CN112802922A - Novel adhesive tape fixing device for tile type assembly and framing process - Google Patents

Abstract

The invention discloses a novel adhesive tape fixing device for tile-type components and a framing process, wherein the novel adhesive tape fixing device comprises: four buckle, four side strips, four angle keys, injecting glue device, fixed fixture, four the side strip do not sets up on four sides of photovoltaic board, four the angle key sets up on four angles of photovoltaic board, adjacent pass through between the side strip angle keyed connection, four the buckle sets up the side strip with the outside of angle key, during the installation the side strip passes through fixed fixture with photovoltaic board joint passes through the injecting glue device carries out the injecting glue operation. The photovoltaic panel can also be trimmed by the fixing clamp, so that the pinch plate is completely attached to the photovoltaic panel, a gap between the pinch plate and the photovoltaic panel is prevented, rainwater is prevented from entering the pinch plate to corrode resin adhesive, an EVA film in the photovoltaic panel is prevented from delaminating, and the service life of the photovoltaic panel is prolonged.

Description

Novel adhesive tape fixing device for tile type assembly and framing process

Technical Field

The invention relates to the technical field of solar energy, in particular to a novel rubber strip fixing device for a tile-type assembly and a framing process.

Background

The solar photovoltaic panel is by the solar cell core, EVA membrane and glass constitute, the EVA membrane is heated and is glued glass and solar cell core together, so collide with very easily after the photovoltaic panel leaves the factory, consequently need bordure the processing to the photovoltaic panel, but the shock attenuation effect of photovoltaic panel has not been considered in the current processing of borduring, and glass glues the treatment mode of gluing outward, make the photovoltaic panel leak from the handing-over department of buckle and photovoltaic panel very easily after shining in the sun for a long time and rain, lead to the EVA membrane to drop, consequently, the life of photovoltaic panel is very random, totally depend on viscose workman's hand skill, this project is just optimized the improvement to these problems and is handled. Therefore, there is a need to provide a new adhesive tape fixing device for tile assembly and a framing process, so as to at least partially solve the problems in the prior art.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the above problems, the present invention provides a novel adhesive tape fixing device for a tile assembly, comprising: four buckle, four side strips, four angle keys, injecting glue device, fixed fixture, four the side strip do not sets up on four sides of photovoltaic board, four the angle key sets up on four angles of photovoltaic board, adjacent pass through between the side strip angle keyed connection, four the buckle sets up the side strip with the outside of angle key, during the installation the side strip passes through fixed fixture with photovoltaic board joint passes through the injecting glue device carries out the injecting glue operation.

Preferably, the buckle plate comprises a first buckle plate and a second buckle plate; the end part of the first buckle plate is connected with the end part of the adjacent second buckle plate, a first groove is arranged on the inner side wall of the first buckle plate, a second groove is arranged on the inner side wall of the second buckle plate, the side edge strip comprises a long strip and a short strip, the long strip is arranged on the long side edge of the photovoltaic plate, the short strip is arranged on the short side edge of the photovoltaic plate, the long strip is inserted in the first groove, the short strip is inserted in the second groove, the corner key is a right-angled triangle, an outer groove is arranged on the side wall of the right-angled side edge of the corner key, inner grooves are arranged on the side edges of the hypotenuse of the corner key, four corners of the photovoltaic plate are respectively inserted in the inner grooves of the four corner keys, long columns are arranged at the two ends of the long strip, short columns are arranged at the two ends of the short strip, and the long columns and the short columns are arranged in the same outer groove, the long post with the short column all through the screw with the outer groove is connected, be provided with on the angle key and run through the connecting rod in outer groove, fixation nut fixed connection is passed through at the both ends of connecting rod, be provided with the track groove on the inside wall of first recess, the track inslot sets up there is the track piece, the both ends setting of connecting rod is in the track inslot, and pass through the track piece is fixed, the photovoltaic board with the handing-over department packing of buckle has glass to glue.

Preferably, the glue injection device comprises a positioning fixture and a filling device; the positioning fixture is arranged on the angle key and comprises a positioning part and a positioning hole, the positioning hole is arranged on the angle key, and a first sealing cover is arranged in the positioning hole; the positioning part is adaptive to the corner key in shape; the positioning portion comprises an upper pasting plate and a lower pasting plate, the upper pasting plate and the lower pasting plate are arranged on the front end face and the rear end face of the corner key respectively, glue injection ports are formed in the upper pasting plate and the lower pasting plate respectively, the glue injection ports are communicated with the positioning holes, circulation grooves are symmetrically formed in the side wall of the inner groove, one ends of the circulation grooves are communicated with the positioning holes, the other ends of the circulation grooves penetrate through the outer groove and are communicated with the first groove and the second groove, a plurality of inclined plane grooves are formed in the connecting face of the inner groove and the photovoltaic plate, a card is arranged at the connecting portion of the upper pasting plate and the buckle plate and at the connecting portion of the lower pasting plate and the buckle plate respectively, the card is connected to the outer side wall of the buckle plate, and the filling device is arranged on the outer sides of the upper pasting plate and the lower pasting plate.

Preferably, the filling device comprises a clamping plate, a clamping device, a glue gun, a measuring needle and a melting device; the upper pasting plate and the lower pasting plate are clamped between the clamping plates by the clamping plates, glue gun holes corresponding to the positioning holes are arranged on the clamping plates, a fixing piece is arranged at the opening of the glue gun hole, a cooling pipe is arranged in the clamping plate, the cooling pipe is positioned around the glue gun hole and extends out of the clamping plate, the glue gun is arranged on the glue gun base, the top of the glue gun is provided with a sealing element, the sealing element is connected with the glue gun base through a first supporting rod, a collecting bin is formed between the inner wall of the sealing element and the outer wall of the glue gun, the measuring needle is connected with the glue gun through a second supporting rod, the top of the glue gun is provided with a second sealing cover, the melting device is arranged on one side of the clamping plate, the glue gun is detachably connected with the glue gun hole through the melting device, and the measuring needle is electrically connected with the melting device.

