JP2015060485A - Container type data center - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a container type data center capable of efficiently maintaining the temperature in the container within a specific range even when external temperature changes.SOLUTION: The container type data center includes: a container part that stores electronic devices therein; a water storage tank which is disposed at a position higher than a roof of the container part for storing water; an electromagnetic valve for controlling the flow of the water from the water storage tank; a sprinkling pipe that sprinkles the roof of the container part with the water when the electromagnetic valve is opened; an outdoor temperature sensor for detecting outdoor temperature; and a sprinkle control section that controls the electromagnetic valve to open to sprinkle the roof with the water when the temperature detected by the outdoor temperature sensor is higher than the threshold value.

Description

  Embodiments described herein relate generally to a container-type data center.

  In recent years, container-type data centers with few restrictions on installation locations are becoming popular.

  In this container type data center, a cooling device is installed in a container, and an electronic device such as a server is stored inside the container.

  Electronic devices such as servers generate heat. Therefore, it is necessary to efficiently cool the electronic device.

  On the other hand, container-type data centers are often installed outdoors. Therefore, in summer, the temperature inside the container rises due to sunlight. In winter, the outside air temperature is significantly lower than the temperature inside the container due to snow and the like, and condensation may occur on the inner wall of the container and electronic equipment.

JP 2009-230329 A

  Accordingly, there is a need for a container-type data center that can efficiently maintain the temperature inside the container within a certain range even when the outside temperature changes.

  In order to solve the above problems, a container part that stores electronic devices therein, a water storage tank that is disposed higher than the roof of the container part and stores water, and a solenoid valve that regulates the flow of water in the water storage tank, When the solenoid valve is opened, the water sprinkling pipe that sprays the roof of the container part, the outdoor temperature sensor that detects the temperature of the outside air, and the solenoid valve is opened when the temperature detected by the outdoor temperature sensor is equal to or higher than the threshold value. And a container type data center including a control unit for spraying water onto the roof.

It is an external appearance perspective view of a container type data center. It is a top view inside a container type data center. It is a side view inside a container type data center. It is a figure which shows the flow of the water of a container type data center. It is a block diagram which shows the structure of a container type data center.

  Hereinafter, an embodiment of a container-type data center will be described in detail with reference to the drawings.

  The container-type data center of the present embodiment includes a container unit that stores electronic equipment therein, a water storage tank that is disposed at a position higher than the roof of the container unit, and a solenoid valve that regulates the flow of water in the water storage tank When the solenoid valve is opened, the water sprinkling pipe that sprinkles the roof of the container part, the outdoor temperature sensor that detects the temperature of the outside air, and the temperature detected by the outdoor temperature sensor is above the threshold value, the solenoid valve is And a controller that opens and sprinkles water on the roof.

  FIG. 1 is an external perspective view of a container-type data center 1. As shown in FIG. 1, the container-type data center 1 includes a container unit 11 that houses an electronic device such as a server, and a cooling device 12 that cools the inside of the container unit 11.

  The container-type data center 1 further includes a rainwater reservoir 14 installed on the roof of the container portion 11 or higher than the roof of the container portion 11, and a first filter 15 that filters the water in the rainwater reservoir 14. An electromagnetic valve 17 that controls the conduction of water, a water spray pipe 18 that sprays water from the water spray hole 18A to the roof when the solenoid valve 17 is opened, and a water flow that is installed on the outer wall so as to be even. A rib 13 for regulating, a bowl 19 for collecting water flowing along the outer wall, a second filter 20 for filtering the water collected by the bowl 19, a first water tank 21 for storing the filtered water, A first pumping pump 16 </ b> A that feeds water from one water storage tank 21 to the electromagnetic valve 17.

  The container-type data center 1 further includes a second water storage tank 21A for warming water by warm air heated by an electronic device such as a server, and a water supply pump 22 for supplying water from the first water storage tank 21 to the second water storage tank 21A. The second water storage tank 21 </ b> A may be provided with a second pumping pump 16 </ b> B that supplies water to the electromagnetic valve 17.

  The container-type data center 1 may include a water supply pipe that supplies water to the rainwater storage tank 14 or the electromagnetic valve 17 directly.

  FIG. 2 is a plan view of the inside of the container-type data center 1. FIG. 3 is a side view of the inside of the container-type data center 1.

