CN212720343U - Clean system for cooking - Google Patents

Abstract

The utility model discloses a clean system is used to cook, including a plurality of solar energy heat absorption pipe, connecting portion, bearing part and a plurality of spotlight portion, connecting portion are hollow structure, and are a plurality of the solar energy heat absorption pipe all communicates the one end of connecting portion, the other end of connecting portion with the bearing part communicates, the bearing part has accommodation space, the solar energy heat absorption pipe connecting portion with equal splendid attire has the aqueous solution in the accommodation space, and every solar energy heat absorption pipe corresponds and is provided with spotlight portion, spotlight portion be used for focusing the sunlight in on the solar energy heat absorption pipe. The cleaning system for cooking realizes cleaning cooking by means of renewable solar energy, and is simple in structure, convenient to use, low in cost, clean and pollution-free.

Description

Clean system for cooking

Technical Field

The utility model relates to a new forms of energy utilization technical field, more specifically relate to a clean system is used to cook.

Background

At present, the steam cooking is generally carried out by electricity or gas, such as steamed bread, cooked vegetables, steamed rice and the like. The energy-saving power generation system belongs to a project necessary for life, the time lasts for 1-2 hours each time, more electricity and gas are continuously needed, resources are limited, especially, thermal power or hydraulic power is generally adopted for power generation and is used as non-renewable energy, from the perspective of sustainable development, resource energy without renewable capacity is always limited, and especially, ecological loss caused by using thermal power is even irreparable. From the viewpoint of saving non-renewable energy, the problem can be solved by using renewable energy for cooking. Solar energy is an inexhaustible and clean renewable energy, and how to utilize solar energy to cook is the technical problem to be solved by the application.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a clean system is used in cooking realizes clean cooking with the help of solar energy, simple structure, convenient to use, cost are lower, and clean, pollution-free.

In order to realize the above-mentioned purpose, the utility model discloses a clean system is used to cook, including a plurality of solar energy heat absorption pipe, connecting portion, load-bearing part and a plurality of spotlight portion, connecting portion are hollow structure, and are a plurality of the solar energy heat absorption pipe all communicates the one end of connecting portion, the other end of connecting portion with the load-bearing part communicates, the load-bearing part has accommodation space, the solar energy heat absorption pipe connecting portion with equal splendid attire has aqueous solution in the accommodation space, and every solar energy heat absorption pipe correspondence is provided with spotlight portion, spotlight portion be used for with the sunlight focus in on the solar energy heat absorption pipe.

Compared with the prior art, the cleaning system for cooking comprises a plurality of solar heat absorption pipes, a connecting part, a bearing part and a plurality of light condensation parts, wherein each solar heat absorption pipe is correspondingly provided with the light condensation part which is used for focusing sunlight on the solar heat absorption pipes, thereby the solar heat absorption tube can absorb more solar energy, the heat energy conversion effect of the sunlight can be amplified, ten times, hundred times or even thousand times of energy can be converted into heat energy, thereby heating the water solution in the solar heat absorption pipe, leading the hot water to rise to the connecting part and the bearing part, leading the water with lower temperature in the connecting part and the bearing part to flow downwards into the solar heat absorption pipe, thereby heating the water solution in the whole system, positioning the cooking utensil in the hot water in the accommodating space, the hot water in the containing space provides heat to the cooking appliance, thereby realizing cooking. Therefore, the cleaning system for cooking realizes cleaning cooking by means of renewable solar energy, and has the advantages of simple structure, convenience in use and lower cost.

Preferably, the cleaning system for cooking further comprises a standby electric furnace for heating the carrying part.

Preferably, the light-gathering part is arranged to cover the solar heat-absorbing pipe, and a support frame is arranged between the light-gathering part and the solar heat-absorbing pipe.

Preferably, the cleaning system for cooking further comprises a light reflecting part, the light reflecting part is located right below the solar heat absorbing pipe and arranged on the back of the light condensing part, and the light reflecting part reflects sunlight to the solar heat absorbing pipe.

Preferably, the cleaning system for cooking further comprises a light-gathering part arranged right above the solar heat absorption pipe.

Preferably, the cleaning system for cooking further comprises a light reflecting portion, the light reflecting portion is located right below the solar heat absorbing pipe, and the light reflecting portion reflects sunlight to the solar heat absorbing pipe.

Preferably, a plurality of the solar heat absorbing pipes are connected end to form an S-shaped structure.

Preferably, one end of the connecting part connected with the solar heat absorption pipe is in a horn shape.

Preferably, the liquid level of the accommodating space is 1/5-1/2.

Preferably, the light-gathering part is of a convex lens structure or a concave lens structure.

Drawings

Fig. 1 is a schematic structural view of the cleaning system for cooking of the present invention.

