CN204100543U - For the energy-saving heat transmission equipment of communication base station room and the air-conditioning system of formation thereof - Google Patents

Abstract

The utility model discloses a kind of for the energy-saving heat transmission equipment of communication base station room and the air-conditioning system of formation thereof, solve existing air conditioner in machine room equipment and consume energy large and outdoor cold air can not be utilized to carry out the problem of freezing.This energy-saving heat transmission equipment being used for communication base station room comprises heat exchange shell and is arranged on the heat exchange module of heat exchange shell inner cavity; Be provided with the dividing plate its internal insulation being divided into two not connected cavitys in heat exchange shell, wherein side cavity is Inner eycle cavity, and opposite side cavity is outer circulation cavity, is equipped with blower fan at Inner eycle air inlet and external circulation air inlet place; Heat exchange module comprises some heat exchanger tubes be set up in parallel, heat exchanger tube is divided into two parts corresponding with Inner eycle cavity and outer circulation cavity by heat exchange dividing plate, wherein the heat exchanger tube part of side is positioned at Inner eycle cavity, and the heat exchanger tube part of opposite side is positioned at outer circulation cavity.The utility model structure is simple, it is convenient to realize, and can make full use of outdoor cold air and freeze to machine room indoor.

Description

For the energy-saving heat transmission equipment of communication base station room and the air-conditioning system of formation thereof

Technical field

The utility model relates to a kind of air-conditioning equipment, specifically, relates to a kind of for the energy-saving heat transmission equipment of communication base station room and the air-conditioning system of formation thereof.

Background technology

At present, all communication base station rooms all need refrigeration, due to the difference of thermal source caloric value, the communication equipment of small-power caloric value is only placed in special rack, only need the heat exchange that just can realize indoor and outdoor with the heat exchanger not with refrigeration unit, but the communication equipment larger for caloric value must be placed on inside the room of sufficient space, and at least one the refrigeration air-conditioner suitable with heating power must be installed inside this room.

In prior art, communication base station room air-conditioning is to install comfortableness domestic air conditioning or base station air conditioner, and the defect of these two kinds of air-conditionings is as follows:

(1) the compressor year-round operation of refrigeration air-conditioner, electric power energy consumption is huge;

(2) do not make full use of outdoor natural cold air when outdoor environment temperature is very low to freeze to machine room inside;

(3), during normal domestic use air conditioner refrigerating, make machine room inner air humidity throughout the year too low, affect the normal operation of communication apparatus.

During according to base station special air conditioner in the market, the initial stage is dropped into and increases considerably, the electric power energy consumption of simultaneously freezing but significantly does not reduce, and consumption wealth consumes energy.

Therefore, research and develop a kind of energy-saving air-conditioning equipment for communication base station room, just become the important topic of those skilled in the art.

Utility model content

The purpose of this utility model is to overcome above-mentioned defect, provide a kind of structure simple, realize convenient, the with low cost and heat transmission equipment of energy-saving and emission-reduction.

To achieve these goals, the technical solution adopted in the utility model is as follows:

For the energy-saving heat transmission equipment of communication base station room, comprise heat exchange shell and the heat exchange module being arranged on heat exchange shell inner cavity; The dividing plate its internal insulation being divided into two not connected cavitys is provided with in described heat exchange shell, wherein side cavity is Inner eycle cavity, this Inner eycle cavity is respectively arranged with the Inner eycle air inlet be communicated with it and Inner eycle air outlet, and described Inner eycle cavity is as the air circulation duct of machine room indoor; Opposite side cavity is outer circulation cavity, described outer circulation cavity is respectively arranged with the external circulation air inlet be communicated with it and outer circulation air outlet, described outer circulation cavity, as the air circulation duct of machine room outdoor, is equipped with blower fan at described Inner eycle air inlet and described external circulation air inlet place; Described heat exchange module comprises some heat exchanger tubes be set up in parallel, all heat exchanger tubes are divided into two parts corresponding with Inner eycle cavity and outer circulation cavity by heat exchange dividing plate, wherein the described heat exchanger tube part of side is positioned at described Inner eycle cavity, and the described heat exchanger tube part of opposite side is positioned at described outer circulation cavity.By above-mentioned setting, can depart from the basis of air conditioner refrigerating unit, the air realizing indoor and outdoor directly carries out heat exchange by energy-saving heat transmission equipment, makes full use of outdoor natural cold air and freezes to machine room inside, reach energy-conservation object.

