KR20230025073A - Non-spring type connection bracket with vibration canceling member and floating photovoltaic power generation system with the same - Google Patents

Abstract

The present invention relates to a non-spring type connection bracket having an intermediate offset member and a floating solar power generation system having the same. The connection bracket of the present invention comprises: a pair of coupling members respectively coupled to an end of one profile and an end of the other profile; a guide rod installed between the pair of coupling members with one end and the other end respectively penetrating the coupling member located on one side and the coupling member located on the other side; a coil spring installed between the pair of coupling members and elastically supporting the pair of coupling members in a state surrounding an outer side of the guide rod at a distance; a pair of end support members installed in a state penetrated by the guide rod and respectively interposed between the one end of the coil spring and the coupling member on one side, and between the other end of the coil spring and the coupling member on the other side, and preventing frictional damage between the coil spring and the coupling member; and an intermediate offset member made of elastic material, installed along an inner space of the coil spring in a state penetrated by the guide rod, suppressing sudden bending of the coil spring, and canceling out vibration, shock, and noise transmitted through the coil spring and guide rod. Accordingly, the connection bracket reduces fatigue load and allows long-term use without frequent replacement or repair.

Description

Non-spring type connection bracket having an intermediate offset member and floating photovoltaic power generation system having the same

The present invention relates to a bracket for connecting unit units of a floating photovoltaic power generation system. In particular, it connects unit units in a floating photovoltaic power generation system to accommodate relative vertical displacement, horizontal displacement, and rotational displacement between unit units. A paddy field equipped with an intermediate offset member to effectively offset transmitted vibration and shock as well as mitigate rapid relative movement between unit units due to waves to reduce accumulated fatigue load and to be used for a long period of time without frequent replacement or maintenance. It relates to a spring-type connection bracket and a floating photovoltaic power generation system having the same.

Recently, as regulations to suppress the emission of carbon dioxide have been enforced worldwide, the development of a new power plant that does not emit carbon dioxide is required.

As such, there is no emission of carbon dioxide, and a power generation device using solar light is representative of a power generation device using clean energy.

However, the power generation capacity of the solar power generation system varies depending on the generation area and the amount of sunlight. In order to install it in a large area, there are many restrictions on land purchase due to the use of a huge amount of land, and land purchase or compensation is required. Due to the problem of high cost, there was a practical difficulty in obtaining cooperation from neighboring residents in order to install power generation facilities on a large scale.

In addition, as in the prior art, a solar power generation system installed on land generates an enormous amount of heat in the process of generating electricity by receiving sunlight, and a large amount of energy is transmitted from the land on which the solar power generation system is installed, so that the solar panel It had a problem that degraded the performance and caused a failure.

Accordingly, floating photovoltaic power generation systems that install solar panels on the water surface of rivers, lakes, reservoirs, dams, etc. are being actively proposed in order to secure a wide open installation area with abundant sunlight while reducing problems. situation is ongoing.

Such a floating photovoltaic power generation system is formed by connecting a plurality of solar panels, a plurality of unit units in which a profile assembly and a float are combined to support the plurality of solar panels to be located on the water surface, and the connection between the unit units is generally single-pole. It is made using a simple connecting member of the form, but it is different for each site, and a standardized form does not yet exist.

However, in the case of a floating photovoltaic power generation system, relative vertical displacement, horizontal displacement, and rotational displacement constantly occur between neighboring unit units due to waves and wind power occurring on the water surface. Since it could not accommodate displacement, horizontal displacement, and rotational displacement and had a problem of being easily damaged, it could not be used for a long period of 20 years along with other unit units, and partial repairs had to be continued.

