CN205939485U - Take water -spraying system's evaporative cooling system - Google Patents

Abstract

The utility model discloses a take water -spraying system's evaporative cooling system, including realizing water evaporation heat exchange sub -assembly, spraying system, water tank, the water tank sets up in evaporative cooling system bottom, and spraying system's shower head setting is in the top of realizing water evaporation heat exchange sub -assembly, the evaporative cooling system still is equipped with water -spraying system, water -spraying system includes atomizing pump, atomising head, uses water route pipe connections between atomizing pump and the atomising head. The utility model discloses an evaporative cooling system through increasing water -spraying system, adopts the mode that sprays, sprays and combine together, makes water vaporization system be in the state that evaporates completely all the time, improves evaporation refrigeration efficiency.

Description

A kind of evaporative cooling system with spraying system

Technical field

This utility model is related to a kind of water evaporation for cooling system, more particularly, to a kind of evaporative cooling system with spraying system System.

Background technology

Direct evaporating-cooling refers to air and the large-area directly contact of water, because evaporation of water makes the temperature of air and water All reduce, during this, the water capacity of air increased, the sensible heat of air is converted into latent heat, this is an adiabatic humidiflcation Journey；Indirect evaporating-cooling refers to the auxiliary air after lowering the temperature during direct evaporating-cooling and water to pass through contactless heat exchanger Cool down pending primary air, obtain temperature and reduce and the constant wind pushing air of water capacity, the wet cooling procedure such as this process is.

Evaporative cooling system adopts spray system substantially indirectly at present, and single spray system, the water going out because of spray It is difficult to uniformly, so evaporation incomplete situation occurs；Have using spray system or spraying in direct evaporative cooling system System, single spray system or spraying system, equally can cause cascade duct resistance different because the reason such as air pollution, Make cascade evaporation uneven, reduce evaporation efficiency.

Utility model content

For the problems referred to above, this utility model purpose is to provide a kind of evaporative cooling system, this evaporative cooling system System is in evaporating completely state all the time, improves refrigerating efficiency.

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

A kind of evaporative cooling system with spraying system, including realizing water evaporation heat exchange molectron, spray system, water Case, described water tank is arranged on evaporative cooling system bottom, and the spray head of spray system is arranged on realizes water evaporation heat exchange group The top of component, described evaporative cooling system is additionally provided with spraying system, and described spraying system includes atomizer pump, fog-spray nozzle, mist Change and be connected with water route pipe fitting between pump and fog-spray nozzle.

A kind of preferred version of the present utility model, described evaporative cooling system is indirect evaporative cooling system, described Realizing water evaporation heat exchange molectron is evaporative cooling pipe molectron, and it is cold that the fog-spray nozzle of described spraying system is arranged on water evaporation But the lower section of pipe molectron.

Another kind preferred version of the present utility model, described evaporative cooling system is direct evaporative cooling system, institute Stating and realizing water evaporation heat exchange molectron is cascade molectron, and the fog-spray nozzle of described spraying system is arranged on the side of cascade molectron At wall.

Another kind preferred version of the present utility model, the water circulating pump of described evaporative cooling its spray system of system, spray The atomizer pump of mist system is arranged in water tank.

Another kind preferred version of the present utility model, described indirect evaporative cooling system is provided with guiding auxiliary air and discharges Blower fan and access auxiliary air in interference steam water collection device.

Another kind preferred version of the present utility model, described evaporative cooling system is provided with to control spraying system to open Or the control system closed.

Evaporative cooling system of the present utility model, increased spraying system, by way of spray, spraying combine, The system that evaporates the water is in evaporating completely state all the time, improves sweat cooling efficiency.

Brief description

Fig. 1 is this utility model indirect evaporative cooling system structure diagram；

Fig. 2 is this utility model direct evaporative cooling system structure diagram；

Fig. 3 is this utility model indirect evaporative cooling secondary system air handling process figure；

Fig. 4 is this utility model direct evaporative cooling system primary air processing procedure figure.

Specific embodiment

In order that technological means of the present utility model and implementation are apparent to, further with reference to specific embodiment Illustrate this utility model.

Referring to Fig. 1, Fig. 2, evaporative cooling system of the present utility model, including realizing water evaporation heat exchange molectron, spray Pouring system 20 and the water tank 30 for access water, water tank 30 is arranged on evaporative cooling system bottom, the spray of spray system 20 21 are arranged on the top realizing water evaporation heat exchange molectron, and this evaporative cooling system is additionally provided with spraying system 40, spraying System 40 includes atomizer pump 43, fog-spray nozzle 41, is connected with water route pipe fitting 42 between atomizer pump 43 and fog-spray nozzle 41.

Referring to Fig. 1, in indirect evaporative cooling system, realize water evaporation heat exchange is evaporative cooling pipe molectron 10, the spray head 21 of spray system 20 is arranged at the top of evaporative cooling pipe molectron 10, the fog-spray nozzle 41 of spraying system 40 It is arranged on the lower section of evaporative cooling pipe molectron 10, against evaporative cooling pipe molectron 10, the recirculated water of spray system 20 Pump 23, the atomizer pump 43 of spraying system 40 can be set directly in water tank 30, between water circulating pump 23 and spray head 21, atomizer pump It is connected with water route pipe fitting 22,42 between 43 with fog-spray nozzle 41；It is additionally provided with guiding auxiliary air in indirect evaporative cooling system The water collection device 60 of interference steam in the blower fan 50 of 70 discharges, collection auxiliary air 70, water collection device 60 is arranged on the upper of spray head 21 Side, blower fan 70 is arranged on the top of cooling system.

