阅读说明：本技术 一种彩钢瓦与太阳能的组装系统 (Color steel tile and solar energy assembling system ) 是由 张艺凡 于 2020-05-16 设计创作，主要内容包括：本发明涉及一种彩钢瓦与太阳能的组装系统。所述彩钢瓦与太阳能的组装系统包括彩钢瓦、挂接组件、遮蔽组件与太阳能组件,彩钢瓦上形成有凸框并凸设有两个倒钩部,两个倒钩部分别位于凸框的相对两侧,挂接组件包括套框与两个固定板,套框套设于凸框上,两个固定板分别插设于两个倒钩部内并通过螺钉固定于彩钢瓦上,两个固定板分别连接于套框的相对两侧,螺钉的头部为圆盘状,头部的周缘抵持于倒钩部的侧壁上。所述彩钢瓦与太阳能的组装系统的防水效果较好。(The invention relates to an assembly system of color steel tiles and solar energy. The assembly system of color steel tile and solar energy includes color steel tile, articulate the subassembly, shield subassembly and solar energy component, be formed with protruding frame and protruding two barb portions that are equipped with on the color steel tile, two barb portions are located the relative both sides of protruding frame respectively, articulate the subassembly and include cover frame and two fixed plates, the cover frame cover is located on protruding frame, two fixed plates are inserted respectively and are located in two barb portions and through fix with screw on color steel tile, two fixed plates are connected respectively in the relative both sides of cover frame, the head of screw is discoid, the periphery of head supports and holds on the lateral wall of barb portion. The waterproof effect of the color steel tile and solar energy assembly system is better.)

1. A color steel tile and solar energy assembly system is characterized by comprising a color steel tile, a hanging component, a shielding component and a solar energy component, wherein a convex frame is formed on the color steel tile and convexly provided with two barb parts which are respectively positioned at two opposite sides of the convex frame, the hanging component comprises a sleeve frame and two fixing plates, the sleeve frame is sleeved on the convex frame, the two fixing plates are respectively inserted into the two barb parts and are fixed on the color steel tile through screws, the two fixing plates are respectively connected at two opposite sides of the sleeve frame, the head part of each screw is in a disc shape, the periphery of the head part is abutted against the side wall of the barb part, the shielding component comprises a shielding frame and two fastening nails, the shielding frame comprises a main board and two inclined shielding plates, the main board is abutted against the top part of the sleeve frame, a thickening part is convexly arranged at the middle part of the main board, two arch-shaped clamps are respectively convexly arranged at two opposite sides of the thickening part, and the thickening part is fixed on the sleeve frame, two slope shields are protruding the relative both sides of locating the mainboard respectively, two slope shields shield respectively in the relative both sides of cover frame, the bottom of slope shield is formed with the arch-shaped plate, the arch-shaped plate shields on fixed plate and barb portion, solar energy component includes two solar energy electroplax and presses and holds the frame, the tip of two solar energy electroplax supports respectively and holds in the relative both sides of thickening portion and centre gripping in the bottom of two arch-shaped clamps, press and hold the frame and fix on thickening portion through consolidating the nail, press and hold the relative both sides of frame and protruding centre gripping arm that is equipped with respectively, two centre gripping arms support respectively and hold on two solar energy electroplax.

2. The color steel tile and solar energy assembly system according to claim 1, wherein the sleeve frame comprises a top plate and two side wall plates, the top plate is supported on the top surface of the convex frame, the two side wall plates are respectively protruded on two opposite sides of the top plate, the bottom ends of the two side wall plates are formed with step portions, and the step portions are lapped on the fixing plate.

3. The color steel tile and solar energy assembly system of claim 2, wherein the bottom end of the inclined shielding plate is formed with a rectangular positioning frame, the rectangular positioning frame abuts against the step portion, one end of the arch-shaped plate is connected to the rectangular positioning frame, the other end of the arch-shaped plate is formed with a vertical plate, and the vertical plate abuts against the color steel tile and abuts against one side of the barb portion.

4. The color steel tile and solar energy assembly system according to claim 3, wherein the opening of the barb portion faces the convex frame, and the fixing plate comprises an insert block and an inclined block which are connected with each other in an inclined manner. The end part of the insert block is inserted into the opening of the barb part, the screw penetrates through the insert block, the inclined block abuts against the side wall of the convex frame, and the top part of the inclined block is inserted into the step part.