Figure 2 is a partial cross-sectional view of the cooking cleaning system shown in figure 1.

Fig. 3 is a schematic structural view of another embodiment of the cleaning system for cooking of the present invention.

Fig. 4 is a schematic view of the cooking cleaning system of fig. 3 with the cooking utensils hidden.

Figure 5 is a partial cross-sectional view of the cooking cleaning system shown in figure 4.

Description of the symbols:

the cleaning system for cooking comprises a cleaning system 100 for cooking, a solar heat absorption pipe 10, a connecting part 20, a bearing part 30, an accommodating space 31, a light-gathering part 40, a support frame 50, a standby electric furnace 60, a light reflecting part 70, cooking utensils 80 and a collecting part 90.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 1-2, a cleaning system 100 for cooking includes a plurality of solar heat absorbing pipes 10, a connecting portion 20, a bearing portion 30 and a plurality of light-gathering portions 40, wherein the connecting portion 20 is a hollow structure, the plurality of solar heat absorbing pipes 10 are all communicated with one end of the connecting portion 20, the other end of the connecting portion 20 is communicated with the bearing portion 30, the bearing portion 30 has an accommodating space 31, aqueous solutions are respectively contained in the solar heat absorbing pipes 10, the connecting portion 20 and the accommodating space 31, each solar heat absorbing pipe 10 is correspondingly provided with a light-gathering portion 40, and the light-gathering portions 40 are used for focusing sunlight on the solar heat absorbing pipes 10. That is, the solar heat absorbing pipe 10 absorbs solar energy and performs thermal efficiency conversion with the aqueous solution in the solar heat absorbing pipe 10 to increase the temperature of the aqueous solution in the solar heat absorbing pipe 10, the light condensing part 40 can focus sunlight on the solar heat absorbing pipe 10, so that thermal efficiency conversion can be improved by tens of times or even hundreds of times to further increase the temperature of the aqueous solution, the aqueous solution with the temperature enters the accommodating space 31 along the connecting part 20 to realize the transfer of water temperature, so that the aqueous solution in the accommodating space 31 has a certain temperature, and heat can be improved for the cooking appliance 80 (refer to fig. 3), thereby performing cooking.

With continued reference to fig. 1-2, a plurality of solar heat absorption tubes 10 may be arranged in parallel or in series. When the plurality of solar heat absorbing pipes 10 are arranged in parallel, the plurality of solar heat absorbing pipes 10 are all communicated with one end of the connecting part 20, that is, the aqueous solution in the solar heat absorbing pipes 10 can flow to the connecting part 20. Further, the end of the connecting part 20 connected with the solar heat absorbing pipe 10 is in a horn shape, so that the hot water flowing out of the solar heat absorbing pipe 10 can be more effectively absorbed, and the hot water is efficiently conveyed to the bearing part 30 through the connecting part 20. When the plurality of solar heat absorption pipes 10 are arranged in series, the water inlets and the water outlets of the solar heat absorption pipes 10 are connected with the connecting part 20, preferably, the plurality of solar heat absorption pipes 10 are connected end to form an S-shaped structure, so that the heat absorption area is increased, and the structure is compact and attractive.

With continued reference to fig. 1-2, the connecting portion 20 is a hollow structure, and in one embodiment, a pipe is used, and preferably, a vacuum pipe is used. The carrying portion 30 can be made of plastic or metal. In order to allow for cooking even at night or in rainy weather, the cooking cleaning system 100 further includes a standby electric furnace 60 for heating the carrier part 30. That is, when the above-described situation or other situations occur to cause heat supply by solar energy to be impossible, the electric standby furnace 60 may be used to heat the carrying part 30 so that water in the carrying part 30 has a certain temperature to perform cooking. At this time, the carrying portion 30 is preferably made of a metal material, so as to facilitate heating. The cooking utensil 80 can be directly placed in the accommodating space 31 of the bearing part 30, and the cooking utensil 80 can be positioned in the accommodating space 31 of the bearing part 30 by using a tool such as a cushion and the like, so that the cooking utensil 80 is contacted with part of the aqueous solution, preferably, the liquid level of the accommodating space 31 is 1/5-1/2, when the liquid level of the accommodating space 31 is not lower than 1/5 of the accommodating space 31 and is not higher than 1/2 of the accommodating space 31, the use of the cooking utensil 80 is facilitated, and the cooking utensil 80 can be, but not limited to, a steamed bread utensil, a pot and the like. Furthermore, a collecting part 90 is provided between the connecting part 20 and the solar heat absorbing pipes 10, the solar heat absorbing pipes 10 are communicated with the collecting part 90, the connecting part 20 is communicated with the collecting part 90, and the plurality of solar heat absorbing pipes 10 are communicated with the connecting part 20 by means of the collecting part 90.