Preferably, the melting device comprises a temperature control device, a melting resistor and a melting plate; the melting board passes through the melting resistance with the mounting can be dismantled and be connected, be provided with on the melting board with glue the corresponding hole of placing of rifle hole position, the shape of placing the hole with the shape of gluing the rifle suits, it is in to glue the rifle setting place downtheholely, temperature regulating device sets up on the melting board, the melting resistance with the gauge needle all with temperature regulating device electricity is connected.

Preferably, the fixing clamp comprises a bending module and a bending nut, a conical bending groove with a small upper part and a large lower part is formed in the top of the bending module, a threaded through hole matched with the bending nut is formed in the bottom of the bending module, the bending nut is arranged in the threaded through hole, and the buckle plate is arranged in the bending groove.

The invention provides a novel adhesive tape framing process for a tile-type assembly, which comprises the following steps:

s1: roughening and trimming the side edge of the hot-pressed photovoltaic panel;

s2: assembling the photovoltaic panel and the buckle plate, and then fixing the buckle plate and the photovoltaic panel by using a fixing clamp; (ii) a

S3: performing glue injection operation through a glue injection device;

s4: trimming the pinch plate through the fixing clamp after glue injection is finished, and removing the fixing clamp after repairing;

s5: and sealing the joint of the pinch plate and the photovoltaic panel by using glass cement, and drying in the shade.

Preferably, the step S includes:

s201: firstly, respectively inserting corner keys into four corners of a photovoltaic panel, preliminarily pasting long strips and short strips along the side wall of the photovoltaic panel through resin adhesive, and fixedly connecting long columns and short columns in outer grooves of the corner keys through screws to obtain a preliminarily-edged photovoltaic panel;

s202: respectively inserting the long side and the short side of the photovoltaic panel into a first groove of a first buckle plate and a second groove of a second buckle plate, clamping a connecting rod on an angle key into a track groove of the first groove for position limitation, and then sliding the connecting rod into a track sheet for fixing;

s203: put into the curved recess of the bending module with the buckle in, and adjust and fix the opening size of the recess of bending through C type bench vice, will press the bending nut to contact with the buckle, later slowly screw up the bending nut, because when screwing up the bending nut, the bending nut can move with the module of bending in opposite directions, thereby make the buckle along the recess of bending in the bending module remove, the structure that big end down can make the opening of buckle slowly closed paste tight photovoltaic board in the recess of bending, and can not influence the inside structure of buckle, finally adjust the photovoltaic board can not rock in the buckle can.

Preferably, the step S includes:

s301: firstly, removing a first sealing cover in a reserved positioning hole on an angle key, then respectively pasting an upper pasting plate and a lower pasting plate on the upper surface and the lower surface of the angle key, aligning a glue injection port with the positioning hole and clamping a card on the outer side wall of a pinch plate so as to further fix a positioning clamp;

s302: clamping the upper flitch and the lower flitch by using a clamping plate, and clamping by using a clamping device;

s303: mounting the melting device on a fixture;

s304: the second closing cap on the rifle will be glued and is taken off, then will glue the rifle and insert in the hole of placing of fusion board to will glue gun mouth and injecting glue mouth top tightly, then prevent the excessive glue with the sealing member straining, later open temperature regulating device and can carry out the injecting glue, the measuring pin can push up and carry out temperature measurement on the fusion board during the injecting glue, prevents overheated.

Preferably, the steps include:

s401: after the glue filling is finished, waiting for a period of time until the resin glue is basically solidified;

s402: loosening the press bending nut without releasing the C-shaped bench clamp, keeping the opening size of the current press bending groove, and slightly knocking the press bending module to loosen the press bending module;

s403: the loosened bending module is translated to the joint of the untreated buckle plate and the photovoltaic panel, and the bending nut is screwed again until the opening of the buckle plate is attached to the photovoltaic panel;

s404: and repeating the steps S and S until all the buckle plate openings are attached to the photovoltaic panel.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1. the novel adhesive tape fixing device for the tile-type assembly is characterized in that the side edges of a photovoltaic plate are firstly adhered by the side edge strips, the positions of four corner keys are limited by the adhered side edge strips, so that the falling of the corner keys is prevented, the preliminary edge-covering operation can provide a firm enough adhering foundation for the subsequent edge-covering operation, the photovoltaic plate can have a certain damping effect after resin glue is filled in a pinch plate, the preliminary edge-covering operation can additionally provide a damping effect again, the double insurance guarantee of preventing collision, scratching and falling is achieved, the fixing clamp can provide a clamping effect when the installation is started, the pinch plate and the photovoltaic plate are prevented from shaking, after glue injection is completed by the glue injection device, the fixing clamp can be used for trimming the pinch plate, so that the pinch plate is completely adhered to the photovoltaic plate, and gaps are prevented from being formed between the pinch plate and the photovoltaic plate, the phenomenon that rainwater enters the pinch plate to corrode resin glue is avoided, so that an EVA film in the photovoltaic panel is delaminated, and the service life of the photovoltaic panel is prolonged.

Other advantages, objects, and features of the novel adhesive tape fixture and framing process of the tile assembly of the present invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of a photovoltaic panel in the novel adhesive tape fixing device of the tile assembly.

FIG. 2 is a schematic structural view of the joint between the side edge strip and the corner key of the novel adhesive tape fixing device of the tile assembly of the present invention.

Fig. 3 is a schematic structural diagram at a in fig. 2.

Fig. 4 is a schematic structural view of the back side of fig. 3.

Fig. 5 is a schematic structural view of an upper attachment plate in the novel adhesive tape fixing device of the tile assembly according to the present invention.

