CN211429866U - Energy-efficient container data center - Google Patents

Abstract

The utility model discloses a high-efficiency energy-saving container data center, wherein a cabinet body is matched with a sealing door to divide an IT equipment box into a cold area and a hot area; the air supply end of the evaporative cooling unit is connected with the cold area, the air return end of the evaporative cooling unit is connected with the hot area, and an air conditioner indoor unit is arranged in the cold area of the IT equipment box. The evaporative cooling unit comprises a fresh air channel and a return air channel, wherein an indirect heat exchange core body is arranged at the cross position of the fresh air channel and the return air channel, and a spraying device is arranged on the fresh air channel of the indirect heat exchange core body. The spraying device sprays water to a fresh air channel of the indirect heat exchange core, outdoor fresh air enters through the fresh air channel and passes through the indirect heat exchange core, evaporation and heat exchange are carried out under the action of water, so that the temperature of indoor return air is indirectly reduced, the indoor return air enters the indirect heat exchange core and indirectly exchanges heat with outside air under the action of water evaporation, and the processed cold air enters the data center to cool the IT equipment; the cold air is changed into high-temperature hot air after passing through the IT equipment, and the hot air returns to the air return channel to be cooled again, and the circulation is carried out.

Description

Energy-efficient container data center

Technical Field

The utility model belongs to the technical field of server heat dissipation cooling and specifically relates to an energy-efficient container data center.

Background

With the rapid development of the electronic information industry, the development of data centers is also entering a new stage. The container data center is a standard module which can be constructed as a data center, and IT facilities such as calculation, storage, network resources and the like are designed into a container. Along with the development of the electronic information industry, more and more container data centers are put into use, the traditional container data center is a single container data center, the whole box body can be conveniently and independently deployed, power distribution, refrigeration, monitoring, fire fighting, IT equipment and the like are integrated in the inner space of one container, the inner size of the container limits the equipment space, and large-scale deployment cannot be realized. There is a need for a data center that utilizes more natural cold sources, is efficient and energy-saving, and has a compact structure.

Disclosure of Invention

The utility model provides a high-efficiency energy-saving container data center for solving the above-mentioned deficiencies of the prior art, wherein a spraying device sprays water to a fresh air channel of an indirect heat exchange core, outdoor fresh air enters through the fresh air channel and passes through the indirect heat exchange core, the temperature of indoor return air is indirectly reduced by water evaporation heat exchange under the action of water, the indoor return air enters the indirect heat exchange core and indirectly exchanges heat with outside air under the action of water evaporation, and processed cold air enters the data center to cool the IT equipment; the cold air is changed into high-temperature hot air after passing through the IT equipment, and the hot air returns to the air return channel to be cooled again, and the circulation is carried out.

The utility model provides a technical scheme that its technical problem adopted is:

an efficient energy-saving container data center comprises an evaporative cooling box body and an IT equipment box, wherein an evaporative cooling unit is arranged in the evaporative cooling box body, a cabinet body is arranged in the IT equipment box, and the IT equipment box is divided into a cold area and a hot area by the cabinet body matched with a sealing door;

the air supply end of the evaporative cooling unit is connected with the cold area, the air return end of the evaporative cooling unit is connected with the hot area, and an air conditioner indoor unit is arranged in the cold area of the IT equipment box.

The evaporative cooling unit comprises a fresh air channel and a return air channel, wherein an indirect heat exchange core body is arranged at the cross position of the fresh air channel and the return air channel, and a spraying device is arranged on the fresh air channel of the indirect heat exchange core body.

The fresh air channel comprises a fresh air port and an air outlet which are arranged on the evaporative cooling box body, and an exhaust fan arranged at the air outlet, wherein a condenser is arranged at the air outlet;

the air return channel comprises an air return interface connected with the hot area and an air supply interface connected with the cold area, an air feeder is arranged at the air supply interface, an evaporator is arranged at the air supply interface, and the evaporator is connected with a condenser through a fluorine pump;

and a humidifier is arranged in the return air channel.

