TWM617368U - Self-weighted type solar panel module supporting apparatus - Google Patents

Abstract

A self-heavy solar panel module support device is suitable for supporting at least one solar panel module, and includes: at least one support unit for setting the solar panel module and defining a space between the support unit and the solar panel module And at least one self-weight box is arranged in the accommodating space and filled with liquid to firmly position the support unit by its own weight, so that the solar panel module can be firmly supported.

Description

Self-heavy solar panel module support device

The new model relates to a solar panel module support device, in particular to a self-heavy solar panel module support device.

Conventionally, in the process of assembling the solar panel module on the roof, the bracket is first installed on the roof, and then, in order to make the solar panel module, after the installation is completed, comply with the building regulations for earthquake resistance and wind resistance. According to the design and other regulations, reinforced concrete must be applied to the support. However, the process of applying reinforced concrete grouting is quite complicated, and when the reinforced concrete is installed, the force used to position the support bracket and the solar panel module is determined and cannot be adjusted. Therefore, it is necessary to find a solution.

Therefore, the purpose of the present invention is to provide a self-heavy solar panel module support device.

Therefore, the self-heavy solar panel module support device of the present invention is suitable for supporting at least one solar panel module, and includes: at least one support unit for installing the solar panel module and defining a space between the support unit and the solar panel The accommodating space between the panel modules; and at least one self-weight box arranged in the accommodating space and filled with liquid to firmly position the support unit by its own weight, so that the solar panel module can be firmly supported.

The effect of the new model is that the support unit can be firmly positioned by the weight of the self-weight box, so that the solar panel module can be firmly supported, and it can meet the requirements of building regulations for earthquake resistance and wind resistance design, and set the The process of self-weight box is simple, and there is no need to know the complicated process of installing reinforced concrete.

Referring to Figures 1 and 2, an embodiment of the new self-heavy solar panel module support device is suitable for supporting at least one solar panel module 9. For example, in the embodiment shown in Figures 1 and 2, the self-heavy solar panel module The group support device can support three solar panel modules 9, but the present invention is not limited to this, but the self-heavy solar panel module support device can support various numbers of solar panel modules 9, such as one, two, or more than Equal to four and so on.

In this embodiment, the self-heavy-weight solar panel module support device includes several support units 1, several self-weight tanks 2, at least one level gauge 3, and several connecting pipes 4.

In this embodiment, the number of the support units 1 is equal to the number of the solar panel modules 9. For example, three solar panel modules 9 are shown in the figure, so the number of the support units 1 is also three. Wherein, each support unit 1 is used for arranging a corresponding solar panel module 9 and defines an accommodating space 10 between the support unit 1 and the solar panel module 9.

As shown in FIG. 2, in this embodiment, each bracket unit 1 includes several brackets 11, such as four brackets 11 shown in the figure. Each bracket 11 has a horizontal bracket 111 and a horizontal bracket 111. A short vertical bracket 112 extending upward from one end of the bracket 111 and a long vertical bracket 113 extending upward from the other end of the horizontal bracket 111. Because the length of the short vertical support 112 is less than the length of the long vertical support 113, the solar panel modules 9 arranged on the four supports 11 can be tilted by about 3 to 6°.

In addition, in this embodiment, each bracket 11 is made of stainless steel flat steel material, and the top end of the short vertical bracket 112 and the top end of the long vertical bracket 113 are both provided with locking points, so stainless steel bolts can be used (Not shown in the figure) The solar panel module 9 is locked on the four brackets 11 to make the structure strong and wind-resistant.

In this embodiment, the number of the deadweight boxes 2 is equal to the number of the solar panel modules 9. For example, three solar panel modules 9 are shown in the figure, so the number of the deadweight boxes 2 is also three. Wherein, each self-weight box 2 is disposed in the accommodating space 10 of the corresponding support unit 1 and is filled with liquid to firmly position the support unit 1 by its own weight, so that the corresponding solar panel module 9 can be firmly supported.

In this embodiment, the main body of each deadweight box 2 is made of stainless steel, so it is corrosion-resistant and beautiful, and can be locked or welded to the corresponding bracket unit 1. Furthermore, if the appearance shape of the deadweight box 2 is a rectangular parallelepiped as shown in the figure, its size can be about 141cm×88cm×10cm, that is, if the liquid is water, the weight of the liquid that the deadweight box 2 can fill The weight is about 124 kg, plus it is locked or welded to the bracket unit 1, so it can withstand wind speeds above 37.5m/s.

In this embodiment, at least one of the deadweight boxes 2 is provided with an injection hole 21 for injecting the liquid, and an exhaust hole 22, and includes a lid 23 that can open the injection hole 22.

In this embodiment, the two ends of each connecting pipe 4 are respectively connected to the inside of each two adjacent dead-weight tanks 2 to connect all dead-weight tanks 2 in series. For example, as shown in Figures 1 and 2, the If the number of equal weight boxes 2 is three, two connecting pipes 4 are required to connect the three weight boxes 2 in series. For example, if the number of such weight boxes 2 is four, three connecting pipes 4 are required to connect the four weight boxes 2 in series. Two self-weight boxes are connected in series, and so on.

