CN107676904A - A kind of base station machine room structure of the buried heat-exchange method based on air dielectric - Google Patents

Abstract

The invention discloses a kind of base station machine room structure of the buried heat-exchange method based on air dielectric, and it is different from the ground energy heat exchange structure based on water source medium, practical performance and effect are further increased in terms of itself energy consumption index and construction cost.The present invention breaks existing computer room overall heat exchange pattern, and seal box is set on the outside of base station equipment, the volume of required heat exchange is greatly decreased so that heat exchange can be concentrated more.Meanwhile it is used as temperature adjustment source by the use of 20 DEG C of thermostatic characteristics of underground itself, it is only necessary to provide power using blower fan, do not influenceed by region, time, there is preferable energy-saving effect and adaptability.Through practical measurement, using the present invention, under various regions, climatic environment, can by this structure by the temperature control in target temperature control region at 10 ~ 30 DEG C, and realize and be precisely controlled in this section, the normal operation of equipment is effectively ensured；The power consumption of cooling in summer is reduced to 20 or so the percent of existing air conditioner refrigerating.

Description

A kind of base station machine room structure of the buried heat-exchange method based on air dielectric

Technical field

The present invention relates to computer room field, especially computer room structure design field, specially a kind of ground based on air dielectric The base station machine room structure of buried heat-exchange method.

Background technology

Public mobile communication base station is a kind of form of radio station, is referred in certain area of radio coverage, is led to Mobile switching center is crossed, the transceiving letter radio station of information transmission is carried out between mobile telephone terminal.Mobile communication The construction of base station is the pith of mobile communication carrier of China investment, and the construction of mobile communication base station is typically all to surround to cover The key element such as capping, speech quality, returns of investment, construction difficulty or ease, easy to maintenance is carried out.Wherein, the communication base station of base station generally divides For two classes, a kind of is the macro station for being placed in computer room several communication equipments and ups power supplys；A kind of is built-in device and ups power supplys The integration station of outdoor cabinet.

And China's major part communication base station is built on high mountain out of doors, particularly led in summer, outdoor temperature height Cause the computer room temperature of storage equipment in base station also very high, be all that computer room is cooled using air-conditioning according to consistent mode, To equipment region temperature control below 45 DEG C, to ups power supply areas temperature requirements below 30 DEG C.Generally, macro station computer room One to three air-conditionings are configured as the case may be, and above-mentioned temperature requirements are completed in computer room；In integration station, equipment cabinet passes through interior Exogenous wind independent loops structure using forced heat-exchanging mode in cabinet freeze, and ensures 45 DEG C of ＜ in equipment cabinet, the machine of the power supply containing ups Cabinet configuration machine cabinet air-conditioner, ensure 30 DEG C of ＜ in power supply cabinet.This pattern all the time all in use in various base station machine rooms, But the maintenance cost of air-conditioning and operating cost are very high, the electricity charge of the consumption of air-conditioning system 1 year account for the total power consumption in base station 30% ~ 60%, and the maintenance and repair expense of upper air-conditioning is not included also.Therefore for whole base station system, not only maintenance and repair expense Height, and consume the substantial amounts of energy.

In view of the above-mentioned problems, Chinese patent CN201520219547.0 discloses a kind of base station communication station computer room, and specifically Disclose following content：Computer room, including communication base station room, the roof of the communication base station room are set by installation pedestal installation There is an at least hot wind discharge duct, the hot wind discharge duct is communicated with inside the communication base station room by the mouth of pipe, the hot blast row Outlet pipe connects the exhaust apparatus of rotatable exhaust, including rotatable tube, and vane device, vane device bag are set in rotatable tube Include the guide plate of a pair of right angle connections；The side wall of rotatable tube is provided with exhaust outlet；The top of the communication base station room is provided with cold But water tank, the cooling water tank is interior to be provided with heat exchanger, and the hot gas upstream end of the heat exchanger reaches the communication base station machine In room, the cold air outlet side connection refrigerator pipe of the heat exchanger, the cold air outlet of the refrigerator pipe is located at the communication base station The wall bottom of computer room.The utility model can complete heat transfer cycle, can be effectively by heat transfer when computer room runs at high speed To outside, computer room and air-conditioning equipment energy consumption are substantially reduced.In the structure, computer room is exchanged heat using heat exchanger, heat exchange effect Rate is low, thereby increases and it is possible to the problem of temperature can not meet computer room requirement be present.

Therefore, there is an urgent need to a kind of new method/or device, to solve at present to carry out the temperature in computer room using air-conditioning During regulation, existing base station maintenance cost, the problem of energy consumption is higher.

