CN214707591U - Anti-tearing net of floating power station - Google Patents

Abstract

The utility model relates to a float anti-tear net in formula power station, include: a plurality of rigging configured to increase buoyant array tensile strength of a floating power station; and a plurality of connectors configured to connect the plurality of rigging to the array of floating bodies. This application anti-tear net is through being connected a plurality of riggings and body array to can increase the tensile strength who floats the whole row of formula body, can effectually prevent that extreme weather from causing destruction to photovoltaic power plant.

Description

Anti-tearing net of floating power station

Technical Field

The utility model relates to a photovoltaic field on water relates to a float anti-tear net in formula power station especially.

Background

Solar energy is a clean energy source. The direct conversion of solar energy into electrical energy by photovoltaic power stations is an efficient way of utilizing solar energy. At present, photovoltaic power stations are mainly built on the ground, for example, idle land is utilized for building. However, since the irradiation energy distribution density is small and the influence by the weather conditions is large, the photovoltaic power station usually occupies a large area on land. The construction of photovoltaic power stations is greatly limited due to the precious land resources in economically developed areas. Photovoltaic on water refers to the construction of photovoltaic power plants by using idle water surfaces. The overwater photovoltaic power station has the advantages of not occupying land resources, reducing water evaporation, avoiding algae growth and the like, and has wide development prospect.

One implementation of a photovoltaic power station on water is to employ a floating photovoltaic power station. However, the floating photovoltaic power station may occasionally encounter extreme weather during use, such as: typhoon, strong wind, etc. When the floating photovoltaic power station meets the extreme weather, the floating photovoltaic power station is likely to be torn, and even more likely to cause an electric fire accident.

SUMMERY OF THE UTILITY MODEL

To the technical problem who exists among the prior art, the utility model provides a float anti-tear net in formula power station, include: a plurality of rigging configured to increase buoyant array tensile strength of a floating power station; and a plurality of connectors configured to connect the plurality of rigging to the array of floating bodies.

The ripstop net as described above, wherein the plurality of rigging are disposed around the array of floating bodies.

The anti-tearing net as described above, wherein part of the lattice of the rigging enclosure comprises at least part of the floating body array.

The anti-tear net as described above, wherein the connector is provided on each floating body or a plurality of floating bodies spaced apart from each other where the rigging passes through the array of floating bodies.

The anti-tearing net comprises a floating body connecting piece and a reinforcing connecting piece, wherein the floating body connecting piece is connected with the floating bodies of the floating body array, and the reinforcing connecting piece is connected with the rigging.

The ripstop net as described above, wherein the float connector is a connecting bolt comprising a threaded rod and a nut, wherein the threaded rod passes through the overlapped pull tab of the float or floats, and the nut is configured to be fittingly connected to the array of floats with the threaded rod.

In the tearing-proof net, the reinforcing connecting piece is a U-shaped connecting plate, the bottom of the reinforcing connecting piece comprises a connecting hole which is configured to accommodate the screw to pass through, and two side walls of the U-shaped connecting plate are configured to accommodate the nut.

The ripstop web as described above, wherein two side walls of the U-shaped web comprise apertures configured to receive the rigging therethrough.

The anti-tearing net comprises a U-shaped connecting plate, a cable and a connecting piece, wherein the U-shaped connecting plate is arranged between two side walls of the U-shaped connecting plate, and the cable is clamped between the two side walls.

The above tear resistant mesh, wherein the nodes are: one or more of a hoop, a fixed welding point, a clamping pin and a clamping rod.

This application anti-tear net is through being connected a plurality of riggings and body array to can increase the tensile strength who floats the whole row of formula body, can effectually prevent that extreme weather from causing destruction to photovoltaic power plant.

Drawings

Preferred embodiments of the present invention will be described in further detail below with reference to the attached drawings, wherein:

FIG. 1 is a partial schematic view of a tear resistant net for a floating power plant according to one embodiment of the present application;

FIG. 2 is a partial exploded view of a ripstop net for a floating power plant according to one embodiment of the present application; and

FIG. 3 is a schematic illustration of a ripstop net for a floating power plant according to one embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the following detailed description, reference is made to the accompanying drawings that form a part hereof and in which is shown by way of illustration specific embodiments of the application. In the drawings, like numerals describe substantially similar components throughout the different views. Various specific embodiments of the present application are described in sufficient detail below to enable those skilled in the art to practice the teachings of the present application. It is to be understood that other embodiments may be utilized and structural, logical or electrical changes may be made to the embodiments of the present application.

The basic reason of the existing floating photovoltaic power station is that the modified HDPE material or other material floating body used in the floating photovoltaic power station cannot resist the action of heavy wind load in extreme weather, so that the material exceeds the performance limit and is broken, and after the floating body array is broken, the cable is broken, so that electrical fire possibly occurs and the power station is damaged.

To this, this application has provided a tear-proof net, and it can be applicable to and floats formula photovoltaic power station, can increase the tensile strength of body itself to the tensile strength that increases that can be great floats formula photovoltaic power station body array makes it can resist the destructive action of various loads to the body array, thereby can avoid the body array to break off, and then avoids taking place electrical fire.

FIG. 1 is a partial schematic view of a tear resistant net for a floating power plant according to one embodiment of the present application. FIG. 2 is a partial exploded view of a ripstop net for a floating power plant according to one embodiment of the present application. FIG. 3 is a schematic illustration of a ripstop net for a floating power plant according to one embodiment of the present application.

