CN207801816U - A kind of concrete photovoltaic roof stent system - Google Patents

Abstract

The utility model discloses a kind of concrete photovoltaic roof stent systems, including pedestal, photovoltaic bracket, photovoltaic module, cement clump weight, self-tapping screw and connector, the photovoltaic bracket is fixed on by self-tapping screw on pedestal, the both ends of photovoltaic module are connected and fixed by connector and photovoltaic bracket, photovoltaic module is in an acute angle in the horizontal direction with pedestal, first photovoltaic bracket and third photovoltaic bracket are equipped with cement clump weight, and the second photovoltaic bracket and third photovoltaic bracket are equipped with wind shield.The utility model is cooperated by photovoltaic bracket and photovoltaic module and is connected, and simple construction technology reduces construction cost, accelerates construction progress；Traditional metal is replaced by using highstrenghtpiston, substantially reduces production cost, reduces the weight of a whole set of stent system, installation and transportation are convenient；By utilizing concrete weight coating according to assumed (specified) load, reduces the influence power of leeward wind pressure, reduce roof carrying strain；Increase wind shield by component tail portion, increases holder wind resistance.

Description

A kind of concrete photovoltaic roof stent system

【Technical field】

The utility model is related to the technical field of application of solar energy, more particularly to a kind of concrete photovoltaic roof stent system Technical field.

【Background technology】

Worldwide energy crisis promotes the fast development of New Energy Industry, and in numerous new energy, solar energy is as one Kind low cost, pollution-free, the reproducible energy, it is deep to be favored by people, therefore solar radiation is converted into the sun of electric energy Energy generation technology, i.e. photovoltaic industry are even more to develop rapidly.Photovoltaic bracket in the prior art, amount of reinforcement is big, quality is heavy, cost High, installation and transportation inconvenience, roofing load is big, is easily damaged roof structure, and security risk is big, and applicable roofing is few, adaptability Difference；And traditional steel bracket connection type is cumbersome, installation parts are more, and construction is cumbersome, and construction speed is slow, and wind loading rating is weak, hold It easily is influenced to be damaged by sleet strong wind etc. is boisterous, maintenance replacement cost is high, and use cost is high, and performance is unstable, peace Full property is poor, waste of resource.

【Utility model content】

The purpose of this utility model is exactly to solve the problems of the prior art, proposes a kind of concrete photovoltaic roof carriage support System, simple construction technology, reduces management cost, accelerates construction progress, and traditional metal, material are replaced using highstrenghtpiston Material is light, and intensity is high, while substantially reducing production cost, reduces the weight of a whole set of stent system, installation and transportation are convenient, are applicable in In more roofs, concrete weight coating is utilized according to assumed (specified) load, utmostly reduces the bearing load of roofing, component tail portion Wind shield is increased, increases the wind resistance of holder, avoids security risk, prolong the service life, economize on resources.

To achieve the above object, the utility model proposes a kind of concrete photovoltaic roof stent systems, including pedestal, light Holder, photovoltaic module, cement clump weight, self-tapping screw and connector are lied prostrate, the pedestal is equipped with several photovoltaic brackets, described Photovoltaic bracket is equipped with several self-tapping screws and several connectors, and the photovoltaic bracket is fixed on by self-tapping screw On pedestal, the both ends of the photovoltaic module are connected and fixed by connector and photovoltaic bracket, and the photovoltaic module is with pedestal in water Square upwards it is in an acute angle, the photovoltaic bracket include the first photovoltaic bracket, the second photovoltaic bracket and third photovoltaic bracket, it is described First photovoltaic bracket and third photovoltaic bracket are equipped with cement clump weight, are set on second photovoltaic bracket and third photovoltaic bracket There is wind shield.