Accordingly, the present applicant has developed an 'elastic bracket for connection between units of a floating photovoltaic power generation system' disclosed in Korean Patent Publication No. 2019-0053581 (May 20, 2019) and applied it to the field. As a result of applying the elastic bracket disclosed in Korean Patent Publication No. 2019-0053581 (May 20, 2019) to an actual field, it accommodates relative vertical displacement, horizontal displacement, and rotational displacement between unit units while mitigating the impact transmitted between unit units. Although it was shown to contribute to some extent, the coiled spring often strongly repelled and bounced due to the waves with up and down motion, and tended to cause rapid relative movement in the up and down direction between units. In addition, this tendency caused damage to the structure by increasing rather than reducing vibration and shock transmitted between unit units.

Korean Patent Publication No. 2019-0053581 (2019.05.20.)

Accordingly, the present invention has been proposed to solve the above conventional problems, and an object of the present invention is to connect unit units in a floating photovoltaic power generation system to provide relative vertical displacement, horizontal displacement, and rotational displacement between unit units. While accommodating, it not only effectively offsets vibration and shock transmitted between unit units, but also reduces the accumulated fatigue load by mitigating rapid relative movement between unit units due to waves, and provides intermediate offset for long-term use without frequent replacement or maintenance. It is to provide a non-spring-type connection bracket having a member and a floating photovoltaic power generation system having the same.

In order to achieve the above object, the connection bracket according to the technical idea of the present invention connects a plurality of solar panels, a profile assembly for supporting the plurality of solar panels to be located on the water surface, and unit units including a float As a connecting bracket connecting one side profile belonging to the profile assembly of one unit unit and the other side profile belonging to the profile assembly of the other unit unit in the floating photovoltaic power generation system, which is coupled to the end of one side profile and the end of the other side profile, respectively a pair of coupling members; A guide rod installed between a pair of coupling members with one end and the other end passing through the coupling member located on one side and the coupling member located on the other side, respectively; Its technical concept is to include an intermediate offset member made of an elastic material installed between the pair of coupling members in a state penetrated by the guide rod to offset vibration, shock, and noise transmitted through the guide rod. to be

Here, in a state penetrated by the guide rod, the intermediate offset member and the coupling member are interposed between one end of the intermediate offset member and one coupling member, and between the other end of the intermediate offset member and the other coupling member. It may be characterized in that it further comprises a pair of end support members to prevent friction damage between.

In addition, the end support member is provided as a flat disk-shaped member in close contact with the coupling member, and may be characterized in that it has an insertion groove into which the end of the intermediate offset member is inserted and seated.

In addition, insertion protrusions inserted into the insertion grooves are formed at both ends of the body of the intermediate offset member, and the width of the body excluding the insertion protrusions of the intermediate offset member and the width of the end support member are the same, so that the intermediate offset member It may be characterized in that the outer surface of the body and the outer surface of the end support member are located on the same plane.

In addition, the intermediate offset member may be characterized in that the central portion is a columnar member having a through hole through which the guide rod passes.

In addition, the intermediate offset member may be characterized in that it is installed in a state in which the outer surface is convexly expanded outward by being pressed from both sides by the pair of coupling members.

In addition, a male thread is formed on the outer circumferential surface of the guide rod, and an adjusting member formed with a female thread is screwed to one end of the guide rod passing through the coupling member, and a pair of coupling members are moved along the guide rod to the other side. It may be characterized in that the intermediate offset member can be pressed from both sides while narrowing the distance between them.

In addition, the intermediate offset member may be characterized in that a plurality of reinforcing yarns are embedded so as to suppress breakage, and a plurality of reinforcing yarns are arranged side by side in the same longitudinal direction as the longitudinal direction of the intermediate offset member.

In addition, the body of the intermediate offset member is formed in a cylindrical shape, the insertion protrusion is formed as a protrusion of circular cross section, and the insertion groove of the end support member is formed as a circular groove corresponding to the insertion protrusion of the intermediate offset member. can be done with

In addition, the body of the intermediate offset member is formed in a square column shape, the insertion protrusion is formed as a protrusion with a square cross section, and the insertion groove of the end support member is formed as a rectangular groove corresponding to the insertion protrusion of the intermediate offset member. can be characterized.