As shown, the floating power station ripstop net 100 (hereinafter referred to as a "ripstop net") includes a connecting member 110 and a plurality of rigging 120. The rigging 120 can increase the tensile effect of the floating body array and prevent the array from being torn, and the connecting piece 110 can be used for connecting the rigging 120 with the floating body array to form a whole and prevent the rigging from losing the reinforcing effect. In some embodiments, the rigging 120 can be disposed about the array of floats. In some embodiments, the rigging 120 can also be disposed in a criss-cross arrangement in the array of floating bodies. Namely, the grid formed by enclosing a plurality of riggings at least comprises a part of floating body array.

Referring to fig. 3, in some embodiments, the rigging 120 may also be disposed around and in a criss-cross arrangement in the array of floating bodies, and the connection member 110 may be connected to a portion of the floating bodies of the array of floating bodies, thereby connecting the rigging to the array of floating bodies. In some embodiments, a connector 110 may be provided on each float in the array of floats over which the rigging 120 passes. In some embodiments, the connectors 110 may also be disposed on spaced apart portions of the float in the rigging line float array.

In some embodiments, the connector 110 includes a buoyant body connector 101 and a reinforcing connector 102. The floating body connecting piece 101 is used for connecting one or more floating bodies in the floating body array; the reinforcing connector 102 is connected to the floating body connector 101 and may be connected to the rigging so that the rigging and the floating body array may be connected as a single body. In some embodiments, the floating body connector 101 may be connected with a bolt, which includes a screw 103 and a nut 104, wherein the screw may pass through one pull tab of one floating body or multiple pull tabs overlapped by multiple floating bodies, and the nut may fasten the screw, thereby completing the connection with the floating body. The reinforcing link 102 may be a U-shaped link plate, the bottom of which includes a connection hole 105 through which a bolt may pass so that the reinforcing link 102 may be connected to the floating body link 101. The side walls on both sides of the floating body connecting piece can be used for accommodating nuts of the floating body connecting piece, and the side walls can also comprise openings 106 for allowing the rigging to pass through, so that the rigging and the floating body array can be connected into a whole.

In some embodiments, rigging 120 includes a reinforcement bar 121 and one or more nodes 122. The reinforcing strips 121 can penetrate through the holes in the side walls of one or more reinforcing connecting pieces 102, and the nodes 122 can be arranged between the two side walls of the reinforcing connecting pieces 102, so that a certain buffer distance can be included between the rigging 120 and the connecting pieces, the toughness of the anti-tearing net is increased, and the resistance of the floating body array is improved. In some embodiments, the reinforcing bars 121 may be steel cables, steel bars, or the like. In some embodiments, the node 122 may be a clip that is screwed tightly onto the reinforcement strip to form a fixed node on the reinforcement strip. In some embodiments, the nodes may also be fixed welds, bayonet pins, clamping bars, etc., so long as the nodes are only movable between the two sidewalls of the reinforcing link and do not pass through the openings in the sidewalls.

The utility model provides an anti-tear net sets up in the body array around and/or in the body array through a plurality of riggings, couples together rigging and body array through a plurality of connecting pieces to can resist extreme weather's strong wind load destructive action, great improvement float formula power station's tensile strength, avoid taking place the electric accident of catching fire, cause unnecessary loss of property. And the rigging of this application can also move relatively between with the connecting piece to can increase the toughness of overall structure, greatly increased resists the ability of destruction effect.

The above embodiments are provided only for the purpose of illustration, and are not intended to limit the present invention, and those skilled in the relevant art can make various changes and modifications without departing from the scope of the present invention, and therefore, all equivalent technical solutions should also belong to the scope of the present invention.

Claims (10)

1. A prevent tearing net that floats formula power station which characterized in that includes:

a plurality of rigging configured to increase buoyant array tensile strength of a floating power station; and

a plurality of connectors configured to connect the plurality of rigging with the array of floating bodies.

2. The ripstop net of claim 1, wherein the plurality of rigging are disposed about the array of floats.

3. The ripstop net according to claim 1, wherein a part of the lattice of rigging enclosures comprises at least a part of the array of floats.

4. The ripstop net according to claim 2 or 3, wherein the connector is provided on each float or a plurality of floats spaced apart that the rigging passes through the array of floats.

5. The ripstop net according to claim 1, wherein the connectors comprise a float connector and a reinforcing connector, wherein the float connector is connected to the floats of the array of floats and the reinforcing connector is connected to the rigging.

6. The ripstop net according to claim 5, wherein the float connector is a connecting bolt comprising a threaded rod and a nut, wherein the threaded rod passes through the overlapped pull tab of the float or floats, and the nut is configured to mate with the threaded rod to connect to the array of floats.

7. The ripstop net according to claim 6, wherein the reinforcing connector is a U-shaped connecting plate, the bottom of which comprises a connecting hole configured to receive the screw therethrough, and both sidewalls of the U-shaped connecting plate are configured to receive the nut.

8. The ripstop net of claim 7, wherein two side walls of the U-shaped web comprise apertures configured to receive the rigging therethrough.

9. The ripstop net of claim 7, wherein the rigging comprises one or more nodes, wherein the nodes are disposed between two sidewalls of the U-shaped connecting plate and configured to snap between the two sidewalls.

10. The ripstop net according to claim 9, wherein the nodes are: one or more of a hoop, a fixed welding point, a clamping pin and a clamping rod.

Images