Referring to Fig. 2, realize water evaporation heat exchange in direct evaporative cooling system is cascade molectron 110, spray The spray head 21 of system 20 is arranged at the top of cascade molectron 110, and the fog-spray nozzle 41 of spraying system 40 is arranged on cascade combination The side-walls of part 110, against the side wall of cascade molectron 110, the water circulating pump 23 of spray system 20, the atomization of spraying system 40 Pump 43 can be set directly in water tank 30, between water circulating pump 23 and spray head 21, uses water between atomizer pump 43 and fog-spray nozzle 41 Road pipe fitting 22,42 connects.

Indirect evaporative cooling system of the present utility model, direct evaporative cooling system are additionally provided with control spraying system 40 The control system being turned on and off（In figure is not drawn into）, this control system is according to control element temperature sensor, humidity sensor The evaporative cooling system data recording, determines being turned on and off of spraying system 40 after microcomputer chip computing, so that water is steamed Send out cooling system water from start to finish can evaporating completely, realize the maximization of air cooling-down.

Referring to Fig. 1, Fig. 3, the work process of this utility model indirect evaporative cooling system is：Auxiliary air 70（State W2）Enter from indirect evaporative cooling system side, first run into the water smoke of spraying system 40 ejection, water smoke makes two because of evaporation endothermic Secondary air 70 obtains lowering the temperature for the first time, and then auxiliary air 70 enters in indirect evaporative cooling pipe molectron 40, runs into from spray The water that pouring system 20 sprays, because the sensible heat of auxiliary air 70 is converted into latent heat by water evaporation heat absorption, so that auxiliary air 70 temperature reduce, humidity increases, and obtain state S2, and then state is the auxiliary air of S2 and enters into indirect evaporative cooling pipe Primary air 80 in molectron 40 carries out heat exchange, so that primary air 80 is lowered the temperature, auxiliary air 70 is gradually heating to J2 state, And after discharge through water collection device 60.

Referring to Fig. 2, Fig. 4, the work process of this utility model direct evaporative cooling system is：Outdoor fresh air primary air 180（State W1）After entering direct water evaporation system, first pass through spraying system 40, because the water smoke evaporation that spraying system 40 sprays is inhaled Heat, so that the increase of primary air 180 humidity, temperature drop, becomes J1 state, and then primary air 180 enters cascade molectron 110, the water spraying with spray system 20 again in cascade molectron 110 contacts, because water evaporation heat absorption makes primary air 180 Humidity increases again, temperature reduces, and becomes S1 state, completes direct evaporation temperature-fall period.

Of the present utility model principal character, working method and of the present utility model advantage have been shown and described above.One's own profession The technical staff of industry it should be appreciated that this utility model is not restricted to the described embodiments, described in above-described embodiment and description Simply principle of the present utility model, on the premise of without departing from this utility model spirit and scope, this utility model also has respectively Plant changes and improvements, these changes and improvements both fall within the range of claimed this utility model.

Claims (7)

1. a kind of evaporative cooling system with spraying system, including realize water evaporation heat exchange molectron, spray system (20), Water tank (30), described water tank (30) is arranged on evaporative cooling system bottom, and the spray head (21) of spray system (20) is arranged on Realize the top of water evaporation heat exchange molectron it is characterised in that：Described evaporative cooling system is additionally provided with spraying system (40), Described spraying system (40) includes atomizer pump (43), fog-spray nozzle (41), uses waterway tube between atomizer pump (43) and fog-spray nozzle (41) Part (42) connects.

2. according to claim 1 the evaporative cooling system with spraying system it is characterised in that：Described evaporative cooling system System is indirect evaporative cooling system, and described water evaporation heat exchange molectron of realizing is evaporative cooling pipe molectron (10), institute The fog-spray nozzle (41) stating spraying system (40) is arranged on the lower section of evaporative cooling pipe molectron (10).

3. according to claim 1 the evaporative cooling system with spraying system it is characterised in that：Described evaporative cooling system System is direct evaporative cooling system, and described water evaporation heat exchange molectron of realizing is cascade molectron (110), described spraying system The fog-spray nozzle (41) of system (40) is arranged on the side-walls of cascade molectron (110).

4. according to Claims 2 or 3 the evaporative cooling system with spraying system it is characterised in that：Described water evaporation is cold But the water circulating pump (23) of its spray system of system (20), the atomizer pump (43) of spraying system (40) are arranged in water tank (30).

5. according to claim 2 the evaporative cooling system with spraying system it is characterised in that：Described indirect water evaporation is cold But system is provided with the water collection device of interference steam in guiding auxiliary air (70) blower fan (50) discharged and access auxiliary air (70) (60).

6. according to any one of claim 1,2,3,5 the evaporative cooling system with spraying system it is characterised in that：Institute State the control system that evaporative cooling system is provided with to control spraying system (40) to be turned on and off.

7. according to claim 4 the evaporative cooling system with spraying system it is characterised in that：Described evaporative cooling system System is provided with the control system controlling spraying system (40) to be turned on and off.