CN111404458B

CN111404458B - Mounting system of crystal silicon solar panel

Info

Publication number: CN111404458B
Application number: CN202010242190.3A
Authority: CN
Inventors: 仇涛
Original assignee: Individual
Current assignee: Inner Mongolia Liyuan Power Engineering Co ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2021-02-12
Anticipated expiration: 2040-03-31
Also published as: CN111404458A

Abstract

The invention relates to a mounting system of a crystalline silicon solar panel. The installation system of the crystalline silicon solar panel comprises a roof beam, a first metal frame, a second metal frame, two overturning sealing frames, a screw and a supporting assembly, wherein the crystalline silicon plate is installed on the first metal frame and the second metal frame, the first metal frame and the second metal frame are mutually matched, the screw is arranged on the first metal frame and the second metal frame in a penetrating mode and fixed on the roof beam, a top clamping plate is arranged at the top of the first metal frame and the top of the second metal frame, clamping strips are arranged at two opposite ends of the top clamping plate respectively, and an inclined binding face is formed between the two clamping strips. The installation of crystal silicon solar panel's installing the system is comparatively inseparable, is convenient for prevent into water.

Description

Mounting system of crystal silicon solar panel

Technical Field

The invention relates to a mounting system of a crystalline silicon solar panel.

Background

Among the manufacturing companies of crystalline silicon solar panels, the company of siennan tomb green energy is a powerful company. The solar tile combining the ceramic and the crystalline silicon solar panel produced by the great company of Zhejiang Hejiang has a plurality of markets. The Hanjia power generation film company mainly produces amorphous silicon film curved tiles, namely, metal films are adopted to generate power, so that relatively complete curved surfaces can be realized. The curved surface tile is produced by Zhejiang Heda company, and the curved surface ceramic is superposed on the straight plate crystalline silicon solar panel to realize the appearance of the curved surface tile, which is not a real curved surface tile. Based on the current mainstream state of the industry, the crystalline silicon solar panel is still the mainstream product of the solar power generation panel. When assembling two adjacent solar panel, need utilize two mounting brackets to interlock each other fixedly. However, the two mounting frames are easily displaced in the longitudinal direction, so that the mounting is not tight, and subsequent water leakage and the like are easily caused.

Disclosure of Invention

In view of the above, there is a need for a mounting system for mounting a relatively compact crystalline silicon solar panel.

A mounting system of a crystal silicon solar panel comprises a roof beam, a first metal frame, a second metal frame, two turnover sealing frames, a penetrating screw and a propping assembly, wherein the first metal frame and the second metal frame are both provided with a crystal silicon plate, the first metal frame and the second metal frame are mutually matched, the penetrating screw penetrates through the first metal frame and the second metal frame and is fixed on the roof beam, the tops of the first metal frame and the second metal frame are both provided with a top clamping plate, the opposite two ends of the top clamping plate are respectively provided with a clamping strip, an inclined binding surface is formed between the two clamping strips, a strip-shaped groove is penetratingly arranged on the inclined binding surface, the opposite two ends of the strip-shaped groove respectively extend to the two clamping strips, the two turnover sealing frames are respectively mounted on the top clamping plate of the first metal frame and the top clamping plate of the second metal frame, each turnover sealing frame comprises a rotating shaft and a sealing plate, the pivot is located the bar inslot and is located the edge of bar groove, the pivot epirelief is equipped with the ridge portion, the one end of closing plate is connected in the pivot, the other end paves in the upside of slope binding face, the closing plate is kept away from the one end edge in bar groove and is provided with the sealing strip, sealing strip and ridge portion are made by rubber materials, the upset seal frame is used for the upset of relative brilliant silicon slab, in order to drive the ridge portion down to support the brilliant silicon slab that is in the bar groove below, and make the closing plate laminate in the downside of slope binding face and cover the bar groove, utilize the sealing strip to support simultaneously on the brilliant silicon slab, one side of roof beam has seted up the income groove, the top of income groove has been link up and has been seted up through the groove, the bottom of second metal frame is formed with the wedge, the wedge is gone into through the inslot, the bottom of wedge is formed with the top holding inclined plane, the sliding piece is slidably arranged in the entering groove and abuts against one side of the flexible arch piece, the adjusting bolt penetrates through the sliding piece and the flexible arch piece and is screwed on the roof beam, a nut is arranged at the end part of the adjusting bolt, and the nut abuts against the sliding piece to push the flexible arch piece tightly by utilizing the sliding piece so as to force the flexible arch piece to be extruded into the inner side of the entering groove.

