CN2434618Y - Solar utilizing device - Google Patents

Abstract

The utility model discloses a solar energy utilizing device. The utility model is characterized in that the focusing point of a solar energy light collecting plate (1) is provided with a heat receiver (2); the output end of the heat receiver (2) is connected with an input port (31) of a heat preservation container (3) through a conduit pipe (6); an output port (32) of the heat preservation container is connected with a heat transfer disc (4) by the conduit pipe (6); the output end of the heat transfer disc (4) is connected with the input end of the heat receiver (2) by a circulating pump (5); the inner part of the conduit pipe (6) is provided with liquid heat conducting medium. The utility model can collect energy outdoors, and carry out cooking and heating indoors.

Description

Helioplant

The utility model relates to a kind of indoor solar use device.

The solar cooker that uses is directly to place cooker in focusing place that is arranged at outdoor solar energy condensation board at present, utilizes solar energy to carry out cooking, therefore can only be in outdoor application.

It is a kind of at outdoor collecting energy, at the indoor helioplant that uses that the purpose of this utility model is to provide.

For achieving the above object, the technical solution adopted in the utility model is, focusing place at solar energy condensation board is provided with thermoreceptor, the output of thermoreceptor links to each other with the input port of cool-bag by conduit, the delivery outlet of cool-bag links to each other by the input of conduit with the heat transfer dish, be connected with circulating pump between the output of heat transfer dish and the input of thermoreceptor, liquid thermal conductivity media is housed in the conduit.

As a kind of improvement of the present utility model, cool-bag is to be the interlayer container of vacuum between the two layers of walls, and the heat-insulation layer that this interlayer container enclosure has insulation material to make is provided with input port and delivery outlet in the cool-bag bottom, be provided with output channel in cool-bag, delivery outlet links to each other with output channel.

As another kind of improvement the of the present utility model, in cool-bag, be provided with electric heater.

Adopt the utility model helioplant, can be located at solar energy condensation board and thermoreceptor outdoor, cool-bag and heat transmitter are arranged on indoor, liquid thermal conductivity media in the thermoreceptor, flash back the sunlight by solar energy condensation board and to be heated, liquid thermal conductivity media after being heated is stored in the cool-bag, flow into the conduit that heat transfer dish inner disc has when needing, heat release when heat-conducting medium passes through, cooker such as pot, kettle etc. on the heat transfer dish are heated, reach indoor cooking purpose, the heat-conducting medium after the heat release is got back to thermoreceptor by circulating pump again, thereby realizes cycling; Be provided with electric heater in addition in cool-bag, owing to the sunlight deficiency, the heat-conducting medium of thermoreceptor does not reach the cooking temperature when the cloudy day, at this moment needs the heat-conducting medium in the electric heater heating and thermal insulating container, thereby reaches the cooking temperature.

Below in conjunction with the drawings and the specific embodiments the utility model is elaborated.

Fig. 1 is the structural representation of the utility model helioplant.

Fig. 2 is the front view of cool-bag of the present utility model shown in Figure 1.

Fig. 3 be cool-bag of the present utility model shown in Figure 2 along A-A to view.

Fig. 4 is the front view of heat transmitter of the present utility model shown in Figure 1.

Fig. 5 is the vertical view of heat transmitter of the present utility model shown in Figure 4.

Fig. 6 is that heat transmitter B-B of the present utility model shown in Figure 4 is to view.

Fig. 7 is the front view of heat transmitter of the present utility model shown in Figure 1.

Fig. 8 is the vertical view of heat transmitter of the present utility model shown in Figure 7.

Fig. 9 is that heat transmitter C-C of the present utility model shown in Figure 7 is to view.

