CN204578406U - Semiconductor temperature differential generating equipment - Google Patents

Abstract

Semiconductor thermoelectric power generation equipment belongs to the field of power generation equipment, including hot water tanks, condensers, semiconductor power generation chips, converters, transformers, batteries, controllers, electrical equipment and cold water tanks, and cold water is installed on one side of the semiconductor power generation chips A hot water tank is installed on the other side, and a condenser is installed in the hot water tank. The semiconductor power generation sheet is connected to the converter through wires, the converter is connected to the transformer through wires, and the transformer is connected to the battery through wires. The battery is sequentially connected with a controller and electrical equipment; the condenser is connected with the air-conditioning refrigerator; the electrical equipment is lighting equipment; the utility model has the advantages that it can generate electricity as long as there is a temperature difference, and there is no noise during operation , pollution-free, service life of more than ten years, maintenance-free, so it is a widely used portable power supply.

Description

Semiconductor thermoelectric power generation equipment

technical field

The utility model relates to semiconductor temperature difference power generation equipment, which belongs to the field of power generation equipment.

Background technique

With the rapid development of science and technology, the consumption of energy is also increasing, and people have also realized the importance of energy saving, especially how to realize clean energy generation is particularly important, which is currently an urgent problem to be solved.

Contents of the invention

The purpose of the utility model is to provide semiconductor thermoelectric power generation equipment.

The problem to be solved by the utility model is the shortage of energy consumption required for existing power generation.

For realizing the purpose of the utility model, the technical scheme that the utility model adopts is:

Semiconductor thermoelectric power generation equipment, including hot water tanks, condensers, semiconductor power generation chips, converters, transformers, batteries, controllers, electrical equipment and cold water tanks, one side of the semiconductor power generation chips is equipped with a cold water tank, and the other side A hot water tank is installed, and a condenser is installed in the hot water tank. The semiconductor power generation sheet is connected to the converter through wires, the converter is connected to the transformer through wires, the transformer is connected to the battery through wires, and the battery is connected in turn with Controllers, electrical equipment.

The condenser is connected with the air conditioner refrigerator.

The electrical equipment is lighting equipment.

The utility model has the advantages that it can generate electricity as long as there is a temperature difference, has no noise and pollution during operation, has a service life of more than ten years, and is maintenance-free, so it is a portable power supply with wide application.

Description of drawings

Fig. 1 is the perspective view of the utility model semiconductor thermoelectric power generation equipment;

In the figure: 1. Hot water tank 2. Condenser 3. Semiconductor power generation sheet 4. Converter 5. Transformer 6. Battery 7. Controller 8. Electrical equipment 9. Cold water tank.

Detailed ways

Below in conjunction with accompanying drawing and embodiment the utility model is described further.

Semiconductor thermoelectric power generation equipment, including a hot water tank 1, a condenser 2, a semiconductor power generation chip 3, a converter 4, a transformer 5, a storage battery 6, a controller 7, electrical equipment 8 and a cold water tank 9, and the semiconductor power generation chip 3 A cold water tank 9 is installed on one side, and a hot water tank 1 is installed on the other side to realize temperature difference power generation; the hot water tank 1 is equipped with a condenser 2, which is generally an evaporator in an air-conditioning refrigerator to provide heat energy, and a semiconductor power generation chip 3 is connected to the converter 4 through wires, the converter 4 is connected to the transformer 5 through wires, and the transformer 5 is connected to the battery 6 through wires to realize energy storage. The device 8 realizes the control of the electrical equipment.

The condenser 2 is connected with an air-conditioning refrigerator to realize utilization of waste heat.

The electrical device 8 is a lighting device.

This scheme adopts the principle of semiconductor temperature difference power generation (a temperature difference is set at both ends of two semiconductors with different properties, so that a DC voltage is generated at both ends of the semiconductor), and the heat generated by refrigeration equipment such as refrigerators and air conditioners is recovered and collected. The specific operation method is: put the condenser 2 in the water tank, so that the water tank is in a stable medium and high temperature environment, tightly attach the semiconductor thermoelectric power generation piece on one side of the water tank, and install the semiconductor thermoelectric power generation piece on the other side of the water tank. A low-temperature water tank, so that there will be a temperature difference between the two ends of the semiconductor power generation chip 3, and the semiconductor thermoelectric power generation chip can generate a DC voltage through the temperature difference, and pass the current through the converter 4 to convert the DC power into an AC power, and then pass the AC power through Transformer 5 is converted into high-voltage alternating current, which is stored in the storage battery. The electricity in the storage battery can continue to supply power to refrigeration equipment such as refrigerators and air conditioners in the event of a power outage, reducing economic losses caused by power outages. Thermoelectric semiconductor power generation has the characteristics of no noise, long life and stable performance. It can start quickly in a cold environment of minus 40 degrees Celsius, so it has been more and more widely used in practice. Thermoelectric power generation is a new type of power generation method that uses the Seibel effect to directly convert heat energy into electrical energy.

The usage method of the utility model: the heat in the condenser 2 is continuously released to the hot water tank 1, and the two sides of the semiconductor power generation sheet 3 realize a large temperature difference, thereby generating electric energy, which is stored in the storage battery 6 through the converter 4 and the transformer 5, When in use, the controller 7 can be used to share with the electrical equipment 8, which realizes the clean utilization of energy.

Claims (3)

1. semiconductor temperature differential generating equipment, comprise boiler (1), condenser (2), semiconductor generating sheet (3), current transformer (4), transformer (5), storage battery (6), controller (7), power consumption equipment (8) and cold water storage cistern (9), it is characterized in that: described semiconductor generating sheet (3) side is provided with cold water storage cistern (9), opposite side is provided with boiler (1), condenser (2) is provided with in boiler (1), semiconductor generating sheet (3) is connected with current transformer (4) by wire, current transformer (4) is connected with transformer (5) by wire, transformer (5) is connected with storage battery (6) by wire, storage battery (6) is connected with controller (7) in turn, power consumption equipment (8).

2. semiconductor temperature differential generating equipment according to claim 1, is characterized in that: described condenser (2) is connected with air-conditioning refrigerator.

3. semiconductor temperature differential generating equipment according to claim 1, is characterized in that: described power consumption equipment (8) is lighting apparatus.