JP4916588B1 - Solar power generation panel device - Google Patents

Abstract

[Objective] Consists of a photovoltaic power generation panel and a concrete frame body, embedded with a reinforcing and conducting material, and in the presence of the reinforcing and conducting material, is strong and durable, and connected to each other The present invention relates to a photovoltaic panel device that can be easily electrically finished.
[Structure] It comprises a concrete frame A in which a storage recess 2 is formed at the center and includes reinforcing fibers, and a photovoltaic power generation panel B stored in the storage recess 2. Inside the concrete frame A, two reinforcing and conducting materials 3 are embedded along the horizontal outer peripheral surface 1a or the vertical outer peripheral surface 1b. The positive and negative electrodes of the photovoltaic power generation panel B are connected to each of the reinforcing and conducting materials 3. The length of the reinforcing / conducting material 3 is configured to match the width of the lateral outer peripheral surface 1a or the longitudinal outer peripheral surface 1b of the concrete frame A, and both ends 3a, 3a of the reinforcing / conducting material 3 are provided at the concrete frame. It is provided so as to be exposed at the end recesses 4 and 4 formed at the position of the lateral outer peripheral surface 1a or the vertical outer peripheral surface 1b of A.
[Selection] Figure 1

Description

  The present invention comprises a photovoltaic power generation panel and a concrete frame, in which a reinforcing and conducting material is embedded, and in the presence of the reinforcing and conducting material, is strong and durable, and is connected to each other. Thus, the present invention relates to a photovoltaic power generation panel device that can be easily finished electrically.

  In recent years, a solar power generation module body (so-called solar panel) is often used to attach a solar power generation device to a building structure. In particular, in the future, the demand for clean and safe energy sources will increase, and among them, the use of solar power generation module bodies (solar panels) that use solar energy is expected to increase significantly.

  In connection with this, it becomes important whether a photovoltaic power generation panel is easily mounted on a building structure as described below, and various devices for mounting on a building structure have been developed. In addition, the photovoltaic power generation panel is used by being attached to a frame formed of a metal structural material such as a shape steel. Among them, sunlight is applied to a frame, a stand or the like formed of concrete. Many of them are equipped with power generation panels. This type of apparatus is disclosed in Patent Document 1.

JP-A-11-270023

  The quality of this type of photovoltaic power generation panel and concrete frame depends on how easy it is to install the photovoltaic power generation panel and attach it to the concrete frame. . In Patent Document 1, a solar power generation module is mounted on a panel main body, but electrical wiring attached to the solar power generation module mounted in a concrete panel main body is externally provided from the panel main body. A through hole is formed for drawing out.

  However, the through hole is a tunnel-like hole that vertically cuts through the panel body, and there is a portion that bends at a substantially right angle. The operation of inserting a lead wire for electrical wiring into such a through hole is troublesome and the working efficiency is extremely poor.

  Therefore, the problem (technical problem or purpose) to be solved by the present invention is that when the photovoltaic power generation panel is attached to the concrete frame, the photovoltaic power generation panel can be easily attached to the frame. In particular, the reinforcing rod can be easily mounted, and can be easily assembled with a connecting coupler at the time of subsequent installation, thereby realizing improvement in work efficiency.

  Therefore, the inventor, as a result of earnest and research, in order to solve the above-mentioned problems, the invention of claim 1, a concrete frame body in which a storage recess is formed in the central portion and reinforcing fibers are included, It consists of a photovoltaic power generation panel housed in the housing recess, and two reinforcing and conducting materials are embedded in the concrete frame body along the horizontal outer peripheral surface or the vertical outer peripheral surface of the concrete frame body. The reinforcing and conducting material is connected to the positive and negative electrodes of the photovoltaic power generation panel, and the length of the reinforcing and conducting material is equal to the width of the lateral outer peripheral surface or the vertical outer peripheral surface of the concrete frame. It is comprised so that it may correspond, and the both ends part of the above-mentioned reinforcement and electric conduction material is provided so that it may be exposed in the end crevice part formed in the vertical peripheral surface or the horizontal peripheral surface part of the above-mentioned concrete frame. Characteristic solar power generation panel By was location, it has solved the above problems.

