JP2006203226A - Solar cell apparatus and hydroponics apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solar apparatus and hydroponics apparatus with adequate strength and weatherability capable of effectively utilizing electric power. <P>SOLUTION: This solar cell apparatus consists of an almost plate-shaped solar cell, installation base where the solar cell is mounted, control section that integrates a secondary battery and control circuit for storing power from the solar cell to make it available as power supply, and power cord to supply output from the solar cell to the control section. Meanwhile, this hydroponics apparatus consists of an air pump that operates using power from the solar cell, and power cord to supply the output from the solar cell to the air pump. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a solar cell device and a hydroponic cultivation device.

As shown in Japanese Patent Application Laid-Open No. 59-198776, a conventional solar cell device is composed of a substantially plate-like solar cell and a frame having a locking portion for locking the outer periphery of the solar cell. In addition, a structure in which a gel-like resin material is injected and dried and cured in order to prevent water and dust from accumulating in the engaging portion and to absorb an impact caused by an external force is disclosed.
JP 59-198776 A

  An object of the present invention is to provide a solar cell device and a hydroponic cultivation device that have good strength and weather resistance and can effectively use electric power.

  The present invention includes, firstly, a substantially plate-like solar cell, an installation base on which the solar cell is provided, a secondary battery for storing electric power from the solar cell and using it as a power source, and a control unit incorporating a control circuit And a subject is solved by comprising a solar cell apparatus by the power cord which supplies the output from the said solar cell to the said control part.

  Secondly, a sensor unit for detecting a moving object is further provided, and the control unit solves the problem by inputting a detection signal generated when the sensor unit detects the moving object.

  Thirdly, the control unit to which the sensing signal is input solves the problem of lighting the light.

  Fourth, a substantially plate-like solar cell, an installation base on which the solar cell is provided, an air pump that operates with electric power from the solar cell, and a power cord that supplies output from the solar cell to the air pump The problem is solved by configuring a hydroponic cultivation apparatus.

  Fifth, the installation base can change the angle of the light receiving surface of the solar cell, and solves the problem by configuring the solar cell device.

  6thly, the said installation stand can change the angle of the light-receiving surface of the said solar cell, and solves a subject by comprising a hydroponic cultivation apparatus.

  By adopting the secondary battery, the power of the solar battery can be effectively utilized during sunlight or at night.

  In addition, weather resistance can be further improved by providing a means for preventing moisture from entering.

  Hereinafter, a first embodiment of the present invention will be described with reference to FIG. Reference numeral 1 denotes a rectangular plate-shaped solar cell, for example, a transparent conductive layer, an amorphous silicon layer, and a back electrode layer are laminated on a glass substrate, and an epoxy, A protective film made of a resin such as phenol, and a protective film made of polyethylene terephthalate (PET), a fluororesin material, etc. are laminated on the protective film through an adhesive layer made of a thermoplastic resin. ing.

  Reference numeral 2 denotes a ring-shaped elastic body that is smaller than the outer peripheral size of the solar cell 1 and is fitted to the outer peripheral portion of the solar cell 1 without applying a tensile force. Here, the elastic body 2 is made of soft vinyl chloride, and is 1.0 to 5.0% smaller than the outer peripheral dimension of the solar cell without applying a tensile force. Specifically, when the solar cell 1 is 150 × 165 × t2.1 mm, the inner dimension of the elastic body 2 (a state in which no tensile force is applied) of the portion where the solar cell 1 is inscribed is 148 × 160 × t2.0 mm. I used something. At this time, the thickness of the elastic body 2 was 1.5 mm.

  Moreover, in order to attach the elastic body 2 to the solar cell 1, it can be easily attached only by fitting the outer periphery of the solar cell 2 while stretching the elastic body 2.

  Next, a second embodiment of the present invention will be described with reference to FIG. A present Example consists of the solar cell 1 and the elastic body 20, and the solar cell 1 is the same as a 1st Example. The elastic body 20 includes a ring portion 21 fitted to the outer peripheral portion of the solar cell 1 smaller than the outer peripheral size of the solar cell 1 without applying a tensile force, and the ring portion 21 on the back side of the light receiving surface of the solar cell 1. It consists of the sheet | seat part 22 to have.

  And in order to attach the elastic body 20 to the solar cell 1, it can attach easily only by fitting here to the outer peripheral part of the solar cell 2, extending the ring part 21 of the elastic body 20. FIG. In the present embodiment, a stand for installing the solar cell device in an inclined state can be directly attached to the back side of the elastic body 20.

  Here, the feature of the second embodiment is that the sheet portion 22 of the elastic body 20 is also present on the back side of the solar cell 1, so that it is resistant to impact from the back side and has no moisture ingress from the back side, and is weather resistant. Is a high point.

  Next, an example in which the solar cell device of the second embodiment is used by being attached to an installation stand will be described with reference to FIG. In the figure, reference numeral 30 denotes a pedestal portion which is provided with a column 31 on the upper surface thereof. In addition, a spherical portion (not shown) is provided at the tip of the column 31 in order to form a free joint.

