KR102340381B1 - connector of frame unit for floating solar power generation - Google Patents

Abstract

The present invention relates to a connector of a frame unit for floating solar power generation, including: a frame unit in which a plurality of horizontal frames and a plurality of vertical frames are arranged in a direction intersecting each other to connect a buoyancy body with a solar power module; and a connector installed at an end of the horizontal frame or the vertical frame to fix frame units facing each other to each other while connecting the frame units, wherein the connector includes: a pair of fixing brackets, each installed at an end of the horizontal frame or the vertical frame facing each other; a connection device for connecting the pair of fixing brackets to each other; a bush making contact with outer sides of facing surfaces of the pair of fixing brackets, and having a through-hole through which the connection device passes; and a compression spring fitted to the connection device and supported by the bush. Accordingly, the frame units are efficiently restricted in a flow directions of moving away from or moving close to each other, so that damage and deformation of the connector caused by the movements are prevented, and shocks and vibrations transmitted to the frame unit is suppressed as much as possible.

Description

Connector of frame unit for floating solar power generation

The present invention relates to a connector of a frame unit for floating photovoltaic power generation, and more particularly, by improving the structure of the connector connecting a plurality of unit frame units installed on the water to each other, damage and deformation can be suppressed as much as possible. As well as to the connector of the frame unit for floating photovoltaic power generation that can greatly reduce the shock vibration transmitted to the frame unit.

In general, solar power generation is a power generation method that converts sunlight into electric power by a solar cell, and a solar cell made of a semiconductor material receives sunlight to generate electricity.

Such solar power generation is composed of a module, a storage battery, and a power conversion device made of a solar cell that generates electricity by the photoelectric effect when sunlight is incident on it.

The solar power generation constructed in this way has the advantages of being easy to install and operate and quick to install compared to other power generation methods, but since the amount of power generation is proportional to the installation area, it is difficult to secure a site for installation and operation in order to secure the desired amount of power generation. It is inevitable, but it is not easy to secure a site that meets the site conditions.

In order to secure a site that can avoid this situation, it was possible to secure some site through the method of using the wall, roof, and small bare land of the building, but this also resulted in the difficulty of installing a solar cell structure and designing for it. This causes an increase in the unit price of power generation, and there is a problem in that the difficulty of maintenance increases due to the sprawl of small-scale power generation facilities.

In order to solve this problem, a method to install and operate a solar power generation device on water such as the sea, lake, reservoir, etc. is being sought, and only a part of the water surface is used as a farm or leisure space, so a huge area compared to land It is expected that the site will be secured as an operating space for solar power generation facilities.

Such a floating photovoltaic power generation device consists of a solar cell module, a frame unit supporting the solar cell module, and a floating body for floating the frame unit on the water surface.

And, it includes a connector for interconnecting a plurality of water-based photovoltaic power generation devices.

However, since the connector of the prior art uses a metal rope or a chain of a link structure to connect a plurality of frame units in a structure that binds them, it requires a skilled process to learn the binding method, and the rope or chain is an external force such as a wave. There was a problem in that it breaks easily.

In addition, recently, a connector using a spring has been disclosed, which is effective in preventing easy breakage or damage by elastically connecting a plurality of frame units. There was a problem in greatly increasing the

Prior literature: Korean Patent Publication No. 2038512 (2019.10.24)

The present invention has been devised to solve the problems of the prior art, and an object of the present invention is to improve the structure of a connector connecting a plurality of unit-by-unit frame units to each other, thereby maximally suppressing damage and deformation as well as An object of the present invention is to provide a connector for a frame unit for floating photovoltaic power generation that can significantly reduce the shock vibration transmitted to the frame unit.

