CN205476656U - Heat energy -saving environmental protection computer lab is led in circulation - Google Patents

Abstract

An energy-saving and environment-friendly machine room with circular heat conduction, comprising a thermal insulation wall board room, equipment and an air conditioner are arranged in the thermal insulation wall board room, and the upper part of the thermal insulation wall board room is divided into upper and lower space compartments for isolation. The heat exchange plate, the two opposite sides of the upper space cabin of the thermal insulation wall board house body are equipped with open-close shutters that communicate the upper space cabin with the outside atmosphere, and a fan linked with it is installed on the inside or outside of one of the open-close shutters . The utility model has dual functions of heat preservation and heat dissipation, which can be manually or automatically switched according to actual needs, thereby reducing the power consumption of the air conditioner in the machine room and realizing energy saving and emission reduction. And the utility model utilizes the principle that the cold air moves down and the hot air moves up, and the heat exchange layer is arranged on the top of the machine room, so that there is no need to arrange suction and exhaust equipment in the lower space cabin, which reduces costs and is more environmentally friendly.

Description

A circular heat conduction energy saving and environmental protection machine room

technical field

The utility model relates to a circular heat conduction, energy saving and environment protection machine room.

Background technique

At present, energy, especially electricity energy conservation, is attracting more and more attention from the society. According to incomplete statistics, only China Mobile consumed more than 2 million tons of standard coal in 2013. Among the electricity consumption, base stations and computer rooms accounted for 88%, which is quite The energy consumption of a small province in China is even equivalent to the energy consumption of a certain European country in foreign countries. This is because in the base stations and computer rooms of telecom operators, in order to ensure the normal operation of the internal equipment, the indoor temperature needs to be kept at around 26°C. The current conventional solution is to install an air conditioner in the computer room and keep it running throughout the year to ensure that the equipment in the computer room operates at a normal operating temperature. Energy saving and environmental protection.

Contents of the invention

Aiming at the problem that the current outdoor computer room maintains a normal working temperature and generates a large amount of electric energy consumption, the utility model proposes a circular heat conduction energy-saving and environmental protection computer room, which can switch and enable two working modes through intelligent automatic switching, and realize them respectively under different external temperatures. The heat preservation and heat dissipation can be switched freely, thereby reducing the use of air conditioners, thereby achieving the effect of energy saving.

The technical scheme that the utility model adopts is:

A circulating heat conduction, energy-saving and environment-friendly computer room, comprising a thermal insulation wall board room, in which equipment and an air conditioner are arranged in the thermal insulation wall board room, and is characterized in that: the upper part of the thermal insulation wall board room is provided with a partition for dividing it into isolation settings The heat exchange plates of the upper and lower space cabins, the two opposite sides of the upper space cabin of the thermal insulation wall panel house body are equipped with openable shutters that communicate the upper space cabin with the outside atmosphere, and one of the openable shutters is installed on the inside or outside. The fan associated with it. The utility model has dual functions of heat preservation and heat dissipation, which can be manually or automatically switched according to actual needs, thereby reducing the power consumption of the air conditioner in the machine room and realizing energy saving and emission reduction. And the utility model utilizes the principle that the cold air moves down and the hot air moves up, and the heat exchange layer is arranged on the top of the machine room, so that there is no need to arrange suction and exhaust equipment in the lower space cabin, which reduces costs and is more environmentally friendly.

Further, the heat exchange plate is fixed on the upper part of the insulation wall board room through a suspended ceiling or a bracket.

Further, the heat exchange plate is a heat conductor, which can quickly exchange heat on both sides of the plate, and can be made of thin aluminum plate, thin copper plate, thin steel plate, silica gel plate and other plates.

Further, a waterproof, heat-insulating and heat-insulating layer is provided at the openable shutter.

Furthermore, the fan is a single exhaust structure or a combined suction and exhaust structure, the main function of which is to guide and accelerate the air flow, so as to quickly change the air and dissipate the heat from heat conduction to the atmosphere as soon as possible. The best possible implementation is Low-power, low-energy axial flow fans can also be AC or DC cross-flow fans, and the number can be one, or two, three, four or more.