FIG. 6 is a schematic structural view of a lower flitch plate in the novel adhesive tape fixing device of the tile assembly according to the invention.

Fig. 7 is a schematic structural diagram of a clamping plate part of a filling device in the novel rubber strip fixing device of the tile assembly.

Fig. 8 is a schematic structural diagram of a glue gun part of a filling device in the novel glue strip fixing device of the tile assembly.

FIG. 9 is a schematic structural view of a buckle plate in the novel adhesive tape fixing device of the tile assembly according to the present invention.

FIG. 10 is a schematic structural view of the joint between the gusset plate and the corner key of the novel adhesive tape fixing device of the tile assembly of the present invention.

FIG. 11 is a schematic structural view of the joint between the gusset plate and the corner key of the novel adhesive tape fixing device of the tile assembly of the present invention.

FIG. 12 is a schematic structural view of a fixing fixture in the novel adhesive tape fixing device of the tile assembly according to the present invention.

The glass-melting-point-type photovoltaic panel comprises a buckle plate 1, a first buckle plate 11, a first groove 111, a rail groove 112, a rail sheet 113, a second buckle plate 12, a second groove 121, a side edge strip 2, a long strip 21, a long column 211, a short strip 22, a short column 221, a 3-angle key, an outer groove 31, an inner groove 32, a flow groove 321, a screw 33, a connecting rod 34, a fixing nut 35, a positioning clamp 41, an upper attachment plate 411, a lower attachment plate 412, a glue injection port 413, a card 414, a filling device 42, a clamping plate 421, a clamping device 422, a glue gun 423, a probe 424, a melting device 425, a 4251 temperature control device, a 4252 melting resistor, a 4253 melting plate 426 glue gun base, a 427 sealing element 427, a first supporting rod 428, a collection bin 429, a second supporting rod 4210, a second sealing cover 4211, a cooling pipe 4212, a fixing clamp, a 51 bending module, a 52 bending nut 52, a 53 bending groove 53, a photovoltaic.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can practice the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 12, the present invention provides a novel adhesive tape fixing device for a tile assembly, comprising: four buckle 1, four side strake 2, four angle keys 3, injecting glue device, fixed fixture 5, four side strake 2 do not sets up on four sides of photovoltaic board 6, four angle keys 3 set up on four angles of photovoltaic board 6, adjacent pass through between the side strake 2 angle keys 3 are connected, four buckle 1 sets up side strake 2 with the outside of angle keys 3, during the installation side strake 2 passes through fixed fixture 5 with photovoltaic board 6 joint passes through the injecting glue device carries out the injecting glue operation.

The working principle of the technical scheme is as follows: after the preparation of photovoltaic board 6 is accomplished, in order to protect the side to photovoltaic board 6 and prevent that the bruise from leading to glass to explode and split and fish tail operating personnel need bordure photovoltaic board 6, paste upside strake 2 respectively with four limits of photovoltaic board 6 when borduring, and install the angle key 3 at four angles, be used for tentatively borduring to photovoltaic board 6, later with buckle 1 card on four sides of photovoltaic board 6 through fixed fixture 5, then carry out the packing of resin adhesive with the injecting glue device, further paste photovoltaic board 6 and buckle 1, and provide the effect of shock attenuation and bradyseism through the resin adhesive, the junction of buckle 1 and photovoltaic board 6 is maintained through fixed fixture 5 after the injecting glue is accomplished, make buckle 1 laminate completely on photovoltaic board 6.

The beneficial effects of the above technical scheme are that: through the design of the structure, the side edge of the photovoltaic panel 6 is firstly pasted by the side edge strips 2, the position of the four corner keys 3 is limited by the pasted side edge strips 2, the corner keys 3 are prevented from falling off, the preliminary edge covering operation can provide a firm enough pasting foundation for the subsequent edge covering operation, the photovoltaic panel 6 can have a certain damping effect after the buckle plate 1 is filled with resin glue, the preliminary edge covering operation can additionally provide a damping effect again, the double insurance guarantee of preventing collision, scratching and falling is achieved, the fixing clamp 5 can provide a clamping effect when the installation is just started, the buckle plate 1 and the photovoltaic panel 6 are prevented from shaking, after glue injection is completed by the glue injection device, the fixing clamp 5 can be used for trimming the buckle plate 1, the buckle plate 1 is completely pasted on the photovoltaic panel 6, and a gap between the buckle plate 1 and the photovoltaic panel 6 is prevented from occurring, the rainwater is prevented from entering the pinch plate 1 to corrode the resin adhesive, so that the EVA film in the photovoltaic panel 6 is delaminated, and the service life of the photovoltaic panel 6 is prolonged.

In one embodiment, the gusset 1 comprises a first gusset 11 and a second gusset 12; the end portion of the first buckle plate 11 is connected with the end portion of the adjacent second buckle plate 12, a first groove 111 is arranged on the inner side wall of the first buckle plate 11, a second groove 121 is arranged on the inner side wall of the second buckle plate 12, the side edge strips 2 comprise long strips 21 and short strips 22, the long strips 21 are arranged on the long side edge of the photovoltaic plate 6, the short strips 22 are arranged on the short side edge of the photovoltaic plate 6, the long strips 21 are inserted into the first groove 111, the short strips 22 are inserted into the second groove 121, the corner keys 3 are right-angled triangles, outer grooves 31 are arranged on the side walls of the right-angled edges of the corner keys 3, inner grooves 32 are arranged on the side edges of the hypotenuse of the corner keys 3, four corners of the photovoltaic plate 6 are respectively inserted into the inner grooves 32 of the corner keys 3, long columns 211 are arranged at two ends of the long strips 21, short columns 221 are arranged at two ends of the short strips 22, long post 211 and adjacent short column 221 all sets up same in outer groove 31, long post 211 with short column 221 all through screw 33 with outer groove 31 is connected, be provided with on the angle key 3 and run through outer groove 31's connecting rod 34, fixation nut 35 fixed connection is passed through at the both ends of connecting rod 34, be provided with track groove 112 on the inside wall of first recess 111, be provided with in the track groove 112 and have track piece 113, the both ends setting of connecting rod 34 are in the track groove 112, and pass through track piece 113 is fixed, photovoltaic board 6 with the handing-over department of buckle 1 is filled with glass and is glued 7.