  As shown in FIGS. 2 and 3, the container-type data center 1 houses an electronic device 23 such as a server.

  The container-type data center 1 further includes a partition wall 11A that partitions the cool air compartment 24 and the warm air compartment 25 from each other.

  The cold air cooled by the cooling device 12 cools the electronic device as indicated by the solid line arrow and is heated by the electronic device. Further, the cold air cooled by the cooling device 12 hits the first water storage tank 21 installed in the cold air section 24 and cools the water inside the first water storage tank 21.

  The first water storage tank 21 can efficiently cool the internal water by the cold air by increasing the wall surface area on which the outer wall has irregularities and the cold air hits.

  The second water storage tank 21A is installed in the warm air section 25, and the water inside the second water storage tank 21A is warmed by the warm air heated by the electronic device.

  The second water storage tank 21 </ b> A has an outer wall with irregularities and can increase the wall surface area to which warm air hits, thereby efficiently warming the internal water by warm air. The second water storage tank 21A may have a heater for warming water inside.

  The container-type data center 1 includes an indoor temperature sensor 502 that detects the temperature inside the container and an outdoor temperature sensor 503 that detects the temperature outside the container in each of the cool air section 24 and the warm air section 25.

  The electromagnetic valve 17 can selectively perform watering only on the cold air section 24 side, watering only on the warm air section 25 side, or water spraying on the cold air section 24 and the warm air section 25.

  FIG. 4 is a diagram illustrating the flow of water in the container-type data center 1. Dotted arrows indicate the flow of water.

  As shown in FIG. 4, when it rains, rainwater is stored in the rainwater storage tank 14.

  When the indoor temperature detected based on the output of any one of the indoor temperature sensors 502 installed in pairs on the cool air section 24 side and the warm air section 25 side rises above a threshold value, the control unit 501 The solenoid valve 17 of the piping system is opened to supply water inside the rainwater storage tank 14 to the watering pipe 18.

  When the room temperature detected based on the output of the room temperature sensor 502 becomes equal to or higher than the threshold value on both compartments, the control unit 501 opens the electromagnetic valves 17 of both piping systems and opens the rainwater storage tank 14. Internal water is supplied to the watering pipes 18 on both sides.

  The supplied water is sprinkled on the roof of the container-type data center 1 through the sprinkling hole 18A.

  This water flows down to the wall 19 while further cooling the outer wall.

  The watering pipe 18 is installed with a slope. The water sprinkling pipe 18 has a hole position that gradually decreases from the top of the water to the bottom of the water so that the amount of water sprayed through the sprinkling hole 18A is constant.

  The container-type data center 1 has ribs 13 on the roof surface and the wall surface that serve as guidelines for regulating the flow of water so that water sprays evenly.

  The jar 19 collects the water that has flowed down into the second filter 20. The water filtered by the second filter 20 is stored in the first water tank 21.

  The water in the first water tank 21 is cooled by cold air. Then, it is supplied to the electromagnetic valve 17 by the first pumping pump 16 </ b> A and sprayed again on the roof of the container type data center 1.

  On the other hand, the control unit 501 detects that the outside air temperature detected by the outdoor temperature sensors 503 installed in pairs on the cool air compartment 24 side and the warm air compartment 25 side is lower than the room temperature detected by the indoor / outdoor temperature sensor 502 in both compartments. Then, the water pump 22 is operated to feed the water in the first water tank 21 to the second water tank 21A.

  This water is warmed by the warm air in the warm air section 25.

  When the outside air temperature detected by the outdoor temperature sensors 503 installed in pairs on the cold air compartment 24 side and the warm air compartment 25 side is lower than the room temperature detected by the indoor temperature sensor 502 by a temperature difference equal to or greater than a threshold value, the control unit 501 Operates the second pumping pump 16B to supply water inside the second water storage tank 21A to the electromagnetic valve 17.

  The control unit 501 opens the electromagnetic valve 17 of the piping system whose temperature difference has reached a value equal to or greater than the threshold value, and supplies the water inside the rainwater reservoir 14 to the watering pipe 18.

  When the controller 501 detects that the temperature difference has reached a value equal to or greater than the threshold value on both compartments, the controller 501 opens the electromagnetic valves 17 of both piping systems to spray the water inside the rainwater storage tank 14 on both sides. Supply to pipe 18.

