CN201110604Y - Energy-saving air conditioning equipment - Google Patents

Abstract

The utility model relates to the field of base station air-conditioners, which provides an energy saving air-conditioner comprising an indoor heat exchanger, an outdoor heat exchanger, a gas duct line, a liquid duct line and refrigerants, wherein one end of the liquid duct line is connected with the indoor heat exchanger, the other end of the liquid duct line is connected with the outdoor heat exchanger, the gas duct line is connected with the other two ends of the indoor heat exchanger and the outdoor heat exchanger to form a closed loop, and the refrigerants are filled in the closed loop. The energy saving air-conditioner accomplishes indoor cooling for communication base stations by evaporation and condensation of the refrigerants, totally utilizes the natural quality of the refrigerants, has energy saving advantage, and cooling to the communication base station has the advantages of long time, high efficiency and cleanliness.

Description

A kind of energy conservation air conditioning equipment

Technical field

The utility model relates to field of air conditioning, particularly relates to a kind of communication base station energy-conserving air-conditioning equipment

Background technology

A large amount of electronic equipments is installed in the mobile communication base station, these electronic equipment caloric values are big, and need year-round operation, in order to guarantee the operate as normal of electronic equipment, prevent high temperature ageing, prolong the service life of electronic devices and components, must be to base station processing of lowering the temperature, that is to say needs air-conditioning equipment to serve for it provides annual cooling cooling.

Polytype base station special air conditioner equipment is arranged in the market, and these equipment generally also have some power saving functions except having basic compression-type refrigerating system, mainly contain: the natural cooling and energy conserving method that adopts ethylene glycol; Or the natural cooling and energy conserving method of outdoor new wind is directly introduced in employing.These two kinds of methods respectively have its pluses and minuses, first method has the advantage that can guarantee the base station cleaning, reduce maintenance workload, but shortcoming is only just to obtain natural preferably cooling effect under lower outside air temperature, the hours worked that can carry out the nature cooling whole year is less, and this in addition method also has system complexity, the higher shortcoming of initial cost.Second method can obtain best natural cooling and energy conserving effect, yet because outdoor air directly enters the base station, and dust is easy to enter the base station, has increased the maintenance workload to the base station on the one hand, has also reduced the functional reliability of base station equipment on the other hand.Enter the base station although can take the filtration measure to reduce outdoor foreign particles such as dust; but increased the maintenance workload of air conditioner simultaneously again; for long-term unattended base station; inconvenience very; and foreign particles such as outdoor dust can cause the obstruction of filter; thereby reduce the introducing amount of outdoor air, reduce the effect of nature cooling and energy conserving.

The utility model content

The purpose of this utility model provides the air-conditioning equipment that a kind of communication base station uses, and a kind of communication base station air-conditioner equipment of energy-conserving and environment-protective particularly is provided.

For achieving the above object, the technical solution of the utility model provides a kind of energy conservation air conditioning equipment, comprises indoor heat exchanger, outdoor heat exchanger, liquid line, gas piping and refrigeration working medium; Described liquid line one end connects described indoor heat exchanger, and the other end connects described outdoor heat exchanger, and described gas piping connects two other interface of described indoor heat exchanger and outdoor heat exchanger, forms closed loop; In described closed loop, inject described refrigeration working medium.

Wherein, described outdoor heat exchanger comprises gas service pipes, outdoor heat exchange fin, outdoor heat-transfer pipe and fluid collection tube; The inlet of described gas service pipes is connected with described gas piping; The outlet of described fluid collection tube is connected with described liquid line; One end of described outdoor heat-transfer pipe is connected with described gas service pipes, and the other end is connected with described fluid collection tube, and described outdoor heat exchange fin is sleeved on the described outdoor heat-transfer pipe.

Wherein, described indoor heat exchanger comprises gas collecting pipe, indoor heat exchange fin, indoor heat-transfer pipe and liquid distributing pipe; The outlet of described gas collecting pipe is connected with described gas piping; Described liquid distributing pipe inlet is connected with described liquid line; Described indoor heat-transfer pipe one end is connected with described gas collecting pipe, and the other end is connected with described liquid distributing pipe, and described indoor heat exchange fin is sleeved on the described indoor heat-transfer pipe.