In one embodiment, the silicon crystal plate on the first metal frame faces away from the second metal frame, the silicon crystal plate on the second metal frame faces away from the first metal frame, and the entrance groove penetrates through the side wall of the roof beam facing the side of the silicon crystal plate of the second metal frame.

In one embodiment, the inlet groove and the through groove extend along the length direction of the roof beam, and the width of the through groove is smaller than that of the roof beam.

In one embodiment, the through groove is located in the middle of the roof beam, and the height of the abutting inclined surface of the wedge block is gradually reduced along the direction towards the inner side of the entering groove.

In one embodiment, the rotating shaft is located at one side edge of the strip-shaped groove far away from the crystal silicon plate, the ridge part extends along the length direction of the rotating shaft, and the cross section of the ridge part is a half elliptical surface.

In one embodiment, the adjusting bolt extends along the horizontal direction, the end part of the wedge block abuts against the adjusting bolt, the middle part of the flexible arch part is provided with a through groove, and a penetrating screw penetrates through the through groove.

In one embodiment, the flexible arch-shaped member comprises a main body part and two arc-shaped fender plates, wherein one side of the main body part, which is far away from the sliding member, is provided with an arch-shaped convex surface, and the two arc-shaped fender plates are respectively arranged on two opposite sides of the main body part in a protruding mode.

In one embodiment, the through groove is arranged in the middle of the main body in a penetrating mode, the two arc-shaped fenders respectively abut against the supporting inclined plane and the bottom face of the entering groove, and the end portions of the two arc-shaped fenders abut against the sliding piece.

In one embodiment, the end part of the arc-shaped fender is flat, the main body part is provided with a through hole in a penetrating mode, and the adjusting bolt penetrates through the through hole.

In one embodiment, one side of the main body part facing the sliding piece is a plane, the through hole penetrates through the plane, and the two clamping strips on the first metal frame are abutted against the upper surface of the crystal silicon plate.

When the mounting system of the crystalline silicon solar panel is mounted, the crystalline silicon panel is mounted on the first metal frame and the second metal frame, so that the first metal frame and the second metal frame are matched with each other, the screws penetrate through the first metal frame and the second metal frame and are fixed on the roof beam, and the first metal frame and the second metal frame are supported on the roof beam. Then two upset seal holders drive protruding ridge portion and support downwards and hold the brilliant silicon board that is in the bar groove below to make the closing plate laminating in the downside of slope binding face and cover the bar groove, utilize the sealing strip to support simultaneously and hold on the brilliant silicon board. That is, the sealing plate is turned over from the upper side of the inclined bonding surface to the lower side covering the inclined bonding surface. The adjusting bolt penetrates through the sliding piece and the flexible arch-shaped piece and is screwed on the roof beam, the nut is abutted against the sliding piece to push the flexible arch-shaped piece tightly by the sliding piece, the flexible arch-shaped piece is forced to be extruded into the inner side of the groove, the bottom of the second metal frame is upwardly abutted by the flexible arch-shaped piece, so that the second metal frame is upwardly abutted against the first metal frame, the installation gap is eliminated, and the installation tightness is improved.

Drawings

Fig. 1 is a perspective view of a mounting system for a crystalline silicon solar panel according to an embodiment.

Figure 2 is a perspective view of another perspective of the mounting system for the crystalline silicon solar panel of figure 1.

Figure 3 is a side view of a crystalline silicon solar panel according to one embodiment.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a schematic perspective view of a supporting assembly according to an embodiment.

