CN202392911U - Heat pipe recirculation type evaporative cooling air conditioning unit - Google Patents

Abstract

The utility model discloses a heat pipe recirculation type evaporative cooling air conditioning unit, which is formed through connecting and combining an air cooler, a direct evaporation type water cooling unit, a direct evaporative cooler and a heat pipe indirect evaporative cooler through a pipe network, wherein the heat pipe indirect evaporative cooler is vertically arranged; an air inlet a and an air inlet b are arranged in the casing walls of two mutually-vertical casing bodies; the direct evaporation type water cooling unit, a water fender, a condensation section of the heat pipe indirect evaporative cooler, an exhaust fan and an air outlet are sequentially arranged as per the flowing direction of outdoor inlet air at the air inlet a; and an evaporation section of the heat pipe indirect evaporative cooler, the air cooler, the direct evaporative cooler, an air feeder and an air feeding port are sequentially arranged as per the flowing direction of outdoor inlet air at the air inlet b. The heat pipe recirculation type evaporative cooling air conditioning unit provided by the utility model fully utilizes cold air and cold water prepared by the direct evaporation type water cooling unit, and adopts the vertically-arranged gravity type heat pipe indirect evaporative cooler to save the occupied area of the unit.

Description

Heat pipe type recirculation type Evaporative Cooling Air Conditioning unit

Technical field

The utility model belongs to the air conditioner refrigerating technical field, is specifically related to a kind of air-conditioning unit of being made up of heat pipe-type indirect evaporation cooler, direct vaporation-type handpiece Water Chilling Units, direct evaporative cooler and aerial cooler.

Background technology

Mostly the heat pipe indirect evaporation cooler that present heat pipe indirect evaporation cooling air-conditioning unit is adopted is horizontal positioned; Make the floor space of unit bigger like this,, adopt the gravity type heat pipe indirect evaporation cooler in order to reduce the floor space of unit; Make its vertical placement; Heat-transfer working medium in heat pipe relies on the gravity circulation, combines with direct vaporation-type handpiece Water Chilling Units in addition, makes full use of cold water and cold wind that direct vaporation-type handpiece Water Chilling Units is produced.

Summary of the invention

The purpose of the utility model is to provide a kind of heat pipe type recirculation type Evaporative Cooling Air Conditioning unit; Direct transpiration-cooled handpiece Water Chilling Units, aerial cooler are combined with the heat pipe-type indirect evaporation cooler, make full use of cold water and cold wind that direct transpiration-cooled handpiece Water Chilling Units is produced.

The technical scheme that the utility model adopted is; Heat pipe type recirculation type Evaporative Cooling Air Conditioning unit; This air-conditioning unit is connected to combine through pipe network by aerial cooler, direct vaporation-type handpiece Water Chilling Units, direct evaporative cooler and heat pipe indirect evaporation cooler and forms; Adopt the heat pipe indirect evaporation cooler of vertically placing; Be respectively arranged with air inlet a and air inlet b on two perpendicular machine unit shell walls,, be disposed with condensation segment, exhaust blower and the exhaust outlet of direct vaporation-type handpiece Water Chilling Units, water fender, heat pipe indirect evaporation cooler according to the flow direction of air inlet a sections outer air air intake; According to the flow direction of air inlet b sections outer air air intake, be disposed with evaporator section, aerial cooler, direct evaporative cooler, pressure fan and the air outlet of heat pipe indirect evaporation cooler.

The characteristics of the utility model also are,

Heat pipe indirect evaporation cooler wherein adopts the gravity type heat pipe indirect evaporation cooler.

Direct vaporation-type handpiece Water Chilling Units wherein comprises water tank a, filler a and water-locator a from bottom to top, pipeline is set in the water tank a is connected with water-locator a through water pump a.

Direct evaporative cooler wherein comprises water tank b, filler b and water-locator b from bottom to top, pipeline is set in the water tank b is connected with water-locator b through water pump b.

Water tank a wherein is connected with the water inlet pipe of aerial cooler through pipeline, and the outlet pipe of aerial cooler is connected with water-locator a.

The utility model air-conditioning unit is that direct vaporation-type handpiece Water Chilling Units, aerial cooler, direct evaporative cooler combine with the heat pipe indirect evaporation cooler.Main feature is: 1, make full use of cold wind and cold water that direct vaporation-type handpiece Water Chilling Units is produced; 2, the heat pipe indirect evaporation cooler adopts the gravity type heat pipe indirect evaporation cooler, in casing, vertically place, and the floor space of practicing thrift whole unit, heat-transfer working medium relies on the gravity circulation in heat pipe.

Description of drawings

Fig. 1 is the structural representation of a kind of embodiment of the utility model air-conditioning unit;

Fig. 2 is the vertical view of Fig. 1.

Among the figure, 1 air inlet a, 2 filler a, 3 water-locator a, 4 water fenders, 5 exhaust outlets; 6 exhaust blowers, 7 water-locator b, 8 filler b, 9 air outlets, 10 pressure fans, 11 water pump b; 12 water tank b, 13 aerial coolers, 14 heat pipe indirect evaporation coolers, 15 air inlet b, 16 water pump a, 17 water tank a.

The specific embodiment

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is elaborated.

The air-conditioning unit of the utility model by aerial cooler 13, directly connect through pipe network between vaporation-type handpiece Water Chilling Units, direct evaporative cooler and the heat pipe indirect evaporation cooler 14 and be composited, and adopts the heat pipe indirect evaporation cooler of vertically placing 14.Fig. 1, Fig. 2 are arranged in the embodiment in the same casing with aerial cooler 13, direct vaporation-type handpiece Water Chilling Units 2, direct evaporative cooler and heat pipe indirect evaporation cooler 14, have showed the relative position of aerial cooler 13, direct vaporation-type handpiece Water Chilling Units, direct evaporative cooler and heat pipe indirect evaporation cooler 14.

