CN215167273U - A ventilation ridge mounting structure for roof power generation system - Google Patents

Abstract

The utility model belongs to the technical field of the photovoltaic, concretely relates to ventilation ridge mounting structure for roof power generation system, install ridge tripe fagging on the ridge guide rail and support fixed chevron shape roof waterproof apron jointly by two sets of ridge tripe faggings including two sets of relative cooperations in the ridge guide rail of ridge both sides, cooperation, form a ventilation chamber between ridge guide rail, ridge tripe fagging and the chevron shape roof waterproof apron. The utility model relates to a rationally, simple structure, set up ridge guide rail, ridge tripe fagging, chevron shape roof waterproof cover isotructure to form a ventilation chamber between ridge guide rail, ridge tripe fagging and chevron shape roof waterproof cover, make the utility model discloses not only simple to operate, waterproof sealing performance are good, and ventilation effect is also fine moreover.

Description

A ventilation ridge mounting structure for roof power generation system

Technical Field

The utility model belongs to the technical field of the photovoltaic, concretely relates to ventilation ridge mounting structure for roof power generation system.

Background

At present, the most widely applied building energy conservation is a solar photovoltaic building integrated structure, namely, the solar energy utilization is incorporated into the overall design of the building, and the building, the technology and the aesthetics are integrated. The building integrated roof power generation system perfectly realizes the combination of solar photovoltaic power generation and a building, and a solar photovoltaic module is designed as a roof. In this design, mainly solve building structure and photovoltaic module and how to realize mutual reliable connection, realize simultaneously that rain-proof water seepage, prevent wind, vibrations, cable junction lay, subassembly frame ground connection, ventilation cooling, simple to operate's requirement such as. In the design of a building integrated roof power generation system, how to realize ventilation of a ridge is a difficult problem, and the prior art cannot well solve the problem.

SUMMERY OF THE UTILITY MODEL

In order to compensate for the deficiencies of the prior art, the utility model provides a ventilation ridge mounting structure technical scheme for roof power generation system.

A ventilation ridge mounting structure for roof power generation system, its characterized in that includes that two sets of relative cooperation are installed in the ridge guide rail of ridge both sides, the cooperation is installed ridge tripe fagging on the ridge guide rail and is supported fixed chevron shape roof waterproof apron jointly by two sets of ridge tripe faggings, forms a ventilation chamber between ridge guide rail, ridge tripe fagging and the chevron shape roof waterproof apron.

The ventilating ridge mounting structure for the roof power generation system is characterized in that transverse battens are mounted on the roof in a matched mode, and ridge guide rails are mounted on the transverse battens in a matched mode.

A ventilation ridge mounting structure for roof power generation system, its characterized in that the ridge guide rail includes the first ridge guide rail installation department that is used for installing with horizontal stuff cooperation and the second ridge guide rail installation department that is used for installing with the cooperation of ridge tripe fagging.

The ventilating ridge mounting structure for the roof power generation system is characterized in that the ridge guide rail further comprises a third ridge guide rail mounting part used for being in buckle fit with a hook, and the ridge guide rail is connected with the double-glass assembly through the hook.

A ventilation ridge mounting structure for roof power generation system, its characterized in that form the recess between first ridge guide rail installation department and the third ridge guide rail installation department, and third ridge guide rail installation department has first hook-like structure, the main part of couple relies on elasticity card to go into in the recess, and the couple has the second hook-like structure that is used for catching on first hook-like structure.

The ventilating ridge mounting structure for the roof power generation system is characterized in that the main body of the hook is provided with a step structure used for being buckled with the double-glass assembly, and the end part corresponding to the double-glass assembly is clamped between the step structure and the first hook-shaped structure.

The ventilating ridge mounting structure for the roof power generation system is characterized in that the longitudinal section of the hook is in a shape like a Chinese character '5'.

The ventilating ridge mounting structure for the roof power generation system is characterized in that the outer side edge of the herringbone ridge waterproof cover plate extends to the upper end of the double-glass assembly.