The working principle of the technical scheme is as follows: the buckle plate 1 is respectively provided with a first buckle plate 11 and a second buckle plate 12 which correspond to the long side and the short side of a photovoltaic plate 6, a first groove 111 in the first buckle plate 11 is used for being spliced with the long side of the photovoltaic plate 6, a second groove 121 of the second buckle plate 12 is used for being spliced with the short side of the photovoltaic plate 6, the adjacent first buckle plate 11 and the second buckle plate 12 can be connected in a splicing or bonding mode, a long strip 21 and a short strip 22 are respectively stuck on the long side and the short side of the photovoltaic plate 6, an angle key 3 is a right-angled triangle, two right-angled sides of the angle key 3 are provided with outer grooves 31 which are mutually communicated, the bevel side is provided with an inner groove 32, the inner groove 32 is used for being spliced with the right angle of the photovoltaic plate 6, the outer groove 31 is used for fixing long columns 211 and short columns 221, the long columns 211 and the short columns 221 are respectively positioned on one right-angled side of the angle key 3 and are connected with the outer grooves 31 through screws 33, a, and fixed on the outer groove 31 by a fixing nut 35, after the two ends are clamped in the track groove 112, the connecting rod 34 is clamped by sliding into the track sheet 113, so as to limit the position of the angle key 3, and after the joint of the pinch plate 1 and the photovoltaic panel 6 is repaired by the fixing clamp 5, the edge sealing is carried out by glass cement 7.

The beneficial effects of the above technical scheme are that: through the design of the structure, the first groove 111 and the second groove 121 are reserved in advance on the first buckle plate 11 and the second buckle plate 12 and used for being spliced with the photovoltaic panel 6, the long strip 21 and the short strip 22 are adhered to the long edge and the short edge of the photovoltaic panel 6 and used for limiting the position of the side edge strip 2, the corner keys 3 which are not adhered are limited in position through the long columns 211 and the short columns 221, the position of the corner keys 3 is finely adjusted through sliding between the connecting rod 34 and the rail groove 112, the corner keys 3 are finally fixed by sliding into the rail piece 113, and after the buckle plate 1 is finished by the fixing clamp 5, edge sealing is carried out through glass cement 7.

In one embodiment, the glue injection device includes a positioning fixture 41 and a filling device 42; the positioning fixture 41 is arranged on the corner key 3, the positioning fixture 41 comprises a positioning part and a positioning hole, the positioning hole is arranged on the corner key 3, and a first sealing cover is arranged in the positioning hole; the positioning part is adaptive to the corner key 3 in shape; the positioning part comprises an upper pasting plate 411 and a lower pasting plate 412, the upper pasting plate 411 and the lower pasting plate 412 are respectively arranged on the front end surface and the rear end surface of the corner key 3, the upper pasting plate 411 and the lower pasting plate 412 are both provided with glue injection ports 413, the glue injection ports 413 are communicated with the positioning holes, the side wall of the inner groove 32 is symmetrically provided with circulation grooves 321, one end of each circulation groove 321 is communicated with the positioning hole, the other end of each circulation groove 321 penetrates through the outer groove 31, and is communicated with the first groove 111 and the second groove 121, a plurality of inclined plane grooves are arranged on the connecting surface of the inner groove 32 and the photovoltaic panel 6, the joint of the upper attachment plate 411 and the pinch plate 1 and the joint of the lower attachment plate 412 and the pinch plate 1 are both provided with a clamping piece 414, the card 414 is clamped on the outer side wall of the pinch plate 1, and the filling device 42 is arranged on the outer sides of the upper attaching plate 411 and the lower attaching plate 412.

The working principle of the technical scheme is as follows: before injecting glue, the positioning part needs to be positioned, the filling device 42 injects glue conveniently, the first sealing cover is taken out from the positioning hole, the glue injection holes 413 on the upper attaching plate 411 and the lower attaching plate 412 are aligned with the positioning hole, the clamping connection is carried out between the clamping plate 414 and the buckle plate 1 to prevent the positioning part from sliding, the side wall of the inner groove 32 is provided with a circulation groove 321 for facilitating the flow of resin glue during injecting glue, and the circulation groove 321 penetrates through the first groove 111 and the second groove 121, so that a passage is provided for the injection of the resin glue in the buckle plate 1.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, give photovoltaic board 6 with heat through angle key 3 transmission when heating in order to prevent that filling device 42 from rising the temperature, lead to photovoltaic board 6 to explode and split or the EVA membrane drops because of the surperficial high temperature, need separate filling device 42 and the photovoltaic board 6 of preliminary borduring with location fixture 41, avoid filling device 42 direct contact angle key 3, the area of pasting of multiplicable inside groove 32 of the inclined plane groove on the inside groove 32 and photovoltaic board 6, increase the fastness of pasting.