Preferably, second photovoltaic bracket includes the left interconnecting piece of the second photovoltaic bracket, the second photovoltaic bracket mounting portion With the right interconnecting piece of the second photovoltaic bracket, the left interconnecting piece of second photovoltaic bracket and the right interconnecting piece of the second photovoltaic bracket are equipped with and connect The connector of the second photovoltaic bracket and photovoltaic module is connect, the left interconnecting piece of the second photovoltaic bracket peak in the horizontal direction is high In the peak of the right interconnecting piece horizontal direction of the second photovoltaic bracket, second photovoltaic bracket be located at two adjacent photovoltaic modulies it Between, it is equipped with wind shield, the second photovoltaic branch between the left interconnecting piece of second photovoltaic bracket and the second photovoltaic bracket mounting portion Frame mounting portion is equipped with threaded hole compatible with self-tapping screw, and the self-tapping screw and the second photovoltaic bracket mounting portion screw thread connect It connecing, and the head of self-tapping screw is connect with pedestal, the cross sectional shape of second photovoltaic bracket is in " Z " type structure, and described first Photovoltaic bracket includes the first photovoltaic bracket mounting portion and the right interconnecting piece of the first photovoltaic bracket, the right interconnecting piece of the first photovoltaic bracket Be equipped with connection the first photovoltaic bracket and photovoltaic module connector, the right interconnecting piece of the first photovoltaic bracket by connector with Photovoltaic module is connected, and the first photovoltaic bracket mounting portion is fixed on by self-tapping screw on pedestal, first photovoltaic Upport installation portion is equipped with the cement clump weight of concrete weight coating, and the third photovoltaic bracket includes the left connection of third photovoltaic bracket Portion and third photovoltaic bracket mounting portion are equipped with gear between the left interconnecting piece of the third photovoltaic bracket and third photovoltaic bracket mounting portion Aerofoil, the left interconnecting piece of third photovoltaic bracket are equipped with the connector of connection third photovoltaic bracket and photovoltaic module, and described the The left interconnecting piece of three photovoltaic brackets is connected by connector with photovoltaic module, and the third photovoltaic bracket mounting portion passes through self-tapping screw It is fixed on pedestal, the third photovoltaic bracket mounting portion is equipped with the cement clump weight of concrete weight coating.

Preferably, the left interconnecting piece of third photovoltaic bracket peak in the horizontal direction and the left company of the second photovoltaic bracket Socket part peak in the horizontal direction is located in same horizontal line, and the right interconnecting piece of the first photovoltaic bracket is in the horizontal direction most High point is located at the right interconnecting piece of the second photovoltaic bracket peak in the horizontal direction in same horizontal line.

It is connected preferably, wind shield adjacent on same vertical setting of types mutually extends.

Preferably, the quantity of the self-tapping screw is two and two or more.

Preferably, the quantity of the connector is two and two or more.

The beneficial effects of the utility model：The utility model is cooperated by photovoltaic bracket and photovoltaic module and is connected, nothing The cumbersome connection type of traditional steel bracket, simple construction technology reduce management cost, reduce construction cost, accelerate construction Progress；Traditional metal is replaced by using highstrenghtpiston, material is light, and intensity is high, while substantially reducing production cost, drop The low weight of a whole set of stent system, installation and transportation are convenient, are suitable for more roofs；By utilizing coagulation according to assumed (specified) load Native counterweight, cement clump weight cooperate with photovoltaic bracket, reduce the influence power of leeward wind pressure, guarantor is played to entire stent system Shield acts on, and ensures the firm of entire stent system, reduces roof carrying strain, securely and reliably；Pass through photovoltaic bracket and photovoltaic group Part, which cooperates, to be connected, and photovoltaic module is in an acute angle in the horizontal direction with pedestal, effectively reduces wind pressure with the wind；Pass through component tail Portion increases wind shield, increases the wind resistance of holder, avoids security risk, prolong the service life, economizes on resources.

The feature and advantage of the utility model will be described in detail by embodiment combination attached drawing.