A ventilation ridge mounting structure for roof power generation system, its characterized in that first ridge guide rail installation department have with the roof of horizontal stuff top laminating and with the fixed curb plate of horizontal stuff one side laminating, roof protrusion in the opposite side of horizontal stuff, horizontal stuff opposite side fixed fit ridge guide rail buckle, the upper end of ridge guide rail buckle has the turn-ups portion that is used for wrapping the roof side.

A ventilation ridge mounting structure for roof power generation system, its characterized in that second ridge guide rail installation department has a draw-in groove, ridge tripe fagging include be used for with draw-in groove inlay card complex first ridge tripe fagging installation department with be used for with chevron shape roof waterproof cover board fixed coordination's second ridge tripe fagging installation department.

Compared with the prior art, the utility model relates to a rationally, simple structure, set up ridge guide rail, ridge tripe fagging, chevron shape roof waterproof cover isotructure to form a ventilation chamber between ridge guide rail, ridge tripe fagging and chevron shape roof waterproof cover, make the utility model discloses not only simple to operate, waterproof sealing performance are good, and ventilation effect is also fine moreover.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of a ridge guide rail of the present invention;

FIG. 3 is a schematic view of the hook structure of the present invention;

FIG. 4 is a schematic view of the structure of the roof rail buckle of the present invention;

fig. 5 is a schematic view of the structure of the middle ridge louver supporting plate of the present invention.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in the figure, the ventilation ridge mounting structure for the roof power generation system comprises two groups of ridge guide rails 13 which are arranged on two sides of a ridge in a relative matching mode, ridge shutter supporting plates 10 which are arranged on the ridge guide rails 13 in a matching mode and herringbone roof waterproof cover plates 12 which are jointly supported and fixed by the two groups of ridge shutter supporting plates 10, wherein a ventilation cavity 21 is formed among the ridge guide rails 13, the ridge shutter supporting plates 10 and the herringbone roof waterproof cover plates 12. Wherein the ridge is formed by the roof 18.

As an optimization: the roof 18 is provided with longitudinal battens 17 in a matching mode, the longitudinal battens 17 are provided with transverse battens 16 in a matching mode, and the ridge guide rail 13 is arranged on the transverse battens 16 in a matching mode.

On the basis of the structure, the ridge guide rail 13 comprises a first ridge guide rail installation part 1300 used for being installed in a matched mode with the transverse battens 16, a second ridge guide rail installation part 1301 used for being installed in a matched mode with the ridge louver supporting plate 10 and a third ridge guide rail installation part 1302 used for being matched with the hook 4 in a buckled mode, and the ridge guide rail 13 is connected with the double-glass assembly 1 through the hook 4.

Further description of the above structure: a groove 1303 is formed between the first ridge guide rail mounting part 1300 and the third ridge guide rail mounting part 1302, the third ridge guide rail mounting part 1302 is provided with a first hook-shaped structure 13020, the hook 4 is fixedly adhered with the dual-glass assembly, the main body of the hook 4 is clamped in the groove 1303 by means of elasticity, and the hook 4 is provided with a second hook-shaped structure 400 for hooking the first hook-shaped structure 13020. The main body of the hook 4 has a step structure 401 for buckling with the dual glass assembly 1, and the corresponding end of the dual glass assembly 1 is sandwiched between the step structure 401 and the first hook structure 13020. The longitudinal section of the hook 4 is in a shape like a Chinese character '5', and the hook 4 is made of elastic materials, so that the hook is convenient to deform due to the bent shape and is clamped into the groove 1303 by virtue of the elasticity caused by deformation.

On the basis of the structure, the outer side edge of the herringbone roof ridge waterproof cover plate 12 extends to the upper end of the double-glass assembly 1.

On the basis of the structure, the first ridge guide rail installation part 1300 is provided with a top plate attached to the top of the transverse batten 16 and a side plate attached to one side of the transverse batten 16 through screw fixation, the top plate protrudes out of the other side of the transverse batten 16, the other side of the transverse batten 16 is matched with the ridge guide rail buckle 8 through screw fixation, and the upper end of the ridge guide rail buckle 8 is provided with a flanging part 800 used for wrapping the side edge of the top plate. Wherein the screw is preferably a self-tapping self-drilling screw.

