CN204781660U - Hasp formula photovoltaic module roofing structure - Google Patents

Abstract

The utility model discloses a hasp formula photovoltaic module roofing structure, its crossbeam that includes roofing and a plurality of interval parallel arrangement, the interval is equipped with a plurality ofly rather than the support frame that becomes a contained angle on the crossbeam, it is equipped with a plurality ofly rather than the vertical basin of vertically to go back the interval on the crossbeam, the roofing is relied on on vertical basin and the support frame and is assembled according to the preface by a plurality of photovoltaic module to be constituteed, the notch of vertical basin up, the notch of vertical basin is equipped with span bearing portion respectively in its vertical both sides, span bearing portion that vertical frame of two horizontal adjacent photovoltaic module is fixed in vertical basin notch both sides respectively, be equipped with water groove assembly between vertical adjacent two photovoltaic module's the horizontal frame. The utility model discloses the direct roofing who regards as the building of photovoltaic module is under construction, handle well the rainwater accept with the drainage function in realize the solar photovoltaic electricity generation to improve the thermal -insulated ability of roofing.

Description

Hasp type photovoltaic module roof structure

Technical field

The utility model relates to roof structure, particularly relates to hasp type photovoltaic module roof structure.

Background technology

Photovoltaic generation is also referred to as solar electrical energy generation, and photovoltaic generation is a kind of technology utilizing the photovoltaic effect of interface and luminous energy is directly changed into electric energy, and the key element of this technology is solar cell.Solar cell carries out packaging protection after connection in series-parallel can form large-area solar module, then coordinates the parts such as power controller just to define photovoltaic power generation apparatus.Photovoltaic generation is owing to having non-environmental-pollution, without exhausted danger, not by restriction and the energy quality advantages of higher of resource distribution region, more and more causing the attention of people.Utilize solar energy to replace conventional energy resource to meet the requirement of building to electric power and be solar building, solar building is by one of development trend becoming modernization of the housing industry.The photovoltaic array that photovoltaic electrification component can only form by the current solar power system for building roof be covered on building roof by photovoltaic bracket and form photovoltaic generating system.This photovoltaic power generation system structure being placed in building roof, self there is no rainwater and accepts and drain function, and the cost that photovoltaic apparatus safeguards inconvenience, solar integration is built is high.

Summary of the invention

In order to solve deficiency of the prior art, the purpose of this utility model is that providing one to have rainwater accepts and drain function, and hasp type photovoltaic module roof structure convenient for installation and maintenance.

For achieving the above object, the utility model is by the following technical solutions:

Hasp type photovoltaic module roof structure, comprise the crossbeam of roofing and multiple spaced and parallel setting, described crossbeam is interval with multiple bracing frame had angle with it, described crossbeam is also interval with multiple perpendicular longitudinal tank, described roofing relies on longitudinal tank and bracing frame by multiple photovoltaic module, and be sequentially assemblied to form, the notch of described longitudinal tank upward, the notch of longitudinal tank is respectively equipped with span supporting part in its longitudinal both sides, longitudinal frame of two laterally adjacent photovoltaic modulies is individually fixed in the span supporting part of longitudinal tank notch both sides, tank assembly is provided with between the horizontal frame of two longitudinally adjacent photovoltaic modulies, described tank assembly comprises and is located at horizontal tank on the horizontal frame of adjacent two photovoltaic modulies and fastener member respectively, upward, fastener member is connected with the horizontal side plate hasp of horizontal tank the notch of described horizontal tank.

Described horizontal tank and photovoltaic module is structure as a whole or split-type structural.

Described fastener member and photovoltaic module are structure as a whole or split-type structural.

The horizontal side plate hasp place of described fastener member and horizontal tank leaves gap.

The utility model adopts above technical scheme, is directly constructed as the roofing materials of building by photovoltaic module; While handling rainwater undertaking and drain function well, realize solar energy power generating, and improve roof insulation ability.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further details:

Fig. 1 is the top view of the utility model hasp type photovoltaic module roof structure;

Fig. 2 is the structural representation of tank assembly;

Fig. 3 is the structural representation of longitudinal tank.

