of the solar component again, then control the output shaft of the second motor 83 to rotate reversely, the output shaft of the second motor 83 drives the transmission assembly 84 to rotate reversely, the transmission assembly 84 drives the seventh fixing plate 87 and the elastic baffle plate 97 to move leftwards for resetting, when the elastic baffle 97 contacts with the second baffle 96, the elastic baffle 97 pushes the second baffle 96 to move leftward, so that the second pressing plate 95 and the sliding rail 94 move leftward, when the second pressing plate 95 is separated from the uppermost solar module, the third spring 93 is restored to drive the connecting ring 92 to move downward, so that the sliding rail 94, the second pressing plate 95 and the second baffle 96 are driven to move downward, so that the second pressing plate 95 buckles the next solar module, when the sliding rail 94 moves to the leftmost side, the second pressing plate 95 stops moving, the elastic baffle 97 continues to move leftward and deform, when the elastic baffle 97 is separated from the second baffle 96, the elastic baffle 97 is restored, so that the functions of automatic feeding are realized repeatedly, and when the solar modules are completely packaged, the second motor 83 and the second cylinder 88 are closed.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims (9)

1. The utility model provides a solar energy component hot pressing packaging hardware with dampproofing function, a serial communication port, including bottom plate (1), table foot (2), first fixed plate (3), hot pressing mechanism (4) and weather mechanism (5), bottom plate (1) bottom left and right sides all is equipped with table foot (2), bottom plate (1) upside rear portion is equipped with first fixed plate (3), first fixed plate (3) inboard is equipped with hot pressing mechanism (4) that are used for the banding of encapsulating film, bottom plate (1) upside middle part is equipped with the mechanism (5) that weathers that is used for drying solar energy component.

2. The solar module hot-pressing packaging device with the moisture-proof function as claimed in claim 1, wherein the hot-pressing mechanism (4) comprises a first connecting plate (41), a mold (42), a first heating plate (43), a first cylinder (44), a first pressing plate (45) and a second heating plate (46), the first connecting plate (41) is arranged at the front part of the bottom plate (1) in a sliding manner, the mold (42) is arranged at the upper side of the first connecting plate (41), the first heating plate (43) is arranged at the upper side of the mold (42), the first cylinder (44) is arranged at the upper part of the inner side of the first fixing plate (3), the first pressing plate (45) is arranged at the lower side of the telescopic rod of the first cylinder (44), and the second heating plate (46) is arranged at the lower part of the inner side of the first pressing plate (45).

3. The solar module hot-pressing packaging device with the moisture-proof function as claimed in claim 2, wherein the drying mechanism (5) comprises a second fixing plate (51), a rotating rod (52), hot air guns (53), a second connecting plate (54) and connecting rods (55), the second fixing plate (51) is symmetrically arranged at the left and right sides of the middle part of the upper side of the bottom plate (1), the rotating rod (52) is rotatably arranged between the upper parts of the second fixing plates (51), a plurality of hot air guns (53) are uniformly arranged at intervals in the middle part of the rotating rod (52), the number of the hot air guns (53) is 3, the second connecting plate (54) is rotatably arranged at the left and right sides of the rotating rod (52), the connecting rods (55) are respectively arranged at the lower parts of the inner sides of the second connecting plate (54), and the connecting rods (55) are respectively rotatably connected with the mold (42).

4. The solar module heat-pressing packaging device with the moisture-proof function as claimed in claim 3, further comprising a pulling and feeding mechanism (6) for driving, wherein the pulling and feeding mechanism (6) comprises a third fixing plate (61), a fourth fixing plate (62), a first motor (63), a reel (64), a pulling rope (65), a fifth fixing plate (66), a first spring (67), a first baffle (68) and a supporting plate (69), the third fixing plate (61) is arranged on the right front side of the bottom plate (1), the fourth fixing plate (62) is arranged on the left front side of the bottom plate (1), the first motor (63) is arranged on the lower portion of the right side of the third fixing plate (61), a reel (64) is arranged on the left side of an output shaft of the first motor (63), the left side of the reel (64) is rotatably connected with the fourth fixing plate (62), the pulling rope (65) is wound around the middle portion of the reel (64), the other end of stay cord (65) is connected with first connecting plate (41) left side, and bottom plate (1) bottom rear side is equipped with fifth fixed plate (66), and bilateral symmetry is equipped with first spring (67) between fifth fixed plate (66) and first connecting plate (41), and bottom plate (1) front side bilateral symmetry is equipped with first baffle (68), and mould (42) upside bilateral symmetry slidingtype is equipped with layer board (69), can contact with first baffle (68) when layer board (69) move to the front side.