In the above structure, the second ridge guide installation part 1301 has a slot 13010, and the ridge blind plate 10 includes a first ridge blind plate installation part 1000 for engaging with the slot 13010 and a second ridge blind plate installation part 1001 for fixedly engaging with the herringbone roof waterproof cover plate 12. Wherein, ridge tripe fagging 10 is whole to be a rectangular shape groove-like structure, and draw-in groove 13010 is the circular slot structure, and first ridge tripe fagging installation department 1000 has the round bar structure that corresponds with the circular slot structure, and second ridge tripe fagging installation department 1001 is the inclined plane structure with the laminating of chevron shape waterproof roof board 12 of ridge.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a ventilation ridge mounting structure for roof power generation system which characterized in that includes that two sets of relative cooperation are installed in ridge guide rail (13) of ridge both sides, cooperation are installed ridge tripe fagging (10) on ridge guide rail (13) and are supported fixed chevron shape roof waterproof apron (12) jointly by two sets of ridge tripe fagging (10), form one between ridge guide rail (13), ridge tripe fagging (10) and chevron shape roof waterproof apron (12) and ventilate chamber (21).

2. A ventilated roof ridge mounting structure for a roof power generation system according to claim 1, wherein said ridge is formed by a roof (18), said roof (18) is fitted with a lateral batten (16), and said ridge guide rail (13) is fitted with said lateral batten (16).

3. A ventilated roof ridge mounting structure for a roof power generation system in accordance with claim 2, wherein said roof rail (13) comprises a first roof rail mounting portion (1300) for fitting with the lateral battens (16) and a second roof rail mounting portion (1301) for fitting with the roof louver board (10).

4. A ventilated roof ridge mounting structure for a roof power generation system according to claim 3, wherein said roof ridge guide (13) further comprises a third roof ridge guide mounting portion (1302) for snap-fitting with a hook (4), said roof ridge guide (13) being connected with said dual glass assembly (1) through said hook (4).

5. A ventilated ridge mounting structure for a roof power generation system according to claim 4, wherein a groove (1303) is formed between the first ridge guide mounting part (1300) and the third ridge guide mounting part (1302), and the third ridge guide mounting part (1302) has a first hook structure (13020), the body of the hook (4) is resiliently snapped into the groove (1303), and the hook (4) has a second hook structure (400) for hooking the first hook structure (13020).

6. A ventilated ridge mounting structure for roof power generation system according to claim 5, characterized in that the main body of said hanger (4) has a step structure (401) for snap-fitting with the dual glass assembly (1), the corresponding end of the dual glass assembly (1) being sandwiched between the step structure (401) and the first hook structure (13020).

7. A ventilated roof ridge mounting structure for roof power generation system according to claim 6, characterized in that said hanger (4) has a longitudinal section of "5".

8. A ventilated ridge mounting structure for roof power generation system according to any one of claims 3 to 7, wherein the outer side edge of said gable waterproof cover (12) extends to the upper end of the dual glass assembly (1).

9. The ventilating roof ridge mounting structure for the roof power generating system as claimed in any one of claims 3 to 7, wherein the first roof ridge rail mounting part (1300) has a roof plate attached to the top of the transverse batten (16) and a side plate attached to and fixed to one side of the transverse batten (16), the roof plate protrudes from the other side of the transverse batten (16), the other side of the transverse batten (16) is fixedly fitted with the roof ridge rail fastening plate (8), and the upper end of the roof ridge rail fastening plate (8) has a flange part (800) for wrapping the side of the roof plate.

10. A ventilating roof ridge mounting structure for a roof electricity generating system according to any one of claims 3-7, characterized in that said second roof rail mounting part (1301) has a slot (13010), and the roof louver board (10) includes a first roof louver board mounting part (1000) for snap-fitting engagement with the slot (13010) and a second roof louver board mounting part (1001) for fixed engagement with the gable waterproof cover (12).

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