5. The color steel tile and solar energy assembly system according to claim 4, wherein the arch-shaped plate has a mounting plate protruding from the inner side of the end away from the vertical plate, the mounting plate is attached to the step portion, the edge of the bottom end of the mounting plate has a U-shaped slot, the bolt is fixed to the sloping block and inserted into the step portion and the U-shaped slot, and the top of the bolt abuts against the mounting plate.

6. The color steel tile and solar energy assembly system according to claim 5, wherein the main plate has two opposite sides respectively provided with a protruding vertical bar, the top of the two vertical bars respectively abuts against the strip-shaped grooves on the lower surfaces of the two solar panels, and the reinforcing nail is located between the two fastening nails.

7. The color steel tile and solar energy assembly system of claim 6, wherein each arch clip comprises a vertical wall and a top inverted frame, the vertical wall extends vertically and upwardly from the edge of the thickened portion, the top inverted frame extends laterally and downwardly from the top of the vertical wall, the end surface of the solar panel abuts against the side surface of the thickened portion and the vertical wall, and the bottom surface of the top inverted frame abuts against the upper surface of the solar panel.

8. The color steel tile and solar energy assembly system according to claim 7, wherein the reinforcing nail comprises a driving head and a rod portion which are coaxially connected, the driving head is pressed and held in the middle of the upper surface of the pressing and holding frame, and the rod portion is inserted into the pressing and holding frame and fixed in the thickened portion.

9. The color steel tile and solar energy assembly system according to claim 8, wherein the thickened portion, the two arch clips and the two fastening nails are all covered under the pressing frame, the width of the main plate is larger than that of the top surface of the convex frame, and the distance between the two clamping arms is larger than that between the two arch clips.

10. The color steel tile and solar energy assembly system according to claim 9, wherein the bottom end surfaces of the two fastening nails are flush with the upper surface of the convex frame, and the included angle between the two inclined shielding plates is smaller than the included angle between the two opposite side walls of the convex frame, so that a pressure stabilizing space is formed between the inclined shielding plates and the side walls of the convex frame.

Technical Field

The invention relates to an assembly system of color steel tiles and solar energy.

Background

In order to install the solar panel, the color steel tile is installed on the roof before the solar panel is installed on the color steel tile. Because the upper surface of various steel tile is smooth surface, consequently need adopt the screw to install the solar energy electroplax on various steel tile. The holes produced by drilling the screws easily cause rainwater to fall down, so that the waterproof effect is poor.

Disclosure of Invention

Therefore, it is necessary to provide an assembly system of color steel tiles and solar energy with better waterproof effect.

A color steel tile and solar energy assembly system comprises a color steel tile, a hanging component, a shielding component and a solar energy component, wherein a convex frame is formed on the color steel tile and convexly provided with two barb parts which are respectively positioned at two opposite sides of the convex frame, the hanging component comprises a sleeve frame and two fixing plates, the sleeve frame is sleeved on the convex frame, the two fixing plates are respectively inserted in the two barb parts and are fixed on the color steel tile through screws, the two fixing plates are respectively connected at two opposite sides of the sleeve frame, the head part of each screw is in a disc shape, the periphery of the head part is propped against the side wall of the barb part, the shielding component comprises a shielding frame and two fastening nails, the shielding frame comprises a main plate and two inclined shielding plates, the main plate is clung to and supported at the top of the sleeve frame, a thickening part is convexly arranged at the middle part of the main plate, two arch-shaped clamps are respectively convexly arranged at two opposite sides of the thickening part, and the thickening part is, two slope shields are protruding the relative both sides of locating the mainboard respectively, two slope shields shield respectively in the relative both sides of cover frame, the bottom of slope shield is formed with the arch-shaped plate, the arch-shaped plate shields on fixed plate and barb portion, solar energy component includes two solar energy electroplax and presses and holds the frame, the tip of two solar energy electroplax supports respectively and holds in the relative both sides of thickening portion and centre gripping in the bottom of two arch-shaped clamps, press and hold the frame and fix on thickening portion through consolidating the nail, press and hold the relative both sides of frame and protruding centre gripping arm that is equipped with respectively, two centre gripping arms support respectively and hold on two solar energy electroplax.

In one embodiment, the cover frame comprises a top plate and two side wall plates, the top plate is supported on the top surface of the convex frame, the two side wall plates are respectively arranged on two opposite sides of the top plate in a protruding mode, the bottom ends of the two side wall plates are provided with step portions, and the step portions are lapped on the fixing plate.