Further, the openable shutters and the fan are both manually controlled opening and closing structures or automatic control opening and closing structures. When the openable louver adopts a hinged window that can be electrically controlled, it can realize the opening and closing of the window according to the remote control signal, so as to selectively realize the connection or isolation of the heat exchange air duct with the outside, and the number can be two , can also be three, four or more.

Further, the wall panels of the thermal insulation wall panel house are sandwich panels, silica rock panels, fly ash wall panels, brick-concrete wall panels or prefabricated concrete wall panels with EPS, PU, and rock wool as core materials, which have Thermal insulation effect.

Further, the air conditioner is a self-excited air conditioner (or has the function of remote control start and stop), its main function is to maintain the temperature in the machine room, and it is also the largest source of power consumption. It is hoped that it can only reduce the its running time.

The utility model has the following advantages: 1. Zero pollution. Compared with the traditional fresh air system and other schemes, it is completely isolated from the outside air, prevents the intrusion of dust, and saves the process of frequently replacing the filter screen; 2. High efficiency, with the help of The internal thermal cycle of the machine room (hot air rises, cold air descends), and the heat exchange between the inside and the outside through the thin aluminum plate with excellent thermal conductivity has excellent efficiency; 3. Low cost, simple and beautiful structure does not occupy equipment space, and the overall cost input is effectively lower than the traditional one. solution.

Description of drawings

Fig. 1 is a front view sectional structural diagram of the utility model.

Fig. 2 is a side view sectional structure diagram of the utility model.

detailed description

The utility model will be further described below in conjunction with specific embodiments, but the utility model is not limited to these specific embodiments. Those skilled in the art should realize that the present invention covers all alternatives, improvements and equivalents that may be included within the scope of the claims.

Referring to Fig. 1 and Fig. 2, a kind of cycle heat conduction, energy-saving and environment-friendly machine room includes a thermal insulation wall board room body 1, and equipment 5 and an air conditioner 6 are arranged in the thermal insulation wall board room body 1, and the upper part of the thermal insulation wall board room body 1 A heat exchange plate 2 is provided to divide it into upper and lower space cabins which are isolated, and openings for connecting the upper space cabin 7 with the outside atmosphere are installed on the two opposite sides of the upper space cabin 7 of the insulation wall panel house body 1. Closed shutters 4, wherein a fan 3 interlocked with the inside or outside of one of the shutters 4 is installed. The utility model has dual functions of heat preservation and heat dissipation, which can be manually or automatically switched according to actual needs, thereby reducing the power consumption of the air conditioner 6 in the machine room and realizing energy saving and emission reduction. The equipment 5 and the air conditioner 6 of the present embodiment are fixed on the base plate. And the utility model utilizes the principle that the cold air moves down and the hot air moves up, and the heat exchange layer is arranged on the top of the machine room, so that there is no need to arrange suction and exhaust equipment in the lower space cabin, which reduces costs and is more environmentally friendly.

The heat exchange plate 2 described in this embodiment is fixed on the upper part of the insulation wall panel room 1 by means of a suspended ceiling or a bracket. A certain space is maintained between the heat exchange plate 2 and the top of the insulation wall panel room 1 to facilitate air circulation. It should be noted that the heat exchange plate 2 should cover the entire top, that is, the insulation wall panel room 1 must be completely isolated into two space cabins.

The heat exchange plate 2 in this embodiment is a heat conductor, which can quickly exchange heat on both sides of the plate, and can be made of thin aluminum plate, thin copper plate, thin steel plate, silica gel plate and other plates.

In this embodiment, the retractable shutter 4 is located on the wall of the thermal insulation wall panel room 1, and a small window of an appropriate size is opened in the wall of the thermal insulation wall panel room 1 to place the retractable shutter 4 in it. It should be noted that The retractable louvers 4 must be placed on the wallboard of the upper space cabin separated by the heat exchange plate 2, and the waterproof, thermal insulation and heat insulation layers are provided at the said retractable louvers, and the waterproof, thermal insulation, heat insulation and other treatments are done well.

The fan 3 described in this embodiment is a separate exhaust structure or a combined suction and exhaust structure. Its main function is to guide and accelerate the air flow, so as to quickly change the air and dissipate the heat from heat conduction to the atmosphere as soon as possible, which is the best possible implementation. The solution is an axial flow fan with low power and low energy consumption, or an AC or DC cross-flow fan, and the number can be one, or two, three, four or more.