In order to achieve the above object, the connector of the frame unit for floating photovoltaic power generation according to the present invention is a frame unit disposed in a direction in which a plurality of horizontal frames and vertical frames intersect each other to connect the buoyancy body and the photovoltaic power module ; and a connector installed at the end of the horizontal frame or the vertical frame and fixing the frame units facing each other in a state of being connected to each other, wherein the connector is at each end of the horizontal frame or vertical frame facing each other. It is installed, and a connecting through-portion is formed so that the connecting means passes through, and the connecting through-portion has a cross-shaped shape that increases the flow range of the connecting means. Brackets; a plurality of connecting means respectively disposed above and below the fixing bracket to connect the pair of fixing brackets to each other; The pair of fixing brackets are disposed in a state of being in close contact with the outside of the opposite surfaces, and an upper through-hole and a lower through-hole are formed so that the connecting means passes through, and the plurality of the plurality of the plurality of fixing brackets are disposed on the outer side in a radial direction based on the center of the upper through-hole and the lower through-hole. An upper spring accommodating part and a lower spring accommodating part for accommodating the compression spring of bush formed; and a plurality of compression springs fitted to the connecting means and respectively disposed on the upper and lower portions of the fixing bracket to be supported by the bush.

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Reinforcing ribs convexly protruding in the direction in which both sides extend are formed on the outer side of both sides of the fixing bracket.

The connecting means is composed of a connecting shaft having a locking head on one side and a threaded portion on the other side in the longitudinal direction, and a connecting nut, and a detachment prevention stopper for preventing the connecting nut from being loosened and separated from the screw portion of the connecting shaft. characterized by including.

It is positioned between the horizontal frame and the vertical frame crosses, characterized in that it further comprises a fastening bracket for fixing these frames.

A first guide protrusion for supporting both longitudinal side surfaces of the vertical frame or the horizontal frame is formed on the upper portion of the fastening bracket, and a second guide protrusion for supporting both longitudinal side surfaces of the other frame is formed on the lower portion, and the vertical frame and It is characterized in that bracket fastening holes for fastening each to the horizontal frame are formed.

According to the present invention having the configuration as described above, by configuring the connector having the connecting means, the bush and the compression spring, the frame units can effectively regulate the flow directions away from or close to each other, respectively, and thus the connector is damaged. And it has the effect of preventing the deformation and maximally suppressing the shock vibration transmitted to the frame unit.

In addition, the bush indirectly supports the compression spring instead of the fixing bracket, thereby preventing frictional noise and slippage of the compression spring when the two metal materials of the compression spring and the fixing bracket come into contact with each other. there is an effect

In addition, by forming a flow inclined portion on the contact surface of the bush, it provides an effect of allowing the connecting shaft to flow in response to waves or swells so that the flow range is not narrowed by interfering with the bush.

In addition, by additionally forming an extension part in the connection through-portion of the fixing bracket, the flow range in which the connection shaft can flow is increased, and thus the sense of safety and balance of the frame unit can be improved according to the improvement of the flow force corresponding to waves or swells. However, there is an advantage in that it can effectively block the damage caused by the frequent movement of the water surface when the connecting shaft and the connecting through-part collide with each other.

In addition, by constructing a fastening bracket between the horizontal frame and the vertical frame, the distance between the position where the vertical frame and the horizontal frame are fixed can be widened, thereby improving the fixing force as well as using the vertical frame or the horizontal frame. It has the effect of damping the transmitted vibration by dispersing it at an intermediate position.

1 is a perspective view and an enlarged view showing a connector of a frame unit for floating photovoltaic power generation according to an embodiment of the present invention.
Figure 2 is a perspective view showing the configuration of the connector of the frame unit for floating photovoltaic power generation according to an embodiment of the present invention.
3 is an exploded perspective view of FIG. 2 ;
FIG. 4 is a cross-sectional view of FIG. 2 .
5 is a cross-sectional view of an additionally installed anti-separation stopper on the fastening shaft of FIG. 2 .
6 is a plan view and an enlarged view illustrating the configuration of a fastening bracket installed between the horizontal frame and the vertical frame of FIG. 1 .
7 is a perspective view of the fastening bracket of FIG. 6 viewed from above and from the bottom, respectively.

Hereinafter, a preferred embodiment of the connector of the frame unit for floating photovoltaic power generation according to the present invention will be described in detail based on the accompanying drawings.

