Internet of Things air energy

Abstract

The invention provides Internet of Things air energy which comprises reverse Carnot cycle composed of a water tank, a compressor, a radiator, a throttle, an evaporator and a cooling agent. The Internet of Things air energy is characterized in that the water tank and a heat pump main engine are integrated, the bottom of the water tank is provided with a support which can be fixed on walls of two sides of a rest room, the water tank is a non-bearing water tank, water inflow is controlled by an electromagnetic valve and a floating ball, a booster pump is arranged on a water outlet, the radiator is a copper coiler and is installed inside the water tank, and a temperature-control probe is arranged inside the evaporator. When frosting is detected, the compressor stops working, and the booster pump pumps hot water in the water tank for carrying out forced defrosting on the evaporator. A control panel inside the heat pump main engine is connected with a door control sensor inside the room, the number of people at home are read and calculated, and therefore the hot water is supplied in a rationing mode by controlling the work time of the electromagnetic valve for water inflow. Thus, the Internet of Things technology can be utilized for supplying the hot water in a rationing mode and energy is saved. The air energy is installed on the top of the rest room, and therefore space is saved. The electromagnetic valve is utilized for controlling flow of cold water, and therefore water mixing is avoided, and the air energy is suitable for users of commercial residential buildings.

Description

technical field [0001] The present invention relates to a kind of air energy, especially air energy of internet of things. Background technique [0002] At present, household air energy is basically pressurized, and it is squeezed out by the pressure of tap water. In this way, in winter, ultra-low cold water is squeezed into the water tank, which will form a large amount of mixed water, resulting in a greatly reduced consumption of air energy and hot water, which cannot meet the needs. . [0003] In addition, due to the current high housing prices, the air energy needs to occupy the indoor floor area, so the cost of use is high. Contents of the invention [0004] The invention provides an air energy capable of avoiding muddy water and occupying no ground. [0005] The present invention is realized through the following technical solutions: [0006] An Internet of Things air energy, including a water tank, a compressor, a radiator, a throttle valve, an evaporator, and a ...

AI Technical Summary

Problems solved by technology

[0002] At present, household air energy is basically pressurized, and it is squeezed out by the pressure of tap water. In this way, in winter, ultra-low cold water is squeezed into the water tank, which will form a large amount of mixed water, resulting in a greatly reduced consumption of air energy and hot water, which cannot meet the needs.

[0003] In addition, due to the current high housing prices, the air energy needs to occupy the indoor floor area, so the cost of use is high.

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