Be equipped with sealing door in the IT equipment box, the cabinet body in the IT equipment box sets up to the multiseriate, arranges air supply branch pipe, return air branch pipe between row and the row in turn, and air supply branch pipe is responsible for through the air supply and is connected to the air supply interface, and the return air branch pipe is responsible for through the return air and is connected to the return air interface, and the corresponding cabinet body of sealing door cooperation is divided into cold district and hot district with the IT equipment box.

The return air main pipe is connected with the air supply main pipe through a bypass air pipe, and an electric air valve is arranged in the bypass air pipe.

The air conditioner internal units are multiple, and the air conditioner external units are arranged outside the data center.

The utility model has the advantages that:

1. the spraying device sprays water to a fresh air channel of the indirect heat exchange core, outdoor fresh air enters through the fresh air channel and passes through the indirect heat exchange core, evaporation and heat exchange are carried out under the action of water, so that the temperature of indoor return air is indirectly reduced, the indoor return air enters the indirect heat exchange core and indirectly exchanges heat with outside air under the action of water evaporation, and the processed cold air enters the data center to cool the IT equipment; the cold air is changed into high-temperature hot air after passing through the IT equipment, and the hot air returns to the air return channel to be cooled again, and the circulation is carried out.

2. Under the drive of an exhaust fan, outdoor fresh air enters a fresh air channel through a fresh air port, heat exchange is carried out through the indirect heat exchange core and hot air in a return air channel, and the heat-exchanged outdoor air passes through a condenser and then is exhausted through an exhaust port; the condenser is cooled and condensed, indoor return air enters the core body through the return air channel and indirectly exchanges heat with outside air under the action of water evaporation, and then is cooled again through the evaporator and is sent out through the air supply interface under the action of the air feeder; and the processed cold air enters the data center to cool the IT equipment.

3. The power distribution cabinet, the cabinet and the sealing door form a bow-shaped structure in the IT equipment box, so that the corresponding branch pipes in the cold area and the hot area can better supply air and exhaust air, and the cooling efficiency is increased.

Drawings

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

Detailed Description

In order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings. The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. It should be noted that the components illustrated in the figures are not necessarily drawn to scale. Descriptions of well-known components and processing techniques and processes are omitted so as to not unnecessarily limit the invention. The terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

An efficient energy-saving container data center comprises an evaporative cooling box body and an IT equipment box, wherein an evaporative cooling unit is arranged in the evaporative cooling box body, a cabinet body is arranged in the IT equipment box, and the IT equipment box is divided into a cold area and a hot area by the cabinet body matched with a sealing door; the air supply end of the evaporative cooling unit is connected with the cold area, the air return end of the evaporative cooling unit is connected with the hot area, and an air conditioner indoor unit is arranged in the cold area of the IT equipment box. The evaporative cooling unit comprises a fresh air channel and a return air channel, wherein an indirect heat exchange core body is arranged at the cross position of the fresh air channel and the return air channel, and a spraying device is arranged on the fresh air channel of the indirect heat exchange core body.

As shown in the evaporative cooling box in fig. 1, the spraying device sprays water to a fresh air channel of the indirect heat exchange core, outdoor fresh air enters through the fresh air channel and passes through the indirect heat exchange core, the temperature of indoor return air is indirectly reduced through evaporative heat exchange under the action of water, the indoor return air enters the indirect heat exchange core and indirectly exchanges heat with outside air under the action of water evaporation, and processed cold air enters the data center to cool the IT equipment; the cold air is changed into high-temperature hot air after passing through the IT equipment, and the hot air returns to the air return channel to be cooled again, and the circulation is carried out.

The fresh air channel comprises a fresh air port and an air outlet which are arranged on the evaporative cooling box body, and an exhaust fan arranged at the air outlet, wherein a condenser is arranged at the air outlet; the air return channel comprises an air return interface connected with the hot area and an air supply interface connected with the cold area, an air feeder is arranged at the air supply interface, an evaporator is arranged at the air supply interface, and the evaporator is connected with a condenser through a fluorine pump; and a humidifier is arranged in the return air channel.