Further, described Inner eycle air inlet is positioned at above described Inner eycle air outlet, described external circulation air inlet is positioned at below Inner eycle air outlet, described outer circulation air outlet is between described Inner eycle air inlet and described Inner eycle air outlet, and described heat exchange module is between described outer circulation air outlet and Inner eycle air outlet.By above-mentioned setting, the airflow direction of both sides, with the flowing of contrary direction, improves heat exchange efficiency.

Preferably, described heat exchanger tube is " one " font straight tube.

Preferably, described heat exchanger tube is slug type directly-heated pipe.

Further, described heat exchanger tube is provided with heat exchanger fin.

Preferably, described heat exchanger fin is heat exchange aluminium flake.

Preferably, described heat exchange dividing plate is arranged on the middle part of described heat exchanger tube.

On the architecture basics of above-mentioned energy-saving heat transmission equipment, the utility model additionally provides a kind of air-conditioning system, comprises the described energy-saving heat transmission equipment for communication base station room, and air conditioner refrigerating unit; Also be provided with the evaporimeter for cooling air intake at the described external circulation air inlet place of the described energy-saving heat transmission equipment for communication base station room, described evaporimeter is connected with described air conditioner refrigerating unit by pipeline.

Preferably, described evaporimeter is connected with described air conditioner refrigerating unit by copper pipe.

Compared with prior art, the utility model has following beneficial effect:

(1) heat exchange shell is divided into mutual disconnected Inner eycle cavity and outer circulation cavity by the utility model, two cavitys are responsible for the air circulation of machine room indoor and outdoor respectively, simultaneously in conjunction with the designing two portions of heat exchange module, a part coordinates the air circulation realized with machine room indoor with Inner eycle cavity, another part coordinates the air circulation realized with machine room outdoor with outer circulation cavity, the heat exchange of two kinds of air-flows is then undertaken by heat exchange module, thus, when not starting compressor, outdoor natural cold air can be made full use of freeze to machine room inside, reach energy-conservation object.

(2) the utility model forms air-conditioning system in conjunction with heat transmission equipment and air conditioner refrigerating unit, higher or when not reaching the effect of Temperature fall at outside air temperature, start air conditioner refrigerating unit, after cooling process being carried out to the outside air introduced by evaporimeter, carry out heat exchange by the air-flow of heat exchange module and indoor circulation again, effectively ensure that the refrigeration cool-down of air conditioner in machine room.

(3) in the utility model, heat exchange shell side is inner air circulation, and corresponding machine room is indoor, and opposite side is air-flow outer circulation, corresponding machine room outdoor, and passing through the inlet and outlet of well-designed inner-outer circulation, the airflow direction realizing both sides, with the flowing of contrary direction, improves heat exchange efficiency.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of heat exchange module in the utility model.

In above-mentioned accompanying drawing, the component names that Reference numeral is corresponding is as follows:

1-heat exchange shell, 2-dividing plate, 3-Inner eycle air inlet, 4-Inner eycle air outlet, 5-Inner eycle cavity, 6-outer circulation cavity, 7-external circulation air inlet, 8-outer circulation air outlet, 9-heat exchanger tube, 10-heat exchange dividing plate, 11-blower fan, 12-heat exchanger fin, 13-evaporimeter, 14-heat exchange module, 15-air-ducting ring.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail, and embodiment of the present utility model includes but not limited to the following example.

Embodiment

As shown in Figure 1, present embodiments provide a kind of energy-saving heat transmission equipment for communication base station room, this heat transmission equipment mainly comprises heat exchange shell 1 and is arranged on the heat exchange module 14 of heat exchange shell 1 inner chamber; Wherein, the shape of heat exchange shell is not particularly limited to, and its role is to provides the installation cavity of heat exchange module and the air circulation duct of inside and outside, and the shape of heat exchange shell can adjust according to actual conditions; but these adjustment also should belong to protection domain of the present utility model.Heat exchange module is main inner air and outer air exchange piece, and the heat exchange of inner air and outer air is realized by heat exchange module.Further, the present embodiment is provided with the dividing plate 2 its internal insulation being divided into two not connected cavitys in heat exchange shell, and wherein side cavity is Inner eycle cavity 5, as the air circulation duct of machine room indoor; Opposite side is outer circulation cavity 6, as the air circulation duct of machine room outdoor.

