CN105938860B - A kind of low profile photovoltaic component stack equipment and its laminated process - Google Patents

Abstract

The invention discloses a kind of low profile photovoltaic component stack equipment and its laminated process, wherein, laminating apparatus is characterized in that：Including a sealed casing, the vavuum pump being connected with the casing is provided with outside the casing, the bottom of casing is provided with a platform, battery blade group and backboard plate group are provided with casing, casing is vertically arranged with the longitudinal rail for battery blade group and the slip of backboard plate group, and the laying mechanism laid for thermoplastic resin layer is provided with the casing, the laying mechanism includes for the installation rod for installing thermoplastic resin, rolling bar and the section for cutting off thermoplastic resin.The laminated process includes the step of vavuum pump in casing by vacuumizing；The step of the step of both sides thermoplastic resin layer is laid by laying mechanism and battery pack and backsheet layer are laid.

Description

A kind of low profile photovoltaic component stack equipment and its laminated process

Technical field

The present invention relates to laminating apparatus and its laminated process, more particularly to a kind of low profile photovoltaic component stack equipment and its folded Layer process.

Background technology

The step of low profile photovoltaic component stack technique includes 1, lays toughened glass layer；2nd, laid in toughened glass layer The step of EVA layer；3rd, the step of laying battery pack on EVA layer in step 2；4th, EVA layer is laid in battery pack Step；5th, the step of laying backsheet layer on EVA layer in step 4, wherein, EVA refers to thermoplastic resin.However, existing For low profile photovoltaic component stack technique typically by the way of conduit artificial complex, efficiency is low, complex procedures, and technical requirements are high；Together When, because conduit artificial complex is carried out under atmosphere outside, in EVA laminating steps, eva film fit in armorplate glass or When in person's battery pack, air will enter between eva film and armorplate glass or battery pack, form bubble, these It is difficult to eliminate that bubble is in traditional laminated process, and the bubble in these EVA will be directly affected in follow-up laminating technology The final product quality of low profile photovoltaic component.

The content of the invention

The invention solves the problems that first technical problem be that there is provided a kind of low profile photovoltaic component for the present situation of prior art Laminating apparatus, it can effectively eliminate the bubble between eva film and armorplate glass or battery pack, realize the half of lamination Automation.

The invention solves the problems that second technical problem be to utilize low profile photovoltaic there is provided one kind for the present situation of prior art The laminated process of component stack equipment, it can effectively eliminate the gas between eva film and armorplate glass or battery pack Bubble, realizes the semi-automation of lamination.

The present invention solve the technical scheme that is used of first technical problem for：A kind of low profile photovoltaic component stack equipment, It is characterized in that：Including a sealed casing, the vavuum pump being connected with the casing is provided with outside the casing, in the bottom of casing Be provided with a platform, be sequentially provided with from bottom to up in the side of casing be put into for armorplate glass the first window, for electricity The second window that pond pack is put into and the 3rd window being put into for backboard, the height of the first window and the table top of platform are flat Together, be provided with casing includes positioned opposite the with the second window highly concordant battery blade group, the battery blade group One battery sheet and the second battery sheet, being provided between the first battery sheet and the second battery sheet is used for the first battery Sheet and the second battery sheet mutually strut first strut be provided with cylinder, casing for by battery blade group from the second window The first slideway that door is pulled out, be provided with casing includes phase with the 3rd window highly concordant backboard plate group, the backboard plate group To the first backboard and the second backboard of arrangement, being provided between the first backboard and the second backboard is used for the first backboard and second What backboard was mutually strutted second struts cylinder, and casing is vertically arranged with leads for the longitudinal direction of battery blade group and the slip of backboard plate group Rail, the first cylinder that battery blade group is moved with a control battery blade group on longitudinal rail is connected, backboard plate group and a control The second cylinder connection that backboard plate group processed is moved on longitudinal rail；It is provided with the casing for thermoplastic resin layer laying Laying mechanism, the laying mechanism includes installation rod, the rolling bar and for cutting off thermoplasticity for installing thermoplastic resin The section of resin, the two ends of section are rotationally connected with installation rod, and the first swing clamp cylinder, the peace are connected with the rotating shaft of section The two ends of dress rod are rotatably connected in connecting rod, the rotating shaft of connecting rod and are connected with the second swing clamp cylinder, connecting rod with install rod it Between be provided with spring, rolling bar, which is rotated, is arranged at the terminations of two connecting rods, is horizontally arranged with the casing horizontal for installing rod The 3rd cylinder that rod is moved in second slideway is installed to the second mobile slideway and control, second slideway is located at platform Above table top, first struts cylinder, second struts cylinder, the first cylinder, the second cylinder, the 3rd cylinder, the first swing clamp cylinder, the Two swing clamp cylinders and vavuum pump are electrically connected with a controller.

