KR20110097119A - The roller blind heating system which applies the photovoltaic system - Google Patents

Abstract

The present invention relates to a "roll blind heating system utilizing photovoltaic power generation" constructed by linking a planar heating element and a photovoltaic device to a roll blind.
Heating devices using existing roll blinds have a problem in that the electricity bill due to a separate power supply, installation is not used well.
"Roll blind heating system using photovoltaic power generation" according to the present invention has a merit that it can be used for a long time without burden of electricity bill because it supplies power to the photovoltaic power generation system, and effective heating is possible.
When using the "roll blind heating system using photovoltaic power generation" according to the present invention in many roll blinds nationwide, the advantage that can save a huge amount of energy and contribute to low carbon, green growth by using wasted solar energy sources In addition to having.
[ Index word ]
Roll blind, planar heating element, solar power generation

Description

“Roll blind heating system using solar power generation” {The roller blind heating system which applies the photovoltaic system}

The present invention relates to a new technology incorporating a technology related to an alternative energy system for producing electricity by using wasted solar energy and a heating technology for heating by applying a planar heating element to a roll blind.

Blinds are objects that hang on windows to block sunlight or look outside. It is made by connecting several narrow, long scaly skeletons in a row. The blind scales of the blinds can be moved in a row to block the sun as much as you want, or you can fold it up. Today, the blinds, which resemble cloth-made curtains, are widely used for decoration, called verticals.

Photovoltaic power generation refers to a technology that directly converts sunlight into electrical energy. It is a power generation method using solar cell that generates electricity by photoelectric effect when it receives sunlight.

The photovoltaic power generation system is composed of a module composed of solar cells, a storage battery and a power converter.

Solar cells (solar cells, solar batteries) are photovoltaic cells designed to convert solar energy into electrical energy. When solar light is irradiated on the contact surfaces of metals and semiconductors or the pn junctions of semiconductors, photovoltaic It is using the power generated. Selenium photovoltaic cells and copper sulfite photovoltaic cells are used as the contact between metals and semiconductors, and silicon photovoltaic cells used as solar cells are used as semiconductor pn junctions.

The solar cell is a semiconductor represented by silicon and was naturally developed by the development of semiconductor technology and semiconductor characteristics. The solar cell has a structure in which N (negative) type semiconductors having different electrical properties and P (positive) type semiconductors are bonded to each other, and two semiconductor boundary portions are called PN junctions. When sunlight hits the solar cell, the sunlight is absorbed into the solar cell, and holes (+) and electrons (electron) (electrons) in the semiconductor are absorbed by the energy of the absorbed sunlight. Particles (holes and electrons) having electricity of-) are generated and move freely in the solar cell, but electrons (-) are collected toward the N-type semiconductor, and holes (+) are collected toward the p-type semiconductor. For this reason, when a load such as a light bulb or a motor is connected to the electrodes formed on the front and rear surfaces, current flows. This is the principle of photovoltaic power generation by PN junction of solar cells.

The advantages of photovoltaic power generation are that there is no pollution, it can generate as much as necessary where it is needed, and it is easy to maintain. The advantages and disadvantages of photovoltaic summarized in Table 1 as follows.

Solar cells (solar cells) are classified into crystalline silicon, amorphous silicon, compound semiconductor, etc. according to materials. [ Figure 1 ] shows the types of solar cells.

[ Figure 1 ] Types of solar cells

Looking at the solar cell in more detail as follows.