For reference, the terms and words used in the present specification and claims are not to be construed as being limited to conventional or dictionary meanings, and the inventor must properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

In addition, the configurations shown in the embodiments and drawings described in this specification are only the most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so they can be replaced at the time of the present application as well as thereafter. It should be understood that there may be various equivalents and variations that exist.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying Figures 2 to 7 .

As shown, the connector of the frame unit for floating photovoltaic power generation according to the present invention has a plurality of horizontal frames 110 and vertical frames 120 to connect the buoyancy body 10 and the photovoltaic power module 20 A connector 200 installed at the end of the frame unit 100, the horizontal frame 110 or the vertical frame 120 disposed in a mutually intersecting direction, and fixing the frame units 100 facing each other in a state of connecting them. configuration that includes

First, the frame unit 100 is a structure having a lattice shape in which a horizontal frame 110 and a vertical frame 120 extending to a certain length are arranged in a mutually intersecting direction, and a plurality of photovoltaic power generation modules 20 ) is provided with an inclined cradle (not shown) for supporting it at a predetermined inclination angle, and a plurality of floats 10 for floating the frame unit 100 on the water surface are installed at the lower portion.

The frame unit 100 is manufactured as a unit of various sizes corresponding to the size, shape, number, and installation angle of the photovoltaic module 20 .

Hereinafter, the connector 200, which is a characteristic component of the present invention, will be described in detail.

The connector 200 is installed at the end of the horizontal frame 110 or the vertical frame 120 of the frame unit 100 manufactured in the size of a predetermined unit, and connects a plurality of unit frame units 100 facing each other. It plays a role in fixing the

The coupler 200 connects a plurality of frame units 100 facing each other to each other, so that the plurality of frame units 100 are flexibly rolled along a wave or swell generated in the water surface in a connected state that maintains a certain interval. It plays a role to minimize displacement and stress on the structure.

Specifically, the connector 200 includes a pair of fixing brackets 210 installed at each end of the horizontal frame 110 or the vertical frame 120 facing each other, and the pair of fixing brackets 210 . A bush that is disposed in close contact with the connecting means 220 for connecting to each other and the opposite surfaces 213a of the pair of fixing brackets 210 and having a through hole 231 through which the connecting means 220 passes. (230) and a compression spring (240) fitted to the connecting means (220) and supported by the bush (230).

The fixing bracket 210 includes a first plate 211 and a second plate 212 positioned on both sides in the longitudinal direction of the horizontal frame 110 or the vertical frame 120 , and the first plate 211 and the second plate 212 . It consists of a third plate 213 connecting between the plates 212 .

That is, the fixing bracket 210 is formed of a 'C'-shaped channel structure that is fitted while enclosing the ends and both sides of the horizontal frame 110 or the vertical frame 120 .

In the first plate 211 and the second plate 212 , a plurality of screw fastening holes 201 are formed to pass through the horizontal frame 110 or the vertical frame 120 through which screws are fastened.

In addition, the first plate 211 and the second plate 212 are formed with reinforcing ribs 202 extending in a convexly protruding state to the outside.

That is, the reinforcing rib 202 provides an effect of increasing rigidity to prevent easily deformation or damage by increasing the rigidity and flexural rigidity of the fixing bracket 210 by a convexly protruding structure to the outside.

In addition, in the upper and lower portions of the fixing bracket 210 according to the present invention, an inclined portion 203 whose height gradually increases from one side in the longitudinal direction to the other side toward the third plate 213 is formed.

The inclined portion 203 is to increase the height of the third plate 213 so that when a plurality of connection means 220 to be described later are configured, installation can be made easily with a sufficient separation distance from each other. .

In addition, a connection through portion 204 through which the connection shaft 221 of the connection means 220 passes is formed in the third plate 213 of the fixing bracket 210 .

The connection through-portion 204 according to the present invention is formed with an extension portion 204a extending the space in the up, down, left, and right directions.