The content of the invention

The goal of the invention of the present invention is：For existing base station machine room, generally use air-conditioning enters to the temperature in computer room During row regulation, cause base station maintenance cost, energy consumption higher, and the heat exchanger that part computer room is engaged using hot blast exhaust duct enters Trip temperature is adjusted, the problem of also still needing to be cooled using air-conditioning, there is provided a kind of buried heat exchange based on air dielectric The base station machine room structure of method.The present invention has broken the pattern of existing computer room overall heat exchange, and sealing is set on the outside of base station equipment Case, the volume of required heat exchange is greatly decreased so that heat exchange can be concentrated more.Meanwhile the present invention utilizes underground itself 20 DEG C of thermostatic characteristics are as temperature adjustment source, it is only necessary to provide power using blower fan, do not influenceed, had by region, time Preferable energy-saving effect and adaptability.Improved based on structure so that structure of the invention is extremely simple, more easily safeguards.Through Practical measurement, using the present invention, the temperature in confined space can be realized in 20 ~ 30 DEG C of sections to be precisely controlled, and is effectively ensured The normal operation of equipment；The power consumption of cooling in summer is reduced to less than 5 the percent of existing air conditioner refrigerating.Meanwhile for height Cold area, the present invention can also provide the super low energy consumption constant temperature effect in 20 DEG C of ± 10 sections.In the present invention, only blower fan can consume electricity Source so that the maintenance cost of equipment is greatly reduced, and the operating cost of base station is greatly decreased, and has high economic value.In addition, The present invention sets corresponding seal box for computer room so that the space/of required temperature adjustment or volume greatly reduce so that blower fan Energy consumption is further reduced.

To achieve these goals, the present invention adopts the following technical scheme that：

A kind of base station machine room structure of the buried heat-exchange method based on air dielectric, including computer room, the base that is arranged in computer room Station equipment, seal box, the first pipeline, second pipe, blower fan, bottom connection chamber, the base station equipment are enclosed in seal box, institute State and gas outlet, air inlet are respectively arranged with seal box, the gas outlet connects chamber with bottom by the first pipeline and is connected, described Bottom connection chamber is connected by second pipe with air inlet, the seal box, the first pipeline, bottom connection chamber, second pipe structure The circulatory system is adjusted into gas temperature, the blower fan is arranged in the gas temperature regulation circulatory system and blower fan can drive gas temperature Gas flowing in the degree regulation circulatory system；

The base station equipment, seal box are respectively that several and base station equipment are correspondingly arranged on seal box.

The bottom connection chamber is hollow cavity.

Bottom connection chamber is the metal hollow cavity body structure for being embedded in below ground 10--100 rice, the second pipe Under ground portion be located inside the first pipeline.

The second pipe outer wall is provided with turbulent structure.

The water of bottom connection intracavitary can also be discharged including the drainage arrangement being connected with bottom connection chamber and drainage arrangement.

The drainage arrangement includes drainpipe, the water pump being connected with bottom connection chamber, and the water side of the drainpipe is set On the ground, and water pump is arranged on drainpipe one end.

Also include water level measurement device, control system, the water level measurement device is arranged on bottom connection intracavitary, the water Position-finding device, water pump are connected with control system respectively, and the water level measurement device can connect bottom the water level information of intracavitary Pass to control system；When the water level of bottom connection intracavitary attains to a high place setting value, control system starts water pump and drawn water； When the water level of bottom connection intracavitary reaches low level setting value, control system switches off the pump, and stops pumping.

The pipeline being connected with water level measurement device is wrapped in interior adiabatic pipe outer wall, forms turbulent structure；

Or drainpipe is wrapped in interior adiabatic pipe outer wall, turbulent structure is formed；

Or water pump sets bottom to connect intracavitary, adiabatic pipe outer wall including the cable winds being connected with water pump, formation turbulent structure.