As an improvement, the laying mechanism has two, respectively the first laying mechanism and the second laying mechanism, the case First for arranging the first laying mechanism communicated with the second slideway is provided with vivo to lead the way and for arranging the second laying machine The second of structure is led the way.By setting the first laying mechanism and the second laying mechanism, it is possible to achieve laid in a compact package The film of two kinds of different materials.

Improve again, the spring is torsion spring, torsion spring set is connected located at rod shaft end, one end is installed with installing rod, torsion spring The other end is connected with connecting rod.

Compared with prior art, due to the advantage of the invention is that：Whole laminated process is positioned in sealed casing Carry out, vacuumized casing using vavuum pump before laminated process, so as to ensure that again lamination process prevents the bubble in EVA Produce, improve the product quality of photovoltaic module；Meanwhile, the present invention utilizes battery blade group and backboard plate group, is strutted first Cylinder and second strut cylinder in the presence of, the laying of battery pack and backsheet layer is realized, in addition, utilizing laying mechanism to realize The laying twice of EVA layer, under the control of the controller, realizes each executing agency's coordinated action, greatly reduces artificial Intensity, improves lamination efficiency.

The present invention solve the technical scheme that is used of second technical problem for：It is a kind of to utilize described low profile photovoltaic component The laminated process of laminating apparatus, it is characterised in that comprise the following steps：

(1), it is arranged thermoplastic resin roller on rod is installed；

(2), the first window is opened, and armorplate glass is put as on platform, and the second window is opened, and pulls out battery blade group, The placing battery pack in battery blade group, then battery blade group is pushed into casing, the 3rd window is opened, and backboard is positioned over the back of the body In plate plate group；

(3), the first window, the second window and the 3rd window are closed, and vavuum pump will be vacuumized in casing；

(4), the 3rd cylinder promotes laying mechanism to enter laterally above platform, the action of the second swing clamp cylinder, rolls bar by heat Plastic resin is pressed on armorplate glass, during laying mechanism transverse shifting, and rolling bar is rolled on armorplate glass Dynamic, laying is completed after thermoplastic resin layer on whole armorplate glass, and thermoplastic resin is cut in the first swing clamp cylinder action, section Disconnected, the second swing clamp cylinder and the 3rd cylinder reset；

(5), the first cylinder is acted, and battery blade group is moved on longitudinal rail, and battery blade group is moved to above platform, First struts cylinder action, and the first battery sheet and the second battery sheet are opened, and battery pack, which is layed in above platform, forms electricity Pond pack layer；

(6), the 3rd cylinder promotes laying mechanism to enter laterally again above platform, the action of the second swing clamp cylinder, rolls bar Thermoplastic resin is pressed on battery pack lamella, during laying mechanism transverse shifting, rolling bar is in battery pack lamella Upper to roll, laying is completed after thermoplastic resin layer on whole battery pack lamella, the action of the first swing clamp cylinder, is cut into slices thermoplastic resin Fat is cut off, and the second swing clamp cylinder and the 3rd cylinder reset；

(7), the second cylinder is acted, and backboard plate group is moved on longitudinal rail, and backboard plate group is moved to above platform, and second Cylinder action is strutted, the first backboard and the second backboard are opened, backboard, which is layed in above platform, forms backsheet layer；

(8), the second cylinder and second struts cylinder reset, then, and the first cylinder and first struts cylinder reset.

Compared with prior art, due to the advantage of the invention is that：Whole laminated process is positioned in sealed casing Carry out, vacuumized casing using vavuum pump before laminated process, so as to ensure that again lamination process prevents the bubble in EVA Produce, improve the product quality of photovoltaic module；Meanwhile, the present invention utilizes battery blade group and backboard plate group, is strutted first Cylinder and second strut cylinder in the presence of, the laying of battery pack and backsheet layer is realized, in addition, utilizing laying mechanism to realize The laying twice of EVA layer, under the control of the controller, realizes each executing agency's coordinated action, greatly reduces artificial Intensity, improves lamination efficiency.