Fig. 6 is a partially enlarged view of fig. 5 at B.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a mounting system of a crystalline silicon solar panel. For example, the mounting system of the crystalline silicon solar panel comprises a roof beam, a first metal frame, a second metal frame, two overturning sealing frames, a penetrating screw and a propping assembly, wherein crystalline silicon plates are mounted on the first metal frame and the second metal frame. For example, the first metal frame and the second metal frame are matched with each other, the penetrating screw penetrates through the first metal frame and the second metal frame and is fixed on the roof beam, and top clamping plates are arranged at the tops of the first metal frame and the second metal frame. For example, the relative both ends of top grip block are provided with the centre gripping strip respectively, are formed with the slope binding face between two centre gripping strips, link up on the slope binding face and have seted up the bar groove, and the relative both ends in bar groove extend to two centre gripping strip departments respectively. For example, two upset seal framves are installed respectively on the top grip block of first metal frame and the top grip block of second metal frame, and every upset seal frame includes pivot and closing plate, and the pivot is located the bar inslot and is located the edge in bar groove, and the pivot epirelief is equipped with the ridge portion, and the one end of closing plate is connected in the pivot, and the other end tiling is in the upside of slope binding face, and the one end edge that the bar groove was kept away from to the closing plate is provided with the sealing strip. For example, sealing strip and convex ridge portion are made by rubber materials, and the upset seal frame is used for the upset of relative brilliant silicon slab to drive convex ridge portion down and support the brilliant silicon slab that is in the bar groove below, and make the closing plate laminating in the downside of slope binding face and cover the bar groove, utilize the sealing strip to support simultaneously and hold on the brilliant silicon slab. For example, an entry groove is formed in one side of the roof beam, a through groove is formed in the top of the entry groove, a wedge-shaped block is formed at the bottom of the second metal frame, the wedge-shaped block protrudes into the through groove, and a jacking inclined surface is formed at the bottom of the wedge-shaped block. For example, the abutting assembly is installed in the entering groove, the abutting assembly comprises a flexible arch-shaped piece, a sliding piece and an adjusting bolt, two opposite sides of the flexible arch-shaped piece respectively abut against the abutting inclined surface of the wedge-shaped block and the bottom surface of the entering groove to force the second metal frame to abut against the first metal frame upwards, the sliding piece is slidably arranged in the entering groove and abuts against one side of the flexible arch-shaped piece, and the adjusting bolt penetrates through the sliding piece and the flexible arch-shaped piece and is screwed on the roof beam. For example, the end of the adjusting bolt is provided with a nut which abuts against the runner to push the flexible arch tight with the runner, forcing the flexible arch to be squeezed into the inside of the entry slot.

Referring to fig. 1 to 6, an installation system for a crystalline silicon solar panel includes a roof beam 10, a first metal frame 15, a second metal frame 18, two flip seal frames 20, a through screw 25 and a supporting component 40, wherein a crystalline silicon plate (not shown) is installed on each of the first metal frame 15 and the second metal frame 18, the first metal frame 15 and the second metal frame 18 are matched with each other, the through screw 25 is installed on each of the first metal frame 15 and the second metal frame 18 and fixed on the roof beam 10, top clamping plates 158 are installed on top of each of the first metal frame 15 and the second metal frame 18, clamping strips 151 are respectively installed on opposite ends of each of the top clamping plates 158, an inclined joint surface 153 is formed between the two clamping strips 151, a strip-shaped groove 155 is formed through each of the inclined joint surface 153, opposite ends of each strip-shaped groove 155 respectively extend to the two clamping strips 151, the two flip seal frames 20 are respectively installed on the top clamping plates 158 of the first metal frame 15 and the top clamping plates 158 of the second metal frame 18, each turnover sealing frame 20 comprises a rotating shaft 21 and a sealing plate 22, the rotating shaft 21 is positioned in the strip-shaped groove 155 and positioned at the edge of the strip-shaped groove 155, a ridge part is convexly arranged on the rotating shaft 21, one end of the sealing plate 22 is connected to the rotating shaft 21, the other end of the sealing plate 22 is flatly paved on the upper side of the inclined joint surface 153, a sealing strip is arranged at the edge of one end, away from the strip-shaped groove 155, of the sealing plate 22, the sealing strip and the ridge part are both made of rubber materials, the turnover sealing frame 20 is used for being turned over relative to the crystalline silicon plate to drive the ridge part to downwards abut against the crystalline silicon plate below the strip-shaped groove 155, the sealing plate 22 is made to abut against the lower side of the inclined joint surface 153 and cover the strip-shaped groove 155, meanwhile, the sealing strip is abutted against the crystalline silicon plate, an inlet groove 11 is formed in one side of the roof beam 10, the bottom of the wedge block 181 is formed with a supporting inclined surface 185, the supporting assembly 40 is installed in the entering slot 11, the supporting assembly 40 includes a flexible arch 41, a sliding member 42 and an adjusting bolt 43, opposite sides of the flexible arch 41 respectively support the supporting inclined surface 185 of the wedge block 181 and the bottom surface of the entering slot 11 to force the second metal frame 18 to support the first metal frame 15 upwards, the sliding member 42 is slidably disposed in the entering slot 11 and supports one side of the flexible arch 41, the adjusting bolt 43 is disposed on the sliding member 42 and the flexible arch 41 and screwed on the roof beam 10, a nut 437 is disposed at an end of the adjusting bolt 43, and the nut 437 supports on the sliding member 42 to push the flexible arch 41 tightly by the sliding member 42 to force the flexible arch 41 to be extruded into the inside of the entering slot 11.

