CN201373518Y - Electronic cooling-heating air conditioner using solar cell to provide power - Google Patents

Abstract

The utility model relates to an electronic cooling-heating air conditioner using solar cell to provide power. Solar cells are installed on the window, or the outdoor wall and the roof. A power supply transfer switch is installed on a power line. A semiconductor freezer and an accumulator are installed in the room. One end of the semiconductor freezer is provided with a cooling air storing device, and the other end is provided with a radiator. The power supply of the semiconductor freezer is provided by the solar cells in daytime and by the accumulator at night. The cooling or heating can be realized just by adjusting the power supply transfer switch and changing the current direction.

Description

Utilize the electronic type air conditioner of solar cell for supplying power

Affiliated technical field

The utility model relates to a kind of electronic type air conditioner that utilizes solar cell for supplying power, and it is fit to people and uses when summer or winter regulating temperature in the room.

Background technology

At present, the employed air-conditioner of people mostly is the mechanical compression type air-conditioner, and it uses the 220V alternating current, and volume is big, and power consumption is big, and long-term use meeting impacts environment.

Summary of the invention

For overcoming under the existing situation, use mechanical compression type air-conditioner volume big, power consumption is big, the deficiency that long-term use meeting impacts environment, the utility model provides a kind of electronic type air conditioner that utilizes solar cell for supplying power, and not only volume is little for it, and power saving, energy savings.

The technical scheme that its technical problem that solves the utility model adopts is: on window, perhaps on the outdoor wall and roof, solar cell is installed, transfer switch is installed on power line, semiconductor cooler and battery are installed in the room, end at semiconductor cooler is installed cool storage container, the other end is installed radiator, daytime, semiconductor cooler was by solar cell for supplying power, evening is then by storage battery power supply, if want to freeze or heat, as long as regulate transfer switch, the conversion sense of current gets final product.

The beneficial effects of the utility model are can reduce power consumption, energy savings.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is that position of the present utility model concerns structural map.

Fig. 2 is the vertical view of cool storage container.

Fig. 3 is the vertical view of semiconductor cooler

Fig. 4 is the radiator top plan view.

Fig. 5 is a circuit connection diagram of the present utility model.

1. power lines among the figure, 2. cool storage container, 3. semiconductor cooler, 4. radiator, 5. base, 6. solar cell, 7. transfer switch, 8. window, 9. fin, 10. radiator base.

The specific embodiment

In Fig. 1, solar cell (6) is installed on the window (8), also can be installed on the outdoor wall or on the roof, it provides power supply by power line (1) to semiconductor cooler (3), also be connected to transfer switch (7) on the power line (1), an end of semiconductor cooler (3) is equipped with cool storage container (2), and the other end is equipped with radiator (4), it has radiator base (10) and fin (9) to form, and base (5) is installed below it.Opening power change-over switch (7), semiconductor cooler (3) is promptly started working, it passes to cool storage container (2) to the cold that produces, pass through cool storage container (2) again to external diffusion, after a while, the temperature in the room will descend, if allow semiconductor cooler (3) heat in winter, as long as by transfer switch (7), change the polarity of power supply, can reach the effect that heats.

In Fig. 2, cool storage container (2) is a metal derby that is square, and the cold that it can make semiconductor cooler (3) produce disperses away equably.

In Fig. 3, the surface of semiconductor cooler (3) is square, and there is power line (1) on both sides.

In Fig. 4, radiator base (10) is arranged above the radiator (4), fin (9) is arranged above the radiator base (10), it can make the heat of the hot junction generation of semiconductor cooler (3) distribute rapidly, thereby guarantees that semiconductor cooler (3) can operate as normal.

In Fig. 5, solar cell 2DR has change-over switch K to semiconductor cooler WCA08-127 power supply in the circuit, and when not having the sun, battery E just can power to semiconductor cooler.

Claims (2)

1. electronic type air conditioner that utilizes solar cell for supplying power, it is characterized in that: transfer switch is installed on the power line, semiconductor cooler and battery are installed in the room, and an end of semiconductor cooler is installed cool storage container, and the other end is installed radiator.

2. the electronic type air conditioner that utilizes solar cell for supplying power according to claim 1, it is characterized in that: solar cell is installed on the window, on the outdoor wall and the roof.

Images