The installation site of described outdoor heat exchanger is higher than the installation site of described indoor heat exchanger.

Described refrigeration working medium circulates in described closed loop.

Include only a kind of medium of described refrigeration working medium in described liquid line and the gas piping.

Described outdoor heat exchanger and/or indoor heat exchanger are installed the heat transfer blower fan, are used to strengthen the circulation of conducting heat or strengthening room air; Described heat transfer blower fan is axial flow blower or centrifugal blower.The heat transfer blower fan is used to strengthen room air circulation and heat-transfer effect and dwindles machine volume; On outdoor heat exchanger, also can comprise the heat transfer blower fan, strengthen the heat-transfer effect of outdoor heat exchanger and reduce the volume of outdoor heat exchanger.

Described energy conservation air conditioning equipment also comprises control module, is used to control the unlatching of described heat transfer blower fan or close.

Described refrigeration working medium flows through described outdoor heat exchanger from top to bottom.

Described refrigeration working medium flows through described indoor heat exchanger from bottom to up.

The utility model technique scheme only is an optimal technical scheme of the present utility model, has following advantage: by adopting the evaporation liquefaction cycle of refrigeration working medium in air-conditioning equipment, thereby reduce the indoor temperature of communication base station effectively, and guaranteed the indoor cleaning in base station, reduced maintenance cost.

Description of drawings

Fig. 1 is the structural representation of a kind of energy conservation air conditioning equipment of the utility model embodiment;

Fig. 2 is the structural representation of a kind of outdoor heat exchanger of the utility model embodiment;

Fig. 3 is the structural representation of a kind of indoor heat exchanger of the utility model embodiment.

Wherein: 1: gas piping; 2: liquid line; 3: outdoor heat exchanger; 4: indoor heat exchanger; 5: blower fan; 31: gas service pipes; 32: the outdoor heat exchange fin; 33: outdoor heat-transfer pipe; 34: fluid collection tube; 41: the gas collecting pipe; 42: indoor heat is changed fin; 43: indoor heat-transfer pipe; 44: the liquid distributing pipe; A: liquid inlet; B: gas flow export; C: gas inlet port; D: liquid flowing outlet.

The specific embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present utility model is described in further detail.Following examples are used to illustrate the utility model, but are not used for limiting scope of the present utility model.

Below in conjunction with Fig. 1, Fig. 2, Fig. 3 the detailed structure of energy conservation air conditioning equipment is described.

Fig. 1 is the structural representation of a kind of energy conservation air conditioning equipment of the utility model embodiment.As shown in Figure 1, double dot dash line is represented the base station exterior space with top, and double dot dash line is represented the base station interior space with the lower part.Energy conservation air conditioning equipment comprises gas piping 1, liquid line 2, outdoor heat exchanger 3, indoor heat exchanger 4 and blower fan 5, and blower fan 5 can be selected axial flow blower or centrifugal blower for use according to indoor installation situation.Also comprise refrigeration working medium in addition, in gas piping 1 or liquid line 2, inject refrigeration working medium.Gas piping 1 couples together outdoor heat exchanger 3, indoor heat exchanger 4, and same, liquid line 2 couples together the other end of outdoor heat exchanger 3, indoor heat exchanger 4, forms closed loop.Like this, refrigeration working medium just can circulate in closed loop.Blower fan 5 is installed in the next door of indoor heat exchanger 4, is used for accelerating the circulation rate of air in the base station, thereby accelerates the process of refrigerastion of base station indoor temperature and the heat transfer efficiency of raising heat exchanger.Simultaneously, because after blower fan is installed, has quickened process of refrigerastion, improved the heat transfer efficiency of heat exchanger, so can dwindle the complete machine size of air-conditioning equipment, this is extremely important for the narrow and small relatively communication base station in space.In addition, for outdoor heat exchanger, for dwindling the volume of complete machine, reach better heat-transfer effect, also can install and force the heat transfer blower fan, this blower fan is generally selected axial fan for use.In addition, this energy conservation air conditioning equipment also comprises control module, is used to control the unlatching of described heat transfer blower fan or close.Control module comprises indoor temperature transmitter and outdoor temperature sensor, hangs down certain number of degrees when the outdoor temperature that outdoor temperature sensor detects than the indoor temperature that interior sensor detects, and for example hangs down twice, and control module is then opened the heat transfer blower fan and carried out work.If being higher than indoor temperature or indoor temperature and outdoor temperature difference, outdoor temperature do not reach predefined temperature value, the work of the blower fan that then stops to conduct heat, thereby the energy consumption of saving fan operation.And, when outdoor temperature is low, the refrigerating capacity of this air-conditioning equipment might surpass the needs of base station, thereby can cause that temperature is low excessively in the base station, at this moment this controller can be regulated the blower fan of indoor heat exchanger and/or the rotating speed of outdoor heat exchanger blower fan, make the requirement coupling of the refrigerating capacity of this air-conditioning equipment and base station, with the temperature stabilization of inside of base station in needed temperature range.