For example, a crystalline silicon panel, i.e., a crystalline silicon solar panel. When the mounting system of the crystalline silicon solar panel is mounted, the crystalline silicon panel is mounted on the first metal frame 15 and the second metal frame 18, so that the first metal frame 15 and the second metal frame 18 are matched with each other, the penetrating screw 25 penetrates through the first metal frame 15 and the second metal frame 18 and is fixed on the roof beam 10, and the first metal frame 15 and the second metal frame 18 are supported on the roof beam 10. Then, the two turnover sealing frames 20 drive the convex ridge to downwardly abut against the crystalline silicon plate below the strip-shaped groove 155, so that the sealing plate 22 is attached to the lower side of the inclined attachment surface 153 and covers the strip-shaped groove 155, and the sealing strip is abutted against the crystalline silicon plate. That is, the sealing plate 22 is turned over from the upper side of the inclined bonding surface 153 to the lower side covering the inclined bonding surface 153. The adjusting bolt 43 is inserted through the sliding member 42 and the flexible arch member 41 and screwed on the roof beam 10, and is abutted against the sliding member 42 by the nut 437 to push the flexible arch member 41 tightly by the sliding member 42, so that the flexible arch member 41 is forced to be extruded into the inner side of the groove 11, and the bottom of the second metal frame 18 is upwardly abutted by the flexible arch member 41, so that the second metal frame 18 is upwardly abutted against the first metal frame 15, the installation gap is eliminated, the installation tightness is improved, and the flip seal frame 20 can abut against the top surface of the silicon crystal plate on one hand, and can prevent water flow from entering between the first metal frame 15 and the second metal frame 18 on the other hand, thereby achieving two purposes. For example, runner 42 is located on one side of the slot and does not enter the slot and does not collide or interfere with wedge block 181.

For example, in order to improve the waterproof effect, the silicon crystal plate on the first metal frame 15 is away from the second metal frame 18, the silicon crystal plate on the second metal frame 18 is away from the first metal frame 15, and the inlet groove 11 penetrates through the side wall of the roof beam 10 facing the silicon crystal plate side of the second metal frame 18. The entrance slot 11 and the through slot both extend along the length direction of the roof beam 10, and the width of the through slot is smaller than that of the roof beam 10. The through groove is formed in the middle of the roof beam 10, and the height of the abutting inclined surface 185 of the wedge 181 is gradually reduced in a direction toward the inner side of the entry groove 11. The rotating shaft 21 is located at one side edge of the strip-shaped groove 155 far away from the crystal silicon plate, the ridge part extends along the length direction of the rotating shaft 21, and the cross section of the ridge part is a half elliptical surface. Through making the cross-section of ridge portion be half ellipsoid, can be so that closely support after the ridge portion rotates and hold on the crystalline silicon board, improve and support and hold the location effect, and the upside that the ridge portion is close to bar groove 155 can improve and prevent rivers from the upside inflow of bar groove 155.