As shown in Figure 1, the utility model helioplant, solar panel 1 is a regular solar solar panel 1, can adopt the existing solar energy condensation board 1 that the sun moves of following, establish thermoreceptor 2 in focusing place of solar panel 1, thermoreceptor 2 can be the container of plate-like band cavity, also can be the spiral copper pipe, the conduit 6 that the output of thermoreceptor 2 is made by copper pipe links to each other with cool-bag 3 inputs 31, before the input of cool-bag, be provided with medium inlet 7, as Fig. 2, shown in Figure 3, cool-bag 3 is an interlayer container 33, be evacuated between the two layers of walls, to increase heat insulation effect, for further improving heat insulation effect, be covered with the heat-insulation layer 34 that insulation material is made in the periphery of cool-bag 3, heat-insulation layer 34 can be two-layer, one deck is a vermiculite heat-insulation layer 341, another layer is an insulating foam layer 342, in order to guarantee that heat-conducting medium has enough temperature in the cool-bag 3 when the cloudy day, be provided with electric heater 36 and carry out temperature-compensating in cool-bag 3 in addition, electric heater 36 can adopt common resistance wire electric heater, cool-bag 3 is stretched out at electric heater 36 two ends, communicates with power supply.In cool-bag 3 bottoms input port 31 and delivery outlet 32 are set, are provided with vertically disposed output channel 35 mutually with delivery outlet 32, medium flows to cool-bag by the input port, through the output channel 35 that enters suitable for reading of output channel 35, flows out cool-bag from delivery outlet again.The output 32 of cool-bag 3 links to each other with heat transmitter 4 by the copper conduit, as Fig. 4, shown in 7, heat transmitter 4 is a brass discs, the dish inner disc has conduit 6, the two ends of conduit 6 are respectively the input of medium, output, when heat-conducting medium passes through, fully heat release, make the pot that is placed on the heat transmitter 4, cooker heating such as kettle, reach the purpose of cooking, for making full use of heat energy, the upper surface of heat transmitter 4 can be made and the corresponding shape of various cooker form of pot bottom, as can be convex, as Fig. 7,8, shown in 9, be convenient to boiling usefulness, also can be concavity, as Fig. 4,5, shown in 6, be convenient to cook stir-fry.In addition, the cover of the upper end open that can make at insulation material of outer shroud of heat transfer dish surrounds the cooker on heat transfer dish and the heat transfer dish, in order to improve heat utilization efficiency.The output of heat transmitter 4 links to each other with the input of thermoreceptor 2 by conduit 6, and the conduit 6 between the two is provided with circulating pump 5, makes medium circulation.In addition, also can establish a water tank 8 between heat transmitter 4 outputs and thermoreceptor input, conduit is heated the water of 8 li in water tank by water tank 8, for living, drink and warming oneself.The high temperature mixed type liquid thermal conductivity media of selling on the heated medium available markets that the utility model uses.

Claims (6)

1, a kind of helioplant, it is characterized in that: focusing place at solar energy condensation board (1) is provided with thermoreceptor (2), the output of thermoreceptor (2) links to each other with the input port (31) of cool-bag (3) by conduit (6), the delivery outlet (32) of cool-bag (3) links to each other with the input of heat transfer dish (4) by conduit (6), be connected with circulating pump (5) between the input of the output of heat transfer dish (4) and thermoreceptor (2), described conduit is equipped with liquid thermal conductivity media in (6).

2, helioplant according to claim 1, it is characterized in that: described cool-bag (3) is the interlayer container (33) that is all vacuum of two layers of walls, this interlayer container (33) is covered with the heat-insulation layer (34) that insulation material is made, be provided with input port (31) and delivery outlet (32) in cool-bag (3) bottom, be provided with output channel (35) in cool-bag (3), described delivery outlet (32) links to each other with output channel (35).

3, helioplant according to claim 1 is characterized in that: described heat-insulation layer (34) is for two-layer, and one deck is vermiculite heat-insulation layer (341), and another layer is insulating foam layer (342).

4, according to each described helioplant in the claim 1,2,3, it is characterized in that: in cool-bag (3), be provided with electric heater (36).

5, according to each described helioplant in the claim 1,2,3, it is characterized in that: described heat transmitter (4) is last convex disk, and heat transmitter (4) inner disc has conduit (6).

6, according to each described helioplant in the claim 1,2,3, it is characterized in that: described heat transmitter (4) is last concavity disk, and heat transmitter (4) inner disc has conduit (7).

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