In one embodiment, a rectangular positioning frame is formed at the bottom end of the inclined shielding plate, the rectangular positioning frame abuts against the step portion, one end of the arch-shaped plate is connected to the rectangular positioning frame, a vertical plate is formed at the other end of the arch-shaped plate, and the vertical plate abuts against the color steel tile and abuts against one side of the barb portion.

In one embodiment, the opening of the barb part faces the convex frame, and the fixing plate comprises an insertion block and an inclined block which are connected with each other in an inclined mode. The end part of the insert block is inserted into the opening of the barb part, the screw penetrates through the insert block, the inclined block abuts against the side wall of the convex frame, and the top part of the inclined block is inserted into the step part.

In one embodiment, an installation piece is convexly arranged on the inner side of one end, away from the vertical plate, of the arch plate, the installation piece is attached to the step portion, a U-shaped notch is concavely arranged on the edge of the bottom end of the installation piece, a bolt piece is fixed on the oblique block and penetrates through the step portion and the U-shaped notch, and the top of the bolt piece abuts against the installation piece.

In one of them embodiment, the relative both sides of mainboard are protruding respectively and are equipped with the vertical retort, and the top of two vertical retorts supports respectively on holding in the bar groove of the lower surface of two solar panels, and the reinforcement nail is located between two fastening nails.

In one embodiment, each arch clip comprises a vertical wall and a top inverted frame, the vertical wall vertically extends upwards from the edge of the thickened portion, the top inverted frame extends downwards from the top of the vertical wall to one side, the end face of the solar panel abuts against the side face of the thickened portion and the vertical wall, and the bottom face of the top inverted frame abuts against the upper surface of the solar panel.

In one embodiment, the reinforcing nail comprises a driving head and a rod part which are coaxially connected, the driving head is pressed and held in the middle of the upper surface of the pressing and holding frame, and the rod part is arranged in the pressing and holding frame in a penetrating mode and fixed in the thickened part.

In one embodiment, the thickened part, the two arch clamps and the two fastening nails are all covered below the pressing and holding frame, the width of the main plate is larger than that of the top surface of the convex frame, and the distance between the two clamping arms is larger than that between the two arch clamps.

In one embodiment, the bottom end surfaces of the two fastening nails are flush with the upper surface of the convex frame, and the included angle between the two inclined shielding plates is smaller than the included angle between the two opposite side walls of the convex frame, so that a pressure stabilizing space is formed between the inclined shielding plates and the side walls of the convex frame.

In the assembly system of the color steel tile and the solar energy, the top of the convex frame is not provided with screw holes and is not damaged, so that water leakage is avoided, the waterproof effect is improved, and although the screws are arranged in the fixing plate and the color steel tile below the fixing plate, the fixing plate and the color steel tile can be shielded by using the arch-shaped plate, so that the waterproof effect is further improved. Through utilizing arch clamp and centre gripping arm centre gripping solar energy electroplax, can reduce the centre gripping area relatively, improve the centre gripping dynamics, improved the centre gripping stability to solar energy electroplax. The pressing and holding frame further improves the positioning effect of the solar panel, and can prevent water flow from entering between the two arch clamps. The clamping arm and the arch clamp apply double force to the top surface of the solar panel, so that the flatness of the solar panel can be ensured, and one end of the solar panel cannot be tilted.

Drawings

Fig. 1 is a schematic plan view of an assembly system of color steel tiles and solar energy according to an embodiment.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a partially enlarged view of B in fig. 1.