5. The solar module hot-pressing packaging device with the moisture-proof function as claimed in claim 4, further comprising a leveling and trimming mechanism (7) for cutting redundant packaging films, wherein the leveling and trimming mechanism (7) comprises a cutter (71), first fixing columns (72) and first blocking columns (73), the cutters (71) are arranged at the front, back, left and right positions of the bottom of the first pressing plate (45), the first fixing columns (72) are arranged at corners of the bottom of the first pressing plate (45), the number of the first fixing columns (72) is 4, the first blocking columns (73) are arranged between the first fixing columns (72), and the number of the first blocking columns (73) is 4.

6. The solar module hot-pressing packaging device with the moisture-proof function as claimed in claim 5, further comprising a feeding mechanism (8) for automatically placing the solar module, wherein the feeding mechanism (8) comprises a storage plate (81), a fixing frame (82), a second motor (83), a transmission assembly (84), a sixth fixing plate (85), a rotating shaft (86), a seventh fixing plate (87), a second cylinder (88), a lower clamping plate (89), an upper clamping plate (810), a third connecting plate (811), a sliding block (812), a second blocking column (813) and a second spring (814), the storage plate (81) is arranged on the left front side of the bottom plate (1), the fixing frame (82) is arranged between the upper side of the storage plate (81) and the right front part of the upper side of the bottom plate (1), the second motor (83) is arranged on the left part of the upper side of the fixing frame (82), the sixth fixing plates (85) are arranged on the right parts of the upper and lower sides of the fixing frame (82), a rotating shaft (86) is rotatably arranged between the front sides of the two sixth fixing plates (85), a transmission assembly (84) is arranged between an output shaft of the second motor (83) and the rotating shaft (86), the transmission assembly (84) consists of 2 rotating wheels and 1 belt, 1 rotating wheel is arranged on the output shaft of the second motor (83), 1 rotating wheel is also arranged in the middle of the rotating shaft (86), 1 belt is wound between the two rotating wheels, a seventh fixing plate (87) is arranged in the middle of the front side of the transmission assembly (84), a second cylinder (88) is arranged in the front side of the seventh fixing plate (87), a lower clamping plate (89) is arranged on the lower side of a telescopic rod of the second cylinder (88), a sliding block (812) is arranged on the lower portion of the rear side of the seventh fixing plate (87), the lower side of the sliding block (812) is connected with the fixing frame (82) in a sliding manner, a third connecting plate (811) is arranged on the inner side of the sliding block (812), an upper clamping plate (810) is arranged on the lower side of the third connecting plate (811), the upper clamp plate (810) is located on the upper side of the lower clamp plate (89), the second blocking columns (813) are arranged on the inner side of the sliding block (812) in a bilateral symmetry sliding mode, the second blocking columns (813) can be in contact with the third connecting plate (811) when moving towards the inner side, the second springs (814) are wound on the outer sides of the second blocking columns (813), and two ends of each second spring (814) are connected with the sliding block (812) and the corresponding second blocking column (813) respectively.

7. The solar module hot-pressing packaging device with the moisture-proof function as claimed in claim 6, further comprising a material pushing mechanism (9) for assisting material loading, wherein the material pushing mechanism (9) comprises a second fixing column (91), a connecting ring (92), a third spring (93), a sliding rail (94), a second pressing plate (95), a second blocking plate (96) and an elastic blocking plate (97), the second fixing column (91) is arranged on the left side of the upper portion of the fixing frame (82), the connecting ring (92) is slidably arranged on the lower portion of the second fixing column (91), the third spring (93) is wound around the middle portion of the second fixing column (91), two ends of the third spring (93) are respectively connected with the connecting ring (92) and the fixing frame (82), the sliding rail (94) is slidably arranged on the lower portion of the second fixing column (91), the sliding rail (94) is located on the lower side of the connecting ring (92), the second pressing plate (95) is arranged on the right portion of the front side of the sliding rail (94), a second baffle (96) is arranged at the left front part of the upper side of the second pressing plate (95), an elastic baffle (97) is arranged at the left part of the front side of the transmission assembly (84), and the elastic baffle (97) can be contacted with the second baffle (96) when moving left and right.

8. The solar module heat pressing packaging device with moisture-proof function as claimed in claim 6, characterized in that the upper side of the lower clamping plate (89) and the lower side of the upper clamping plate (810) are provided with rubber pads.

9. The solar module heat-pressing packaging device with the moisture-proof function as claimed in claim 1, wherein the lower parts of the table legs (2) are uniformly spaced with round holes.

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