Both the openable louvers 4 and the fan 3 described in this embodiment are manually controlled opening and closing structures or automatic control opening and closing structures. When the openable louver 4 adopts a hinged window that can be electrically controlled, it can realize the opening and closing of the window according to the remote control signal, so as to selectively realize the communication or isolation of the heat exchange air duct with the outside, and the number can be two one, or three, four or more.

The wall panel of the thermal insulation wall panel house body 1 described in this embodiment is a sandwich panel, silica rock panel, fly ash wall panel, brick-concrete wall panel or prefabricated concrete wall panel with EPS, PU, rock wool as the core material, It has thermal insulation effect.

The device 5 described in this embodiment is placed and operated in the computer room, and it emits a large amount of heat during operation, and the working temperature needs to be kept in a constant range. The air conditioner 6 is a self-excited air conditioner (or has a remote control start and stop function), its main function is to maintain the temperature in the machine room, and it is also the largest source of power consumption. operation hours.

The working principle of the utility model is: through the temperature sensor to detect the outdoor temperature of the machine room, when the outdoor temperature of the thermal insulation wall panel room 1 is higher than 26°C, the openable shutter 4 and the fan 3 are closed through manual or automatic control procedures, and the heat preservation The wall panel room 1 forms a closed thermal insulation cabin to effectively isolate the external heat, and at the same time, the air conditioner 6 is turned on to maintain the working temperature within a reasonable range; when the outdoor temperature of the thermal insulation wall panel room 1 is lower than (26-3) °C, through manual or automatic control procedures, open the shutters 4 and fans 3, and through the internal and external air circulation and the heat conduction of the heat exchange plate 2, the heat transfer between the upper and lower cabins is realized so that the equipment The heat dissipated by 5 is transferred to the outside of the thermal insulation wall panel room 1 to realize heat dissipation, thereby effectively reducing the frequency of use of the air conditioner 6 until it is turned off for use, and the working temperature in the thermal insulation panel room 1 is maintained within a reasonable range entirely by heat dissipation.

Claims (8)

1. A circulating heat conduction, energy-saving and environment-friendly machine room, comprising a thermal insulation wall board room, in which equipment and an air conditioner are arranged in the thermal insulation wall board room, characterized in that: the upper part of the thermal insulation wall board room is provided with a partition to divide it into isolation The heat exchange plates of the upper and lower space cabins are installed, and the two opposite sides of the upper space cabin of the thermal insulation wall board house are equipped with openable shutters that communicate the upper space cabin with the outside atmosphere, and one of the openable shutters is inside or outside. A fan associated with it is installed. 2. An energy-saving and environment-friendly machine room with circulating heat conduction as claimed in claim 1, characterized in that: the heat exchange plate is fixed on the upper part of the room with thermal insulation wall panels by means of a suspended ceiling or brackets. 3. An energy-saving and environment-friendly computer room with circulating heat conduction according to claim 1 or 2, characterized in that: the heat exchange plate is a heat conductor. 4. An energy-saving and environment-friendly computer room with circulating heat conduction as claimed in claim 3, characterized in that: the said openable shutter is provided with a waterproof, thermal insulation layer. 5. An energy-saving and environment-friendly computer room with circulating heat conduction as claimed in claim 4, characterized in that: the fan is a separate air exhaust structure or a combined air suction and exhaust structure. 6. An energy-saving and environment-friendly computer room with heat conduction circulation as claimed in claim 5, characterized in that: the openable shutters and the fan are both manually controlled open and close structures or automatically controlled open and close structures. 7. A cycle heat conduction energy-saving and environment-friendly machine room as claimed in claim 6, characterized in that: the wall panels of the thermal insulation wall panel room are sandwich panels and silica rock panels with EPS, PU, and rock wool as core materials , fly ash wall panels, brick-concrete wall panels or precast concrete wall panels. 8. An energy-saving and environment-friendly computer room with circulating heat conduction as claimed in claim 7, wherein the air conditioner is a self-activated air conditioner.