Solar cells can be roughly divided into solar cells and solar cells. The device for generating steam required to rotate turbines using solar heat is solar thermal electricity, and the device for converting photons to electrical energy using the properties of semiconductors is photovoltaic solar. cells). The operating principle of the solar cell can be considered as the opposite of a light emitting diode (LED) or a laser diode (laser diode) that converts electrical energy into light energy. Solar energy technology has been steadily evolving, and some systems are now commercialized or in a hurry. Most common solar cells consist of large area p-n junction diodes. The basic requirement for solar cells for photovoltaic energy conversion is that the electrons must be asymmetrically present within the semiconductor structure. The n-type region has a large electron density and a small hole density, and the p-type region is the opposite. Therefore, in the thermal equilibrium, a diode composed of a junction of a p-type semiconductor and an n-type semiconductor has an imbalance of charge due to diffusion due to a concentration gradient of carriers, and thus an electric field is formed. Carrier diffusion no longer occurs. When this diode is applied with light above the band gap energy, which is the energy difference between the conduction band and valence band of the material, it receives this light energy and the electrons are excited by the conduction band in the valence band. (excite) At this time, the electrons excited by the conduction band can move freely, and holes are generated in the valence band where electrons escape. This excess carrier is called and these excess carriers are diffused by the difference in concentration in the conduction band or valence band. At this time, electrons excited in p-type semiconductor and holes made in n-type semiconductor are called minority carriers, and carriers in p-type or n-type semiconductors before bonding (p-type holes, n-type E) is called the majority carrier separately. At this time, the majority carriers are disturbed by the flow due to the energy barrier created by the electric field, but the electrons, the minority carriers of the p-type, can move toward the n-type. Due to the diffusion of minority carriers, charge neutrality inside the material is broken and a potential drop occurs. At this time, when the electromotive force generated at the anode terminal of the p-n junction diode is connected to an external circuit, it acts as a solar cell.

Solar cells are classified into 'crystalline solar cells' and 'amorphous solar cells' according to the classification criteria.

① Crystalline Silicon Cells

Silicon solar cells are largely divided into single crystal and polycrystalline materials, and are basically used in solar cells as p-n homojunctions. Single crystals are high quality materials with high purity and low crystal defect density, which can of course achieve high efficiency, but are expensive. Used to produce A battery using single crystal silicon has a record of about 24% when no condenser is used, and a battery using a condenser has an efficiency of more than 28%. The polycrystalline silicon battery was reported to have an efficiency of about 18%, and the limit of efficiency was predicted to be 35% for single crystals and 19% for polycrystals.

② Amorphous Silicon Cells

Amorphous silicon solar cells (a-Si) are the first commercially successful thin film solar cells. However, these solar cells are not yet as efficient as they have been expected since the 1980s. This is because a-Si degrades considerably intrinsic when subjected to light. The intrinsic degradation that occurs when irradiating light can be limited to about 20%. Therefore, how to develop the material processing technology and device design is the key to stabilizing the efficiency of a-Si. Devices that use multijunctions (allowing even thinner absorbing layers in the complex cell) and light trapping methods can produce solar cells with stable efficiencies. In this way, the efficiency of amorphous silicon solar cells is more than about 12%, and the module has a high efficiency of more than 10%.

Planar heating element literally means a material or device configured to generate heat on a plane. Existing heating using the nichrome wire is called a heating wire because it uses a straight form, while the planar heating element is called a planar heating element because the heat generating in the plane is generated.

There are many kinds of planar heating elements. To introduce a few of them, "using a metal thin plate, using a heat generating paint (carbon black), using a carbon fiber" and the like.

The planar heating elements which are used most recently are products using carbon black. Application of carbon black to films such as PET and PEN is a typical use case.

Compared with the conventional heating heating, the biggest advantage of the planar heating element is high thermal efficiency. Once the same energy is applied to the same space, the time to reach the target temperature is much shorter using the planar heating element. The reason is that, in comparison with the heat generation heating, the planar heating element has a large contact cross-sectional area with air per unit time, so that rapid heat transfer is possible, which leads to rapid heating.

The present invention relates to a new technology for applying the planar heating element to the roll blind and connected to the photovoltaic power generation system for effective heating in the winter room. If you use roll blind heating in your home, it's true that you won't be able to operate it because of the electricity bill. The main purpose of the solar power generation is not only to operate the heating system freely without the electric bill but also to use the wasted solar energy to contribute to low carbon green growth and to provide new technologies that help to protect the environment. .