【Description of the drawings】

Fig. 1 is a kind of overlooking structure diagram of concrete photovoltaic roof stent system of the utility model；

Fig. 2 is a kind of main structure diagram of concrete photovoltaic roof stent system of the utility model；

Fig. 3 is a kind of side structure schematic view of concrete photovoltaic roof stent system of the utility model；

Fig. 4 is a kind of the first photovoltaic support structure schematic diagram of concrete photovoltaic roof stent system of the utility model；

Fig. 5 is a kind of the second photovoltaic support structure schematic diagram of concrete photovoltaic roof stent system of the utility model；

Fig. 6 is a kind of third photovoltaic support structure schematic diagram of concrete photovoltaic roof stent system of the utility model.

In figure：1- pedestals, 2- photovoltaic brackets, 3- photovoltaic modulies, 4- cement clump weight, 5- self-tapping screws, 6- connectors, The first photovoltaic brackets of 21-, the second photovoltaic brackets of 22-, 23- thirds photovoltaic bracket, 24- wind shields, the first photovoltaic brackets of 212- peace Dress portion, the right interconnecting piece of the first photovoltaic brackets of 213-, the left interconnecting piece of the second photovoltaic brackets of 221-, the installation of the second photovoltaic brackets of 222- Portion, the right interconnecting piece of the second photovoltaic brackets of 223-, 2221- threaded holes, the left interconnecting piece of 231- third photovoltaic brackets, 232- third photovoltaics Upport installation portion.

【Specific implementation mode】

Refering to fig. 1 to Fig. 6, a kind of concrete photovoltaic roof stent system of the utility model, including pedestal 1, photovoltaic bracket 2, photovoltaic module 3, cement clump weight 4, self-tapping screw 5 and connector 6, the pedestal 1 are equipped with several photovoltaic brackets 2, institute Photovoltaic bracket 2 is stated equipped with several self-tapping screws 5 and several connectors 6, the photovoltaic bracket 2 is pacified by self-tapping screw 5 Dress is fixed on pedestal 1, and the both ends of the photovoltaic module 3 are connected and fixed by connector 6 and photovoltaic bracket 2, the photovoltaic group Part 3 is in an acute angle in the horizontal direction with pedestal 1, and the photovoltaic bracket 2 includes the first photovoltaic bracket 21, the second photovoltaic bracket 22 With third photovoltaic bracket 23, first photovoltaic bracket 21 and third photovoltaic bracket 23 are equipped with cement clump weight 4, and described second Photovoltaic bracket 22 and third photovoltaic bracket 23 are equipped with wind shield 24.

Second photovoltaic bracket 22 includes the left interconnecting piece 221 of the second photovoltaic bracket, 222 and of the second photovoltaic bracket mounting portion The right interconnecting piece 223 of second photovoltaic bracket, the right interconnecting piece of left 221 and second photovoltaic bracket of interconnecting piece of the second photovoltaic bracket 223 It is equipped with the connector 6 of connection the second photovoltaic bracket 22 and photovoltaic module 3, the left interconnecting piece of second photovoltaic bracket 221 is in water Square to peak be higher than right 223 horizontal direction of interconnecting piece of the second photovoltaic bracket peak, second photovoltaic bracket 22 Between two adjacent photovoltaic modulies 3, the left 221 and second photovoltaic bracket mounting portion 222 of interconnecting piece of the second photovoltaic bracket it Between be equipped with wind shield 24, the second photovoltaic bracket mounting portion 222 be equipped with threaded hole 2221 compatible with self-tapping screw 5, The self-tapping screw 5 is threadedly coupled with the second photovoltaic bracket mounting portion 222, and the head of self-tapping screw 5 is connect with pedestal 1, institute The cross sectional shape for stating the second photovoltaic bracket 22 is in " Z " type structure, and first photovoltaic bracket 21 is installed including the first photovoltaic bracket Portion 212 and the right interconnecting piece 213 of the first photovoltaic bracket, the right interconnecting piece 213 of the first photovoltaic bracket are equipped with the first photovoltaic of connection The connector 6 of holder 21 and photovoltaic module 3, the right interconnecting piece 213 of the first photovoltaic bracket pass through connector 6 and photovoltaic module 3 It is connected, the first photovoltaic bracket mounting portion 212 is fixed on by self-tapping screw 5 on pedestal 1, first photovoltaic bracket Mounting portion 212 is equipped with the cement clump weight 4 of concrete weight coating, and the third photovoltaic bracket 23 includes the left company of third photovoltaic bracket Socket part 231 and third photovoltaic bracket mounting portion 232, the left interconnecting piece 231 of third photovoltaic bracket are installed with third photovoltaic bracket Wind shield 24 is equipped between portion 232, the left interconnecting piece 231 of third photovoltaic bracket is equipped with connection third photovoltaic bracket 23 and light The connector 6 of component 3 is lied prostrate, the left interconnecting piece 231 of third photovoltaic bracket is connected by connector 6 with photovoltaic module 3, and described the Three photovoltaic bracket mounting portions 232 are fixed on by self-tapping screw 5 on pedestal 1, on the third photovoltaic bracket mounting portion 232 Cement clump weight 4 equipped with concrete weight coating.

