CN203628865U - Purification air conditioning unit for heat pipe type temperature and humidity separation control - Google Patents

Abstract

The utility model discloses a purification air conditioning unit for heat pipe type temperature and humidity separation control, and relates to the technical field of air conditioning. The interior of a box body is separated into a fresh air channel and an air returning channel through a partition plate, the inlet end of the fresh air channel is connected with a fresh air inlet flange, the inlet end of the air returning channel is connected with an air returning inlet flange, the outlet end of the fresh air channel and the outlet end of the air returning channel are jointly connected with an air inlet of a draught fan, an air outlet of the fan is sequentially connected with a filter and a humidifier, a heat pipe type cold quantity recoverer, an evaporator, a compressor and a condenser are arranged in the fresh air channel, a surface air cooler is arranged above the condenser, one end of the condenser is connected with one end of the compressor, the other end of the condenser is connected with the evaporator, and the other end of the compressor is connected with the evaporator. Due to the adoption of the fresh air channel, the air returning channel and a double-cold-source structure of the heat pipe type cold quantity recoverer, the independent adjustment of the temperature and the humidity is achieved, the adjustment is more convenient, accurate and stable, and energy is greatly saved.

Description

A kind of heat pipe-type humiture separates the purification air-conditioning unit of controlling

Technical field

The utility model relates to a kind of heat pipe-type humiture and separates the purification air-conditioning unit of controlling, and belongs to air-conditioning technique field.

Background technology

At present, the cleaning system of toilet mainly contains new blower fan group, decontamination cycle unit and Cooling and Heat Source composition.Outdoor fresh air focuses on indoor enthalpy by new blower fan group, then sending into decontamination cycle unit and indoor return air mixes, be cooled to required apparatus dew point (12 ℃ of left and right), the wind pushing temperature that is reheated to (18 ℃ of left and right) through electric heater is again delivered to toilet, to reach the object of cooling, dehumidifying, purification.There is following shortcoming in this way:

1, high energy consumption, in order to remove the airborne moisture of toilet, decontamination cycle unit must first be cooled to circulated air essential apparatus dew point (12 ℃ of left and right), and then is reheated to required wind pushing temperature (18 ℃ of left and right) through electric heater, causes energy significant wastage.

2, humiture is associated controls, and can only meet one, and toilet's air conditioning and cleaning system humiture is not independent control, but the preferential association control of humidity tends to cause Temperature and Humidity Control imbalance.

3, humidity does not reach requirement, adopts water circulation cooling owing to purifying unit, and circulating water temperature can not be too low, too lowly easily freezes, and in actual use, air-conditioning unit does not often reach required dew point, and indoor humidity can not be fallen yet.

Summary of the invention

For the problems referred to above, the technical problems to be solved in the utility model is to provide a kind of heat pipe-type humiture and separates the purification air-conditioning unit of controlling.

A kind of heat pipe-type humiture of the present utility model separates the purification air-conditioning unit of controlling, it comprises dividing plate a, new wind inlet flange 1, heat pipe-type cold recover 2, evaporimeter 3, return air inlet flange 4, compressor 5, condenser 6, surface cooler 7, casing 8, blower fan 9, filter 10, humidifier 11 and air-supply flange 12, the inside of casing 8 is divided into new wind passage b and return air channel c by dividing plate a, new wind passage b entrance point connects new wind inlet flange 1, return air channel c entrance point connects return air inlet flange 4, the air inlet of the common connecting fan 9 of the port of export of new wind passage b and return air channel c, the air outlet of blower fan 9 connects filter 10 and humidifier 11 successively, in new wind passage b, be provided with heat pipe-type cold recover 2, evaporimeter 3, compressor 5 and condenser 6, the top of condenser 6 is provided with surface cooler 7, one end of condenser 6 is connected with one end of compressor 5, the other end of condenser 6 is connected with evaporimeter 3, and the other end of compressor 5 is connected with evaporimeter 3.

As preferably, described evaporimeter 3, compressor 5, condenser 6 form independently refrigeration system, according to the size of processing air quantity, can match the refrigeration compressor 5 of corresponding power.

As preferably, described heat pipe-type cold recover 2 is divided into two sections, and epimere is positioned at after described evaporimeter 3, and for reclaiming the cold of the air of processing through evaporimeter 3, hypomere is positioned at new wind feeder connection, utilizes the new wind of cold precooling reclaiming.

The beneficial effects of the utility model: due to adopted new wind and return air binary channels, two low-temperature receiver structures of heat pipe-type cold recover are set, realizing temperature and humidity independently regulates, make more convenient, more accurately, more stable, and be provided with cold energy reclamation device, save temperature-compensating process, reduced the cold consumption of unit and the required compressor horsepower that dehumidifies, greatly saved the energy.

accompanying drawing explanation:

For ease of explanation, the utility model is described in detail by following concrete enforcement and accompanying drawing.