For foregoing problems, the present invention provides a kind of base station machine room knot of the buried heat-exchange method based on air dielectric Structure.The structure includes computer room, the base station equipment being arranged in computer room, seal box, the first pipeline, second pipe, blower fan, bottom company Cavity, base station equipment are enclosed in seal box, and gas outlet, air inlet are respectively arranged with seal box, and gas outlet passes through the first pipe Road is connected with bottom connection chamber, and bottom connection chamber is connected by second pipe with air inlet, and seal box, the first pipeline, bottom connect Cavity, second pipe form the gas temperature regulation circulatory system, and blower fan is arranged in the gas temperature regulation circulatory system and blower fan The gas flowing in the gas temperature regulation circulatory system can be driven.When the device works, under the drive of blower fan, gas is from outlet Discharged in mouthful, enter bottom connection intracavitary through the first pipeline, chamber is connected as medium using bottom so that the gas of entrance enters with soil Row heat exchange.Summer, in the process, soil cool down to the high-temperature gas entered from the first pipeline, after obtaining heat exchange Cold wind；Cold wind passes sequentially through second pipe again, air inlet enters in sealing space, forms the gas temperature regulation circulatory system, So as to realize the circulation temperature lowering to equipment in base station machine room.And in the north or the outdoor temperature such as winter it is less than 0 DEG C, even -10 In ~ -20 DEG C of environment, soil can heat to the gas entered from the first pipeline, the hot blast after being exchanged heat；Hot blast again according to It is secondary to be entered by second pipe, air inlet in sealing space, the gas temperature regulation circulatory system is formed, so as to realize to base station machine The circulation heating of equipment in room.Using the present invention, enable between the gas temperature of gas outlet maintains 20 ~ 30 DEG C, effectively Reduce the energy consumption of base station.

In the structure, the pattern of existing computer room overall heat exchange is broken, seal box is set on the outside of base station equipment, significantly subtracted The volume of heat exchange needed for few so that heat exchange can be concentrated more.Meanwhile the present invention utilizes 20 DEG C of constant temperature spies of underground itself Property be used as low-temperature receiver, it is only necessary to using blower fan provide power, do not influenceed by region, time, have preferable energy-saving effect and Adaptability.

Improved based on said structure so that structure of the invention is extremely simple, more easily safeguards.In the present invention, only Blower fan can consume power supply so that the maintenance cost of equipment is greatly reduced, and the operating cost of base station is greatly decreased, and has high warp Ji value.

Further, blower fan is arranged on the first pipeline, and gas outlet is located above air inlet.Based on the principle expanded with heat and contract with cold, The density of hot-air is less than cold air, and gas outlet is located above air inlet by the present invention, is advantageous to preferably adapt to the trend of wind, Reduce energy consumption and air drag.

Further, base station equipment, seal box are respectively several, and base station equipment is correspondingly arranged on seal box.Base station Equipment generally includes power supply, other equipment, therefore, each equipment is respectively provided with corresponding seal box by the present invention, and uses this hair It is bright that temperature is controlled, energy resource consumption is effectively reduced, reduces overall cost.

In order to slow down seal box and extraneous heat exchange, the present invention also sets insulation construction on seal box.

Further, connection chamber in bottom be hollow cavity, and gas outlet and bottom connect pipeline, air inlet and the bottom that chamber is connected Connection chamber connected pipeline in portion's connects the cavity connection of intracavitary with bottom respectively.Wherein, bottom connection chamber use be embedded in ground with It is not less than 10 meters of metal hollow cavity body structure down.In the structure, the advantage of buried heat exchange is efficiently utilized, makes full use of soil Earth can be used as cooling source, and the under ground portion of second pipe is arranged in the first inner-walls of duct, so as to avoid in second pipe Gas after heat exchange is heated in uphill process by environment, so as to realize the purpose effectively to exchange heat.In the present invention, bottom connects Cavity structure is extremely simple, Maintenance free, and use cost, operation cost are extremely low, service life length, has higher economic valency Value.Further, connection chamber in bottom is metal hollow cavity body structure.

In order to strengthen heat exchanger effectiveness, the present invention is provided with turbulent knot in the pipeline that gas outlet is connected with bottom connection chamber Structure.By turbulent structure, effectively extend the residence time of gas in the duct, strengthen the heat exchange degree of gas and soil, greatly Width improving heat exchanging efficiency.

In the present invention, the pipeline that gas outlet is connected with bottom connection chamber includes the first ground epimere of the side of resting on the ground, position In the pipeline bag that the first underground section connected as one below ground and with the first ground epimere, air inlet are connected with bottom connection chamber Include the second ground epimere of the side of resting on the ground, positioned at the second underground section connected as one below ground and with the second ground epimere, Second underground section is arranged on inside the first underground section and the second underground section and the first underground section form internal and external casing structure.

Under normal circumstances, it is necessary to be separately provided two independent pipelines, it is necessary to make a call to two different wells towards underground respectively, with Realize the installation of pipeline and the conveying respectively of cold wind and hot blast.And in the present invention, using internal and external casing structure, it is only necessary to beaten towards underground A bite well, the installation of two pipelines is realized, equipment installation cost is greatly reduced.Further, since using internal and external casing structure, Contact of the inner tube with external environment is effectively reduced, reduces the possibility of its corrosion, is advantageous to extend the service life of inner tube.