Left 231 peak in the horizontal direction of interconnecting piece of the third photovoltaic bracket and the left interconnecting piece of the second photovoltaic bracket 221 peaks in the horizontal direction are located in same horizontal line, and the right interconnecting piece 213 of the first photovoltaic bracket is in the horizontal direction Peak and right 223 peak in the horizontal direction of interconnecting piece of the second photovoltaic bracket are located in same horizontal line.On same vertical setting of types Adjacent wind shield 24, which mutually extends, to be connected.The quantity of the self-tapping screw 5 is two and two or more.The connector 6 Quantity is two and two or more.

A kind of concrete photovoltaic roof stent system of the utility model is cooperated by photovoltaic bracket and photovoltaic module and is connected It connects, without the cumbersome connection type of traditional steel bracket, simple construction technology reduces management cost, reduces construction cost, accelerates Construction speed；Traditional metal is replaced by using highstrenghtpiston, material is light, and intensity is high, substantially reduces the same of production cost When, the weight of a whole set of stent system is reduced, installation and transportation are convenient, are suitable for more roofs；By according to assumed (specified) load profit With concrete weight coating, cement clump weight cooperates with photovoltaic bracket, reduces the influence power of leeward wind pressure, to entire stent system It plays a protective role, ensures the firm of entire stent system, reduce roof carrying strain, securely and reliably；By photovoltaic bracket with Photovoltaic module, which cooperates, to be connected, and photovoltaic module is in an acute angle in the horizontal direction with pedestal, effectively reduces wind pressure with the wind；Pass through Component tail portion increases wind shield, increases the wind resistance of holder, avoids security risk, prolong the service life, economizes on resources.

Above-described embodiment is the explanation to the utility model, is not the restriction to the utility model, any new to this practicality Scheme after type simple transformation belongs to the scope of protection of the utility model.

Claims (6)

1. a kind of concrete photovoltaic roof stent system, it is characterised in that：Including pedestal (1), photovoltaic bracket (2), photovoltaic module (3), cement clump weight (4), self-tapping screw (5) and connector (6), the pedestal (1) are equipped with several photovoltaic brackets (2), The photovoltaic bracket (2) is equipped with several self-tapping screws (5) and several connectors (6), and the photovoltaic bracket (2) passes through certainly Tapping (5) is fixed on pedestal (1), and the both ends of the photovoltaic module (3) pass through connector (6) and photovoltaic bracket (2) It is connected and fixed, the photovoltaic module (3) and pedestal (1) are in an acute angle in the horizontal direction, and the photovoltaic bracket (2) includes first Photovoltaic bracket (21), the second photovoltaic bracket (22) and third photovoltaic bracket (23), first photovoltaic bracket (21) and third light It lies prostrate holder (23) and is equipped with cement clump weight (4), second photovoltaic bracket (22) and third photovoltaic bracket (23) are equipped with gear Aerofoil (24).