In one embodiment, the filling device 42 includes a clamp plate 421, a chucking device 422, a glue gun 423, a measuring pin 424, and a melting device 425; the upper attachment plate 411 and the lower attachment plate 412 are clamped between the clamping plate 421, a glue gun hole corresponding to the positioning hole is formed in the clamping plate 421, a fixing member is arranged at an opening of the glue gun hole, a cooling pipe 4212 is arranged in the clamping plate 421, the cooling pipe 4212 is positioned around the glue gun hole and extends out of the clamping plate 421, the glue gun 423 is arranged on a glue gun base 426, a sealing member 427 is arranged at the top of the glue gun 423, the sealing member 427 is connected with the glue gun base 426 through a first supporting rod 428, a collection bin 429 is formed between the inner wall of the sealing member 427 and the outer wall of the glue gun 423, the measuring needle 424 is connected with the glue gun 423 through a second supporting rod 4210, a second sealing cover 4211 is arranged at the top of the glue gun 423, the melting device 425 is arranged at one side of the clamping plate 421, and the glue gun 423 is detachably connected with the glue gun hole through the melting device 425, the stylus 424 is electrically connected to the melting device 425.

The working principle of the technical scheme is as follows: after the positioning fixture 41 is installed, the outer sides of the upper attaching plate 411 and the lower attaching plate 412 are clamped by the clamping plate 421, a glue gun hole is aligned with the positioning hole, the clamping plate 421 is clamped by the clamping device 422, then the circulating pump is started, circulating water circulates in the cooling pipe 4212, the second sealing cover 4211 of the glue gun 423 is taken down to leak the glue gun 423, the glue gun 423 is installed on the melting device 425, the glue gun 423 is placed in the glue gun hole, the sealing member 427 is adjusted through the first supporting rod 428, the sealing member 427 is tightly attached to the clamping plate 421, therefore, the collecting bin 429 can achieve a sealing effect through the plane of the clamping plate 421, and the second supporting rod 4210 is adjusted to enable the measuring pin 424 to be attached to the melting device 425 to measure the temperature of the glue gun.

The beneficial effects of the above technical scheme are that: through the design of the structure, the clamping plate 421 clamps the upper pasting plate 411 and the lower pasting plate 412 to provide a fixed supporting function for the structures such as the glue gun 423 and the like, when glue is to be injected, the circulating pump is started first to enable circulating water to flow in the cooling pipe 4212 for cooling, the photovoltaic panel 6 is prevented from being damaged by heat transferred to the corner key 3, the second sealing cover 4211 on the glue gun 423 is taken down, and when the second sealing cover 4211 is not used, to provide sealing and protection for the glue gun 423, the glue gun 423 is placed on the melting device 425, and is clamped in the glue gun hole, the sealing member 427 is pressed against the outer side wall of the clamping plate 421, the clamping plate 421 is used as a sealing cover of the collecting bin 429 to complete the sealing of the collecting bin 429, therefore, the filling device 42 can be prevented from being damaged when the resin adhesive overflows, and the measuring needle 424 is placed on the melting device 425 to monitor the temperature of the melting device 425 and prevent the temperature from being too high.

In one embodiment, the melting device 425 includes a temperature control device 4251, a melting resistor 4252, a melting plate 4253; the melting plate 4253 is detachably connected with the fixing piece through the melting resistor 4252, a placing hole corresponding to the position of the glue gun hole is formed in the melting plate 4253, the shape of the placing hole is matched with the shape of the glue gun 423, the glue gun 423 is arranged in the placing hole, the temperature control device 4251 is arranged on the melting plate 4253, and the melting resistor 4252 and the measuring needle 424 are both electrically connected with the temperature control device 4251.

The working principle of the technical scheme is as follows: the melting plate 4253 is installed on the fixing piece through a melting resistor 4252, a placing hole is formed in the melting plate 4253 and used for placing the glue gun 423, the melting plate 4253 heats the glue gun 423 through the placing hole, viscous resin glue flowing into the glue gun 423 is heated and liquefied to increase fluidity, a measuring needle 424 is used for measuring the temperature of the melting plate 4253, and when the temperature is too high, the temperature is controlled through a temperature control device 4251.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, when the injecting glue, sticky resin glue reaches gluey rifle 423, and under the heating of fusion board 4253, thereby the resin glue becomes thin and has increased the mobility that the resin glued to can carry out real-time supervision to the temperature of fusion board 4253 through the survey needle 424, when the temperature was too high, temperature regulating device 4251 can control the temperature of fusion board 4253 through melting resistance 4252, prevented that the too high temperature from leading to photovoltaic board 6 damage or resin glue to deteriorate.

In one embodiment, the fixing fixture 5 comprises a bending module 51 and a bending nut 52, wherein a top of the bending module 51 is provided with a tapered bending groove 53 with a small top and a large bottom, a bottom of the bending module 51 is provided with a threaded through hole corresponding to the bending nut 52, the bending nut 52 is arranged in the threaded through hole, and the buckle plate 1 is arranged in the bending groove 53.

The working principle of the technical scheme is as follows: when fixing a position buckle 1, put into the module 51 of buckling with buckle 1 and photovoltaic board 6 handing-over department, because the recess 53 of buckling is big end down's toper, so there is sufficient space to adjust the initial position of the module 51 of buckling, later through C type bench vice clamp on the outer wall of the module 51 of buckling, adjust the opening size of the recess 53 of buckling, can when opening size laminating photovoltaic board 6, then screw up the nut 52 of buckling, the nut 52 of buckling can withstand buckle 1, because the nut 52 of buckling is opposite with the motion direction of the module 51 of buckling, so when the nut 52 of buckling inwards squeezes buckle 1, the recess 53 of buckling can backward squeeze buckle 1's opening part, make the edge of buckle 1 warp the buckling along conical direction, it can on photovoltaic board 6 to laminate completely when buckle 1's edge.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, the motion trail of the bending nut 52 is opposite with that of the bending module 51, and can push the buckle plate 1 to move towards the opening of the bending groove 53 through the bending nut 52, and the bending groove 52 can reversely extrude the buckle plate 1, thereby achieving the effect that the opening of the buckle plate 1 is extruded and bent.

