CN213990550U - Hidden bottom hooking structure used during photovoltaic tile roof installation - Google Patents

Abstract

The utility model relates to a hidden bottom hanging structure for photovoltaic tile roof installation, which comprises a mounting piece which is arranged on a tile hanging strip and corresponds to the upper side edge of a photovoltaic tile and a lower frame which is arranged at the lower side edge of the photovoltaic tile and can be matched with the mounting piece; the mounting piece comprises a fixed seat, a connecting part and a groove part, the fixed seat is connected with the tile hanging strip, the connecting part forms a dismounting and replacing space for accommodating the upper side edge of the corresponding photovoltaic tile, and the groove part forms a groove for hanging the lower frame; the fixed seat and the groove part are respectively connected to two sides of the connecting part; the lower frame includes a mounting portion that forms a glass channel for receiving the lower side edge of the photovoltaic tile and a hooking portion that forms a hook for hooking with the groove. The utility model discloses simple structure, simple to operate can realize hanging of photovoltaic tile simultaneously and the installation is taken off to the anti-wind, can reduce installation cost, improve the installation effectiveness.

Description

Hidden bottom hooking structure used during photovoltaic tile roof installation

Technical Field

The utility model belongs to the technical field of photovoltaic tile, photovoltaic module or photovoltaic product are used, hidden bottom when concretely relates to photovoltaic tile roofing installation articulates structure.

Background

The mounting structure that current photovoltaic module or panel used when building field application generally divide into articulates and takes off two part structures with anti-wind, has both designed the part of hanging on and has designed the part that anti-wind took off promptly, is unfavorable for using the efficiency of installation and the cost control of product.

Disclosure of Invention

The utility model aims at providing a can realize articulating simultaneously and the function is taken off to anti-wind to hidden bottom when can save the cost, improve the photovoltaic tile roofing installation of installation effectiveness articulates the structure.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a hidden bottom hanging structure for photovoltaic tile roof installation is used for realizing edge stacking and overlapping installation of photovoltaic tiles, and comprises an installation piece which is installed on a tile hanging strip and corresponds to the upper side edge of a photovoltaic tile and a lower frame which is arranged on the lower side edge of the photovoltaic tile and can be matched with the installation piece;

the mounting piece comprises a fixed seat, a connecting part and a groove part, the fixed seat is connected with the tile hanging strip, the connecting part forms a replacing space for accommodating the edge of the upper side of the corresponding photovoltaic tile, and the groove part forms a groove for hanging the lower frame; the fixed seat and the groove part are respectively connected to two sides of the connecting part;

the lower rim includes a mounting portion that forms a glass channel for receiving the lower side edge of the photovoltaic tile and a hooking portion that forms a hook for hooking with the groove.

The lower frame still include with the loss prevention part that the installing part is connected blocks water, loss prevention part that blocks water inlays including wearing the leather lace groove, part and establishes wear the flexible leather strap of leather lace inslot, flexible leather strap with range upon range of in the below the surface of photovoltaic tile contacts.

The lower frame further comprises a transition part which is connected with the loss-prevention water-resisting part and the mounting part, and the hanging part is connected with the transition part.

The transition portion has a corner-grouping cavity.

The hooking portion is connected to the transition portion by an inclined portion comprising an inclined connection plate arranged inclined with respect to the outer surface of the photovoltaic tile.

The inner wall of the glass groove is a concave-convex curved surface.

The installed part is still including being used for the restriction to articulate the spacing arch of photovoltaic tile translation, spacing arch corresponds the oral area of slot set up in on the translation route of last piece photovoltaic tile, spacing arch with distance between the oral area of slot satisfies articulates the needs of couple.

The mouth of the groove faces the upper side edge direction of the photovoltaic tile.

The fixing base includes the mounting panel, set up perpendicularly in the limit baffle of mounting panel one side, the mounting panel passes through the installation screw and installs on the battens.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages: the utility model discloses simple structure, simple to operate can realize hanging of photovoltaic tile simultaneously and the installation is taken off to the anti-wind, can reduce installation cost, improve the installation effectiveness.

Drawings

Fig. 1 is a schematic side view of a first embodiment of the present invention.

Fig. 2 is a schematic side view of a mounting member according to a first embodiment of the present invention.

Fig. 3 is a schematic side view of a lower frame according to an embodiment of the present invention.