  According to a second aspect of the present invention, in the first aspect, the intermediate portion of the reinforcing and conducting material is exposed in a partial recess on the lower surface of the storage recess of the concrete frame, and the exposed intermediate portion includes the sunlight. The solar power generation panel device is characterized in that the positive electrode and negative electrode connector portions of the power generation panel are connected to solve the above problems. According to a third aspect of the present invention, in the first or second aspect of the present invention, in the first or second aspect, a connecting coupler for appropriately locking the opposite ends of the reinforcing / conducting material of an adjacent photovoltaic power generation device at both ends of the reinforcing / conducting material is detachable. The above-described problems have been solved by using a photovoltaic power generation panel device that is configured as follows.

  The invention according to claim 4, wherein the concrete frame body according to any one of claims 1, 2, or 3 is configured such that the concrete frames can be joined together via a joint made of hard synthetic resin. By using a photovoltaic panel device, the above problems have been solved. According to a fifth aspect of the present invention, in any one of the first, second, and third aspects, the reinforcing fiber in the concrete frame is a cellulose fiber. The problem has been solved.

  In the invention of claim 1, the solar power generation panel is housed in the housing recess, and two reinforcing and conducting materials are embedded in the concrete frame body along the lateral outer circumferential surface or the longitudinal outer circumferential surface. Since each of the reinforcing and conducting materials is connected to the positive electrode and the negative electrode of the photovoltaic power generation panel, by connecting the positive and negative electrodes of the adjacent solar power generation devices, There is an advantage that it can be installed quickly. In addition, by using the conductive material as a reinforcing rod, the structure can be simplified and a strong solar power generation device can be provided. Furthermore, the reinforcing power is contained in the concrete frame, so that the photovoltaic power generation apparatus of the present invention can be made extremely strong and durable.

  In the invention of claim 2, since it is configured to be exposed in a partial recess on the lower surface of the storage recess, and the positive and negative connector portions of the photovoltaic power generation panel are connected to the exposed intermediate portion, the solar There is an advantage that connection and coupling can be achieved only by covering the photovoltaic panel from above. In the invention of claim 3, there is an advantage that the adjacent photovoltaic power generation panel devices can be easily connected to each other.

  In invention of Claim 4, there exists an effect which can be set as the structure which can couple | bond together the adjacent photovoltaic power generation panel apparatus more firmly. In the invention of claim 5, particularly in a cold district, the presence of the cellulose fiber inside the concrete frame body can avoid cracks and the like, and can provide a strong photovoltaic power generation panel device.

(A) is a perspective view of the photovoltaic power generation panel device of the present invention, and (B) is a plan view of (A). (A) is a perspective view of the concrete frame body before mounting | wearing with a photovoltaic power generation panel, (B) is a perspective view of the photovoltaic power generation panel seen from the back surface. (A) is a Y1-Y1 arrow sectional view of Drawing 1 (B), and (B) is a XX arrow sectional view of Drawing 1 (B). (A) is sectional drawing of the state which connected the photovoltaic power generation panel apparatus of this invention, (B) is the (A) part enlarged view of (A), (C) is Y2-Y2 arrow enlarged view of (A). Sectional drawing, (D) is a perspective view of a connection coupler. (A) is a top view of the state which connected nine photovoltaic power generation panel apparatuses in parallel, (B) is the schematic diagram made into the equivalent state of (A). It is the schematic of the state which assembled many photovoltaic power generation panel apparatuses of this invention, and was attached to the side part of the bridge. (A) is a perspective view of a photovoltaic power generation panel device of another embodiment of the present invention, (B) is a plan view of a state where the photovoltaic power generation panel devices of (A) are connected to each other via a joint, C) is a perspective view of the joint. (A) is a perspective view of the concrete frame body of another embodiment of this invention, (B) is a Y3-Y3 arrow expanded sectional view of (A).

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. As shown in FIGS. 1 and 2, the present invention includes a concrete frame A in which a housing recess 2 is formed in a frame body 1 and reinforcing fibers are included, and a photovoltaic power generation panel that is housed in the housing recess. B. The frame body 1 is formed as a block plate having a planar shape with a rectangular shape such as a rectangle or a square, and having an appropriate thickness.