Under the drive of an exhaust fan, outdoor fresh air enters a fresh air channel through a fresh air port, heat exchange is carried out through the indirect heat exchange core and hot air in a return air channel, and the heat-exchanged outdoor air passes through a condenser and then is exhausted through an exhaust port; the condenser is cooled and condensed, indoor return air enters the core body through the return air channel and indirectly exchanges heat with outside air under the action of water evaporation, and then is cooled again through the evaporator and is sent out through the air supply interface under the action of the air feeder; and the processed cold air enters the data center to cool the IT equipment.

Be equipped with sealing door in the IT equipment box, the cabinet body in the IT equipment box sets up to the multiseriate, arranges air supply branch pipe, return air branch pipe between row and the row in turn, and air supply branch pipe is responsible for through the air supply and is connected to the air supply interface, and the return air branch pipe is responsible for through the return air and is connected to the return air interface, and the corresponding cabinet body of sealing door cooperation is divided into cold district and hot district with the IT equipment box.

As shown in an IT equipment box in figure 1, a power distribution cabinet, a cabinet and a sealing door form a bow-shaped structure in the IT equipment box, and corresponding branch pipes in a cold area and a hot area can better supply air and exhaust air, so that the cooling efficiency is increased.

The return air main pipe is connected with the air supply main pipe through a bypass air pipe, and an electric air valve is arranged in the bypass air pipe. The main air supply pipe and the main air return pipe are provided with bypass air pipes, the bypass air pipes are controlled to be opened and closed through electric air valves, when the outdoor temperature is low, the air supply temperature is improved through hot air bypass, and the air supply requirement of a data center is met.

The air conditioner internal units are multiple, and the air conditioner external units are arranged outside the data center. The terminal of air conditioners such as an inner machine 1, an inner machine 2, an inner machine 3, an inner machine 4 and an inner machine 5 are arranged in the cold zone of the IT equipment box, and the outdoor air conditioner is arranged to form a mode of 1 dragging more, so that the emergency air conditioner is started to perform emergency refrigeration under the condition that the evaporative cooling unit breaks down to perform maintenance, and the heat dissipation reliability of a data center is ensured.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (6)

1. An efficient energy-saving container data center is characterized by comprising an evaporative cooling box body and an IT equipment box, wherein an evaporative cooling unit is arranged in the evaporative cooling box body;

the air supply end of the evaporative cooling unit is connected with the cold area, the air return end of the evaporative cooling unit is connected with the hot area, and an air conditioner indoor unit is arranged in the cold area of the IT equipment box.

2. The efficient energy-saving container data center as claimed in claim 1, wherein the evaporative cooling unit comprises a fresh air channel and a return air channel, an indirect heat exchange core is arranged at the intersection of the fresh air channel and the return air channel, and a spraying device is arranged on the fresh air channel of the indirect heat exchange core.

3. The energy-efficient container data center of claim 2, wherein the fresh air channel comprises a fresh air port and an air outlet on the evaporative cooling box, an air blower on the air outlet, and a condenser on the air outlet;

the air return channel comprises an air return interface connected with the hot area and an air supply interface connected with the cold area, an air feeder is arranged at the air supply interface, an evaporator is arranged at the air supply interface, and the evaporator is connected with a condenser through a fluorine pump;

and a humidifier is arranged in the return air channel.

4. The efficient energy-saving container data center as claimed in claim 3, wherein sealing doors are arranged in the IT equipment box, the cabinets in the IT equipment box are arranged in a plurality of rows, air supply branch pipes and air return branch pipes are alternately arranged between the rows, the air supply branch pipes are connected to the air supply interface through the air supply main pipe, the air return branch pipes are connected to the air return interface through the air return main pipe, and the sealing doors are matched with the corresponding cabinets to divide the IT equipment box into a cold area and a hot area.

5. The energy-efficient container data center of claim 4, wherein the return air main pipe is connected with the air supply main pipe through a bypass air pipe, and an electric air valve is arranged in the bypass air pipe.

6. The energy efficient container data center according to claim 1, wherein the plurality of air conditioner internal units are provided, and the plurality of air conditioner external units are provided outside the data center.

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