CN108592268A - A kind of energy saving cooling communications equipment room certainly of suitable cold area in north - Google Patents

Abstract

An energy-saving self-cooling communication machine room suitable for northern alpine regions, including a machine room body, an air conditioner is arranged in the machine room body, and the outer wall of the machine room body is composed of a vertical heat exchange plate and an outer wall close to the vertical heat exchange plate. The grid-like frame body on the side is composed of a heat preservation block in each grid of the frame body, and a horizontal rotating shaft is pierced in each layer of the frame body, and the horizontal rotating shaft is fixedly connected with the heat preservation block and can drive the heat preservation The block rotates, and one end of the horizontal rotating shaft is connected with the driving mechanism. When the temperature is low, the invention can rotate the heat preservation block to maximize the use of the external low temperature environment to cool down the machine room, effectively reducing the frequency of use of the air conditioner, and conforming to the design concept of energy saving and emission reduction; the invention can automatically control the opening of the heat preservation block according to the ambient temperature And off, to achieve automatic temperature adjustment.

Description

An energy-saving self-cooling communication room suitable for northern alpine regions

technical field

The invention relates to the technical field of cooling and energy saving, in particular to a cooling device for an outdoor machine room.

Background technique

With the advent of the information age, a large number of regional and industry data centers have been born. These centers need to build large-scale computer rooms and install a large number of electronic communication equipment. Electronic equipment will generate a lot of heat when it is working. In order to ensure the safe and stable operation of the equipment, a large number of air-conditioning equipment is equipped for artificial cooling to ensure a constant temperature and humidity in the computer room. The power consumption of these communication and data center computer rooms is huge. It's a small fee. Moreover, most of the existing communication hubs, data center computer rooms, etc. often have a situation where the outdoor temperature is very low, but the indoors still consume a lot of power and turn on the air conditioner for cooling.

The climate in northern and alpine regions is characterized by a large temperature difference between winter and summer, and a large temperature difference between day and night in spring and autumn. The seasonal environmental climate itself can be used as a natural cold source, which can be scientifically and fully utilized in an appropriate way , greatly reducing the energy consumption of artificial refrigeration, to achieve the purpose of energy saving and emission reduction.

Invention content.

The object of the present invention is to design a cooling device for an outdoor machine room to use these periodic low-temperature environments to cool the outdoor machine room so as to achieve the purpose of energy saving and emission reduction.

For this reason, the present invention adopts following technical scheme:

An energy-saving self-cooling communication machine room suitable for northern alpine regions, including a machine room body, an air conditioner is installed in the machine room body, and the outer wall of the machine room body is composed of a vertical heat exchange plate and is close to the outer surface of the vertical heat exchange plate Each grid of the frame body is provided with a thermal insulation block, and a horizontal rotating shaft is pierced in each grid of the frame body, and the horizontal rotating shaft is fixedly connected with the thermal insulation block and can drive the thermal insulation block To rotate, one end of the horizontal rotating shaft is connected with the driving mechanism.

Further, the top of the machine room body is composed of a horizontal heat exchange plate, and the top of the horizontal heat exchange plate is provided with an air inlet chamber, and the end of the air inlet chamber corresponding to the outer wall of the machine room body is an open structure and forms an air inlet, The air inlet corresponds to one or more layers of grids of the frame body.

Further, the machine room body is a multi-layer structure, and an air inlet cavity is arranged between two adjacent machine room bodies.

Further, the drive mechanism includes a chain and a servo motor, a sprocket is provided at one end of the horizontal shaft, the chain is mounted on the sprocket, and the servo motor is connected to one of the horizontal shafts.

Further, it also includes a controller, the first temperature sensor for measuring the internal environment temperature of the computer room is arranged inside the computer room body, and the second temperature sensor for measuring the external environment temperature of the computer room is arranged outside the computer room body, and the controller and The servo motor, the first temperature sensor, the second temperature sensor are connected with the air conditioner.

The beneficial effects of the present invention are: when the air temperature is low, the insulation block can be rotated to make maximum use of the external low-temperature environment to cool down the machine room, effectively reducing the frequency of use of the air conditioner, and conforming to the design concept of energy saving and emission reduction; the present invention can automatically Control the opening and closing of the insulation block to realize the automatic adjustment of the temperature.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is the schematic structural view when the insulation block of the present invention is opened;

Fig. 3 is the structural representation when the insulation block of the present invention is put down;

Fig. 4 is the system control schematic diagram of the present invention;

In the figure: 1-insulation block, 2-chain, 3-horizontal shaft, 4-sprocket, 5-servo motor, 6-frame body, 7-horizontal heat exchange plate, 8-vertical heat exchange plate, 9-inlet Air cavity, 10-first temperature sensor, 11-second temperature sensor, 12-air conditioner, 13-controller.

Detailed ways

The present invention will be further described below in conjunction with accompanying drawing:

As shown in Figure 1, an energy-saving self-cooling communication machine room suitable for northern alpine regions includes a machine room body, the top of which is composed of a horizontal heat exchange plate 7, and the top of the horizontal heat exchange plate 7 is provided with an air inlet A cavity 9, the end of the air inlet cavity 9 corresponding to the outer wall of the machine room body is an open structure and forms an air inlet, and the air inlet corresponds to a layer of grid of the frame body 6. When the machine room body is provided with a multi-layer structure, the air inlet cavity 9 is arranged between the machine room bodies on two adjacent floors, and the multi-layer structure is an integrated structure. In addition, it also includes a controller 13, the first temperature sensor 10 for measuring the internal environment temperature of the computer room is arranged in the computer room body, and the second temperature sensor 11 for measuring the external environment temperature of the computer room is arranged outside the computer room body, and the control The device 13 is connected with the servo motor 5, the first temperature sensor 10, the second temperature sensor 11 and the air conditioner 12.