The use of solar power can greatly contribute to environmental protection by saving resources wasted for power generation and reducing carbon dioxide generated by thermal power generation.

"Roll blind heating system using photovoltaic power generation" according to the present invention is largely composed of a photovoltaic power generation system and a planar heating element heating system. The photovoltaic power generation system consists of "solar cell, junction box, inverter, storage battery and monitoring system". The planar heating element heating system is characterized by being composed of a "power connection part, temperature control device part, timer device part, safety device part".

"Roll blind heating system using photovoltaic power generation" according to the present invention can be expected the following effects.

First, wasteful energy sources can be recycled. It is possible to recycle continuously wasted energy by utilizing solar energy.

Second, it has the advantages of simple structure and low manufacturing cost and convenient maintenance.

Third, winter heating can be effectively realized without worrying about electricity bills.

Fourth, the dual effect of energy saving and environmental protection is possible. When heating by connecting the photovoltaic system to the roll blind, it uses wasted solar energy and can continuously supply heat energy to the desired space without utilizing existing electric energy. In this case, even if the existing heating devices operate only a little, the heating system of the roll blind can maintain a sufficient heating temperature. As a result, the utilization rate of the existing heating devices is reduced. This results in energy savings and further reductions in carbon emissions. Therefore, if the country actively utilizes "roll blind heating system using solar power generation", two functions such as energy saving and environmental protection (carbon emission reduction) can be realized simultaneously.

"Roll blind heating system using photovoltaic power generation" according to the present invention is largely composed of "photovoltaic power generation system" and "planar heating element heating system". The photovoltaic power generation system consists of "solar cell, junction box, inverter, storage battery and monitoring system". The planar heating element heating system is characterized by being composed of a "power connection part, temperature control device part, timer device part, safety device part".

This will be described in detail below. The photovoltaic power generation system is composed of a solar cell, a junction box, an inverter, a storage battery, and a monitoring system. A solar cell is a device in which solar energy is incident to generate a current.

Solar cell is composed of one module by connecting several. The junction box is a device that collects the direct current (DC) power generated by the solar module and delivers it to the inverter.

An inverter is a device that converts a direct current (DC) produced by a solar cell into an alternating current (AC).

Batteries (battery) stores the electricity generated from the solar cells to perform the function that can be used where necessary when needed. Batteries can use products of various capacities and voltages as needed.

A monitoring system is a device that checks the status of the system and diagnoses failures and abnormalities.

The planar heating element heating system is composed of a "power connection part, temperature control device part, timer device part, safety device part", the power connection part is connected to the storage battery of the "photovoltaic power generation system" to receive power. The power connection part is equipped with a switch so that if you want to operate the planar heating element, turn on the switch and turn it off if you want to stop the operation of the planar heating element.

The temperature control unit is configured to set the desired temperature with the built-in controller.

The timer device unit is a device for adjusting the time to operate the planar heating element.

The safety device is equipped with a built-in temperature sensor to automatically shut off the power when overheating.

There are two ways to install the planar heating element in the roll blind.

First, the planar heating element is attached to the roll blind surface. The surface attached to the heating element is directed toward the space to be heated, and the power is supplied to the heating method.

The second method is to use a planar heating element coated on the roll blind surface. The planar heating element is surface-deposited and coated on the roll blind surface, so that the planar heating element is completely adhered to the roll blind. The planar heating element is coated on the roll blind surface, and the coated surface is directed toward the space to be heated, and power is supplied to the planar heating element to perform heating.

Claims (1)

It consists of "photovoltaic power generation system" and "planar heating element heating system", and the photovoltaic power generation system is composed of "solar cell, junction box, inverter, storage battery and monitoring system". , "Roll blind heating system using solar power generation", characterized in that the temperature control device, timer device, safety device ".