Fig. 2 is the structural representation of a kind of outdoor heat exchanger of the utility model embodiment; Outdoor heat exchanger 3 comprises gas service pipes 31, outdoor heat exchange fin 32, outdoor heat-transfer pipe 33 and fluid collection tube 34.Wherein, gas service pipes 31 is connected by outdoor heat-transfer pipe 33 with fluid collection tube 34 and links together.Outdoor heat exchange fin 32 is an aluminum, and outdoor heat-transfer pipe 33 adopts the extraordinary copper pipe of thermal conductivity.About double-head arrow represent the flow direction of air.Outdoor heat exchange fin 32 is sleeved on the outdoor heat-transfer pipe 33, when the refrigeration working medium of gas form enters into outdoor heat exchanger 3 by gas access C, by outdoor heat exchange fin 32, outdoor heat-transfer pipe 33 to the outdoor air release heat, after being condensed into liquid, enter into fluid collection tube 34, flow out along liquid flowing outlet D.

Fig. 3 is the structural representation of a kind of indoor heat exchanger of the utility model embodiment; Indoor heat exchanger 4 comprises liquid distributing pipe 41, indoor heat exchange fin 42, indoor heat-transfer pipe 43 and gas collecting pipe 44.Wherein, liquid distributing pipe 41 and gas collecting pipe 44 link together by indoor heat-transfer pipe 43, and indoor heat exchange fin 42 is sleeved on the indoor heat-transfer pipe 43.Indoor heat exchange fin 42 is an aluminum, and indoor heat-transfer pipe 43 adopts the extraordinary copper pipe of thermal conductivity.About double-head arrow represent the flow direction of air.When the refrigeration working medium of liquid form enters into indoor heat exchanger 4 by liquid inlet A, indoor high temperature air transmits heat by indoor heat exchange fin 42, indoor heat-transfer pipe 43 to refrigeration working medium, after refrigeration working medium absorption heat of vaporization becomes gas, enter into gas collecting pipe 41, flow out along gas flow export B.Because refrigeration working medium has absorbed the heat of air in the base station, so reached the purpose of base station cooling.

Below in conjunction with Fig. 1, Fig. 2, Fig. 3 the process of refrigerastion of energy conservation air conditioning equipment is described in detail.

Install according to mode shown in Figure 1, by gas piping 1 and liquid line 2 indoor heat exchanger 4 and outdoor heat exchanger 3 are linked together, guarantee the installation site height of the installation site of outdoor heat exchanger 3 simultaneously than indoor heat exchanger 4, refrigeration working medium cooling back is under the effect of gravity like this, will flow in the indoor heat exchanger 4 along liquid line automatically, realize the automatic circulation of refrigeration working medium.Installation to indoor heat exchanger 4 simultaneously also has requirement, and what must guarantee that the refrigeration working medium of gas form can be bottom-up easily passes through indoor heat exchanger 4, arrives gas collecting pipe 41, thereby arrives outdoor heat exchanger 3 along gas piping.In like manner, the installation of outdoor heat exchanger 3 must guarantee also that the refrigeration working medium of liquid form can be very unobstructed from top to bottom pass through outdoor heat exchanger 3, arrive fluid collection tube 34, thereby can arrive in the indoor heat exchanger along liquid line.

After energy conservation air conditioning equipment installs,, other medium within the pipeline is drained only, to filling liquid refrigeration working medium within the pipeline, guaranteed to have only a kind of medium of refrigeration working medium in the pipeline then vacuumizing within gas piping 1 and the liquid line 2.

