CN201706935U - Air total-heat exchanger - Google Patents

Abstract

The utility model discloses an air total heat exchanger, which comprises a cabinet body provided with a booster fan at the bottom, and is characterized in that: the total heat exchange core installed in the cabinet body includes a frame body, an indoor air circulation channel and an outdoor air circulation channel. The circulation channel, the indoor air circulation channel and the outdoor air circulation channel are completely isolated by the baffle. The back of the cabinet is equipped with an outdoor exhaust fan and an outdoor air intake fan connected to the full heat exchange core. The outdoor exhaust fan is connected to the upper part of the total heat exchange core; the outdoor intake fan is connected to the lower part of the total heat exchange core. The booster fan is connected with the bottom of the total heat exchange core. There is an indoor air inlet on the top of the full heat exchange core. Through the isolation of the indoor air circulation part and the outdoor air circulation part of the total heat exchange core, the utility model realizes the natural cooling of the electronic information room and the UPS machine room in winter by using outdoor cold air to achieve the purpose of energy saving and emission reduction; for the clean machine room While saving energy and cooling, it does not destroy the cleanliness and humidity in the clean machine room.

Description

air heat exchanger

technical field

The utility model relates to a temperature regulating device, in particular to an air total heat exchanger which relies on outdoor low-temperature air to cool the room.

Background technique

At present, the known air total heat exchanger is an energy-saving fresh air exchanger, and its structure is composed of an air total heat exchanger, a fan, and a filter. This fresh air switch discharges the outdoor fresh air into the room, and at the same time discharges the indoor air into the outside. When the indoor and outdoor air passes through the fresh air exchanger, the temperature is exchanged through the aluminum or paper full heat exchanger, and the air discharged from the outside is used to preheat or precool the air entering the room, so as to recover the heat or cold of the indoor air the goal of.

Imagine that for electronic information room, UPS room and other rooms that also need cooling in winter, how can we use the cold outdoor air to cool the room in winter in northern my country, so as to achieve the purpose of energy saving and emission reduction?

First of all, the energy-saving fresh air switch is not suitable for winter cooling in hot rooms such as server rooms and UPS rooms, because it uses indoor air to warm the air entering the outside, which is completely contrary to the purpose of cooling. Again, ordinary fresh air fans are not suitable for cooling in electronic information room, UPS room and other rooms in winter. The reason is that such rooms usually use precision air conditioners to cool and adjust temperature and humidity. The humidity of the information room is 40% to 55%. At the same time, this type of room requires a high degree of cleanliness. The number of dust particles ≥ 0.5um in the air per liter of the A-level electronic information room should be less than 1800. The air will disturb the indoor humidity, and at the same time, because the filter cannot completely filter the dust particles, it will also bring outdoor dust particles, reducing the cleanliness.

Utility model content

The technical problem to be solved by the utility model is to provide an air total heat exchanger, which can not only cool electronic information room, UPS room and other rooms naturally in winter, but also not destroy the humidity and cleanliness of the indoor environment.

The technical problem to be solved by the utility model is achieved through the following technical solutions:

An air total heat exchanger, comprising a cabinet body with a booster fan at the bottom, characterized in that: the cabinet body is equipped with a total heat exchange core, and the total heat exchange core includes a frame body, an indoor air circulation channel and an outdoor air circulation channel Channels, indoor air circulation channels and outdoor air circulation channels are completely isolated by baffles.

The back of the cabinet is equipped with an outdoor exhaust fan and an outdoor air intake fan connected to the full heat exchange core.

The outdoor exhaust fan is connected to the upper part of the total heat exchange core; the outdoor intake fan is connected to the lower part of the total heat exchange core.

The booster fan is connected to the bottom of the total heat exchange core.

The top of the total heat exchange core is provided with an indoor air inlet.

The bottom of the total heat exchange core is connected to the booster fan through the indoor air outlet.

The air flow channel in the total heat exchange core is wave-shaped.