For example, in order to facilitate the sliding member 42 to push the flexible arch member 41 to move, the adjusting bolt 43 extends along the horizontal direction, the end of the wedge block 181 abuts against the adjusting bolt 43, the middle portion of the flexible arch member 41 is provided with a through groove 415, and the through screw 25 is inserted into the through groove 415, that is, the through screw 25 is inserted into the wedge block 181, the through groove and the entering groove 11. For example, in one embodiment, the number of through slots 415 is two and the number of through screws is two. The flexible arch 41 includes a main body 411 and two arc-shaped fenders 414, wherein an arc-shaped convex surface is formed on a side of the main body 411 away from the runner 42, and the two arc-shaped fenders 414 are respectively protruded on two opposite sides of the main body 411. The through groove 415 is opened in the middle of the main body 411, the two arc-shaped fenders 414 respectively abut against the abutting inclined surface 185 and the bottom surface of the entering groove 11, and the end portions of the two arc-shaped fenders 414 both abut against the sliding member 42. The end of the arc-shaped fender 414 is flat, a through hole 416 is formed through the main body 411, and the adjusting bolt 43 is inserted through the through hole 416. The side of the main body 411 facing the sliding member 42 is a plane, and the two clamping bars 151 on the first metal frame 15 are abutted against the upper surface of the silicon wafer through the holes 416. By providing the two arc-shaped fenders 414 with flat end portions, the sliding member 42 can be used to push the two arc-shaped fenders 414 against each other, so as to drive the flexible arch member 41 to move, so as to abut against the wedge block 181 upwards. For example, the abutting assembly 40 may be installed first, and then the penetrating screw 25 is fixed, the penetrating screw 25 drives the second metal frame 18 to drive the first metal frame 15 downward, and the abutting assembly 40 drives the second metal frame 18 upward, so that the first metal frame 15 and the second metal frame 18 are abutted tightly, the installation gap is eliminated, and the waterproof effect is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A mounting system of a crystal silicon solar panel is characterized by comprising a roof beam, a first metal frame, a second metal frame, two turnover sealing frames, a penetrating screw and a propping assembly, wherein the first metal frame and the second metal frame are both provided with a crystal silicon plate, the first metal frame and the second metal frame are mutually matched, the penetrating screw penetrates through the first metal frame and the second metal frame and is fixed on the roof beam, the tops of the first metal frame and the second metal frame are both provided with a top clamping plate, the two opposite ends of the top clamping plate are respectively provided with a clamping strip, an inclined binding surface is formed between the two clamping strips, the inclined binding surface is provided with a strip-shaped groove in a penetrating way, the two opposite ends of the strip-shaped groove respectively extend to the two clamping strips, the two turnover sealing frames are respectively mounted on the top clamping plate of the first metal frame and the top clamping plate of the second metal frame, each turnover sealing frame comprises a rotating shaft and a sealing plate, the pivot is located the bar inslot and is located the edge of bar groove, the pivot epirelief is equipped with the ridge portion, the one end of closing plate is connected in the pivot, the other end paves in the upside of slope binding face, the closing plate is kept away from the one end edge in bar groove and is provided with the sealing strip, sealing strip and ridge portion are made by rubber materials, the upset seal frame is used for the upset of relative brilliant silicon slab, in order to drive the ridge portion down to support the brilliant silicon slab that is in the bar groove below, and make the closing plate laminate in the downside of slope binding face and cover the bar groove, utilize the sealing strip to support simultaneously on the brilliant silicon slab, one side of roof beam has seted up the income groove, the top of income groove has been link up and has been seted up through the groove, the bottom of second metal frame is formed with the wedge, the wedge is gone into through the inslot, the bottom of wedge is formed with the top holding inclined plane, the sliding piece and the adjusting bolt, the two opposite sides of the flexible arch piece respectively abut against the abutting inclined plane of the wedge block and the bottom surface of the entering groove to force the second metal frame to abut against the first metal frame upwards, the sliding piece is slidably arranged in the entering groove and abuts against one side of the flexible arch piece, the adjusting bolt penetrates through the sliding piece and the flexible arch piece and is screwed on the roof beam, the end part of the adjusting bolt is provided with a nut, and the nut abuts against the sliding piece to push the flexible arch piece by utilizing the sliding piece so as to force the flexible arch piece to be extruded into the inner side of the entering groove;

the flexible arch piece is utilized to upwards prop against the bottom of the second metal frame, so that the second metal frame upwards props against the first metal frame to eliminate the installation gap, and the turnover sealing frame tightly props against the top surface of the silicon crystal plate on one hand and prevents water flow from entering between the first metal frame and the second metal frame on the other hand;

the crystal silicon plate on the first metal frame deviates from the second metal frame, the crystal silicon plate on the second metal frame deviates from the first metal frame, the entering groove penetrates through the side wall of the roof beam towards one side of the crystal silicon plate of the second metal frame, the entering groove and the penetrating groove both extend along the length direction of the roof beam, the width of the penetrating groove is smaller than that of the roof beam, the penetrating groove is positioned in the middle of the roof beam, the height of the propping inclined plane of the wedge block is gradually reduced along the direction towards the inner side of the entering groove, the rotating shaft is positioned at one side edge of the strip-shaped groove far away from the crystal silicon plate, the convex ridge part extends along the length direction of the rotating shaft, the cross section of the convex ridge part is a half elliptical surface, the adjusting bolt extends along the horizontal direction, the end part of the wedge block props against the adjusting bolt, the middle part of the flexible arch part is provided with a through groove, the penetrating bolt penetrates through the through groove, the flexible arch part comprises a main, two arc fenders are protruding the relative both sides of locating the main part respectively, it runs through the middle part of seting up in the main part to lead to the groove, two arc fenders support respectively to hold on the bottom surface of propping inclined plane and entering groove, the tip of two arc fenders all supports and holds on sliding the piece, the tip of arc fender is flat, link up on the main part and seted up the clearing hole, adjusting bolt wears to locate in the clearing hole, one side that the main part slideed the piece is the plane towards, the clearing hole link up this plane, two centre gripping strips on the first metal frame support and hold on the upper surface of silicon wafer.