CN210399093U - Indoor air source heat collecting device - Google Patents

Abstract

The utility model discloses an indoor air supply heat collecting device. The device is characterized in that a controller formed by sequentially connecting a tee joint I, a remote control electric ball valve and a tee joint II is arranged between a water inlet valve and a water outlet valve of a tap water pipeline, the remote control electric ball valve of the controller is wirelessly connected with a remote controller, and the other water outlet of the tee joint I in the controller is connected with a water distributor of a geothermal device through a triangular valve I; the other water inlet of the tee joint II is connected with a water collector of the geothermal device through a triangular valve II. The geothermal energy storage device can not only provide clean tap water, but also absorb indoor medium heat through a geothermal device to provide warm water for users. Therefore, when the geothermal device is idle, the indoor heat is fully utilized, the indoor temperature is obviously reduced, and people feel fresh and comfortable particularly in high-temperature weather in summer. Two purposes are achieved at one stroke. The energy-saving cooling device also has the advantages of novel and unique conception, simple and reasonable structural design, convenient and flexible operation and use, energy conservation, cooling, economy, practicability, suitability for vigorous popularization and the like.

Description

Indoor air source heat collecting device

Technical Field

The utility model relates to a heat collecting device, specifically say so, relate to one kind and utilize indoor medium natural temperature to get into the running water heating in the geothermal energy device or other heating facilities and acquire the heat collecting device that heat energy used.

Background

At present, a known tap water pipeline and a geothermal device or a heating facility for heating are respectively independent channels, and hot water is introduced into the geothermal pipeline or the heating facility in winter to dissipate heat indoors, so that warm indoor life, study and working environments are provided for users. But they are idled once the heating period has passed. Especially, the air conditioner is required to be started when the indoor temperature reaches more than 30 ℃ in the midsummer, otherwise, the heat is hard to be suffered, and the diseases such as the sunstroke can be caused in serious cases. And turning on the air conditioner consumes a part of electric energy.

Disclosure of Invention

An object of the utility model is to provide an indoor air supply heat collecting device, the device can be when geothermal plant or heating facility are idle with the heat make full use of that indoor medium holds, not only need not open the air conditioner just can reduce the indoor temperature and make the people feel comfortable and reduce the disease simultaneously, can provide the hot water of uniform temperature moreover again.

The technical scheme of the utility model as follows: the device comprises a tap water pipeline, a water inlet valve, a water outlet valve and a geothermal device, wherein the water inlet valve and the water outlet valve are arranged on a water inlet and a water outlet of the tap water pipeline; the other water inlet of the tee joint II is connected with a water collector of the geothermal device through a triangular valve II.

The utility model discloses owing to taken the structure, especially set up the controller structure by remote controller control, in addition the organic combination of other components, under remote controller control, make the rivers in the water supply pipeline through geothermol power device or other heating facilities when closing the electronic ball valve of remote control, in this process with indoor medium heat through geothermol power device or other heating facilities absorption, become cold water into the water that has higher temperature and provide warm (hot) water for the user by the running water delivery port. When the remote control electric ball valve is opened, tap water flows through the controller and directly provides clean tap water from the tap water outlet. Therefore, when the geothermal device or the heating facility is idle, the indoor heat can be fully utilized, meanwhile, the indoor temperature can be obviously reduced, and particularly, people feel fresh and comfortable in high-temperature weather in summer. Two purposes are achieved at one stroke. The device also has the advantages of novel and unique design, simple and reasonable structural design, convenient and flexible operation and use, energy conservation, temperature reduction, economy and practicality, suitability for vigorous popularization and the like.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Detailed Description

The heat collecting device of the indoor air source shown in figure 1 is a novel heat collecting device invented in the life practice. The device is characterized in that a controller formed by sequentially connecting a tee joint I2, a remote control electric ball valve 3 and a tee joint II 2 'is additionally arranged between an existing water inlet valve 1 and an existing water outlet valve 1', the tee joint I2 and the tee joint II 2 'in the controller are connected with two sides of the remote control electric ball valve 3 into a whole through threads, and then the water inlet valve 1 and the water outlet valve 1' are connected through a pipeline. Meanwhile, a triangular valve I4 and a triangular valve II 4 ' are correspondingly connected to a water outlet of the tee joint I2 and a water inlet of the tee joint II 2 ', and then the triangular valve I4 and the triangular valve II 4 ' are respectively connected with a water separator and a water collector of the geothermal device 5 through pressure-resistant hoses. Wherein, the remote control electric ball valve 3 is also wirelessly connected with a remote controller 6. The ball valves 7 and 7' are water inlet and outlet main valves of the indoor existing geothermal device 5. The ball valves 7, 7' are closed when the device is in operation, and are open when the device is in heat supply (when the device is not in operation).

When the device works, a water inlet valve 1, a triangular valve I4 and a triangular valve II 4 'of a tap water pipeline are opened, a remote controller 6 is pressed to close a remote control electric ball valve 3, tap water enters a water separator of a geothermal device 5 through the water inlet valve 1, a tee joint I2, the triangular valve I4 and a pressure-resistant hose, then enters the triangular valve II 4' through a geothermal pipe, a water collector of the geothermal device 5 and the pressure-resistant hose, and then is discharged from the tee joint II 2 'to a tap water outlet valve 1'. The warm water or hot water can be used for brushing bowls, washing vegetables and cooling, the summer temperature is 37 ℃ according to incomplete statistics, the tap water in a tap water pipeline is 10 ℃, the calculation is carried out according to the fact that 120 liters of water can be stored in a common household geothermal device 5, and 3.8KW/h of electric energy (the electric energy consumption of an air conditioner is not included) can be saved in one day if the calculation is carried out according to electric heating. When hot water is not used or during heating, the triangular valve I4 and the triangular valve II 4 'are closed, the remote controller 6 is pressed to open the remote control electric ball valve 3, and clean tap water flows out of the tap water outlet valve 1'. Does not affect the heating and the normal use of tap water.

Claims (1)

1. The utility model provides an indoor air supply heat collecting device, includes water pipeline, water pipeline's water inlet and water inlet valve (1) and outlet valve (1') on the delivery port, geothermol power device (5), its characterized in that: a controller formed by sequentially connecting a tee joint I (2), a remote control electric ball valve (3) and a tee joint II (2 ') is arranged between the water inlet valve (1) and the water outlet valve (1'), the remote control electric ball valve (3) of the controller is wirelessly connected with a remote controller (6), and the other water outlet of the tee joint I (2) in the controller is connected with a water separator of a geothermal device (5) through a triangular valve I (4); the other water inlet of the tee joint II (2 ') is connected with a water collector of the geothermal device (5) through a triangular valve II (4').

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