That is, the flow range in which the connection shaft 221 can flow can be increased by the configuration of the extension part 204a, so that the frame unit 100 feels safe due to the improvement of the flow force corresponding to severe waves or swells. And there is an advantage that not only can increase the sense of balance, but also effectively reduce the damage caused by the collision between the connecting shaft 221 and the connecting through-portion 204 due to the frequent movement of the water surface.

The connecting means 220 serves to regulate the flow range in which the frame unit 100 moves away from each other by physically connecting the two facing fixing brackets 210 to each other.

The connecting means 220 is fastened to the connecting shaft 221 having a locking head 221a on one side and a screw 221b on the other side in the longitudinal direction, and the screw 221b of the connecting shaft 221 . It is composed of a connecting nut 222 that is, and is disposed on the upper and lower portions of the fixing bracket 210, respectively.

In addition, as shown in FIG. 5 , the screw portion 221b of the connection shaft 221 includes a separation prevention stopper 223 for preventing the connection nut 222 from being loosened and separated.

The separation prevention stopper 223 includes a fitting groove 223a recessed to a predetermined depth inward from the outer peripheral surface of the screw portion 221b of the connection shaft 221, and one side enters and fits into the fitting groove 223a, and the other side is the outside. It is composed of a locking piece (223b) that protrudes to.

That is, since the fitting piece 223b protruding to the outside in a state fitted in the fitting groove 223a can block the rotational movement of the connecting nut 222 in the loosening direction, the connecting nut 222 is connected to the connecting shaft ( 221), it is possible to fundamentally prevent safety accidents that occur due to complete departure from

The bush 230 is disposed in a state in close contact with the opposite surface 213a of the fixing bracket 210, that is, on the outside of the third plate 213, and serves to stably support the compression spring 240, which will be described later. carry out

The bush 230 is preferably made of a non-metal (synthetic resin) material.

Through-holes 231a and 231b through which the connecting means 220 pass are formed in the bush 230 .

Here, the through-holes 231a and 231b are composed of an upper through-hole 231a and a lower through-hole 231b, and radially outward from the center of the upper through-hole 231a and the lower through-hole 231b. An upper spring accommodating part 232a and a lower spring accommodating part 232b for accommodating the plurality of compression springs 240 to the inside are formed therein.

That is, upper and lower through-holes 231a and 231b and upper and lower spring receiving portions 232a and 232b are formed so that a plurality of connecting means 220 and compression spring 240 are installed with respect to one bush 230 . By doing so, it provides the convenience of quickly proceeding with the operation for installing the bush 230 .

In addition, on the contact surface 230a of the bush 230 that is in close contact with the opposite surface 213a of the fixing bracket 210, the connection means 220 and the compression spring 240 flow together along the flow direction. An inclined portion 233 is formed.

That is, the flow inclined portion 233 includes the connection shaft 221 and the compression spring 240 so that the flow range is not limited by the interference of the connection shaft 221 flowing in response to a wave or swell with the bush 230 . ) is a structure that is designed to flow together in the flow direction.

In addition, the bush 230 supports the compression spring 240 instead of the fixing bracket 210 , so that the metal generated when the two metal materials of the compression spring 240 and the fixing bracket 210 come into contact with each other. It provides the effect of preventing friction noise and the slip phenomenon in which the compression spring 240 slides.

In particular, it is common to apply a rust preventive agent to the surface of the fixing bracket 210 for the purpose of preventing rust from occurring when in contact with water. Therefore, when the rust preventive agent is in direct contact with the compression spring 240, it provides an effect of preventing it from being easily worn out by friction.

The compression spring 240 is fitted to the connecting means 220 and supported by the bush 230 , and has a plurality of components respectively disposed on the upper and lower portions of the fixing bracket 210 .

The compression spring 240 is inserted into the upper spring receiving portion 232a and the lower spring receiving portion 232b of the bush 230 so that the fixing bracket 210 coupled to the frame unit 100 approaches each other. It plays a role of elastically supporting to prevent collision with each other.