As the frame body 1 of the concrete frame A, a lightweight concrete including reinforcing fibers is used. Specifically, the reinforcing fibers are cellulose fibers, and various other reinforcing fibers such as glass fibers may be used. The blend uses wood cellulose fiber and high-performance AE water reducing agent to prevent cracking and improve fillability, and to make high-strength and highly durable concrete, so it has an extremely low water cement ratio (W / C = 33% or less). Lightweight concrete is used. Further, as a reinforcement of the concrete frame A, a metal member for a high corrosion resistance reinforcing material and a conductive material (reinforcing material for reinforced concrete corrosion prevention work) is used.

  As an example of the shape of the frame body 1, the horizontal dimension and the vertical dimension are about 300 mm and the thickness is 25 mm. Actually, the horizontal dimension, the vertical dimension, the thickness, and the like are appropriately changed according to the situation in which the present invention is specified. The frame body 1 is formed with a storage recess 2 that is a rectangular or square rectangular space [see FIG. 2 (A)].

  A solar power generation panel B described later is disposed and stored in the storage recess 2. The storage recess 2 includes four inner peripheral side surfaces 2a and a bottom surface 2b of the frame body 1, and the four outer peripheral surfaces of the frame main body 1 include both lateral outer peripheral surfaces 1a, 1a and both vertical outer peripheral surfaces 1b, 1b. The horizontal outer peripheral surfaces 1a, 1a and the vertical outer peripheral surfaces 1b, 1b may be seen in the opposite directions depending on how they are viewed.

  Reference numeral 3 denotes two reinforcing / conducting materials, which are embedded in the concrete frame A. Two reinforcing and conducting materials 3 and 3 are embedded along the horizontal outer peripheral surface or the vertical outer peripheral surface. Specifically, it is embedded in the concrete frame A and at a lower position of the storage recess 2. This is because when the concrete frame A is molded, it is made into a core and is loaded with reinforcing and conducting materials 3 and 3 as conductive metal materials in advance, and the concrete material is filled through the formwork etc. It is cured and molded.

  At this time, the ends 3 a and 3 a of the reinforcing and conducting materials 3 and 3 embedded in the concrete frame A are configured to be exposed at the end recesses 4 and 4 of the concrete frame A. The lengths of the reinforcing and conducting materials 3 and 3 are configured to be equal to the length of the lateral outer peripheral surface 1a or the vertical outer peripheral surface 1b of the concrete frame A.

  Intermediate portions 3b and 3b of the reinforcing and conducting materials 3 and 3 are exposed in a partial recess 5 formed on the bottom surface 2b of the storage recess 2 of the concrete frame A. The reinforcing / conducting material 3 is a metal member having electrical conductivity, and is made of iron or copper. The positive and negative connector portions 7A and 7B of the photovoltaic power generation panel B are connected. These connection terminals are the connector portions 7A and 7B having a grip shape, but there are cases where the connection terminals are connected only by contact as other means.

  A heat insulating material is interposed between the bottom surface 2b of the housing recess 2 of the concrete frame A and the photovoltaic power generation panel B as necessary. Further, a filler such as a sealing material is filled in a gap between the outer periphery of the photovoltaic power generation panel B and the inner side surface 2a of the housing recess 2 to ensure water tightness. In particular, the reinforcing and conducting material 3 has electric conductivity and also serves to reinforce the concrete frame A. That is, the reinforcing and conducting material 3 may be metallic or non-metallic as long as it is a material having good conductivity and has a role capable of reinforcing. Thus, the photovoltaic power generation panel apparatus as a panel is comprised.

  In the figure, reference numeral 8 denotes a connection coupler, which is a member for connecting the reinforcing and conducting materials 3 and 3 of the photovoltaic power generation panel devices to each other. The connecting coupler 8 includes a connecting portion 8a having an inverted U-shaped cross section, a rising piece 8b integrally formed at the upper end of the connecting portion 8a, and a knob portion 8c provided at the upper end of the rising piece 8b. Yes. The connecting portion 8a is made of a material having good conductivity, and is made of the same material as the reinforcing and conducting material 3. The rising piece 8b and the knob portion 8c are made of synthetic resin. The lower end of the rising piece 8b and the connecting portion 8a are fixed with screws or the like [see FIG. 4C].