According to embodiment illustrated in fig. 1; On two perpendicular machine unit shell walls, air inlet a1 and air inlet b15 are set respectively; According to the flow direction of air inlet a1 sections outer air air intake, set gradually condensation segment, exhaust blower 6 and the exhaust outlet 5 of direct vaporation-type handpiece Water Chilling Units, water fender 4, heat pipe indirect evaporation cooler 14; According to the flow direction of air inlet b15 sections outer air air intake, set gradually evaporator section, aerial cooler 13, direct evaporative cooler, pressure fan 10 and the air outlet 9 of heat pipe indirect evaporation cooler 14.

Heat pipe indirect evaporation cooler 14 wherein adopts the gravity type heat pipe indirect evaporation cooler, in the unit of vertically placing, and its condensation segment and evaporator section is placed in two air intake passages respectively.

Directly the vaporation-type handpiece Water Chilling Units comprises water tank a17, filler a2 and water-locator a3 from bottom to top, pipeline is set in the water tank a17 is connected with water-locator a3 through water pump a16; Direct evaporative cooler comprises water tank b12, filler b8 and water-locator b7 from bottom to top, pipeline is set in the water tank b12 is connected with water-locator b7 through water pump b11.

Water tank a17 is connected through the water inlet pipe of pipeline with aerial cooler 13, and the outlet pipe of aerial cooler 13 is connected with water-locator a3.

The cold water that direct vaporation-type handpiece Water Chilling Units is produced is transported to aerial cooler 13 precooled airs at water tank a17 through pipeline; Be transported to water-locator a3 through pipeline then and continue spray, the condensation segment condensation heat transfer working medium of heat pipe indirect evaporation cooler is led in the air draft that directly vaporation-type handpiece Water Chilling Units temperature is lower under the effect of exhaust blower 6.

The course of work of the utility model air-conditioning unit:

Outdoor air has following two places in the flow process of this unit:

1) outdoor air passes through condensation segment, exhaust blower 6 and the exhaust outlet 5 of air inlet a1, filler a2, water-locator a3, water fender 4, heat pipe indirect evaporation cooler 14 successively; Carrying out heat with shower water when outdoor air is through filler a2 in this process wets and exchanges; Make shower water obtain cooling and self obtain cooling simultaneously; The condensation segment and its heat-transfer working medium that under exhaust blower 6 effects, advanced pipe indirect evaporation cooler 14 then carry out heat exchange, discharge through exhaust outlet after the Cooling Heat Transfer working medium.

2) outdoor air passes through evaporator section, aerial cooler 13, direct evaporative cooler, pressure fan 10 and the air outlet 9 of air inlet b15, heat pipe indirect evaporation cooler 14 successively; Outdoor air at first passes through the one-level precooling through the evaporator section of superheater tube indirect evaporation cooler 14 in this process; And then process aerial cooler 13 carries out the secondary precooling; Filler b8 place and shower water at direct evaporative cooler carries out the wet exchange of heat at last, and constant enthalpy cooling back is sent into indoor through air outlet 9 under pressure fan 10 effects.

The flow process of direct vaporation-type handpiece Water Chilling Units water system:

Directly the high temperature cold water produced of vaporation-type handpiece Water Chilling Units by water tank a17 under the effect of water pump a16; Be transported to aerial cooler 13 fore-cooling room's outer air through pipeline; So being transported to water-locator a3 through pipeline again sprays; Shower water carries out getting back to water tank a17, so circulation after the wet exchange cooling of heat at filler a2 and air.

Claims (5)

1. heat pipe type recirculation type Evaporative Cooling Air Conditioning unit; It is characterized in that; This air-conditioning unit is connected to combine through pipe network by aerial cooler (13), direct vaporation-type handpiece Water Chilling Units, direct evaporative cooler and heat pipe indirect evaporation cooler (14) and forms; Adopt the heat pipe indirect evaporation cooler of vertically placing (14); Be respectively arranged with air inlet a (1) and air inlet b (15) on two perpendicular machine unit shell walls; According to the flow direction of air inlet a (1) sections outer air air intake, be disposed with condensation segment, exhaust blower (6) and the exhaust outlet (5) of direct vaporation-type handpiece Water Chilling Units, water fender (4), heat pipe indirect evaporation cooler (14); According to the flow direction of air inlet b (15) sections outer air air intake, be disposed with evaporator section, aerial cooler (13), direct evaporative cooler, pressure fan (10) and the air outlet (9) of heat pipe indirect evaporation cooler (14).

2. according to the described air-conditioning unit of claim 1, it is characterized in that described heat pipe indirect evaporation cooler (14) adopts the gravity type heat pipe indirect evaporation cooler.

3. according to the described air-conditioning unit of claim 2; It is characterized in that; Described direct vaporation-type handpiece Water Chilling Units comprises water tank a (17), filler a (2) and water-locator a (3) from bottom to top, pipeline is set in the water tank a (17) is connected with water-locator a (3) through water pump a (16).

4. according to the described air-conditioning unit of claim 2; It is characterized in that; Described direct evaporative cooler comprises water tank b (12), filler b (8) and water-locator b (7) from bottom to top, pipeline is set in the water tank b (12) is connected with water-locator b (7) through water pump b (11).

5. according to the described air-conditioning unit of claim 3, it is characterized in that described water tank a (17) is connected through the water inlet pipe of pipeline with aerial cooler (13), the outlet pipe of aerial cooler (13) is connected with water-locator a (3).

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