In addition, the coupling member is a pair of horizontal parts spaced side by side to the upper and lower sides so that they can be combined in a state in contact with the upper and lower surfaces of the ends of the profile, a C-shaped consisting of a vertical connection part vertically connecting the pair of horizontal parts It is a member, and the horizontal portion may be characterized in that it is provided with a bolt hole so that a bolt supporting the end of the profile in the vertical direction can pass through.

In addition, the intermediate offset member may be characterized in that ethylene propylene diene monomer (Ethylene Propylene Diene Monomer) rubber as a material.

On the other hand, on the other hand, the floating photovoltaic power generation system of the present invention includes unit units having a plurality of solar panels, a profile assembly and a float for supporting the plurality of solar panels to be located on the water surface, and the above-described unit units connecting the unit units. It is characterized in its technical configuration that it includes a bracket for connection.

The connection bracket according to the present invention connects unit units in a floating photovoltaic power generation system and actively accommodates relative vertical displacement, horizontal displacement, and rotational displacement between unit units while mitigating, absorbing, and blocking impact transmitted between unit units. By reducing the accumulated fatigue load, durability is greatly improved, so it can be used for a long time without frequent replacement or maintenance.

In addition, the present invention can effectively offset vibration, shock, and noise transmitted through the guide rod by the intermediate offset member made of rubber material installed in a state penetrated by the guide rod, and suppress sudden displacement between coupling members due to waves. can

1 is a use state diagram showing a state in which a bracket for connection according to an embodiment of the present invention is installed at the end of a profile of a unit unit.
Figure 2 is a partial side view of a floating photovoltaic power generation system showing a state in which connection brackets are installed and connected between units according to an embodiment of the present invention
Figure 3 is a partial front view of a floating photovoltaic power generation system showing a state in which connection brackets are installed and connected between units according to an embodiment of the present invention
Figure 4 is a perspective view of a bracket for connection according to an embodiment of the present invention
Figure 5 is an exploded perspective view of a bracket for connection according to an embodiment of the present invention
Figure 6 is a side view of a bracket for connection according to an embodiment of the present invention
Figure 7 is a plan view of a bracket for connection according to an embodiment of the present invention
Figure 8 is a cross-sectional side view of a bracket for connection according to an embodiment of the present invention
9 is a side cross-sectional view of a state in which an intermediate offset member is pressed and expanded in a connecting bracket according to an embodiment of the present invention.
Figure 10 is a perspective view of a bracket for connection according to a modified embodiment of the present invention
Figure 11 is an exploded perspective view of a bracket for connection according to a modified embodiment of the present invention

A connection bracket according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Since the present invention can have various changes and various forms, specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and scope of the present invention. Like reference numerals have been used for like elements throughout the description of each figure. In the accompanying drawings, the dimensions of the structures are shown enlarged than actual for clarity of the present invention, or reduced than actual in order to understand the schematic configuration.

Also, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are only used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention. Meanwhile, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

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1 is a state diagram showing a state in which connection brackets according to an embodiment of the present invention are installed at the end of a profile of a unit unit, and FIG. 2 shows a state in which connection brackets according to an embodiment of the present invention are installed and connected between unit units. It is a partial side view of a floating photovoltaic power generation system shown, and FIG. 3 is a partial front view of a floating photovoltaic power generation system showing a state in which connecting brackets are installed and connected between unit units according to an embodiment of the present invention.

As shown, in the connection bracket 100 according to an embodiment of the present invention, a plurality of unit units in which a profile assembly 20 and a float 10 are combined to support a plurality of solar panels 30 on the surface of the water are connected. It serves to connect the unit units in the floating photovoltaic power generation system.

The connection bracket 100 according to the embodiment of the present invention actively accommodates relative vertical displacement, horizontal displacement, and rotational displacement between unit units while connecting unit units. Furthermore, the bracket for connection according to an embodiment of the present invention reduces the accumulated fatigue load by mitigating, absorbing, and blocking the impact transmitted between units in the middle, thereby greatly improving durability and maintaining durability for a long period of more than 20 years without frequent replacement or maintenance. configured for use.