The invention provides a novel adhesive tape framing process for tile-type assemblies, which comprises the following steps:

s1: roughening and trimming the side edge of the hot-pressed photovoltaic panel 6;

s2: assembling the photovoltaic panel 6 and the buckle plate 1, and then fixing the buckle plate 1 and the photovoltaic panel 6 by using a fixing clamp 5; (ii) a

S3: performing glue injection operation through a glue injection device;

s4: after glue injection is finished, trimming the pinch plate 1 through the fixing clamp 5, and removing the fixing clamp 5 after trimming;

s5: and sealing the joint of the pinch plate 1 and the photovoltaic panel 6 by using glass cement 7, and drying in the shade.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of above-mentioned structure, earlier beat the hair and the deburring to the side of photovoltaic board 6, can make an alignment the side of photovoltaic board 6 and can increase the fastness of pasting after beating the hair, then block buckle 1 and photovoltaic board 6 with fixed fixture 5 and prevent that both from taking place to rock, later carry out the injecting glue and carry out the deburring of buckle 1 through fixed fixture 5 at last, glue 7 banding with glass at last and increase the leakproofness.

In one embodiment, the step S2 includes:

s201: firstly, respectively inserting the corner keys 3 into four corners of the photovoltaic panel 6, preliminarily pasting the long strips 21 and the short strips 22 along the side wall of the photovoltaic panel 6 through resin adhesive, and fixedly connecting the long columns 211 and the short columns 221 in the outer grooves 31 of the corner keys 3 through screws 33 to obtain the photovoltaic panel 6 with preliminary edges;

s202: the long side and the short side of the photovoltaic panel 6 are respectively inserted into the first groove 111 of the first buckle plate 11 and the second groove 121 of the second buckle plate 12, the connecting rod 34 on the corner key 3 is clamped into the track groove 112 of the first groove 111 for position limitation, and then the photovoltaic panel slides into the track sheet 113 for fixation;

s203: put into the recess 53 that bends of bending module 51 with buckle 1 in, and adjust and fix the opening size of recess 53 that bends through C type bench vice, will bend nut 52 and screw up to contacting with buckle 1, later slowly screw up the nut 52 that bends, because when screwing up the nut 52 that bends, the nut 52 that bends can move in opposite directions with the module 51 that bends, thereby make buckle 1 remove along the recess 53 that bends in the module 51 that bends, the structure that bends little down can make buckle 1's opening slowly closed paste photovoltaic board 6, and can not influence buckle 1 inside structure, it can to finally adjust photovoltaic board 6 can not rock in buckle 1.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of the structure, firstly, the corner keys 3 are respectively inserted into four corners of the photovoltaic panel 6, then long strips 21 and short strips 22 are preliminarily pasted along the side wall of the photovoltaic panel 6 through resin adhesive, long columns 211 and short columns 221 are connected and fixed through screws 33 in outer grooves 31 of the corner keys 3, so that the corner keys 3 and side edge strips 2 can be limited in position to obtain the photovoltaic panel 6 with preliminary edge covering, then long edges and short edges of the photovoltaic panel 6 are respectively inserted into first grooves 111 of the first buckling plates 11 and second grooves 121 of the second buckling plates 12, connecting rods 34 on the corner keys 3 are clamped into track grooves 112 of the first grooves 111 for position limitation, then the photovoltaic panel 6 and the buckling plates 1 are slid into track pieces 113 for fixation, the buckling plates 1 are finally placed into buckling grooves 53 of the buckling modules 51, and the opening sizes of the buckling grooves 53 are adjusted and fixed through C-shaped bench clamps, to press curved nut 52 to screw up to with buckle 1 contact, later slowly screw up press curved nut 52, because when screwing up press curved nut 52, press curved nut 52 and the module 51 of bending can move in opposite directions to make buckle 1 remove along the recess 53 that bends in the module 51 of bending, the structure big end down on the recess 53 that bends can make buckle 1's opening slowly closed paste tight photovoltaic board 6, and can not influence the inside structure of buckle 1, it can to finally adjust photovoltaic board 6 can not rock in buckle 1.

In one embodiment, the step S3 includes:

s301: firstly, a first sealing cover in a reserved positioning hole on the corner key 3 needs to be removed, then an upper pasting plate 411 and a lower pasting plate 412 need to be pasted on the upper surface and the lower surface of the corner key 3 respectively, a glue injection hole 413 and the positioning hole are aligned, and a card 414 is clamped on the outer side wall of the pinch plate 1, so that the positioning clamp 41 is further fixed;

s302: the upper pasting plate 411 and the lower pasting plate 412 are clamped by a clamping plate 421 and are clamped by a clamping device 422;

s303: mounting the melting device 425 on a fixture;

s304: the second sealing cover 4211 on the glue gun 423 is taken down, then the glue gun 423 is inserted into a placing hole of the melting plate 4253, the glue gun 423 port and the glue injection port 413 are tightly pushed, then the sealing member 427 is fastened to prevent glue overflow, then the temperature control device 4251 is started to inject glue, and the measuring pin 424 can be pushed against the melting plate 4253 to measure the temperature during glue injection, so that overheating is prevented.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of the structure, firstly, the first sealing cover in the reserved positioning hole on the corner key 3 needs to be removed, then the upper pasting plate 411 and the lower pasting plate 412 need to be respectively pasted on the upper surface and the lower surface of the corner key 3, the glue injection port 413 and the positioning hole are aligned, the card 414 is clamped on the outer side wall of the buckle plate 1 so as to further fix the positioning fixture 41, the heat of the filling device 42 can be prevented from being transferred to the corner key 3 to cause the photovoltaic panel 6 to be damaged by heating, then the upper pasting plate 411 and the lower pasting plate 412 are clamped by the clamping plate 421 and clamped by the clamping device 422, then the melting device 425 is installed on the fixing piece, finally the second sealing cover 4211 on the glue gun 423 is taken down, then the glue gun 423 is inserted into the placing hole of the melting plate 4253, the glue gun 423 port and the glue injection port 413 are tightly pressed, then the sealing member 427 is tightly pressed to prevent glue overflow, then the glue is tightly injected by opening the temperature control device 4251, during glue injection, the measuring pin 424 is pressed against the fusion plate 4253 for temperature measurement, so that overheating is prevented.