Detailed description of the invention

As shown in one of Fig. 1 to 3, the utility model comprises the crossbeam 1 of roofing and multiple spaced and parallel setting, crossbeam 1 is interval with the bracing frame 2 of multiple angle in 90 ° with it, crossbeam 1 is also interval with multiple perpendicular longitudinal tank 4, roofing relies on longitudinal tank 4 and bracing frame 2 by multiple photovoltaic module 3, and be sequentially assemblied to form, the notch of longitudinal tank 4 upward, the notch of longitudinal tank 4 is respectively equipped with span supporting part 41 in its longitudinal both sides, longitudinal frame of two laterally adjacent photovoltaic modulies 3 is individually fixed in the span supporting part 41 of longitudinal tank 4 notch both sides, tank assembly 5 is provided with between the horizontal frame of two longitudinally adjacent photovoltaic modulies 3, tank assembly 5 comprises and is located at horizontal tank 51 on adjacent two horizontal frames of photovoltaic module 3 and fastener member 52 respectively, upward, fastener member 52 is connected with the horizontal side plate hasp of horizontal tank 51 notch of horizontal tank 51.Wherein, horizontal tank 51 is in order to the dust on each photovoltaic module 3 can be rushed at longitudinal tank 4 when rinsing the dust on photovoltaic module 3 by rainwater in time, avoid the dust granule when little rainfall rainwater to pile up on photovoltaic module 3 bottom, affect the normal power generation of photovoltaic system.

Horizontal tank 51 is structure as a whole or split-type structural with photovoltaic module 3.

Fastener member 52 and photovoltaic module 3 are structure as a whole or split-type structural.

Fastener member 52 leaves gap with the horizontal side plate hasp place of horizontal tank 51.Fastener member 52 and horizontal tank 51 gap left by after lap is installed efficiently solves photovoltaic module 3 and itself to expand with heat and contract with cold the problem of stress elimination; Meanwhile, this gap stayed is also for the ventilation and heat in space below roofing provides air convection channel.

Photovoltaic module 3 in the utility model can be the photovoltaic module 3 having scrapped recovery, for twice laid creates conditions.

The utility model hasp type photovoltaic module 3 can be dismantled separately and install in doors, and dismounting is easy to maintenance.

In addition, photovoltaic module roofing of the present invention is the rain-tight Roof Design in all photovoltaic module installation forms.

Claims (4)

1. hasp type photovoltaic module roof structure, comprise the crossbeam of roofing and multiple spaced and parallel setting, described crossbeam is interval with multiple bracing frame had angle with it, it is characterized in that: described crossbeam is also interval with multiple perpendicular longitudinal tank, described roofing relies on longitudinal tank and bracing frame by multiple photovoltaic module, and be sequentially assemblied to form, the notch of described longitudinal tank upward, the notch of longitudinal tank is respectively equipped with span supporting part in its longitudinal both sides, longitudinal frame of two laterally adjacent photovoltaic modulies is individually fixed in the span supporting part of longitudinal tank notch both sides, tank assembly is provided with between the horizontal frame of two longitudinally adjacent photovoltaic modulies, described tank assembly comprises and is located at horizontal tank on the horizontal frame of adjacent two photovoltaic modulies and fastener member respectively, upward, fastener member is connected with the horizontal side plate hasp of horizontal tank the notch of described horizontal tank.

2. hasp type photovoltaic module roof structure according to claim 1, is characterized in that: described horizontal tank and photovoltaic module is structure as a whole or split-type structural.

3. hasp type photovoltaic module roof structure according to claim 1, is characterized in that: described fastener member and photovoltaic module are structure as a whole or split-type structural.

4. hasp type photovoltaic module roof structure according to claim 1, is characterized in that: the horizontal side plate hasp place of described fastener member and horizontal tank leaves gap.