CN2524153Y - Air conditioner by ground temperature ventilation - Google Patents

Abstract

The utility model ventilation floor temperature air conditioner is composed of a shaking water pump (1), a water pump (2), a heat preservation water delivery pipe (3), a low temperature and low pressure heat exchanger (4), a refilling water pipe (5), a fan (6), and an air filter Device (7), hot water stove (8), hot water pump (9) form. When the water pump (2) or hot water pump (9) and fan (6) work, the outdoor high and low temperature air and ground water or hot water exchange heat in the low temperature and low pressure heat exchanger (4), and then the outdoor air enters the room (11) Adjust the room temperature. The ventilated ground temperature air conditioner has low investment, significant energy saving and long service life, easy installation, easy maintenance, no pollution, heating in winter and cooling in summer, dual-purpose for ventilation and air conditioning. It is widely applicable to all kinds of households and units in urban and rural areas, and is used in the production and use of greenhouses.

Description

Ventilated ground temperature air conditioner

The utility model relates to a ventilated ground temperature air conditioner, in particular to a ventilated ground temperature air conditioner composed of a shaking water pump, a water pump, a heat preservation water delivery pipe, a low-temperature and low-pressure heat exchanger, a refilling water pipe, a fan, an air filter, a hot water stove and a hot water pump. air conditioner.

At present, for indoor cooling in summer, there are common compressor refrigeration air conditioners on the market, which have high manufacturing costs, high energy consumption, low air quality, and cannot be used for both ventilation and air conditioning. It is used for indoor heating in winter, mainly using boiler hot water heat, electric heating, etc., but they have high heating costs, large equipment investment costs, low air quality, and potential safety hazards. It is particularly worth mentioning that other patented ground temperature air conditioners have low heating temperature, poor use effect in high-rise buildings, waste of groundwater resources, high energy consumption, and low air quality.

The purpose of the utility model is to provide a ventilated ground temperature air conditioner. It is dual-purpose for cooling and heating, less investment, low cost, high energy saving, long service life, easy maintenance, no pollution, good air quality, and can be ventilated and air-conditioned in all seasons.

In order to achieve the above object, the utility model ventilated ground temperature air conditioner is composed of a shaking water pump (1), a water pump (2), a heat preservation water delivery pipe (3), a low temperature and low pressure heat exchanger (4), a refilling water pipe (5), a fan ( 6), air filter (7), hot water stove (8), hot water pump (9), form.

The groundwater temperature is around 18°C all year round, warm in winter and cool in summer. When cooling down in summer, disconnect the connection of the hot water stove (8), the hot water pump (9) and the low-temperature and low-pressure heat exchanger (4) earlier. The waterway is connected in series by the rocking water pump (1), the water pump (2), the heat preservation water delivery pipe (3), the low-temperature and low-pressure heat exchanger (4), and the recharge water pipe (5) to the groundwater (10); the air filter ( 7), the fan (6) is connected in parallel with the low-temperature and low-pressure heat exchanger (4) to form an air path. When water pump (2), blower fan (6) work, groundwater (10) flows through low-temperature and low-pressure heat exchanger (4) between pipes ( shell side); the outdoor high-temperature air passes through the air filter (7), the fan (6), and flows through the low-temperature and low-pressure heat exchanger (4) tube (tube side), and the groundwater and the outdoor high-temperature air are heated in the low-temperature and low-pressure heat exchanger exchange. The outdoor high-temperature air becomes ground-temperature air and is sent into the room (11). The groundwater in the tube (shell side) of the low-temperature and low-pressure heat exchanger (4) is recharged to the groundwater (10) through the recharge water pipe (5) after heat exchange. Because of the effect of the siphon principle, the water pump (2) is in the zero-lift working state. When heating in winter, disconnect the insulation water delivery pipe (3), the recharge water pipe (5) and the low-temperature and low-pressure heat exchanger (4). A water circulation circuit is connected by a hot water stove (8), a hot water pump (9), and a low-temperature and low-pressure heat exchanger (4); an air filter (7), a fan (6), and connected to the low-temperature and low-pressure heat exchanger (4) form the wind path. When the hot water pump (9) and the blower fan (6) were working, a steady stream of hot water and outdoor low-temperature air entered the low-temperature and low-pressure heat exchanger (4) for heat exchange. The outdoor air after heating is delivered to indoor (11), regulates room temperature. It can also adopt the structure of shaking water pump (1), water pump (2), heat preservation water delivery pipe (3), low-temperature and low-pressure heat exchanger (4), refilling water pipe (5), fan (6), and air filter (7) The system directly extracts ground temperature for heating without adding other heat sources, and the effect is not ideal when the temperature is below 18°C. If the room only needs to be ventilated, stop the operation of the water pump (2) or the hot water pump (9) and allow the blower fan (6) to work. The low-temperature and low-pressure heat exchangers (4) include heat exchangers of plate type, plate-shell type, and shell-and-tube type, such as umbrella plate type, plate type, and plate-fin type. Heat exchangers such as submerged snake tube, shell and tube, U-tube, plate and shell. The manufacture of low-temperature and low-pressure heat exchangers has a simple structure and production process, and has low requirements on the thickness and quality of materials. It can also be molded and manufactured with plastic materials to replace all or part of its metal materials. Application of low-temperature and low-pressure heat exchangers, hot water stoves. The main reason is that the heat exchange effect is good, the heat utilization rate is high, and the production and use costs are reduced.