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 an assembly system of color steel tiles and solar energy. For example, the color steel tile and solar energy assembly system comprises a color steel tile, a hanging assembly, a shielding assembly and a solar energy assembly, wherein a convex frame is formed on the color steel tile, two barb portions are convexly arranged on the color steel tile, the two barb portions are respectively located on two opposite sides of the convex frame, and the hanging assembly comprises a sleeve frame and two fixing plates. For example, the cover frame is sleeved on the convex frame, the two fixing plates are respectively inserted into the two barb parts and fixed on the color steel tile through screws, the two fixing plates are respectively connected to the two opposite sides of the cover frame, the heads of the screws are disc-shaped, the peripheries of the heads abut against the side walls of the barb parts, and the shielding assembly comprises a shielding frame and two fastening nails. For example, the shielding frame comprises a main board and two inclined shielding plates, the main board is attached to and supported on the top of the sleeve frame, a thickened portion is convexly arranged in the middle of the main board, two arch-shaped clamps are convexly arranged on two opposite sides of the thickened portion respectively, the thickened portion is fixed on the sleeve frame through two fastening nails, and the two inclined shielding plates are convexly arranged on two opposite sides of the main board respectively. For example, the two inclined shielding plates are respectively shielded at two opposite sides of the sleeve frame, the bottom ends of the inclined shielding plates are provided with arch plates, the arch plates are shielded on the fixing plate and the barb part, the solar component comprises two solar panels and a pressing frame, and the end parts of the two solar panels are respectively abutted against two opposite sides of the thickened part and clamped at the bottoms of the two arch clamps. For example, the pressing and holding frame is fixed on the thickened portion through the reinforcing nail, clamping arms are respectively arranged on two opposite sides of the pressing and holding frame in a protruding mode, and the two clamping arms respectively abut against the two solar panels.

Referring to fig. 1 to 3, a color steel tile and solar energy assembly system includes a color steel tile 20, a hanging assembly 30, a shielding assembly 40 and a solar energy assembly 50, the color steel tile 20 is formed with a convex frame 25 and convexly provided with two barb portions 28, the two barb portions 28 are respectively located at two opposite sides of the convex frame 25, the hanging assembly 30 includes a sleeve frame 35 and two fixing plates 38, the sleeve frame 35 is sleeved on the convex frame 25, the two fixing plates 38 are respectively inserted into the two barb portions 28 and fixed on the color steel tile 20 through screws 39, the two fixing plates 38 are respectively connected to two opposite sides of the sleeve frame 35, the head of the screw 39 is disc-shaped, the periphery of the head abuts against the side wall of the barb portion 28, the shielding assembly 40 includes a shielding frame 43 and two fastening screws 48, the shielding frame 43 includes a main plate 431 and two inclined shielding plates 433, the main plate 431 abuts against and supports the top of the sleeve frame 35, the middle portion of the main plate 431 is convexly provided with a thickened portion 435, the opposite two sides of the thickened portion 435 are respectively provided with two arch clips 439 in a protruding manner, the thickened portion 435 is fixed on the sleeve frame 35 by two fastening nails 48, the two inclined shielding plates 433 are respectively provided with two protruding portions on the opposite two sides of the main plate 431 in a protruding manner, the two inclined shielding plates 433 are respectively shielded on the opposite two sides of the sleeve frame 35, the bottom end of each inclined shielding plate 433 is provided with an arch plate 4338, the arch plate 4338 is shielded on the fixing plate 38 and the barb portion 28, the solar module 50 comprises two solar panels 51 and a pressing frame 53, the ends of the two solar panels 51 respectively abut against the opposite two sides of the thickened portion 435 and are clamped at the bottoms of the two arch clips 439, the pressing frame 53 is fixed on the thickened portion 435 by the fastening nails 55, the opposite two sides of the pressing frame 53 are respectively provided with clamping arms 535 in a protruding manner, and the two clamping arms 535 respectively abut against the two solar panels 51.

In the assembly system of color steel tile and solar energy, the top of the convex frame is not provided with the screw 39 hole, and is not damaged, so that water leakage is avoided, and the waterproof effect is improved, while the fixing plate 38 and the color steel tile 20 below the fixing plate are provided with the screw 39, but can be shielded by the arched plate 4338, and the waterproof effect is further improved. By clamping the solar panel 51 by the arch clamp 439 and the clamping arm 535, the clamping area can be relatively reduced, the clamping force is improved, and the clamping stability of the solar panel 51 is improved. The pressing frame 53 further improves the positioning effect of the solar panel 51, and the pressing frame 53 can prevent water from entering between the two arch clips 439. The clamping arm 535 and the arch clamp apply double force to the top surface of the solar panel 51, so that the flatness of the solar panel 51 can be ensured, and one end of the solar panel is not tilted.