Fig. 1 is the utility model structural representation;

A-dividing plate; The new wind inlet flange of 1-; 2-heat pipe-type cold recover; 3-evaporimeter; 4-return air inlet flange; 5-compressor; 6-condenser; 7-surface cooler; 8-casing; 9-blower fan; 10-filter; 11-humidifier; The 12-flange of blowing; The new wind passage of b-; C-return air channel.

the specific embodiment:

As shown in Figure 1, this specific embodiment is by the following technical solutions: it comprises dividing plate a, new wind inlet flange 1, heat pipe-type cold recover 2, evaporimeter 3, return air inlet flange 4, compressor 5, condenser 6, surface cooler 7, casing 8, blower fan 9, filter 10, humidifier 11 and air-supply flange 12, the inside of casing 8 is divided into new wind passage b and return air channel c by dividing plate a, new wind passage b entrance point connects new wind inlet flange 1, return air channel c entrance point connects return air inlet flange 4, the air inlet of the common connecting fan 9 of the port of export of new wind passage b and return air channel c, the air outlet of blower fan 9 connects filter 10 and humidifier 11 successively, in new wind passage b, be provided with heat pipe-type cold recover 2, evaporimeter 3, compressor 5 and condenser 6, the top of condenser 6 is provided with surface cooler 7, one end of condenser 6 is connected with one end of compressor 5, the other end of condenser 6 is connected with evaporimeter 3, and the other end of compressor 5 is connected with evaporimeter 3.

As preferably, described evaporimeter 3, compressor 5, condenser 6 form independently refrigeration system, according to the size of processing air quantity, can match the compressor 5 of corresponding power.

As preferably, described heat pipe-type cold recover 2 is divided into two sections, and epimere is positioned at after described evaporimeter 3, and for reclaiming the cold of the air of processing through evaporimeter 3, hypomere is positioned at new wind feeder connection, utilizes the new wind of cold precooling reclaiming.

This concrete operation principle of implementing is: (air dry-bulb temperature is at 17.5 ℃ for the humid air of sending here from new blower fan group, relative humidity 95%), enter new wind passage b by new wind entrance, flow through the latter half of heat pipe-type cold recover 2, liquid refrigerant heat absorption explosive evaporation in heat pipe-type cold recover 2 the latter halfs, new wind is cooled to 13 ℃, relative humidity 95%, then continue to cool to required dew point (6 ℃) by evaporimeter 3; Subsequently, flow through again the first half of heat pipe-type cold recover 2 of the air of low temperature, gaseous refrigerant in heat pipe-type cold recover 2 the first half is cooled and condenses into liquid, flow to bottom by gravity, rise with stylish air temperature, and then flow through condenser 6 and compressor 5, temperature recovery is to 24 left and right, close to toilet's temperature..

From the return air of toilet, enter return air channel c by return air entrance, and the new wind dehumidifying mixes, process design temperature through surface cooler 7 again, the interior mobile refrigerant water temperature of surface cooler 7 can be set in 16 ~ 20 ℃, higher than toilet's dew-point temperature, does not have condensed water and separates out.

New wind and return air are respectively after new wind passage b and return air channel c processing, pressurize through blower fan 9, pass through again filter 10 purified treatment, the humidifier 11 of finally flowing through, under drying condition, air humidity content does not reach while requirement, to desired humidity, delivers to toilet through air supply duct by humidifier 11 humidifications.

More than show and described basic principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and description, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (3)

1. a heat pipe-type humiture separates the purification air-conditioning unit of controlling, it is characterized in that: it comprises dividing plate (a), new wind inlet flange (1), heat pipe-type cold recover (2), evaporimeter (3), return air inlet flange (4), compressor (5), condenser (6), surface cooler (7), casing (8), blower fan (9), filter (10), humidifier (11) and air-supply flange (12), the inside of casing (8) is divided into new wind passage (b) and return air channel (c) by dividing plate (a), new wind passage (b) entrance point connects new wind inlet flange (1), return air channel (c) entrance point connects return air inlet flange (4), the air inlet of the common connecting fan of the port of export (9) of new wind passage (b) and return air channel (c), the air outlet of blower fan (9) connects filter (10) and humidifier (11) successively, in new wind passage (b), be provided with heat pipe-type cold recover (2), evaporimeter (3), compressor (5) and condenser (6), the top of condenser (6) is provided with surface cooler (7), one end of condenser (6) is connected with one end of compressor (5), the other end of condenser (6) is connected with evaporimeter (3), and the other end of compressor (5) is connected with evaporimeter (3).

2. a kind of heat pipe-type humiture according to claim 1 separates the purification air-conditioning unit of controlling, and it is characterized in that described evaporimeter (3), compressor (5), condenser (6) form independently refrigeration system.

3. a kind of heat pipe-type humiture according to claim 1 separates the purification air-conditioning unit of controlling, it is characterized in that described heat pipe-type cold recover (2) is divided into two sections, epimere is positioned at after described evaporimeter (3), and hypomere is positioned at new wind passage (b) entrance.