Brief description of the drawings

Fig. 1 is the structural representation of the middle-size and small-size photovoltaic component lamination equipment of the embodiment of the present invention；

Fig. 2 is the structural representation of Tu1Zhong layings mechanism；

Fig. 3 is the structure decomposition figure of middle-size and small-size photovoltaic module of the invention.

Embodiment

The present invention is described in further detail below in conjunction with accompanying drawing embodiment.

As shown in Figures 1 to 3, the low profile photovoltaic component stack equipment in this implementation, including casing 1, vavuum pump 2, platform 11, Battery blade group 3, backboard plate group 4 and laying mechanism 5.

Wherein, casing 1 is sealing structure, the vavuum pump 2 being connected with the casing 1 is provided with outside the casing 1, in casing 1 Bottom be provided with a platform 11, be sequentially provided with first be put into for armorplate glass 61 from bottom to up in the side of casing 1 Window 14, the second window 15 being put into for battery pack and the 3rd window 16 being put into for backboard 65, the first window 14 Height it is concordant with the table top of platform 11, be provided with casing 1 with the second window 15 highly concordant battery blade group 3, should Battery blade group 3 includes the first battery sheet 31 and the second battery sheet 32 positioned opposite, in the first battery sheet 31 and the It is provided with and first is strutted for mutually strut the first battery sheet 31 and the second battery sheet 32 between two battery sheets 32 The first slideway for battery blade group 3 to be pulled out from the second window 15 is provided with cylinder, casing 1, is provided with casing 1 With the 3rd window 16 highly concordant backboard plate group 4, the backboard plate group 4 includes the first backboard 41 and the second backboard positioned opposite 42, be provided between the first backboard 41 and the second backboard 42 for the first backboard 41 and the second backboard 42 are mutually strutted Two strut cylinder, and casing 1 is vertically arranged with the longitudinal rail 13 for battery blade group 3 and the slip of backboard plate group 4, battery sheet The first cylinder that group 3 is moved with a control battery blade group 3 on longitudinal rail 13 is connected, the control backboard of backboard plate group 4 and one The second cylinder connection that plate group 4 is moved on longitudinal rail 13；It is provided with the casing 1 for thermoplastic resin layer 62,64 The laying mechanism 5 of laying, the laying mechanism 5 includes for the installation rod 51 for installing thermoplastic resin, rolling bar 53 and is used for The section 52 of thermoplastic resin is cut off, the two ends of section 52 are rotationally connected with installation rod 51, are connected with the rotating shaft of section 52 First swing clamp cylinder 55, the two ends for installing rod 51, which are rotatably connected in connecting rod 57, the rotating shaft of connecting rod 57, is connected with the Two swing clamp cylinders 54, connecting rod 57 and install and are provided with spring 56 between rod 51, and the spring 56 can be torsion spring, when using torsion spring When, the torsion spring set is connected located at the shaft end of rod 51, one end is installed with installing rod 51, and the torsion spring other end is connected with connecting rod 57, Rolling bar 53 is rotated to be horizontally arranged with the termination for being arranged at two connecting rods 57, the casing 1 and laterally moved for installing rod 51 Dynamic the second slideway 12 and control installs the 3rd cylinder that rod 51 is moved in second slideway 12, and second slideway 12 is located at Above the table top of platform 11, first struts cylinder, second struts cylinder, the first cylinder, the second cylinder, the 3rd cylinder, the first corner Cylinder 55, the second swing clamp cylinder 54 and vavuum pump 2 are electrically connected with a controller.

Further, the laying mechanism 5 can also have two, respectively the first laying mechanism and the second laying machine First for arranging the first laying mechanism communicated with the second slideway 12 is provided with structure, the casing 1 to lead the way and for cloth Put the second laying mechanism second is led the way.By setting the first laying mechanism and the second laying mechanism, it is possible to achieve small at one The film of two kinds of different materials is laid in type component.