After adopting such a structural device, since groundwater or hot water and outdoor air have carried out heat exchange in the low-temperature and low-pressure heat exchanger, indoor ventilation and air conditioning can be realized. Warm in winter and cool in summer, save energy, reduce production and use costs, protect groundwater resources, and reduce environmental pollution. The room can often use the air with suitable temperature and humidity, fresh and high oxygen.

The utility model has the advantages of simple structure, low manufacturing cost, easy installation and maintenance, long service life, significant energy saving, no waste of underground water resources, dual-purpose ventilation and air conditioning, heating in winter and cooling in summer, no environmental pollution, and widely applicable to urban and rural families and units use.

Below in conjunction with accompanying drawing and specific embodiment the utility model is described in further detail.

Fig. 1 is a cross-sectional view of a specific embodiment of the ventilated ground temperature air conditioner of the present invention.

Ventilated floor temperature air conditioner shown in Fig. 1 is composed of shaking water pump (1), water pump (2), heat preservation water delivery pipe (3), low-temperature and low-pressure heat exchanger (4), refilling water pipe (5), blower fan (6), air Filter (7), hot water stove (8), hot water pump (9) form.

Ventilation ground temperature air-conditioning shown in Fig. 1 is the combination diagram of winter and summer use, and now winter and summer use are used as illustrations respectively.

Use in summer, disconnect the connection of hot water stove (8), hot water pump (9) and low-temperature low-pressure heat exchanger (4). The shaking water pump (1), the water pump (2), the heat preservation water delivery pipe (3), the low-temperature and low-pressure heat exchanger (4), and the refilling water pipe (5) are successively connected into a waterway to the groundwater (10); the low-temperature and low-pressure heat exchange Device (4) is connected fan (6) air filter (7) to form air path simultaneously. When the water pump (2) and the blower fan (6) work, the groundwater (10) is continuously sent to the low-temperature and low-pressure heat exchanger (4) pipe In the room (shell side); the outdoor high-temperature air passes through the air filter (7) and the blower fan (6) into the tube (tube side) of the low-temperature and low-pressure heat exchanger (4), and the two fluids perform heat exchange. The outdoor high-temperature air is changed into the air with the same temperature as the underground water, and it is sent into the room to adjust the room temperature. The groundwater after the heat exchange is recharged from the low-temperature and low-pressure heat exchanger (4) to the groundwater (10) through the refilling water pipe (5).