Fig. 4 is a mounting step diagram of a first embodiment of the present invention.

Fig. 5 is a schematic side view of an installed embodiment of the present invention.

Fig. 6 is a schematic side view of the mounting member according to the second embodiment of the present invention.

Fig. 7 is a schematic side view of a second embodiment of the present invention.

In the above drawings: 1. a roof; 2. hanging battens; 3. a photovoltaic tile; 4. a mounting member; 5. a lower frame; 6. a fixed seat; 7. a connecting portion; 8. a trench portion; 9. mounting a plate; 10. a limit baffle; 11. space is disassembled and replaced; 12. a trench; 13. a mounting portion; 14. a hanging portion; 15. a loss-prevention water-blocking part; 16. a transition portion; 17. an inclined portion; 18. a glass tank; 19. hooking; 20. a leather strip penetrating groove; 21. a flexible leather strip; 22. a corner combining cavity; 23. an inclined connecting plate; 24. mounting screws; 25. cement tile/ceramic tile; 26. and a limiting bulge.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings.

The first embodiment is as follows: the roofing installation of photovoltaic tile 3 adopts the range upon range of overlap joint mounting means in edge to realize the installation often, and photovoltaic tile 3 is the multirow setting along the installation face (for example roofing 1) of slope promptly, and the lower side edge overlap joint of photovoltaic tile 3 corresponds on the upside edge of photovoltaic tile 3 in its downside one line for two lines of photovoltaic tiles 3 about from top to bottom are locally formed range upon range of in the edge, and the upside edge of photovoltaic tile 3 directly places on the batten 2 that corresponds. For any two adjacent rows of photovoltaic tiles 3, typically the upper row of photovoltaic tiles 3 is referred to as the upper photovoltaic tile and the lower row of photovoltaic tiles 3 is referred to as the lower photovoltaic tile.

As shown in fig. 1 to 3, the hidden bottom hanging structure for photovoltaic tile roof installation for realizing edge stacking and overlapping installation of photovoltaic tiles 3 comprises two parts, namely an installation part 4 and a lower frame 5.

Mounting pieces 4 are mounted on battens 2 and are arranged corresponding to the upper edges of photovoltaic tiles 3, i.e. mounting pieces 4 are arranged corresponding to lower photovoltaic tiles 3 in a set of edge-stacking overlap joints. The mounting 4 has a suitable length in the direction of extension of the upper side edge of the lower photovoltaic tile 3, i.e. the direction perpendicular to the plane of the drawing. The mounting 4 comprises a fixing seat 6, a connecting portion 7 and a groove portion 8. The fixing seat 6 is connected with the battens 2 and comprises a mounting plate 9 and a limit baffle 10 vertically arranged on one side of the mounting plate 9, the mounting plate 9 is mounted on one surface of the battens 2 through a mounting screw 24, and the limit baffle 10 is attached to the other surface of the battens 2. The connecting portion 7 forms a space 11 for accommodating the upper side edge of the corresponding lower photovoltaic tile 3, the space 11 being a groove opening toward the corresponding lower photovoltaic tile 3, the upper side edge of the lower photovoltaic tile 3 being inserted into the space 11 but not contacting the bottom of the groove. The groove portion 8 forms a groove 12 for hooking the lower frame 5, and the mouth of the groove 12 faces the upper side edge direction of the lower photovoltaic tile 3. The fixing seat 6 and the groove part 8 are respectively connected to two sides of the connecting part 7, namely the fixing seat 6 and the groove part 8 are respectively arranged on the outer sides of two side walls of the dismounting space 11.