  Next, construction on site will be described. First, the reinforcing and conducting materials 3 and 3 are arranged so as to be connected to each other via the connection coupler 8. The eight connecting couplers may be filled with a sealing material or the like. That is, as shown in FIG. 5 (A), the upper side and the lower side of each photovoltaic power generation panel device have different poles. Therefore, in FIG. The same polarity (plus or minus) is connected to each other. In the upper and lower stages, the same polarity is connected to each other by wirings C1 and C2, and the end thereof is connected to a load resistor R such as a light bulb. The connection state in FIG. 5A is configured as a parallel connection in the equivalent circuit form of FIG. In particular, there is an advantage that it can withstand long-term use with a low voltage.

  In particular, the photovoltaic power generation panel device of the present invention is also made of concrete and is excellent in durability. Therefore, as shown in FIG. It is installed through a mortar mounting type. Further, in the present invention, the presence of the cellulose fiber inside the concrete frame can avoid cracking and the like, and can provide a strong photovoltaic power generation panel device, which can be lightened, and can be easily transported and handled.

  The photovoltaic power generation panel apparatus shown in FIG. 7A is another embodiment, and is a type in which the concrete frames A and A are connected to each other through a joint 9. Specifically, deformed T-shaped grooves 6, 6 are formed on the lateral outer peripheral surface 1 a of the concrete frame A in the direction orthogonal to the reinforcing and conducting material 3. An I-shaped joint 9 made of hard synthetic resin is attached to the opposing deformed T-shaped grooves 6 and 6 (see FIGS. 7A to 7C). The joint 9 can be connected only by mounting.

  Moreover, the photovoltaic power generation panel apparatus shown to FIG. 8 (A) is another embodiment, and is the type which increased the strength especially. In this case, the second reinforcing material 3 </ b> A is embedded while being bent, for example, in a direction perpendicular to the reinforcing and conducting material 3. In this type, the deformed T-shaped groove 6 is not formed, but the deformed T-shaped groove 6 may be provided.

A ... Concrete frame, B ... Solar power generation panel, 2 ... Storage recess, 1a ... Lateral outer peripheral surface,
1b ... Vertical outer peripheral surface, 3 ... Reinforcing and conducting material, 3a ... End, 4 ... End recess, 5 ... Partial recess,
7A, 7B ... connector, 8 ... connecting coupler, 9 ... joint.

Claims (5)

  A concrete frame having a storage recess formed in the center and containing reinforcing fibers, and a photovoltaic power generation panel stored in the storage recess, the concrete frame having the concrete frame Two reinforcing / conducting materials are embedded along the lateral outer peripheral surface or the vertical outer peripheral surface of the solar cell, and each of the reinforcing / conducting materials is connected to a positive electrode and a negative electrode of the photovoltaic power generation panel. The length of the cum conducting material is configured to match the width of the lateral outer circumferential surface or the longitudinal outer circumferential surface of the concrete frame, and both end portions of the reinforcing and conducting material are arranged at the longitudinal outer circumferential surface or the lateral side of the concrete frame. It is provided so that it may be exposed in the edge part recessed part location formed in the outer peripheral surface location, The solar power generation panel apparatus characterized by the above-mentioned.   2. The intermediate portion of the reinforcing and conducting material according to claim 1, wherein the intermediate portion of the reinforcing and conducting material is exposed in a partial recess on the lower surface of the storage recess of the concrete frame, and the positive and negative electrodes of the photovoltaic power generation panel are formed in the exposed intermediate portion. A photovoltaic power generation panel device comprising a connector portion connected thereto.   In Claim 1 or 2, the connection coupler which latches suitably with the both ends of the said reinforcement | strengthening / conduction material suitably the edge part which the said reinforcement | strengthening / conduction material of an adjacent photovoltaic power generation panel apparatus opposes is comprised detachably. A photovoltaic power generation panel device. 4. The photovoltaic power generation panel device according to claim 1, wherein the concrete frames are configured to be freely coupled to each other through a joint made of hard synthetic resin. 5.   5. The photovoltaic panel device according to claim 1, wherein the reinforcing fibers in the concrete frame are cellulose fibers. 6.

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