For example, in order to support and position the bezel 35, the bezel 35 includes a top plate 351 and two side wall plates 352, the top plate 351 is supported on the top surface of the convex frame 25, the two side wall plates 352 are respectively protruded on opposite sides of the top plate 351, the bottom ends of the two side wall plates 352 are formed with step portions 353, and the step portions 353 are overlapped on the fixing plate 38. A rectangular positioning frame 437 is formed at the bottom end of the inclined shielding plate 433, the rectangular positioning frame 437 abuts against the step portion 353, one end of the arched plate 4338 is connected to the rectangular positioning frame 437, a vertical plate 4336 is formed at the other end, and the vertical plate 4336 abuts against the color steel tile 20 and abuts against one side of the barb portion 28. The barb 28 opens toward the ledge 25, and the mounting plate 38 includes an insert 383 and a ramp 385 that are angularly coupled to each other. The end of the insert 383 is inserted into the opening of the barb 28, the screw 39 is inserted into the insert 383, the inclined block 385 is abutted against the side wall of the convex frame 25, and the top of the inclined block 385 is inserted into the step 353. By providing step 353 and rectangular positioning frame 437, positioning of sidewall plate 352 of sleeve frame 35 is facilitated, as well as positioning of dome plate 4338, to direct water flow away from screw 39 by dome plate 4338.

For example, in order to fix the bottom end of the side wall plate 352 and the inclined shielding plate 433, an installation piece 4335 is convexly disposed on the inner side of one end of the arched plate 4338 away from the vertical plate 4336, the installation piece 4335 is attached to the step portion 353, a U-shaped notch is concavely disposed on the edge of the bottom end of the installation piece 4335, the bolt 47 is fixed to the inclined block 385 and is inserted into the step portion 353 and the U-shaped notch, and the top of the bolt 47 is attached to the installation piece 4335. The U-shaped notch is concavely arranged at the bottom end of the mounting piece 4335, the lower side edge of the mounting piece 4335 is inserted and sleeved on the bolt piece 47, the side wall plate 352 and the inclined shielding plate 433 can be fixed through one bolt piece 47, and the fixing plate 38 is fixed, so that multiple purposes are achieved. For example, by tightening nuts and bolt members 47, the arch plate can be secured.

For example, in order to clamp two solar panels 51, two opposite sides of the main board 431 are respectively protruded with vertical bars 4318, tops of the two vertical bars 4318 respectively abut against the strip-shaped grooves on the lower surfaces of the two solar panels 51, and the reinforcing nail 55 is located between the two fastening nails 48. Each arch clamp 439 comprises a vertical wall 4391 and a top inverted frame 4392, wherein the vertical wall 4391 extends vertically and upwardly from the edge of the thickened portion 435, the top inverted frame 4392 extends laterally and downwardly from the top of the vertical wall 4391, the end surface of the solar panel 51 abuts against the side surface of the thickened portion 435 and the vertical wall 4391, and the bottom surface of the top inverted frame 4392 abuts against the upper surface of the solar panel 51. The reinforcing nail 55 includes a driving tip 553 and a rod 555, which are coaxially connected, the driving tip 553 is pressed and held in the middle of the upper surface of the pressing and holding frame 53, and the rod 555 is inserted into the pressing and holding frame 53 and fixed in the thickened portion 435. By having reinforcement nail 55 located between two fastening nails 48, i.e., the three are misaligned, rain water does not flow directly from the sidewall of reinforcement nail 55 onto the sidewall of fastening nail 48. And the cooperation of the vertical bars 4318 and the bar-shaped grooves can prevent the solar panel 51 from being transversely removed. And the area of the top surface of the vertical bar 4318 is relatively small, so that the propping strength can be improved.

For example, in order to facilitate the formation of the pressure stabilizing space 430, the thickened portion 435, the two arch clips 439 and the two fastening nails 48 are shielded under the pressure holding frame 53, the width of the main plate 431 is larger than that of the top surface of the boss frame 25, and the distance between the two holding arms 535 is larger than that between the two arch clips 439. The bottom end surfaces of the two fastening nails 48 are flush with the upper surface of the convex frame 25, and the included angle between the two inclined shielding plates 433 is smaller than the included angle between the two opposite side walls of the convex frame 25, so that a pressure stabilizing space 430 is formed between the inclined shielding plates 433 and the side walls of the convex frame 25. By forming the pressure stabilizing space 430, the rectangular positioning frame 437 can be conveniently positioned on the step portion 353, and if the inclined shielding plate 433 is attached to the side wall of the convex frame 25, the inclined shielding plate can not be deformed, and after the pressure stabilizing space 430 is formed, even if the inclined shielding plate 433 has a manufacturing tolerance, the inclined shielding plate can be deformed relative to the side wall of the convex frame 25, so that the installation process is adapted, the installation convenience is improved, and the pressure stabilizing space 430 can also prevent rainwater from entering from a gap, so that 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.