In addition, present invention also offers a kind of laminated process using described low profile photovoltaic component stack equipment, including Following steps：

(1), it is arranged thermoplastic resin roller on rod 51 is installed；

(2), the first window 14 is opened, and armorplate glass 61 is put as on platform 11, and the second window 15 is opened, and pulls out battery Blade group 3, the placing battery pack in battery blade group 3, then battery blade group 3 is pushed into casing 1, the 3rd window 16 dozens Open, backboard 65 is positioned in backboard plate group 4；

(3), the first window 14, the second window 15 and the 3rd window 16 are closed, and vavuum pump 2 will be vacuumized in casing 1；

(4), the 3rd cylinder promotes laying mechanism 5 to enter laterally the top of platform 11, and the second swing clamp cylinder 54 is acted, and rolls bar 53 press on thermoplastic resin on armorplate glass 61, during the transverse shifting of laying mechanism 5, and rolling bar 53 is in tempering Rolled on glass plate 61, laying is completed after thermoplastic resin layer 62 on whole armorplate glass 61, and the first swing clamp cylinder 55 is acted, Thermoplastic resin is cut off in section, and the second swing clamp cylinder 54 and the 3rd cylinder reset；

(5), the first cylinder is acted, and battery blade group 3 is moved on longitudinal rail 13, and battery blade group 3 is moved to platform 11 tops, first struts cylinder action, and the first battery sheet 31 and the second battery sheet 32 are opened, and battery pack is layed in platform 11 tops form battery pack lamella 63；

(6), the 3rd cylinder promotes laying mechanism 5 to enter laterally the top of platform 11 again, and the second swing clamp cylinder 54 is acted, and is rolled Depression bar 53 presses on thermoplastic resin on battery pack lamella 63, during the transverse shifting of laying mechanism 5, and rolling bar 53 exists Rolled on battery pack lamella 63, laying is completed after thermoplastic resin layer 64 on whole battery pack lamella 63, the first swing clamp cylinder 55 Thermoplastic resin is cut off in action, section, and the second swing clamp cylinder 54 and the 3rd cylinder reset；

(7), the second cylinder is acted, and backboard plate group 4 is moved on longitudinal rail 13, and backboard plate group 4 is moved on platform 11 Side, second struts cylinder action, and the first backboard 41 and the second backboard 42 are opened, and backboard 65 is layed in the top of platform 11 and forms backboard Layer；

(8), the second cylinder and second struts cylinder reset, then, and the first cylinder and first struts cylinder reset.

To sum up, whole laminated process is positioned over progress in sealed casing 1 by the present invention, using true before laminated process Empty pump 2 vacuumizes casing 1, so as to ensure that again lamination process prevents the bubble in EVA from producing, improves the production of photovoltaic module Quality；Meanwhile, the present invention is strutted cylinder and second first and is strutted the work of cylinder using battery blade group 3 and backboard plate group 4 Under, the laying of battery pack and backsheet layer is realized, in addition, the laying twice of EVA layer is realized using laying mechanism 5, in control Under the control of device, each executing agency's coordinated action is realized, artificial intensity is greatly reduced, improves lamination efficiency.

Claims (4)

1. a kind of low profile photovoltaic component stack equipment, it is characterised in that：Including a sealed casing (1), in casing (1) peripheral hardware The vavuum pump (2) being connected with the casing (1) is equipped with, the bottom of casing (1) is provided with a platform (11), the one of casing (1) Side is sequentially provided with the first window (14) being put into for armorplate glass (61), be put into for battery pack second from bottom to up Window (15) and the 3rd window (16) being put into for backboard (65), the height of the first window (14) and the table top of platform (11) Concordantly, the battery blade group (3) highly concordant with the second window (15), the battery blade group (3) bag are provided with casing (1) The first battery sheet (31) and the second battery sheet (32) positioned opposite is included, in the first battery sheet (31) and the second cell piece Be used for mutually strutting the first battery sheet (31) and the second battery sheet (32) first is provided between plate (32) and struts gas The first slideway for battery blade group (3) to be pulled out from the second window (15) is provided with cylinder, casing (1), in casing (1) The backboard plate group (4) highly concordant with the 3rd window (16) is provided with, the backboard plate group (4) includes the first backboard positioned opposite (41) and the second backboard (42), be provided between the first backboard (41) and the second backboard (42) for by the first backboard (41) and What the second backboard (42) was mutually strutted second struts cylinder, and casing (1) is vertically arranged with for battery blade group (3) and backboard plate The longitudinal rail (13) that group (4) is slided, battery blade group (3) is moved up with a control battery blade group (3) in longitudinal rail (13) Dynamic the first cylinder connection, the second cylinder that backboard plate group (4) is moved with control backboard plate (4) group on longitudinal rail (13) Connection；The laying mechanism (5) laid for thermoplastic resin layer (62,64), the laying mechanism are provided with the casing (1) (5) include for the installation rod (51) for installing thermoplastic resin, rolling bar (53) and the section for cutting off thermoplastic resin (52), the two ends of section (52) are rotationally connected with installation rod (51), and the first swing clamp cylinder is connected with the rotating shaft of section (52) (55), the two ends for installing rod (51), which are rotatably connected in connecting rod (57), the rotating shaft of connecting rod (57), is connected with second turn Angle cylinder (54), is provided with spring (56) between connecting rod (57) and installation rod (51), rolling bar (53) rotates and is arranged at two companies The termination of extension bar (56), be horizontally arranged with the casing (1) for install second slideway (12) of rod (51) transverse shifting with And the 3rd cylinder that rod (51) is moved in second slideway (12) is installed in control, second slideway (12) is located at platform (11) platform Above face, first strut cylinder, second strut cylinder, the first cylinder, the second cylinder, the 3rd cylinder, the first swing clamp cylinder (55), Second swing clamp cylinder (54) and vavuum pump (2) are electrically connected with a controller.