  Reference numeral 40 denotes an outer frame made of a plastic material that is in close contact with the front surface and the outer peripheral surface of the ring portion 21 of the elastic body 20 and fits the ring portion 21. A recess 41 is formed on the entire inner periphery of the side surface. Reference numeral 42 denotes a back plate made of the same material as that of the outer frame 40, and the outer peripheral portion of the back plate 42 is press-fitted into the recess 41 and fitted. Reference numeral 45 denotes a joint portion extending from the lower side of the outer frame 40. The joint portion 45 has a spherical cavity (not shown) that engages the spherical portion at the tip of the column 31 inside the joint 45. Constitutes a free joint. Therefore, the angle of the solar cell 1 including the outer frame 40 can be freely changed from right to left and front and back, and adjustment can be made so that sunlight is incident on the light receiving surface of the solar cell 1 at a right angle. it can.

  Next, FIG. 4 shows a sensor light which is an application example using the installation table with solar cells of FIG. The sensor light includes an installation base 50 including the solar cell 1, a main body 51, and a power cord 52 that supplies an output from the solar cell 1 to the main body 51. In the main body 51, 53 is a light, 54 is an infrared sensor that senses a moving object such as a human being or a car, and 55 has a built-in secondary battery and a control circuit for storing power from the solar cell 1 and using it as a nighttime power source. It is a control part to do.

  The control unit 55 inputs a detection signal generated by the sensor unit 54 detecting a moving object at night, and turns on the light 53 for a predetermined time.

  Furthermore, the hydroponic cultivation apparatus which is an application example using the installation stand with a solar cell of FIG. 3 is shown in FIG. This hydroponic cultivation apparatus includes an installation table 50 including a solar cell 1, an air pump 61, a power cord 62 that supplies the output from the solar cell 1 to the air pump 61, a hydroponic cultivation container 63, and an air pump. It consists of a tube 64 that sends air from 61 to a hydroponic container 63. Here, in the hydroponics container 63, a culture solution in which nutrients are dissolved is put, and air is supplied from the tube 64. Therefore, oxygen can be dissolved in the cultivation liquid, and the cultivation liquid can be made to flow by the air so that the nutrients and oxygen in the cultivation liquid can be made uniform. Then, the root 66 of the plant 65 absorbs moisture, nutrients, and oxygen in the cultivation liquid, and the plant 65 grows efficiently. In particular, when a solar cell is used in a hydroponic cultivation apparatus, it is installed under sunlight in plant cultivation. Therefore, since the solar cell is also installed under sunlight, it is not necessary to separately provide a place for installing the solar cell. In addition, the plant grows greatly during sunshine, and oxygen in the culture solution is also needed.Therefore, the air pump is operated by the solar cell and air is supplied only during this sunshine. Available.

  As described above, the present invention is a ring-shaped ring having a cross-sectional shape that fits to the outer peripheral portion of the solar cell smaller than the outer peripheral size of the solar cell without applying a tensile force to the outer peripheral portion of the substantially plate-like solar cell. Since the elastic body having the portion is stretched and fitted, assembly work is easy.

  Moreover, since the ring-shaped part has fitted the outer peripheral part of the solar cell in the solar cell apparatus of this invention, a water | moisture content does not penetrate from this part, and its weather resistance is favorable. In addition, when a frame is attached to the outer peripheral portion of the solar cell device, an elastic body is disposed on the outer peripheral portion of the solar cell device, so that it is resistant to an impact caused by an external force.

It is a figure which shows 1st Example of the solar cell apparatus of this invention, (a) is a perspective view, (b) is AA 'sectional drawing in (a). It is a figure which shows 2nd Example of the solar cell apparatus of this invention, (a) is a perspective view, (b) is AA 'sectional drawing in (a). It is a figure which shows the installation stand using the solar cell apparatus of this invention, (a) is a perspective view, (b) is AA 'sectional drawing in (a). It is the schematic which shows the sensor light which is an application example using the solar cell apparatus of this invention. It is the schematic which shows the hydroponic cultivation apparatus which is an application example using the solar cell apparatus of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Solar cell 2, 20 Elastic body 21 Ring part 22 Sheet part

Claims (6)

A substantially plate-like solar cell;
An installation base for providing the solar cell;
A control unit that stores a secondary battery and a control circuit for storing power from the solar cell and using it as a power source;
A solar cell device comprising a power cord for supplying an output from the solar cell to the control unit.   The solar cell device according to claim 1, wherein a sensor unit for detecting a moving object is provided, and the control unit inputs a detection signal generated when the sensor unit detects the moving object.   The solar cell device according to claim 2, wherein the control unit to which the sensing signal is input turns on a light. A substantially plate-like solar cell;
An installation base for providing the solar cell;
An air pump that operates with electric power from the solar cell;
A hydroponic cultivation apparatus comprising a power cord for supplying an output from the solar cell to the air pump.   The solar cell device according to claim 1, wherein the installation base can change an angle of a light receiving surface of the solar cell. The hydroponic cultivation apparatus according to claim 4, wherein the installation table can change an angle of a light receiving surface of the solar cell.