Hereinafter, the bracket 100 for connection according to an embodiment of the present invention will be described in more detail.

Figure 4 is a perspective view of a bracket for connection according to an embodiment of the present invention, Figure 5 is an exploded perspective view of a bracket for connection according to an embodiment of the present invention, Figure 6 is a side view of the bracket for connection according to an embodiment of the present invention 7 is a plan view of a bracket for connection according to an embodiment of the present invention, and FIG. 8 is a cross-sectional side view of the bracket for connection according to an embodiment of the present invention. And Figure 9 is a side cross-sectional view of a state in which the intermediate offset member is pressed and expanded in the connecting bracket according to an embodiment of the present invention.

As shown, the bracket 100 for connection according to the embodiment of the present invention includes the profile assembly 20 of one unit unit and the profile assembly of the other unit unit adjacent to each other on one side and the other side in the floating photovoltaic power generation system ( 20) serves to connect one side profile 21 and the other side profile 21 in the longitudinal direction.

To this end, the elastic bracket 100 for connection includes a pair of coupling members 110 spaced apart from each other, a guide rod 120, an intermediate offset member 130, a pair of end support members 140, and It consists of a control member (150).

The coupling member 110 is a U-shaped member so as to be coupled to the end of the profile 21 at each position, so that it can be coupled in contact with the upper and lower surfaces of the end of the profile 21. It consists of a pair of horizontal parts 112 and a vertical connection part 111 vertically connecting the pair of horizontal parts 112. Here, a bolt hole 112a is provided in the horizontal portion 112 so that a bolt supporting the vertical end of the profile can pass through. Here, it is preferable that the bolt holes 112a are formed in pairs of two spaced apart from each other. Thus, when bolts are installed in both of the two bolt holes 112a, the coupling member 110 cannot rotate with respect to the end of the profile 21, and when a bolt is installed in only one of the two bolt holes 112a, The coupling member 110 is rotatable with respect to the end of the profile. Therefore, one of the two coupling members 110 as a pair can enable horizontal rotation between the profile and the coupling member 110 by allowing the bolt to be installed only in one of the two bolt holes 112a.

The guide rod 120 is installed with one end and the other end passing through the through hole 111a of the coupling member 110 between the coupling member 110 located on one side and the coupling member 110 located on the other side, respectively. do. The guide rod 120 is formed with a male thread on the outer circumferential surface of the body, and a head portion 120a having a larger diameter than the body is formed at one end. Such a guide rod 120 may be simply provided with long bolts. As shown in the drawing, an adjusting member 150 formed with a female thread is screwed to the other end of the male threaded guide rod 120 to prevent the end of the guide rod 120 from being separated from the coupling member 110, and further coupled with a pair of It serves to adjust the pressure on the intermediate offset member 130 while adjusting the spacing between the members 110.

In the case of such a guide rod 120, since both ends are installed in a state of penetrating the coupling member 110 located on both sides, a free rolling motion between the coupling members 110 is possible, and the coupling member through which the guide rod 120 penetrates. Since the thickness of (110) is thin, it allows bending operation to be possible.

According to the configuration in which the guide rods 120 are installed through the coupling members 110 located on both sides, the intermediate offset member 130 is protected from being severely twisted or separated. As a result, it is possible to solve a problem in which the intermediate offset member 130 is detached, excessively twisted, or bent while being damaged or not performing a buffering function.

The intermediate offset member 130 is made of an elastic material and includes a cylindrical body 131 having a through hole 132a through which a guide bar passes in the central portion and insertion protrusions having circular cross sections at both ends of the body 131. It is a member consisting of (132). The insertion protrusion 132 is inserted corresponding to the insertion groove 140a of the end support member 140. In the intermediate offset member 130, the width of the body 131 excluding the insertion protrusion 132 and the width of the end support member 140 are formed to be the same, so that the outer surface and the end of the body 131 of the intermediate offset member 130 The outer surface of the support member 140 is located on the same surface.