In one embodiment, the step 4 comprises:

s401: after the glue filling is finished, waiting for a period of time until the resin glue is basically solidified;

s402: loosening the press bending nut 52 without releasing the C-shaped bench clamp, keeping the opening size of the current press bending groove 53, and slightly knocking the press bending module 51 to loosen the press bending module;

s403: translating the loosened press bending module 51 to the joint of the untreated buckle plate 1 and the photovoltaic panel 6, and screwing the press bending nut 52 again until the opening of the buckle plate 1 is attached to the photovoltaic panel 6;

s404: and repeating the steps S402 and S403 until all the openings of the pinch plates 1 are attached to the photovoltaic panel 6.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of above-mentioned structure, after the encapsulating is accomplished, carry out a period and wait for, wait for the resin glue after solidifying basically, loosen the nut 52 that bends but do not release C type bench vice, keep present recess 53 opening size that bends, strike the module 51 that bends gently and make it not hard up, the module 51 that bends that will become flexible translates to untreated buckle 1 and photovoltaic board 6's junction, tighten again and press the nut 52 that bends to buckle 1's opening laminating photovoltaic board 6, so relapse, until all buckle 1 openings all laminate with photovoltaic board 6.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a novel adhesive tape fixing device of tile formula subassembly which characterized in that includes: four buckle (1), four side strake (2), four angle keys (3), injecting glue device, fixed fixture (5), four side strake (2) do not set up on four sides of photovoltaic board (6), four angle key (3) set up on four angles of photovoltaic board (6), adjacent pass through between side strake (2) angle key (3) are connected, four buckle (1) sets up side strake (2) with the outside of angle key (3), during the installation side strake (2) pass through fixed fixture (5) with photovoltaic board (6) joint passes through the injecting glue operation is carried out to the injecting glue device.

2. The novel rubber strip fixing device for the tile type assembly according to claim 1 is characterized in that the buckling plate (1) comprises a first buckling plate (11) and a second buckling plate (12); the end part of the first buckling plate (11) is connected with the end part of the adjacent second buckling plate (12), a first groove (111) is arranged on the inner side wall of the first buckling plate (11), a second groove (121) is arranged on the inner side wall of the second buckling plate (12), the side edge strip (2) comprises a strip (21) and a short strip (22), the strip (21) is arranged on the long side edge of the photovoltaic plate (6), the short strip (22) is arranged on the short side edge of the photovoltaic plate (6), the strip (21) is inserted into the first groove (111), the short strip (22) is inserted into the second groove (121), the corner key (3) is a right-angled triangle, an outer groove (31) is arranged on the side wall of the right-angled edge of the corner key (3), an inner groove (32) is arranged on the side edge of the oblique edge of the corner key (3), and four corners of the photovoltaic plate (6) are respectively inserted into the inner grooves (32) of the four corner keys (3), long columns (211) are arranged at two ends of the long strip (21), short columns (221) are arranged at two ends of the short strip (22), the long column (211) and the adjacent short column (221) are both arranged in the same outer groove (31), the long column (211) and the short column (221) are connected with the outer groove (31) through screws (33), the corner key (3) is provided with a connecting rod (34) penetrating through the outer groove (31), the two ends of the connecting rod (34) are fixedly connected through a fixing nut (35), a track groove (112) is arranged on the inner side wall of the first groove (111), a track sheet (113) is arranged in the track groove (112), both ends of the connecting rod (34) are arranged in the track grooves (112), and the photovoltaic panel is fixed by the track sheet (113), and the joint of the photovoltaic panel (6) and the buckle plate (1) is filled with glass cement (7).

3. The novel adhesive tape fixing device for the tile assembly according to claim 2, wherein the adhesive injection device comprises a positioning fixture (41) and a filling device (42); the positioning fixture (41) is arranged on the angle key (3), the positioning fixture (41) comprises a positioning part and a positioning hole, the positioning hole is arranged on the angle key (3), and a first sealing cover is arranged in the positioning hole; the positioning part is adaptive to the corner key (3) in shape; the positioning part comprises an upper pasting plate (411) and a lower pasting plate (412), the upper pasting plate (411) and the lower pasting plate (412) are respectively arranged on the front end surface and the rear end surface of the corner key (3), glue injection ports (413) are respectively arranged on the upper pasting plate (411) and the lower pasting plate (412), the glue injection ports (413) are communicated with the positioning holes, circulation grooves (321) are symmetrically arranged on the side wall of the inner groove (32), one ends of the circulation grooves (321) are communicated with the positioning holes, the other ends of the circulation grooves penetrate through the outer groove (31) and are communicated with the first groove (111) and the second groove (121), a plurality of inclined plane grooves are arranged on the connecting surface of the inner groove (32) and the photovoltaic panel (6), and cards (414) are respectively arranged at the connecting part of the upper pasting plate (411) and the buckle plate (1) and the connecting part of the lower pasting plate (412) and the buckle plate (1), the clamping piece (414) is clamped on the outer side wall of the pinch plate (1), and the filling device (42) is arranged on the outer sides of the upper pasting plate (411) and the lower pasting plate (412).

