An intelligently controlled energy-saving greenhouse

Abstract

An intelligently controlled energy-saving greenhouse, including a shed body set on the ground, characterized in that: the shed body includes an inner light-transmitting shell and an outer light-transmitting shell, and also includes an underground trench, and the lower half of the underground trench Part of it flows through the groundwater, one end of the underground trench is connected to the air inlet on the ground to introduce external fresh air into the upper part of the underground trench, the other end of the underground trench is connected to the inner and outer double-layer light-transmitting shell The interlayer is connected to introduce fresh air into the interlayer, the top of the outer transparent shell is provided with at least one openable chimney, and the bottom of the inner transparent shell is provided with at least one openable first damper , at least one second damper that can be opened and closed is provided at the position corresponding to the chimney on the top of the inner transparent shell. The smart-controlled energy-saving greenhouse can make comprehensive use of natural resources sunlight, water, and air and make them work synergistically, thereby saving secondary energy and regulating the comfort of the indoor environment.

Description

technical field [0001] The invention relates to the technical field of greenhouses, in particular to an intelligently controlled energy-saving greenhouse. Background technique [0002] The building stands between the sky and the earth, and it interacts with the surrounding natural elements such as sunlight, water, and air all the time. However, the impact of sunlight, water, and air on buildings has advantages and disadvantages. Taking the greenhouse as an example, it is generally a single-layer shell structure and can transmit light, so that it can receive sunlight in the cold winter and make the room warmer, but in the hot summer, it will be exposed to the sun and make the room The temperature is too high; we can set up a ventilation structure on the greenhouse to make the air flow take away the dirty air in the room, but the flowing air will take away the heat in the room at the same time, which is not expected to happen especially in winter; on the contrary, do not Flo...

AI Technical Summary

Problems solved by technology

However, the impact of sunlight, water, and air on buildings is pros and cons

Taking the greenhouse as an example, it is generally a single-layer shell structure and can transmit light, so that it can receive sunlight in the cold winter and make the room warmer, but in the hot summer, it will be exposed to the sun and make the room The temperature is too high; we can set up a ventilation structure on the greenhouse to make the air flow take away the dirty air in the room, but the flowing air will take away the heat in the room at the same time, which is not expected to happen especially in winter; on the contrary, do not Moving air can be used for heat storage, but stagnant air is not conducive to exchange with fresh air outside, etc.

[0003] All of the above contradictions cannot be resolved in the existing greenhouses. The reason is that the existing greenhouses cannot comprehensively make good use of the favorable aspects of the above-mentioned various natural elements, nor can they restrain their negative aspects. As a result, it is impossible to maximize the use of natural resources and save secondary energy, so it is impossible to achieve the harmonious coexistence of people and buildings without traces and nature

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