Communication base station is generally a confined space for consideration such as dustproof, rainproof, antitheft, and draught capacity is very poor in other words, in addition because a large amount of electronic devices and components work heat radiation, so if communication base station does not adopt the refrigeration measure, temperature often is higher than outside air temperature far away in it.Therefore the utility model embodiment adopts the circularly cooling of refrigeration working medium in energy conservation air conditioning equipment according to these characteristics of base station.Under of the effect of indoor hot gas at blower fan, hot-air is by indoor heat exchanger 4, while is carried out heat exchange with the liquid refrigerating working medium in the indoor heat exchanger 4, liquid refrigerating working medium is evaporated to gas refrigeration working medium after absorbing heat, and enter into from bottom to top in the gas piping 1, arrive outdoor heat exchanger 3 along gas piping 1, carry out exchange heat by outdoor heat exchanger 3 and outdoor cold air, release heat, liquefaction is liquid, liquid refrigerating working medium be easy to from top to down pass through outdoor heat exchanger 3, because the installation site of outdoor heat exchanger 3 is than the installation site height of indoor heat exchanger 4, under the effect of gravity, liquid refrigerating working medium flows in the indoor heat exchanger, thereby circulates.By the process that refrigeration working medium circulates in pipeline, therefore the hot-air in the communication base station has reached the purpose to the communication base station cooling owing to the heat absorption of refrigeration working medium is lowered the temperature.

As can be seen from the above embodiments, evaporation and the condensation of the utility model embodiment by refrigeration working medium is delivered to the heat in the communication base station outdoor, reaches the purpose of communication base station room temperature lowering.Because the utility model embodiment utilizes the cooling that circulates of the natural quality of refrigeration working medium, except that blower fan, do not need other energy, so have energy-conservation characteristics, in addition, have cooling and be not subjected to the restriction of time, guaranteed to communication base station for a long time, cooling efficiently, and keep the indoor cleaning in base station.

The above only is a preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (7)

1, a kind of energy conservation air conditioning equipment is characterized in that, comprises indoor heat exchanger, outdoor heat exchanger, gas piping, liquid line and refrigeration working medium;

Described liquid line one end connects described indoor heat exchanger, and the other end connects described outdoor heat exchanger, and described gas piping connects two other interface of described indoor heat exchanger and outdoor heat exchanger, forms closed loop; In described closed loop, inject described refrigeration working medium.

2, energy conservation air conditioning equipment as claimed in claim 1 is characterized in that, described outdoor heat exchanger comprises gas service pipes, outdoor heat exchange fin, outdoor heat-transfer pipe and fluid collection tube;

The inlet of described gas service pipes is connected with described gas piping;

The outlet of described fluid collection tube is connected with described liquid line;

One end of described outdoor heat-transfer pipe is connected with described gas service pipes, and the other end is connected with described fluid collection tube, and described outdoor heat exchange fin is sleeved on the described outdoor heat-transfer pipe.

3, energy conservation air conditioning equipment as claimed in claim 1 is characterized in that, described indoor heat exchanger comprises gas collecting pipe, indoor heat exchange fin, indoor heat-transfer pipe and liquid distributing pipe;

The outlet of described gas collecting pipe is connected with described gas piping;

Described liquid distributing pipe inlet is connected with described liquid line;

Described indoor heat-transfer pipe one end is connected with described gas collecting pipe, and the other end is connected with described liquid distributing pipe, and described indoor heat exchange fin is sleeved on the described indoor heat-transfer pipe.

4, energy conservation air conditioning equipment as claimed in claim 1 is characterized in that, described outdoor heat exchanger and/or indoor heat exchanger are installed the heat transfer blower fan, is used to strengthen the circulation of conducting heat or strengthening room air; Described heat transfer blower fan is axial flow blower or centrifugal blower.

5, energy conservation air conditioning equipment as claimed in claim 4 is characterized in that, described energy conservation air conditioning equipment also comprises control module, is used to control the unlatching of described heat transfer blower fan or close.

6, energy conservation air conditioning equipment as claimed in claim 1 is characterized in that, described refrigeration working medium flows through described outdoor heat exchanger from top to bottom.

7, energy conservation air conditioning equipment as claimed in claim 1 is characterized in that, described refrigeration working medium flows through described indoor heat exchanger from bottom to up.

Images