  The supplied water is sprinkled on the roof of the container-type data center 1 through the sprinkling hole 18A. This water flows down to the wall 19 while further warming the outer wall.

  The sprinkled water follows the outer wall, is collected by the ridge 19, is sent to the second water tank 21 </ b> A via the first water tank 21, and is again returned to the container via the second water pump 16 </ b> B and the electromagnetic valve 17. Water is sprayed on the roof of the mold data center 1.

FIG. 5 is a block diagram showing a configuration of the container type data center 1. As shown in FIG.
The container-type data center 1 includes a control unit 501 including a CPU that is an arithmetic device, an indoor temperature sensor 502 that detects an indoor temperature of the container unit 11, and an outdoor temperature sensor 503 that detects an external temperature of the container unit 11. The electromagnetic valve 17, the first pumping pump 16A, the second pumping pump 16B, and the water pump 22 for feeding water from the first water tank 21 to the second water tank 21A are provided.

  As described above, the container-type data center 1 is disposed on the roof, the rainwater storage tank 14 that is a storage tank for storing water, the electromagnetic valve 17 that regulates the flow of water in the storage tank, and the electromagnetic valve 17. Is opened, a sprinkling pipe 18 that sprinkles water on the roof, a gutter 19 that collects water that has flowed along the outer wall, a first water tank 21 that stores the water collected by the gutter 19, and a first water tank When the temperature detected by the indoor temperature sensor 502 is equal to or higher than the threshold, the first electromagnetic pump 17 is opened. And a control unit 501 for spraying water on the roof.

  Accordingly, there is an effect that the temperature inside the container can be efficiently maintained within a certain range even if the outside temperature changes.

  Although several embodiments have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 11 Container part 12 Cooling device 14 Rainwater water tank 17 Solenoid valve 18 Sprinkling pipe 19 樋 21 1st water tank 21A 2nd water tank

Claims (5)

A container section for storing electronic devices inside,
A water storage tank that is arranged at a position higher than the roof of the container part and stores water;
A solenoid valve for regulating the flow of water in the water storage tank;
When the electromagnetic valve is opened, a watering pipe for watering the roof of the container part,
An indoor temperature sensor for detecting the indoor temperature;
When the temperature detected by the indoor temperature sensor is equal to or higher than a threshold value, a controller that opens the electromagnetic valve and sprinkles the water on the roof;
A container-type data center. A bowl for collecting the water that has flowed along the outer wall of the container part;
A first water reservoir for storing the water collected by the dredge;
A first pump for supplying the water from the first water tank to the solenoid valve;
Further comprising
The controller is
When the temperature detected by the indoor temperature sensor is equal to or higher than a threshold value, the electromagnetic valve is opened to spray the water onto the roof, and the water in the first water tank is supplied to the electromagnetic by the first pump. The container type data center according to claim 1, wherein the container type data center is supplied to a valve. A second water tank installed in the warm air compartment of the container part;
A water pump for feeding water from the first water tank to the second water tank;
A second pump for supplying the water from the second water tank to the solenoid valve;
An outdoor temperature sensor for detecting the temperature of the outside air of the container part;
Further comprising
The first water tank is
Installed in the cold air compartment of the container part,
The controller is
When the outdoor temperature detected by the outdoor temperature sensor is lower than the indoor temperature detected by the indoor temperature sensor and the temperature difference between the outdoor temperature and the indoor temperature is equal to or greater than a threshold value, the water pump is operated to The container type data center according to claim 2, wherein water in one water tank is sent to the second water tank, and the electromagnetic valve is opened to spray the water onto the roof. The container part is
The container-type data center according to claim 3, further comprising a rib for restricting the water flow to be uniform on an outer wall. The indoor temperature sensor
A first indoor temperature sensor installed in the cold air compartment;
A second indoor temperature sensor installed in the warm air compartment;
Including
The controller is
When the indoor temperature detected based on the output of the first indoor temperature sensor reaches a threshold value or more, water is sprinkled on the outer wall on the cold air compartment side, and the detected indoor temperature based on the output of the second indoor temperature sensor is The container-type data center according to claim 1, wherein the solenoid valve is controlled so as to sprinkle water on the outer wall on the warm air section side when reaching a threshold value or more.

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