The intermediate offset member 130 is installed between a pair of coupling members 110 in a state penetrated by the guide rod 120 to offset vibration, shock, and noise transmitted through the guide rod 120, and It serves to suppress relative displacement such as sudden bending between the pair of coupling members 110. The intermediate offset member 130 is preferably installed in a state of being pressed from both sides by a pair of coupling members 110. To this end, when the adjusting member 150 screwed to one end of the guide rod 120 is moved to the other side along the guide rod 120, the distance between the pair of coupling members 110 is narrowed as shown in FIG. While being pushed, the intermediate offset member 130 tends to be in the form of a jar with an outer circumferential surface convexly expanded outward. The intermediate offset member 130 whose outer circumferential surface is in a convexly inflated state is subjected to stronger compression with respect to the pair of coupling members 110 and the guide rod 120, and the vibration transmitted through the guide rod 120 and Shock and noise are more effectively offset.

Here, the intermediate offset member 130 is an ethylene propylene diene monomer (Ethylene Propylene Diene) that can offset vibration, shock and noise, but is not easily damaged by water, oil, salt, etc. and can maintain durability for more than 20 years in an outdoor ultraviolet environment. Monomer) made of rubber. In addition, a plurality of reinforcing yarns 133 are embedded in the intermediate offset member 130 to suppress breakage that may occur while being repeatedly deformed by a constantly applied load. A plurality of reinforcing yarns 133 are arranged side by side in the same longitudinal direction as the longitudinal direction of the intermediate offset member 130. The reinforcing yarn 133 may be provided with a metal wire having a diameter of less than 1 mm, and may be provided with a fiber yarn having a relatively greater flexibility.

When such an intermediate offset member 130 is provided, it dampens vibrations caused by natural phenomena (wind, waves, flow rate, etc.) in the structure of the floating photovoltaic power generation system, suppressing the loosening of fastening parts such as bolts, In particular, it is possible to further increase the stability of the structure by offsetting low-frequency vibration.

The end support member 140 is intervened between one end of the intermediate offset member 130 and the coupling member 110 on one side, and between the other end of the intermediate offset member 130 and the coupling member 110 on the other side, respectively. It serves to effectively prevent extreme frictional damage and noise generation between the offset member 130 and the coupling member 110. To this end, the end support member 140 is made of a polypropylene material that has low friction characteristics and is inexpensive. In addition, the end support member 140 is made of a flat disk-shaped body having a through hole in the center and penetrated by the guide rod 120, but the insertion protrusion 132 formed of a protrusion of circular cross section in the intermediate offset member 130 ) is provided with an insertion groove (140a) formed as a circular groove to be inserted correspondingly.

In this way, when the end support member 140 made of a relatively low-friction material is provided compared to the coupling member 110, when the coupling member 110 is rolled around the guide rod 120 as a central axis, the end support member located in the middle ( 140) prevents damage due to surface friction between the coupling member 110 and the end support member 140 from occurring.

10 is a perspective view of a bracket for connection according to a modified embodiment of the present invention, and FIG. 11 is an exploded perspective view of a bracket for connection according to a modified embodiment of the present invention.

As shown, in the connecting bracket according to the modified embodiment of the present invention, compared to before deformation, the body 131 of the intermediate offset member 130 is formed in a square column shape, and the insertion protrusion 132 is also a protrusion with a square cross section. is formed Correspondingly, the insertion groove 140a of the end support member 140 is formed as a rectangular groove.

According to this modified configuration, since the insertion protrusion 132 and the end support member 140 of the intermediate offset member 130 rotate together in the rolling direction, there is an advantage in that damage due to surface friction with respect to each other is eliminated.

For reference, other parts not described in the modified embodiment of the present invention are almost the same as the previous modified embodiment, so further description will be omitted.

Although preferred embodiments of the present invention have been described above, the present invention can use various changes, modifications, and equivalents. It is clear that the present invention can be equally applied by appropriately modifying the above embodiment. Therefore, the above description does not limit the scope of the present invention, which is defined by the limits of the following claims.