The utility model has the following advantages:

Through the isolation of the indoor air circulation part and the outdoor air circulation part of the total heat exchange core, the utility model realizes the natural cooling of rooms such as electronic information room and UPS machine room in winter by using outdoor cold air to achieve the purpose of energy saving and emission reduction; While saving energy and cooling the computer room, it does not destroy the cleanliness and humidity in the clean computer room.

Description of drawings

Fig. 1 is a side sectional view of the utility model

Fig. 2 is the installation sketch map of the utility model

Fig. 3 is a structural schematic diagram of the total heat exchange core of the present invention

Figure 4 is a schematic diagram of the internal structure of the total heat exchange core of the present invention

As shown in the figure, 1-cabinet body, 2-full heat exchange core, 3-booster fan, 4-outdoor exhaust fan, 5-outdoor inlet fan, 6-indoor air inlet, 7-outdoor air inlet, 8-outdoor exhaust Wind, 9-indoor air intake, 10-indoor exhaust, 11-frame, 12-air flow channel.

Detailed ways

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in Figures 1 to 4, an air total heat exchanger includes a cabinet body 1 with a booster fan at the bottom, and is characterized in that: the cabinet body is equipped with a total heat exchange core 2, and the total heat exchange core includes The frame body 11, the indoor air circulation channel and the outdoor air circulation channel are completely isolated by the baffle plate.

The back of the cabinet body 1 is equipped with an outdoor exhaust fan 4 and an outdoor intake fan 5 connected to the total heat exchange core 2 .

The outdoor exhaust fan 4 is connected to the upper part of the total heat exchange core 2; the outdoor intake fan 5 is connected to the lower part of the total heat exchange core 2. The booster fan 3 is connected to the bottom of the total heat exchange core 2 . The top of the total heat exchange core 2 is provided with an indoor air inlet 6 . The bottom of the total heat exchange core 2 is connected with the booster fan through the indoor air outlet. The airflow channel 12 in the total heat exchange core is wave-shaped.

As shown in Figure 2, both the outdoor exhaust fan 4 and the outdoor intake fan 5 are connected to the outside of the wall of the room through hoses, and the outdoor intake air 7 is sucked into the wave-shaped airflow channel of the full heat exchange core by the outdoor intake fan 5, and the air flow in the channel After heat exchange with the indoor air intake 9 at the top of the total heat exchange core 2 through the partition in the air flow passage, the outdoor exhaust air 8 is exhausted to the outside by the outdoor exhaust fan 4, and the indoor exhaust air 10 is fully heated by the booster fan 3. The bottom of the exchange core 2 is finally discharged underground from the bottom of the cabinet.

Claims (8)

1. An air total heat exchanger, comprising a cabinet with a booster fan at the bottom, characterized in that: a total heat exchange core is housed in the cabinet, and the total heat exchange core includes a frame, an indoor air circulation channel and an outdoor The air circulation channel, the indoor air circulation channel and the outdoor air circulation channel are completely isolated by the baffle. 2. The air total heat exchanger according to claim 1, wherein an outdoor exhaust fan and an outdoor intake fan connected to the total heat exchange core are installed on the back of the cabinet. 3. The air total heat exchanger according to claim 1 or 2, characterized in that: the outdoor exhaust fan is connected to the upper part of the total heat exchange core. 4. The air total heat exchanger according to claim 1 or 2, characterized in that: the outdoor air intake fan is connected to the lower part of the total heat exchange core. 5. The air total heat exchanger according to claim 1, wherein the booster fan is connected to the bottom of the total heat exchange core. 6. The air total heat exchanger according to claim 1, wherein an indoor air inlet is provided on the top of the total heat exchange core. 7. The air total heat exchanger according to claim 5, characterized in that: the bottom of the total heat exchange core is connected to the booster fan through an indoor air outlet. 8. The air total heat exchanger according to claim 1, characterized in that: the air flow channel in the total heat exchange core is wave-shaped.

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