For use in winter, disconnect the insulation water delivery pipe (3), the refill water pipe (5) and the low-temperature and low-pressure heat exchanger (4). A water circulation circuit is connected by a hot water stove (8), a hot water pump (9), and a low-temperature and low-pressure heat exchanger (4); an air filter (7), a fan (6), and connected to the low-temperature and low-pressure heat exchanger (4) form the wind path. When the hot water pump (9) and the blower fan (6) were working, the hot water in the hot water stove (8) went through the hot water pump (9) to the low-temperature and low-pressure heat exchanger (4) tube (shell side), and then returned to the The hot water stove (8); the outdoor low-temperature air passes through the air filter (7), fan (6) to the low-temperature and low-pressure heat exchanger (4) tube (pipe side), and then to the room (11), and the second fluid flows through the low-temperature The low-pressure heat exchanger (4) carries out heat exchange during, obtains the outdoor air after the heating, sends into indoor (11) and regulates room temperature.

Fig. 2 is a cross-sectional view of another specific embodiment of the ventilated floor temperature air conditioner of the present invention.

Ventilated ground temperature air conditioner shown in Fig. 2, is made up of water pump (2), heat preservation water conveying pipe (3), low temperature and low pressure heat exchanger (4), recharge water pipe (5), ground temperature pipe (12), blower fan (6), air Filter (7) is formed. Fig. 2 has increased geothermal pipe (12). The water heat-exchanged with the outdoor air is recycled through the geothermal pipe (12) buried underground. The water after heat exchange in the low-temperature and low-pressure heat exchanger (4) enters the geothermal pipe (12) through the recharge water pipe (5) and exchanges heat with the earth, so that the water in the geothermal pipe (12) becomes ground again. warm water. Then it is sent into the low-temperature and low-pressure heat exchanger (4) through the water pump (2) to exchange heat with the outdoor air.

The indoor (11) only needs to be ventilated, the work of the water pump (2) or the hot water pump (9) is stopped, and the blower fan (4) is allowed to run, and the indoor (11) can obtain the required fresh air.

In addition, the utility model can replace hot water with electric heating. Automatic temperature control, water control, wind control and remote control devices can also be added to make it more convenient and comfortable to use.

Claims (5)

1. A ventilated ground temperature air conditioner, which is used in summer by shaking water pumps (1) or ground temperature pipes (12) or wells, water pumps (2), heat preservation water delivery pipes (3), low-temperature and low-pressure heat exchangers (4), and recharge water pipes (5) Composed and sequentially connected into a cooling water circuit; in winter, it is composed of a low-temperature and low-pressure heat exchanger (4), a hot water stove (8) or a water heater or a geothermal water supply device, and a hot water pump (9) and connected into a circulation heating At the same time, the low-temperature and low-pressure heat exchanger (4) is sequentially connected with the fan (6) and the air filter (7) to form a ventilation air path, which provides indoor and outdoor air to participate in the heat exchange in the low-temperature and low-pressure heat exchanger (4), and then regulates Room temperature, characterized in that: the low-temperature and low-pressure heat exchanger (4) is connected to the rocking water pump (1) or the geothermal pipe (12) or a water well in summer; the low-temperature and low-pressure heat exchanger (4) is connected to the hot water stove (8) or the water heater in winter Or geothermal water supply device, simultaneously, low-temperature low-pressure heat exchanger (4) is connected with blower fan (6), air filter (7) successively, provides outdoor air for indoor. 2. The ventilated ground temperature air conditioner according to claim 1, characterized in that: the applicable range of the heat exchanger is low temperature and low pressure, that is, the low temperature and low pressure heat exchanger (4). 3. The ventilated ground temperature air conditioner according to claims 1 and 2, characterized in that the ground water after heat exchange is recharged to the ground water (10). 4. The ventilated ground temperature air conditioner according to claims 1, 2, and 3 is characterized in that: low-temperature and low-pressure shell-and-tube, plate, and plate-shell heat exchangers can be used, and there are low-temperature and low-pressure shell-and-tube and U-tube heat exchangers. , Submerged coil, umbrella plate, plate fin, plate, plate and shell heat exchangers. 5. The ventilated ground temperature air conditioner according to claim 1, 2, 4, characterized in that: the ground temperature pipes buried underground can all adopt heat exchangers such as array pipe, coil pipe, snake pipe, U-shaped pipe, etc. Forms such as underground storage tanks may also be used.