Can set up at 3 downside edges of photovoltaic tile with installing part 4 matched with lower frame 5, it constitutes a whole with photovoltaic tile 3, and lower frame 5 is fixed on the glass subassembly of photovoltaic tile 3 through structural adhesive or other modes promptly. In one set of edge lap joints, the lower border 5 is correspondingly disposed at the lower side edge of the upper photovoltaic tile 3. The lower border 5 has a length in the direction of extension of the lower side edge of the photovoltaic tile 3 on which it is located (i.e. the direction perpendicular to the plane of the drawing), typically equal to the length of the lower side edge of the photovoltaic tile 3. The lower frame 5 mainly includes a mounting portion 13 and a hanging portion 14. The mounting portion 13 forms a glass channel 18 for receiving the lower side edge of the photovoltaic tile 3, the inner wall of the glass channel 18 being a concave-convex curved surface. The hooking portion 14 forms a hook 19 for hooking with the groove 12. In addition, the lower frame 5 includes a damage-preventing water-blocking portion 15 and a transition portion 16, an inclined portion 17 connected to the mounting portion 13. The damage-proof water-blocking part 15 is connected with the mounting part 13 through a transition part 16, the damage-proof water-blocking part 15 comprises a leather strip penetrating groove 20 and a flexible leather strip 21 partially embedded in the leather strip penetrating groove 20, and the flexible leather strip 21 is in contact with the outer surface of the photovoltaic tile 3 stacked below. The flexible leather strips 21 can help the upper photovoltaic tile 3 to be pressed on the lower photovoltaic tile 3 in a flexible contact mode, the upper surface of the lower photovoltaic tile 3 is prevented from being damaged by rigid contact, meanwhile, the waterproof effect is achieved, and rainwater flowing backwards upwards due to wind power can be effectively prevented from entering the back of the assembly. The transition portion 16 connects the damage-proof water-blocking portion 15 with the mounting portion 13, and the transition portion 16 has a corner-combining cavity 22, which is similar in structure to a pipe. The hooking portion 14 is connected to the transition portion 16 by an inclined portion 17, the inclined portion 17 comprising an inclined connection plate 23 disposed obliquely with respect to the outer surface of the photovoltaic tile 3.

When a photovoltaic module or a product (namely, the photovoltaic tile 3) is installed on a roof, a hanging structure and a wind uncovering resistant structure of the photovoltaic module need to be considered. The scheme combines two structures into one, reduces parts and simplifies installation; and the installation component is hidden at the back of the component, so that the overall appearance is not influenced, and meanwhile, the installation component is compatible with later-stage replacement and maintenance of products.

When the photovoltaic tiles 3 are installed, the overlapping size of the upper photovoltaic tile 3 and the lower photovoltaic tile 3 overlapped with each other is determined according to the situation. And before installing the product, all the transverse battens 2 are installed according to requirements.

As shown in fig. 4, each row of photovoltaic tiles 3 is sequentially installed from bottom to top, and the specific process is as follows: first, the lowermost mounting element 4 is mounted to the batten 2 using mounting screws 24, and then the lowermost photovoltaic tile 3 is mounted, with the hooks 19 of the lower rim 5 at the lower edge of the photovoltaic tile 3 hanging into the grooves 12 of the mounting element 4, while the upper edge of the photovoltaic tile 3 is free to rest on the other batten 2 above. Next, the photovoltaic tiles 3 in the previous row are installed, the installation member 4 is also installed on the batten 2, so that the upper side edge of the photovoltaic tile 3 in the next row which is already installed is inserted into the replacing space 11 of the installation member 4 installed at this time, and then the hook 19 of the lower frame 5 at the lower side edge of the photovoltaic tile 3 installed at this time is hung in the groove 12 of the installation member 4, so that the upper side edge of the photovoltaic tile 3 is freely placed on the next batten 2 above. By analogy, the photovoltaic tiles 3 are installed row by row. The photovoltaic tile 3 after installation is as shown in fig. 5, and cement tiles/ceramic tiles 25 can be installed on the upper side and the lower side of the whole photovoltaic tile 3 in a matching manner.

When photovoltaic tile 3 need be dismantled and changed or overhaul, owing to be provided with in the installed part and tear open and trade space 11, at this moment only need slide target photovoltaic tile 3 to parallel upward, upwards lift up 3 lower extremes of photovoltaic tile when target photovoltaic tile 3 end opening deviates from slot 12 of installed part, slowly take out downwards again, can take out target photovoltaic tile 3 and overhaul operations such as change.

In this embodiment, it can be seen that the mounting member 4 serves to support and fix the lower end of the upper photovoltaic tile 3 and also serves to hook and pull the lower end of the upper photovoltaic tile 3 to prevent the product from being lifted by strong wind. Meanwhile, the upper end of the lower photovoltaic tile 3 is compacted by the upper photovoltaic tile 3 and the mounting part 4, and the effect of fixing the upper end of the lower photovoltaic tile 3 safely and firmly is achieved. In addition, lower frame 5 sets up in having wearing stringpiece groove 20 and disposes flexible leather strap 21, and flexible leather strap 21 can help last photovoltaic tile 3 to press on lower photovoltaic tile 3 with flexible contact's mode, avoids rigid contact to damage the upper surface of lower photovoltaic tile 3, still has the effect of blocking water simultaneously concurrently, can effectively block the rainwater that upwards flows backwards because of wind-force and get into the subassembly back.