10: float 20: profile assembly
30: solar panel 100: bracket for connection
110: coupling member 120: guide rod
130: intermediate offset member 140: end support member
150: adjusting member

Claims (13)

In a floating photovoltaic power generation system in which a plurality of solar panels, a profile assembly supporting the plurality of solar panels to be positioned on the water surface, and unit units including a float are connected, one side profile belonging to the profile assembly of one unit unit and the other side As a connecting bracket connecting the other side profile belonging to the profile assembly of the unit unit,
A pair of coupling members each coupled to an end of one side profile and an end of the other side profile;
A guide rod installed between a pair of coupling members with one end and the other end passing through the coupling member located on one side and the coupling member located on the other side, respectively; and
an intermediate offset member made of an elastic material installed between the pair of coupling members in a state penetrated by the guide rod to offset vibration, shock, and noise transmitted through the guide rod;
A bracket for connection comprising a. According to claim 1,
Friction between the intermediate offset member and the coupling member intervened between one end of the intermediate offset member and one coupling member, and between the other end of the intermediate offset member and the other coupling member in a state of being penetrated by the guide rod, respectively Bracket for connection, characterized in that it further comprises a pair of end support members to prevent damage. According to claim 2,
The end support member is provided as a flat disk-shaped member in close contact with the coupling member, and a connection bracket, characterized in that it has an insertion groove into which the end of the intermediate offset member is inserted and seated. According to claim 3,
Insertion protrusions inserted into the insertion grooves are formed at both ends of the body of the intermediate offset member, and the width of the body excluding the insertion protrusions of the intermediate offset member and the width of the end support member are the same, so that the intermediate offset member body Bracket for connection, characterized in that the outer surface and the outer surface of the end support member are located on the same plane. According to claim 3,
The intermediate offset member is a bracket for connection, characterized in that the member having a column shape having a through hole through which the guide rod passes through the central portion. According to claim 5,
The connecting bracket, characterized in that the intermediate offset member is installed in a state in which the outer surface is convexly expanded outward by being pressed from both sides by the pair of coupling members. According to claim 6,
A male thread is formed on the outer circumferential surface of the guide rod, and an adjusting member formed with a female thread is screwed to one end of the guide rod passing through the coupling member. Bracket for connection, characterized in that the intermediate offset member can be pressed from both sides while narrowing the distance. According to claim 7,
The intermediate offset member has a plurality of reinforcing yarns embedded therein to suppress breakage, and the reinforcing yarns are arranged side by side in the same longitudinal direction as the longitudinal direction of the intermediate offset member. According to claim 5,
The body of the intermediate offset member is formed in a cylindrical shape, the insertion protrusion is formed as a protrusion of circular cross section, and the insertion groove of the end support member is formed as a circular groove corresponding to the insertion protrusion of the intermediate offset member. Characterized in that bracket for connection. According to claim 5,
The body of the intermediate offset member is formed in a square column shape, the insertion protrusion is formed of a protrusion of a square cross section, and the insertion groove of the end support member is formed as a rectangular groove corresponding to the insertion protrusion of the intermediate offset member. bracket for connection. According to claim 5,
The coupling member is a c-shaped member composed of a pair of horizontal parts spaced side by side and a vertical connection part vertically connecting the pair of horizontal parts so that they can be coupled in contact with the upper and lower surfaces of the ends of the profile. , Elastic bracket for connection characterized in that the horizontal portion is provided with a bolt hole so that a bolt supporting the end of the profile in the vertical direction can pass through. According to claim 3,
The intermediate offset member is a connecting bracket, characterized in that made of ethylene propylene diene monomer (Ethylene Propylene Diene Monomer) rubber. Unit units having a plurality of solar panels, a profile assembly and a float for supporting the plurality of solar panels to be positioned on the water surface, and the connection bracket of any one of claims 1 to 12 connecting the unit units Floating photovoltaic power generation system, characterized in that it comprises.

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