Heat exchange shell is provided with four air ports corresponding with two circulation cavitys, wherein two are positioned at homonymy, and two other is positioned at opposite side, and four air ports are respectively: the Inner eycle air inlet 3 and the Inner eycle air outlet 4 that are positioned at homonymy; Be positioned at external circulation air inlet 7 and the outer circulation air outlet 8 of homonymy, wherein, two air inlet are provided with blower fan 11, the power circulated for providing air, further, in order to reach good air inlet effect, the present embodiment is provided with air-ducting ring 15 in the air-vent position of blower fan; Wherein, shape and the size in each air port are not particularly limited, and can adjust according to actual conditions, but these adjustment also should belong to protection domain of the present utility model.By above-mentioned setting, when ambient temperature is lower, directly cool ambient air is introduced by blower fan, cool ambient air enters outer circulation cavity from external circulation air inlet, carry out heat exchange with the heat exchange module in outer circulation cavity, the outside air after heat exchange is discharged by outer circulation air outlet again, meanwhile, the hot-air of machine room indoor enters Inner eycle cavity by Inner eycle air inlet, heat exchange is carried out with the heat exchange module in Inner eycle cavity, reach cooling object, and then drain into machine room indoor by Inner eycle air outlet, thus realize the refrigeration cool-down within machine room, thus, make full use of outdoor natural cold air to freeze to machine room inside, operate without the need to air cooling unit, energy-consuming parts is only blower fan, its power consumption is little, significantly can reduce power consumption, avoid in prior art, the problem of the highly energy-consuming that the compressor of machine room refrigeration air-conditioner needs annual running and causes.

In order to ensure heat exchange efficiency; the setting position in four air ports is as follows: Inner eycle air inlet 3 is positioned at above Inner eycle air outlet 4; external circulation air inlet 7 is positioned at below Inner eycle air outlet 4; outer circulation air outlet 8 is between Inner eycle air inlet 3 and Inner eycle air outlet 4, and heat exchange module 14 is between outer circulation air outlet 8 and Inner eycle air outlet 4.By above-mentioned setting, the airflow direction of indoor inner circulating air flows with contrary direction with the airflow direction of outdoor outer circulation air, improves heat exchange efficiency.

As shown in Figure 2, heat exchange module comprises some heat exchanger tubes 9 be set up in parallel, all heat exchanger tubes 9 are divided into two parts corresponding with Inner eycle cavity 5 and outer circulation cavity 6 by heat exchange dividing plate 10, wherein heat exchanger tube 9 part of side is positioned at Inner eycle cavity 5, and heat exchanger tube 9 part of opposite side is positioned at outer circulation cavity 6.The heat exchange of the air in Inner eycle cavity and outer circulation cavity can be realized by above-mentioned setting party.

Preferably, heat exchanger tube 9 is " one " font straight tube, and it adopts slug type directly-heated pipe, and the consistent and justify align of the arrangement mode of heat exchanger tube, spacing is consistent.Further, in order to improve heat transfer effect, the present embodiment is provided with heat exchanger fin 12 on heat exchanger tube 9, the preferred heat exchange aluminium flake of heat exchanger fin, the middle part arranging preferred heat exchanger tube of heat exchange dividing plate 10.By above-mentioned setting, the side that heat exchange module is positioned at Inner eycle cavity is the heat absorbing end of heat transmission equipment, and the side being positioned at outer circulation cavity is the release end of heat of heat transmission equipment.