In conclusion, the scheme solves the problem that when the photovoltaic module or the panel is applied to the building field, the product is hung and wind-resistant uncovering needs to be installed in two steps, and one mechanism part is used for simultaneously completing two important tasks of hanging and wind-resistant uncovering.

Example two: as shown in fig. 6 and 7, the present embodiment is different from the first embodiment in that: the mounting part 4 further comprises a limiting protrusion 26 used for limiting the translation of the upper photovoltaic tile 3, the opening part of the limiting protrusion 26 corresponding to the groove 12 is arranged on the translation path of the upper photovoltaic tile 3, and the distance between the limiting protrusion 26 and the opening part of the groove 12 meets the requirement of hanging the hook 19.

When adopting this scheme, the lower frame 5 card of photovoltaic tile 3 is gone into in the slot 12 of installed part 4, and when because wind-force or vibrations effect, when leading to this photovoltaic tile 3 to slide the translation along its plane direction upwards, this spacing arch 26 will play the effect of stopping to sliding to avoid photovoltaic tile 3 to drop from the slot 12 of installed part 4.

To sum up, the beneficial effect of this scheme lies in: the mounting piece is used for realizing two functions of mounting the photovoltaic tile 3 and resisting wind uncovering, the types of the mounting piece are reduced, the production cost is reduced, the mounting is simplified, the mounting cost is reduced, and the potential safety hazard problem that wind-proof measures are not available when a part of photovoltaic roof products are mounted in the prior art is solved; hide the installed part in subassembly back position, make it invisible, avoided the installed part to expose the adverse effect of many whole outward appearance effects.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. The utility model provides a hidden bottom articulates structure during installation of photovoltaic tile roofing for realize the range upon range of overlap joint installation of edge of photovoltaic tile, its characterized in that: the hidden bottom hanging structure for mounting the photovoltaic tile roof comprises a mounting piece and a lower frame, wherein the mounting piece is mounted on a tile hanging strip and corresponds to the upper side edge of the photovoltaic tile, and the lower frame is arranged on the lower side edge of the photovoltaic tile and can be matched with the mounting piece;

the mounting piece comprises a fixed seat, a connecting part and a groove part, the fixed seat is connected with the tile hanging strip, the connecting part forms a replacing space for accommodating the edge of the upper side of the corresponding photovoltaic tile, and the groove part forms a groove for hanging the lower frame; the fixed seat and the groove part are respectively connected to two sides of the connecting part;

the lower rim includes a mounting portion that forms a glass channel for receiving the lower side edge of the photovoltaic tile and a hooking portion that forms a hook for hooking with the groove.

2. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 1, wherein: the lower frame still include with the loss prevention part that the installing part is connected blocks water, loss prevention part that blocks water inlays including wearing the leather lace groove, part and establishes wear the flexible leather strap of leather lace inslot, flexible leather strap with range upon range of in the below the surface of photovoltaic tile contacts.

3. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 2, wherein: the lower frame further comprises a transition part which is connected with the loss-prevention water-resisting part and the mounting part, and the hanging part is connected with the transition part.

4. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 3, wherein: the transition portion has a corner-grouping cavity.

5. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 3, wherein: the hooking portion is connected to the transition portion by an inclined portion comprising an inclined connection plate arranged inclined with respect to the outer surface of the photovoltaic tile.

6. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 1, wherein: the inner wall of the glass groove is a concave-convex curved surface.

7. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 1, wherein: the installed part is still including being used for the restriction to articulate the spacing arch of photovoltaic tile translation, spacing arch corresponds the oral area of slot sets up on the translation route of last piece photovoltaic tile, spacing arch with distance between the oral area of slot satisfies articulates the needs of couple.

8. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 1, wherein: the mouth of the groove faces the upper side edge direction of the photovoltaic tile.

9. The hidden bottom-hanging structure for photovoltaic tile roofing installation of claim 1, wherein: the fixing base includes the mounting panel, set up perpendicularly in the limit baffle of mounting panel one side, the mounting panel passes through the installation screw and installs on the battens.

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