Influenceed by air pressure and temperature, the moisture in gas can be condensed into the globule and drop to bottom connection intracavitary.Therefore, The present invention sets the drainage arrangement being connected with bottom connection chamber, and the water that bottom can be connected to intracavitary condensation by drainage arrangement is arranged Go out.Further, drainage arrangement includes drainpipe, the water pump being connected with bottom connection chamber；The water side of drainpipe is arranged on ground On, the other end is connected with bottom connection chamber；Water pump is arranged on drainpipe, and power is provided for drainpipe.In the structure, hot-air Caused condensed water will be provided with level measuring and Auto-drainage dress in shaft bottom ponding, system in hoistway cooling procedure Put.In order to further reduce the energy consumption of water pump, present invention additionally comprises water level measurement device, control system.Water level measurement device is set Bottom set portion connects intracavitary, and it can connect the water level of intracavitary to bottom and be measured；Wherein, water level measurement device, water pump difference It is connected with control system, the water level information that water level measurement device can connect bottom intracavitary passes to control system, control system The then water level based on measure, is controlled to water pump；When the water level of bottom connection intracavitary attains to a high place setting value, control system Start water pump to be drawn water；When the water level of bottom connection intracavitary reaches low level setting value, control system switches off the pump, and stops taking out Water.Using which, the normal operation of device had both been can guarantee that, has caused water pump to use variable frequency work again, effectively reduces pump energy consumption.

Under normal circumstances, it is desirable to which the confined space of the battery in computer room needs to control below 30 DEG C.Through practical measurement, adopt With the present invention, the temperature in confined space can be maintained at 28 DEG C, the normal operation of equipment is effectively ensured；Autumn and winter Power consumption is reduced to less than 1/10th of existing air conditioner refrigerating, and summer energy consumption be only use the 5% of air-conditioning temperature-reducing energy consumption with Under.

Brief description of the drawings

Examples of the present invention will be described by way of reference to the accompanying drawings, wherein：

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

Marked in figure：1st, computer room, 3, seal box, the 4, first pipeline, 5, second pipe, 7, bottom connection chamber, 8, gas outlet, 9th, air inlet, 10, water pump, 11, drainpipe.

Embodiment

All features disclosed in this specification, or disclosed all methods or during the step of, except mutually exclusive Feature and/or step beyond, can combine in any way.

Any feature disclosed in this specification, unless specifically stated otherwise, can be equivalent by other or with similar purpose Alternative features are replaced.I.e., unless specifically stated otherwise, each feature is an example in a series of equivalent or similar characteristics .

Embodiment 1

As illustrated, the base station machine room structure of the present embodiment, including computer room, the base station equipment being arranged in computer room, seal box, One pipeline, second pipe, blower fan, bottom connection chamber, base station equipment are enclosed in seal box, and outlet is respectively arranged with seal box Mouth, air inlet, gas outlet are located above air inlet, and gas outlet connects chamber with bottom by the first pipeline and is connected, bottom connection chamber It is connected by second pipe with air inlet, seal box, the first pipeline, bottom connection chamber, second pipe form gas temperature regulation The circulatory system.In the present embodiment, blower fan is arranged on the first pipeline, and blower fan drives the gas in the gas temperature regulation circulatory system Flowing.In the present embodiment, bottom connection chamber use metal hollow cavity body structure, gas outlet and bottom connect the pipeline that chamber is connected, The cavity that air inlet connects intracavitary with the pipeline that bottom connection chamber is connected with bottom respectively is connected, and it is passed by heat exchange System, it is therefore not necessary to other apparatus driving equipments.In the present embodiment, second pipe is prepared using heat-insulating material, using this It mode, can effectively avoid the cold air in second pipe from being heated in rising, and then cause what heat exchange efficiency of the present invention reduced Problem.In the present embodiment, bottom connection chamber uses metal hollow cavity body structure, and is embedded in below 10 meters of ground；Second pipe Under ground portion is located in the first inner-walls of duct.

In the present embodiment, base station equipment includes power supply and other equipment etc., can set two seal boxs, one is arranged on Outside power supply, one is arranged on outside other equipment；Meanwhile the atmosphere flowed out through second pipe is divided into some stocks and respectively enters phase Answer in the air inlet of seal box, after the gas that sealed case exports then is combined into one, into the first pipeline.

Further, in the present embodiment, insulation construction is additionally provided with seal box, to reduce inside incubator and outside incubator The heat exchange of side, ensure the heat transfer effect of the present invention.