4. The novel adhesive tape fixing device of the tile assembly according to claim 3, wherein the filling device (42) comprises a clamping plate (421), a clamping device (422), an adhesive gun (423), a measuring pin (424) and a melting device (425); the upper pasting plate (411) and the lower pasting plate (412) are clamped in the clamping plate (421), a glue gun hole corresponding to the positioning hole is formed in the clamping plate (421), a fixing piece is arranged at the opening of the glue gun hole, a cooling pipe (4212) is arranged in the clamping plate (421), the cooling pipe (4212) is located on the periphery of the glue gun hole and extends out of the clamping plate (421), the glue gun (423) is arranged on a glue gun base (426), a sealing element (427) is arranged at the top of the glue gun (423), the sealing element (427) is connected with the glue gun base (426) through a first supporting rod (428), a collection bin (429) is formed between the inner wall of the sealing element (427) and the outer wall of the glue gun (423), the measuring needle (424) is connected with the glue gun (423) through a second supporting rod (4210), and a second sealing cover (4211) is arranged at the top of the glue gun (423), the melting device (425) is arranged on one side of the clamping plate (421), the glue gun (423) is detachably connected with the glue gun hole through the melting device (425), and the measuring needle (424) is electrically connected with the melting device (425).

5. The novel rubber strip fixing device of the tile assembly according to claim 4, wherein the melting device (425) comprises a temperature control device (4251), a melting resistor (4252) and a melting plate (4253); the melting plate (4253) is detachably connected with the fixing piece through the melting resistor (4252), a placing hole corresponding to the position of the glue gun hole is formed in the melting plate (4253), the shape of the placing hole is matched with that of the glue gun (423), the glue gun (423) is arranged in the placing hole, the temperature control device (4251) is arranged on the melting plate (4253), and the melting resistor (4252) and the measuring needle (424) are both electrically connected with the temperature control device (4251).

6. The novel rubber strip fixing device for the tile-type assembly according to claim 1, wherein the fixing clamp (5) comprises a bending module (51) and a bending nut (52), a tapered bending groove (53) with a small upper part and a large lower part is formed in the top of the bending module (51), a threaded through hole matched with the bending nut (52) is formed in the bottom of the bending module (51), the bending nut (52) is arranged in the threaded through hole, and the buckle plate (1) is arranged in the bending groove (53).

7. A novel adhesive tape framing process for tile-type assemblies is characterized by comprising the following steps:

s1: roughening and trimming the side edge of the hot-pressed photovoltaic panel (6);

s2: assembling the photovoltaic panel (6) and the buckle plate (1), and then fixing the buckle plate (1) and the photovoltaic panel (6) by using a fixing clamp (5); (ii) a

S3: performing glue injection operation through a glue injection device;

s4: trimming the pinch plate (1) through the fixing clamp (5) after glue injection is finished, and removing the fixing clamp (5) after trimming;

s5: and sealing the joint of the pinch plate (1) and the photovoltaic panel (6) by using glass cement (7), and drying in the shade.

8. The novel tile assembly adhesive tape framing process according to claim 7, wherein the step S2 includes:

s201: firstly, inserting corner keys (3) into four corners of a photovoltaic panel (6) respectively, then preliminarily pasting long strips (21) and short strips (22) along the side wall of the photovoltaic panel (6) through resin adhesive, and connecting and fixing long columns (211) and short columns (221) in outer grooves (31) of the corner keys (3) through screws (33) to obtain the photovoltaic panel (6) with preliminary edge covering;

s202: the long side and the short side of a photovoltaic panel (6) are respectively inserted into a first groove (111) of a first buckle plate (11) and a second groove (121) of a second buckle plate (12), a connecting rod (34) on an angle key (3) is clamped into a track groove (112) of the first groove (111) for position limitation, and then the photovoltaic panel slides into a track sheet (113) for fixation;

s203: put into the bending recess (53) of bending module (51) buckle (1), and adjust and fix the opening size of bending recess (53) through C type bench vice, screw up bending nut (52) to contacting with buckle (1), later slowly screw up bending nut (52), because when screwing up bending nut (52), bending nut (52) and bending module (51) can move in opposite directions, thereby make buckle (1) remove along bending recess (53) in bending module (51), the structure big-end-down can make the opening of buckle (1) slowly close and paste photovoltaic board (6) in bending recess (53), and can not influence the inside structure of buckle (1), it can finally to adjust photovoltaic board (6) and can not rock in buckle (1).

9. The novel tile assembly adhesive tape framing process according to claim 7, wherein the step S3 includes:

s301: firstly, removing a first sealing cover in a reserved positioning hole on an angle key (3), then respectively attaching an upper attaching plate (411) and a lower attaching plate (412) to the upper surface and the lower surface of the angle key (3), aligning a glue injection port (413) and the positioning hole, and clamping a card (414) on the outer side wall of a buckle plate (1) so as to further fix a positioning clamp (41);

s302: clamping the upper pasting plate (411) and the lower pasting plate (412) by a clamping plate (421), and clamping by a clamping device (422);

s303: mounting a melting device (425) on the fixture;

s304: the second sealing cover (4211) on the glue gun (423) is taken down, then the glue gun (423) is inserted into a placing hole of the melting plate (4253), the glue gun (423) opening and the glue injection opening (413) are tightly pressed, then the sealing element (427) is fastened to prevent glue overflow, then the temperature control device (4251) is started to inject glue, and the measuring needle (424) can be pressed against the melting plate (4253) to measure the temperature during glue injection, so that overheating is prevented.

10. The novel adhesive tape framing process of tile assembly according to claim 7, wherein the step 4 comprises:

s401: after the glue filling is finished, waiting for a period of time until the resin glue is basically solidified;

s402: loosening the press bending nut (52) but not releasing the C-shaped bench clamp, keeping the opening size of the current press bending groove (53), and slightly knocking the press bending module (51) to loosen the press bending module;

s403: translating the loosened press bending module (51) to the joint of the untreated buckle plate (1) and the photovoltaic panel (6), and screwing down the press bending nut (52) again until the opening of the buckle plate (1) is attached to the photovoltaic panel (6);

s404: and repeating the steps S402 and S403 until all the openings of the pinch plates (1) are attached to the photovoltaic panel (6).

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