In this embodiment, the main purpose of the vent hole 22 is to discharge the air inside the deadweight box 2 to the atmosphere through the vent hole 22 during the process of injecting liquid from the injection hole 21 middle. Therefore, in this embodiment, after the liquid fills the three self-weight tanks 2 connected in series through the injection hole 21, the three self-weight tanks 2 can firmly position the support units by the self-weight of the filled liquid 1. Therefore, the solar panel modules 9 can be firmly supported.

In addition, the level gauge 3 can be, for example, a Bluetooth level gauge 3, etc., and is installed on one of the deadweight tanks 2, which can be connected to the internal liquid of the deadweight tank 2 and can be used to monitor the liquid level of all deadweight tanks 2. .

In summary, the new self-heavy-weight solar panel module support device has at least the following advantages and effects: (1) The support unit 1 can be firmly positioned by the weight of the self-weight box 2 so that the solar panel module can be firmly supported Group 9, can meet the requirements of building regulations for earthquake resistance and wind resistance design, and the process of setting up the deadweight box 2 is simple, and there is no need to know the complicated process of installing reinforced concrete; (2) It can be injected elastically from the injection hole 21 The amount of liquid in the self-weight tank 2 can be adjusted flexibly to adjust the force actually needed to support the solar panel module 9; (3) The liquid level of all the self-weight tanks 2 can be monitored by the level gauge 3 to enable real-time Know whether it is necessary to add liquid; (4) The dead weight tank 2 is made of stainless steel, so it is corrosion-resistant and beautiful; (5) All dead weight tanks 2 are connected in series through the connecting pipe 4, so that the injection hole 21 and the level gauge 3 As long as each is provided with one, it is convenient to use a single injection hole 21 to inject liquid, and it is convenient to use a single level gauge 3 to monitor the liquid level. Therefore, it can indeed achieve the purpose of costing a new type.

However, the above are only examples of the present model. When the scope of implementation of the present model cannot be limited by this, all simple equivalent changes and modifications made in accordance with the patent scope of the present model application and the contents of the patent specification still belong to This new patent covers the scope.

1: Bracket unit 10: accommodating space 11: Bracket 111: Horizontal bracket 112: Short vertical stand 113: Long vertical bracket 2: self-weight box 21: Injection hole 22: Vent 23: Lid 3: Level gauge 4: Connecting pipe 9: Solar panel module

Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, among which: Figure 1 is a three-dimensional assembly diagram illustrating an embodiment of the new self-heavy solar panel module support device; and Figure 2 is an exploded perspective view illustrating this embodiment.

1: Bracket unit

2: self-weight box

21: Injection hole

22: Vent

23: Lid

3: Level gauge

4: Connecting pipe

9: Solar panel module

Claims (10)

A self-heavy solar panel module supporting device is suitable for supporting at least one solar panel module and includes: At least one support unit for arranging the solar panel module and defining an accommodating space between the support unit and the solar panel module; and At least one self-weight box is arranged in the accommodating space and filled with liquid to firmly position the support unit by its own weight, so that the solar panel module can be firmly supported. The self-weight solar panel module support device according to claim 1, wherein the self-weight box is provided with an injection hole for injecting the liquid, and an exhaust hole for venting the air inside the self-weight box to the atmosphere , And includes a lid that can open the injection hole. The self-heavy solar panel module support device according to claim 1, further comprising a liquid level gauge which is connected to the inside of the self-weight tank and used to measure the liquid level of the self-weight tank. The self-weight solar panel module support device according to claim 3, wherein the level gauge is a Bluetooth level gauge. The self-heavy solar panel module support device according to claim 1, wherein the support unit and the self-weight box are all made of stainless steel. The self-weight solar panel module support device according to claim 1, wherein the self-weight box is locked or welded to the support unit. The self-weight solar panel module support device according to claim 1, wherein the external shape of the self-weight box is a rectangular parallelepiped. The self-heavy solar panel module support device described in claim 1 is suitable for supporting several solar panel modules and includes: A plurality of support units are respectively used for arranging the solar panel modules, wherein each support unit defines the accommodating space; A plurality of spaced deadweight boxes, each deadweight box is arranged in the accommodating space of the corresponding bracket unit, wherein at least one of the deadweight boxes is provided with the injection hole and the exhaust hole; and Several connecting pipes, the two ends of each connecting pipe are respectively connected with the inner liquid of each two adjacent deadweight boxes to connect all deadweight boxes in series, and the vent is used for the inside of the deadweight boxes Air is discharged to the atmosphere, and the liquid is injected into all self-weight boxes connected in series through the injection hole, so that the support units are firmly positioned by the weight of the self-weight boxes, so that the solar panel modules can be firmly supported. The self-weight solar panel module support device according to claim 8, wherein the at least one of the self-weight boxes includes a lid that can openably close the injection hole. The self-heavy solar panel module support device according to claim 8, further comprising a liquid level gauge which is in fluid communication with one of the dead-weight tanks and used to measure the liquid level of the dead-weight tanks.

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