2. low profile photovoltaic component stack equipment according to claim 1, it is characterised in that：The laying mechanism (5) has Two, respectively the first laying mechanism and the second laying mechanism are provided with what is communicated with the second slideway (12) in the casing (1) For arranging that the first of the first laying mechanism leads the way and for arranging that the second of the second laying mechanism leads the way.

3. low profile photovoltaic component stack equipment according to claim 1, it is characterised in that：The spring (56) is torsion spring, Torsion spring set is connected located at rod (51) shaft end, one end is installed with installing rod (51), and the torsion spring other end is connected with connecting rod (56).

4. a kind of laminated process of the low profile photovoltaic component stack equipment described in utilization claim 1, it is characterised in that including with Lower step：

(1), it is arranged thermoplastic resin roller on rod (51) is installed；

(2), the first window (14) is opened, and armorplate glass (61) is put as on platform (11), and the second window (15) is opened, and is pulled out Battery blade group (3), the placing battery pack (63) in battery blade group (3), then battery blade group (3) is pushed into casing (1) Interior, the 3rd window (16) is opened, and backboard (65) is positioned in backboard plate group (4)；

(3), the first window (14), the second window (15) and the 3rd window (16) are closed, and vavuum pump (2) will be taken out true in casing (1) It is empty；

(4), the 3rd cylinder promotes laying mechanism (5) to enter laterally above platform (11), the second swing clamp cylinder (54) action, rolling Bar (53) presses on thermoplastic resin on armorplate glass (61), during laying mechanism (5) transverse shifting, rolls bar (53) rolled on armorplate glass (61), laying is completed after thermoplastic resin layer (62) on whole armorplate glass (61), the One swing clamp cylinder (55) is acted, and thermoplastic resin is cut off in section, and the second swing clamp cylinder (54) and the 3rd cylinder reset；

(5), the first cylinder is acted, and battery blade group (4) is moved on longitudinal rail (13), and battery blade group (4) is moved to flat Above platform (11), first struts cylinder action, and the first battery sheet (41) and the second battery sheet (42) are opened, battery pack paving Battery pack lamella (63) is formed above platform (11)；

(6), the 3rd cylinder promotes laying mechanism (5) to enter laterally again above platform (11), the second swing clamp cylinder (54) action, Rolling bar (53) presses on thermoplastic resin on battery pack lamella (63), during laying mechanism (5) transverse shifting, rolling Depression bar (53) is rolled on battery pack lamella (63), and laying completes thermoplastic resin layer (64) on whole battery pack lamella (63) Afterwards, the first swing clamp cylinder (55) is acted, and thermoplastic resin is cut off in section, and the second swing clamp cylinder (54) and the 3rd cylinder reset；

(7), the second cylinder is acted, and backboard plate group (4) is moved on longitudinal rail (13), and backboard plate group (4) is moved to platform (11) top, second struts cylinder action, and the first backboard (41) and the second backboard (42) are opened, and backboard (65) is layed on platform It is square into backsheet layer；

(8), the second cylinder and second struts cylinder reset, then, and the first cylinder and first struts cylinder reset.