In the present embodiment, first ground epimere of the pipeline including the side of resting on the ground that gas outlet and bottom connection chamber are connected, Positioned at the first underground section connected as one below ground and with the first ground epimere, pipeline that air inlet and bottom connection chamber are connected The second ground epimere including the side of resting on the ground, positioned at the second underground connected as one below ground and with the second ground epimere Section, the second underground section is arranged on inside the first underground section and the second underground section and the first underground section form internal and external casing structure.This In embodiment, the first underground section is provided with turbulent structure, by turbulent structure, effective extension device is in the first underground section Gas residence time, improve heat transfer effect.

When temperature is less than normal temperature, moisture in air can natural condensation into the globule, particularly in summer, work as outside air temperature It is higher, and during one low temperature of appearance, then the substantial amounts of globule just occurs at low temperature.In the present embodiment, the water in air Branch is condensed on tube wall, and is deposited on bottom connection intracavitary.Therefore, in the present embodiment, in addition to connect chamber with bottom and be connected Drainage arrangement.The drainage arrangement include with bottom connection chamber be connected drainpipe, water pump, water level measurement device, control system, One end of drainpipe is set on the ground, and the other end of drainpipe is connected with bottom connection chamber, and water pump is arranged on drainpipe.Water Position-finding device sets bottom to connect intracavitary, and water level measurement device, water pump are connected with control system respectively.In the dress of the present embodiment When putting work, the water level information that water level measurement device can connect bottom intracavitary passes to control system, and control system is then based on The water level of measure, is controlled to water pump；When the water level of bottom connection intracavitary reaches high-order setting value, control system starts water Pump is drawn water, and is discharged water by drainpipe；When the water level of bottom connection intracavitary reaches status setting value, control system Switch off the pump, stop pumping.

Through practical measurement, the Boiler pressure control in air channel was 300m3/h or so, in interior during use, the whole system of 1 year Normal operation, the temperature for realizing device temperature in base station machine room are less than 40 DEG C, 28 DEG C of ups power supplys ＜ stablizing effect, power consumption Amount is only less than 5% before transforming, and maintenance cost, operation cost are greatly reduced, and have remarkable progress.

The invention is not limited in foregoing embodiment.The present invention, which expands to, any in this manual to be disclosed New feature or any new combination, and disclose any new method or process the step of or any new combination.

Claims (9)

1. a kind of base station machine room structure of the buried heat-exchange method based on air dielectric, it is characterised in that including computer room, set Base station equipment, seal box, the first pipeline, second pipe, blower fan, bottom connection chamber in computer room, the base station equipment are closed In seal box, gas outlet, air inlet are respectively arranged with the seal box, the gas outlet is connected by the first pipeline and bottom Cavity is connected, and the bottom connection chamber is connected by second pipe with air inlet, the seal box, the first pipeline, bottom connection Chamber, second pipe form the gas temperature regulation circulatory system, and the blower fan is arranged in the gas temperature regulation circulatory system and wind Function drives the gas flowing in the gas temperature regulation circulatory system；

The second pipe is prepared using heat-insulating material.

2. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim 1, it is characterised in that The base station equipment is correspondingly arranged on seal box.

3. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim any one of 1-2, its It is characterised by, the bottom connection chamber is hollow cavity.

4. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim 3, it is characterised in that Bottom connection chamber is the metal hollow cavity body structure for being embedded in below ground 10--100 rice, the underground part of the second pipe Divide inside the first pipeline.

5. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim any one of 1-4, its It is characterised by, the second pipe outer wall is provided with turbulent structure.

6. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim any one of 1-5, its It is characterised by, in addition to the drainage arrangement being connected with bottom connection chamber, the water that drainage arrangement can connect bottom intracavitary are discharged.

7. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim 6, it is characterised in that The drainage arrangement includes drainpipe, the water pump being connected with bottom connection chamber, and the water side of the drainpipe is set on the ground, Water pump is arranged on drainpipe one end.

8. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim 7, it is characterised in that Also include water level measurement device, control system, the water level measurement device is arranged on bottom connection intracavitary, the water stage measurement dress Put, water pump is connected with control system respectively, the water level measurement device can by bottom connect intracavitary water level information pass to control System processed；When the water level of bottom connection intracavitary attains to a high place setting value, control system starts water pump and drawn water；When bottom connects When water level in cavity reaches low level setting value, control system switches off the pump, and stops pumping.

9. the base station machine room structure of the buried heat-exchange method based on air dielectric according to claim 8, with water stage measurement The connected pipeline of device is wrapped in interior adiabatic pipe outer wall, forms turbulent structure；

Or drainpipe is wrapped in interior adiabatic pipe outer wall, turbulent structure is formed；

Or water pump sets bottom to connect intracavitary, adiabatic pipe outer wall including the cable winds being connected with water pump, formation turbulent structure.