The connector 200 according to the present invention has the connection means 220 moving away from the flow force flowing in the direction away from each other when the swell of the water surface occurs while the frame units 100 are connected to each other. The flow force that regulates the power, and flows in the opposite pulling direction to each other, absorbs the flow force from the compression deformation that the compression spring 240 is compressed to prevent collision between the frame units 100 and suppresses vibration as much as possible. provides an effect.

On the other hand, as shown in FIGS. 6 and 7 , the horizontal frame 110 and the vertical frame 120 are positioned between the intersections and increase the coupling and fixing force between each other and the shock vibration transmitted to these frames 110 and 120 Includes a fastening bracket 300 to reduce the.

Specifically, the first guide protrusion 310 for supporting both longitudinal side surfaces of the vertical frame 120 or the horizontal frame 110 is formed on the upper portion of the fastening bracket 300 , and the longitudinal side surfaces of the other frame are formed at the lower portion thereof. A second guide protrusion 320 for supporting is formed, and a bracket fastening hole 330 for fastening to the vertical frame 120 and the horizontal frame 110, respectively, is formed.

By using the fastening bracket 300, the distance between the positions at which the vertical frame 120 and the horizontal frame 110 are fixed can be widened, thereby improving the fixing force as well as the vertical frame 120 or the horizontal frame. It provides the effect of damping the vibration by easily dispersing the vibration transmitted to (110) at an intermediate position.

The embodiments of the present invention are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible within the scope of the following claims.

100... frame unit
110... horizontal frame
120... vertical frame
200... connector
210... fixing bracket
220... means of connection
230... Bush
240... compression spring
300... fastening bracket
310... First guide projection
320... 2nd guide projection

Claims (8)

a frame unit disposed in a direction in which a plurality of horizontal frames and vertical frames intersect each other to connect the buoyancy body and the solar power module; And, a connector installed at the end of the horizontal frame or vertical frame and fixing the frame units facing each other in a state of being connected;
The connector is
Mounted at each end in a direction transverse frame or vertical frame of facing each other, connecting means being additional connection through-formed to pass through the connection through-blowing phase also Genie a cross-shaped flow range of the connecting means which increase the lock, and, a pair of fixing brackets in which extensions extending in left and right directions are formed;
a plurality of connecting means respectively disposed above and below the fixing bracket to connect the pair of fixing brackets to each other;
The pair of fixing brackets are disposed in a state of being in close contact with the outside of the opposite surfaces, and an upper through-hole and a lower through-hole are formed so that the connecting means passes through, and the plurality of the plurality of the plurality of fixing brackets are disposed on the outside in a radial direction based on the center of the upper through-hole and the lower through-hole. An upper spring accommodating part and a lower spring accommodating part for accommodating the compression spring of bush formed; and,
a plurality of compression springs fitted to the connecting means and respectively disposed on upper and lower portions of the fixing bracket to be supported by the bush;
A connector of the frame unit for floating photovoltaic power generation, characterized in that it consists of.
delete delete delete According to claim 1,
The connector of the frame unit for water photovoltaic power generation, characterized in that the reinforcement ribs convexly protruding in the direction in which the both sides extend are formed on the outer side of both sides of the fixing bracket.
According to claim 1,
The connecting means is composed of a connecting shaft having a locking head on one side and a threaded portion on the other side in the longitudinal direction, and a connecting nut,
The connector of the frame unit for water photovoltaic power generation, characterized in that the screw portion of the connection shaft includes a departure prevention stopper for preventing the connection nut from being loosened.
According to claim 1,
Positioned between the horizontal frame and the vertical frame intersect, the connector of the frame unit for water photovoltaic power generation, characterized in that it further comprises a fastening bracket for fixing these frames.
8. The method of claim 7,
A first guide protrusion for supporting both longitudinal side surfaces of the vertical frame or the horizontal frame is formed on the upper portion of the fastening bracket, and a second guide protrusion for supporting both longitudinal side surfaces of the other frame is formed on the lower portion, and the vertical frame and A connector for a frame unit for floating photovoltaic power generation, characterized in that bracket fastening holes are formed for each fastening to the horizontal frame.

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