The present embodiment additionally provides a kind of air-conditioning system, this air-conditioning system includes above-mentioned energy-saving heat transmission equipment and air conditioner refrigerating unit, meanwhile, the evaporimeter 13 for cooling air intake is also provided with in outer circulation air inlet, evaporimeter 13 is connected with air conditioner refrigerating unit by pipeline, this pipeline can adopt the conventional pipeline of the art, preferred copper pipe.By above-mentioned setting, higher or when not reaching the effect of Temperature fall at outside air temperature, start air conditioner refrigerating unit, after outside air is introduced from external circulation air inlet, by evaporimeter, cooling process is carried out to it and form cold air, air after cooling carries out heat exchange with heat exchange module again, then carries out heat exchange by heat exchange module and indoor hot-air, thus effectively ensure that the refrigeration cool-down of air conditioner in machine room.According to outside air temperature situation, can determine whether open air conditioner refrigerating unit, solve existing air-conditioning system unlatching whole year compressor and carry out freezing and cause the problem of high energy consumption.

According to above-described embodiment, just the utility model can be realized well.What deserves to be explained is; under prerequisite based on above-mentioned design principle; for solving same technical problem; even if some making on architecture basics disclosed in the utility model are without substantial change or polishing; the essence of the technical scheme adopted is still the same with the utility model, therefore it also should in protection domain of the present utility model.

Claims (9)

1. for the energy-saving heat transmission equipment of communication base station room, it is characterized in that, comprise heat exchange shell (1) and be arranged on the heat exchange module (14) of heat exchange shell (1) inner chamber; The dividing plate (2) its internal insulation being divided into two not connected cavitys is provided with in described heat exchange shell (1), wherein side cavity is Inner eycle cavity (5), this Inner eycle cavity (5) is respectively arranged with the Inner eycle air inlet (3) be communicated with it and Inner eycle air outlet (4), and described Inner eycle cavity (5) is as the air circulation duct of machine room indoor; Opposite side cavity is outer circulation cavity (6), described outer circulation cavity (6) is respectively arranged with the external circulation air inlet (7) be communicated with it and outer circulation air outlet (8), described outer circulation cavity (6), as the air circulation duct of machine room outdoor, is equipped with blower fan (11) described Inner eycle air inlet (3) and described external circulation air inlet (7) place; Described heat exchange module (14) comprises some heat exchanger tubes (9) be set up in parallel, all heat exchanger tubes (9) are divided into two parts corresponding with Inner eycle cavity (5) and outer circulation cavity (6) by heat exchange dividing plate (10), wherein described heat exchanger tube (9) part of side is positioned at described Inner eycle cavity (5), and described heat exchanger tube (9) part of opposite side is positioned at described outer circulation cavity (6).

2. the energy-saving heat transmission equipment for communication base station room according to claim 1, it is characterized in that, described Inner eycle air inlet (3) is positioned at described Inner eycle air outlet (4) top, described external circulation air inlet (7) is positioned at Inner eycle air outlet (4) below, described outer circulation air outlet (8) is positioned between described Inner eycle air inlet (3) and described Inner eycle air outlet (4), and described heat exchange module (14) is positioned between described outer circulation air outlet (8) and Inner eycle air outlet (4).

3. the energy-saving heat transmission equipment for communication base station room according to claim 2, is characterized in that, described heat exchanger tube (9) is " one " font straight tube.

4. the energy-saving heat transmission equipment for communication base station room according to claim 2, is characterized in that, described heat exchanger tube (9) is slug type directly-heated pipe.

5. the energy-saving heat transmission equipment for communication base station room according to any one of claim 2 to 4, is characterized in that, described heat exchanger tube (9) is provided with heat exchanger fin (12).

6. the energy-saving heat transmission equipment for communication base station room according to claim 5, is characterized in that, described heat exchanger fin (12) is heat exchange aluminium flake.

7. the energy-saving heat transmission equipment for communication base station room according to claim 6, is characterized in that, described heat exchange dividing plate (10) is arranged on the middle part of described heat exchanger tube (9).

8. an air-conditioning system, is characterized in that, comprises the energy-saving heat transmission equipment for communication base station room as described in any one of claim 1 to 7, and air conditioner refrigerating unit; Also be provided with the evaporimeter (13) for cooling air intake at described external circulation air inlet (7) place of the described energy-saving heat transmission equipment for communication base station room, described evaporimeter (13) is connected with described air conditioner refrigerating unit by pipeline.

9. air-conditioning system according to claim 8, is characterized in that, described evaporimeter (13) is connected with described air conditioner refrigerating unit by copper pipe.