As shown in Figure 2, the outer wall of the machine room body is composed of a vertical heat exchange plate 8 and a grid-shaped frame body 6 close to the outer surface of the vertical heat exchange plate 8, each grid of the frame body 6 A thermal insulation block 1 is provided inside, and a horizontal rotating shaft 3 is perforated in each layer of the frame body 6. The horizontal rotating shaft 3 is fixedly connected with the thermal insulation block 1 and can drive the thermal insulation block 1 to rotate. One end of the horizontal rotating shaft 3 is connected to the drive Organizations are connected. Described driving mechanism comprises chain 2, sprocket wheel 4 and servo motor 5, and described sprocket wheel 4 is installed on one end of horizontal rotating shaft 3, and chain 2 is installed on the sprocket wheel 4, and described servo motor 5 is connected with horizontal rotating shaft 3, Chain 2, sprocket wheel 4 and servomotor 5 can be closed with wallboard.

In the present invention, the insulation block 1 can be made of common heat-insulating and flame-retardant materials, and the vertical heat exchange plate 8 and the horizontal heat exchange plate 7 are made of metal materials with high strength and good heat dissipation, preferably thin steel plates.

The working principle of the present invention is as follows:

The maximum temperature and the minimum temperature required for the normal operation of the equipment in the machine room are set on the controller 13, and the controller 13 is connected with the first temperature sensor 10, the second temperature sensor 11, the servo motor 5 and the air conditioner 12.

When the first temperature sensor 10 detects that the temperature inside the machine room is higher than the preset maximum operating temperature, the controller 13 controls the air conditioner 12 to start cooling; at the same time, if the second temperature sensor 11 detects that the temperature outside the machine room is lower than When the temperature is high, the controller 13 controls the rotation of the servo motor 5, which drives the horizontal shaft 3 and the insulation block 1 to rotate, the insulation block 1 rotates to the open position, and the servo motor 5 stops rotating. At this time, the insulation block 1 is opened, and the external low temperature is used for heat exchange. Accelerate the cooling speed of the computer room; if the second temperature sensor 11 detects that the external temperature of the computer room is higher than the internal temperature of the computer room, the thermal insulation block 1 is not opened, and the internal heat insulation is carried out. When the first temperature sensor 10 detects that the temperature in the machine room is lower than the maximum operating temperature, the controller 13 controls the air conditioner 12 to stop working.

In winter or at night, when the first temperature sensor 10 detects that the internal temperature of the machine room is lower than the preset minimum operating temperature, the controller 13 controls the air conditioner 12 to start heating up to increase the temperature in the machine room; The ambient temperature is generally lower than the preset minimum temperature value, so the controller 13 controls the rotation of the servo motor 5, which drives the horizontal shaft 3 and the heat preservation block 1 to rotate, and the heat preservation block 1 rotates to the lowered position, and the servo motor 5 stops rotating. Block 1 is put down, which can block the external low temperature and keep warm; when the first temperature sensor 10 detects that the internal temperature of the machine room reaches the minimum working temperature, the controller controls the air conditioner to stop heating up.

In the present invention, when the insulation block 1 is closed at a high temperature, it can block the external high temperature, and when the insulation block 1 is closed at a low temperature, it can block the external low temperature, thereby reducing the working time of the air conditioner 12 and reducing power consumption; the vertical heat exchange plate 8 and The horizontal heat exchange plate 7 forms a closed structure, which meets the requirements of dustproof and waterproof for the equipment.

Apparently, the above-mentioned embodiments are only examples for clearly illustrating the technical solution of the present invention, rather than limiting the implementation of the present invention. For those of ordinary skill in the art, other changes or changes in different forms can be made on the basis of the above description. All modifications, equivalent replacements and improvements made within the spirit and principles of the present invention shall be included within the protection scope of the claims of the present invention.

Claims (5)

1. An energy-saving self-cooling communication machine room suitable for northern alpine regions, including a machine room body, characterized in that: an air conditioner is arranged in the machine room body, and the outer wall of the machine room body is composed of vertical heat exchange plates and close to vertical The outer surface of the straight heat exchange plate is composed of a grid-shaped frame body, each grid of the frame body is provided with a heat preservation block, and a horizontal shaft is pierced in each layer of the frame body, and the horizontal shaft is fixed to the heat preservation block It is connected and can drive the insulation block to rotate, and one end of the horizontal rotating shaft is connected with the driving mechanism. 2. An energy-saving self-cooling communication machine room suitable for northern alpine regions according to claim 1, characterized in that, the top of the machine room body is composed of a horizontal heat exchange plate, and the top of the horizontal heat exchange plate is provided with an inlet The air cavity, one end of the air inlet cavity corresponding to the outer wall of the main body of the machine room is an open structure and forms an air inlet, and the air inlet corresponds to one or more layers of grids of the frame body. 3. An energy-saving self-cooling communication machine room suitable for northern alpine regions according to claim 2, characterized in that the machine room body is a multi-layer structure, and an air inlet cavity is arranged between two adjacent layers of the machine room body. 4. An energy-saving self-cooling communication machine room suitable for northern alpine regions according to claim 1, wherein the drive mechanism includes a chain and a servo motor, one end of the horizontal shaft is provided with a sprocket, and the chain Installed on the sprocket, the servo motor is connected with one of the horizontal shafts. 5. A kind of energy-saving self-cooling communication machine room suitable for northern alpine regions according to claim 1, characterized in that it also includes a controller, and a first temperature sensor for measuring the internal ambient temperature of the machine room is arranged in the machine room body, A second temperature sensor for measuring the ambient temperature outside the machine room is arranged outside the machine room body, and the controller is connected with the servo motor, the first temperature sensor, the second temperature sensor and the air conditioner.