2. a kind of concrete photovoltaic roof stent system as described in claim 1, it is characterised in that：Second photovoltaic bracket (22) include the left interconnecting piece of the second photovoltaic bracket (221), the second photovoltaic bracket mounting portion (222) and the right connection of the second photovoltaic bracket Portion (223), the left interconnecting piece of the second photovoltaic bracket (221) and the right interconnecting piece of the second photovoltaic bracket (223) are equipped with connection the The connector (6) of two photovoltaic brackets (22) and photovoltaic module (3), the left interconnecting piece of the second photovoltaic bracket (221) is in level side To peak be higher than the right interconnecting piece of the second photovoltaic bracket (223) horizontal direction peak, second photovoltaic bracket (22) Between two adjacent photovoltaic modulies (3), the left interconnecting piece of the second photovoltaic bracket (221) and the second photovoltaic bracket mounting portion (222) wind shield (24) is equipped between, the second photovoltaic bracket mounting portion (222) is equipped with and is adapted with self-tapping screw (5) Threaded hole (2221), the self-tapping screw (5) is threadedly coupled with the second photovoltaic bracket mounting portion (222), and self-tapping screw (5) Head connect with pedestal (1), the cross sectional shape of second photovoltaic bracket (22) is in " Z " type structure, the first photovoltaic branch Frame (21) includes the first photovoltaic bracket mounting portion (212) and the right interconnecting piece of the first photovoltaic bracket (213), first photovoltaic bracket Right interconnecting piece (213) is equipped with the connector (6) of the first photovoltaic bracket of connection (21) and photovoltaic module (3), first photovoltaic The right interconnecting piece of holder (213) is connected by connector (6) with photovoltaic module (3), and the first photovoltaic bracket mounting portion (212) is logical It crosses self-tapping screw (5) to be fixed on pedestal (1), the first photovoltaic bracket mounting portion (212) is equipped with concrete weight coating Cement clump weight (4), the third photovoltaic bracket (23) includes the left interconnecting piece of third photovoltaic bracket (231) and third photovoltaic branch Frame mounting portion (232) is equipped between the left interconnecting piece of third photovoltaic bracket (231) and third photovoltaic bracket mounting portion (232) Wind shield (24), the left interconnecting piece of third photovoltaic bracket (231) are equipped with connection third photovoltaic bracket (23) and photovoltaic module (3) connector (6), the left interconnecting piece of third photovoltaic bracket (231) are connected by connector (6) with photovoltaic module (3), institute It states third photovoltaic bracket mounting portion (232) to be fixed on pedestal (1) by self-tapping screw (5), the third photovoltaic bracket Mounting portion (232) is equipped with the cement clump weight (4) of concrete weight coating.

3. a kind of concrete photovoltaic roof stent system as claimed in claim 2, it is characterised in that：The third photovoltaic bracket Left interconnecting piece (231) peak in the horizontal direction and the left interconnecting piece of the second photovoltaic bracket (221) peak in the horizontal direction In same horizontal line, the right interconnecting piece of the first photovoltaic bracket (213) peak in the horizontal direction and the second photovoltaic branch The right interconnecting piece of frame (223) peak in the horizontal direction is located in same horizontal line.

4. a kind of concrete photovoltaic roof stent system as claimed in claim 2, it is characterised in that：It is adjacent on same vertical setting of types Wind shield (24), which mutually extends, to be connected.

5. a kind of concrete photovoltaic roof stent system as described in claim 1, it is characterised in that：The self-tapping screw (5) Quantity be two and more than two.

6. a kind of concrete photovoltaic roof stent system as described in claim 1, it is characterised in that：The connector (6) Quantity is two and two or more.