Referring to fig. 1-2, the light-gathering unit 40 is disposed to cover the solar heat-absorbing pipe 10, and a supporting frame 50 is disposed between the light-gathering unit 40 and the solar heat-absorbing pipe 10. That is, the light-gathering part 40 is a hollow cylindrical shape and is sleeved on the solar heat absorbing pipe 10 by the support frame 50. In this embodiment, sunlight can be focused on the solar heat absorbing pipe 10 by the light condensing portion 40 from various angles, and the photothermal conversion efficiency is improved. The light-collecting unit 40 of the present invention may be configured to focus sunlight on the solar heat absorbing pipe 10, and the specific arrangement is not limited thereto. Further, the cleaning system 100 for cooking further includes a light reflecting portion 70, the light reflecting portion 70 is located right below the solar heat absorbing pipe 10 and is disposed on the back of the light collecting portion 40, and the light reflecting portion 70 reflects sunlight to the solar heat absorbing pipe 10. That is, sunlight can be directly absorbed from the front, and some sunlight can be reflected and absorbed by the light reflecting section 70. Referring to fig. 3-5, in another embodiment, the light-collecting unit 40 is disposed right above the solar heat absorbing pipe 10, i.e. can receive the sunlight to the maximum. Further, the light condensing portion 40 has an elliptical shape. In this embodiment, the light reflecting portion 70 is located directly below the solar heat absorbing pipe 10, and the light reflecting portion 70 reflects sunlight to the solar heat absorbing pipe 10. The light-condensing portion 40 has a convex lens structure or a concave lens structure, and the distance from the light-condensing portion 40 to the solar heat absorbing pipe 10 can be set according to actual needs, which is not limited herein.

Compared with the prior art, the cleaning system 100 for cooking comprises a plurality of solar heat absorbing pipes 10, a connecting part 20, a bearing part 30 and a plurality of light-gathering parts 40, wherein each solar heat absorbing pipe 10 is correspondingly provided with the light-gathering part 40, the light-gathering parts 40 are used for focusing sunlight on the solar heat absorbing pipes 10, so that the solar heat absorbing pipes 10 can absorb more solar energy, the heat energy conversion effect of the sunlight can be amplified, ten-fold, hundred-fold or even thousand-fold energy is converted into heat energy, the water solution in the solar heat absorbing pipes 10 is heated, hot water rises to the connecting part 20 and the bearing part 30, water with lower temperature in the connecting part 20 and the bearing part 30 flows downwards into the solar heat absorbing pipes 10, the water solution in the whole system is heated, the cooking appliance 80 is positioned in the hot water in the accommodating space 31, and the hot water in the accommodating space 31 supplies heat to the cooking appliance 80, thereby realizing cooking. Therefore, the cleaning system 100 for cooking realizes cleaning cooking by means of renewable solar energy, and has the advantages of simple structure, convenience in use and lower cost.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. The utility model provides a clean system for cooking, its characterized in that includes a plurality of solar energy heat absorption pipes, connecting portion, load-bearing portion and a plurality of spotlight portion, connecting portion are hollow structure, and a plurality of solar energy heat absorption pipes all communicate the one end of connecting portion, the other end of connecting portion with load-bearing portion communicates, load-bearing portion has accommodation space, solar energy heat absorption pipe the connecting portion with all the splendid attire has aqueous solution in the accommodation space, every solar energy heat absorption pipe corresponds and is provided with spotlight portion, spotlight portion is used for focusing sunlight on solar energy heat absorption pipe.

2. The cooking cleaning system of claim 1, further comprising a backup furnace for heating the carrier.

3. The cooking cleaning system of claim 1, wherein the light-gathering unit is disposed to wrap around the solar heat absorbing pipe, and a support frame is disposed between the light-gathering unit and the solar heat absorbing pipe.

4. The cooking cleaning system of claim 3, further comprising a light reflecting portion directly below the solar heat absorbing pipe and disposed on a back side of the light concentrating portion, the light reflecting portion reflecting sunlight to the solar heat absorbing pipe.

5. The cooking cleaning system of claim 1, further comprising said light concentrating portion disposed directly above said solar heat absorber tube.

6. The cooking cleaning system of claim 5, further comprising a light reflecting portion directly beneath said solar heat absorbing tubes, said light reflecting portion reflecting sunlight to said solar heat absorbing tubes.

7. The cooking cleaning system of claim 1 wherein a plurality of said solar heat tubes are connected end to form an S-shaped configuration.

8. The cooking cleaning system of claim 1, wherein an end of said connecting portion connected to said solar heat absorbing pipe is flared.

9. The cooking cleaning system of claim 1, wherein the liquid level of said receiving space is 1/5-1/2.

10. The cooking cleaning system of claim 1, wherein the light focusing portion is a convex lens structure or a concave lens structure.

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