CN205980099U - Multistage evaporation cooling cooling water set - Google Patents
Multistage evaporation cooling cooling water set Download PDFInfo
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- CN205980099U CN205980099U CN201620669237.3U CN201620669237U CN205980099U CN 205980099 U CN205980099 U CN 205980099U CN 201620669237 U CN201620669237 U CN 201620669237U CN 205980099 U CN205980099 U CN 205980099U
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Abstract
The utility model discloses a multistage evaporation cooling cooling water set, including the unit casing, the central authorities in the unit casing are provided with components of a whole that can function independently filler formula direct expansion cooling unit, are the left and right both sides of components of a whole that can function independently filler formula direct expansion cooling unit provided with first filler respectively do the compound evaporation cooling unit of heat exchange tube, second pack the compound evaporation cooling unit of heat exchange tube, first filler be provided with air intake an on the unit casing lateral wall that the compound evaporation cooling unit of heat exchange tube corresponds, and be provided with high temperature surface cooler a between this unit and the air intake a, does the second pack be provided with air intake b on the unit casing lateral wall that the compound evaporation cooling unit of heat exchange tube corresponds, and be provided with high temperature surface cooler b between this unit and the air intake b, high temperature surface cooler a, high temperature surface cooler b all with the unit connection of components of a whole that can function independently filler formula direct expansion cooling. The utility model discloses multistage evaporation cooling cooling water set have highly low, riser heat exchange efficiency is high, the leaving water temperature is low and go out the high advantage of water cleanliness.
Description
Technical field
This utility model belongs to air conditioner technical field and in particular to a kind of multistage influence diagram handpiece Water Chilling Units.
Background technology
In recent years, due to evaporation cooling handpiece Water Chilling Units can produce the higher cold water of temperature, and there is high energy efficiency ratio so as to
It is used widely in the fields such as textile mills of China, office building, hotel, hospital and market.
At present, more conventional evaporation cooling handpiece Water Chilling Units are double flash evaporation cooling handpiece Water Chilling Units, and its operational effect is relatively
Preferably, but there is also following problem:(1) excessive height of unit, the double flash evaporation cooling handpiece Water Chilling Units of actual production, its
Up to 6m~7m that unit highly has, so in strong wind season it is easy to the effect of being under pressure, leads to the bearing capacity of unit to increase
Plus, go down to affect fastness and the sealing of unit for a long time, it may occur however that the phenomenon blown down of unit under serious conditions;(2) two
Water temperature in level evaporation cooling handpiece Water Chilling Units is subject to outdoor air Parameters variation and processing technique to be affected very greatly, often with design
Coolant-temperature gage has certain deviation, and typically leaving water temperature is higher than design load, and system so can be caused to cause because eliminating same load
The phenomenon increasing or can not meeting indoor temperature and humidity design requirement of pump energy consumption;(3) using standpipe as the cold water of indirect section
Unit, its efficiency is low compared with design;(4) in open system, outdoor air affects relatively on the water outlet cleanliness of handpiece Water Chilling Units
Greatly, increased system potential risk and maintenance management work.
The height existing for existing double flash evaporation cooling handpiece Water Chilling Units is higher, standpipe heat exchange efficiency is low, leaving water temperature
Problem higher and that water outlet cleanliness is low, very necessary one kind of developing can overcome existing double flash evaporation cooling handpiece Water Chilling Units above-mentioned scarce
Sunken evaporation cooling handpiece Water Chilling Units.
Utility model content
The purpose of this utility model is to provide a kind of multistage influence diagram handpiece Water Chilling Units, solves existing double flash evaporation cold
But the problem that the unit that handpiece Water Chilling Units exist is highly higher, standpipe heat exchange efficiency is low, leaving water temperature is higher and water outlet cleanliness is low.
This utility model be employed technical scheme comprise that, a kind of multistage influence diagram handpiece Water Chilling Units, includes machine unit shell,
Central authorities in machine unit shell are provided with split material filling type direct evaporating-cooling unit, split material filling type direct evaporating-cooling unit
Arranged on left and right sides is respectively arranged with the first corresponding filler of structure-heat exchanger tube compound evaporation cooling unit, the second filler-change
Heat pipe combined type evaporates cooling unit;The corresponding machine unit shell in first filler-heat exchanger tube compound evaporation cooling unit inlet side
Air inlet a is provided with the wall of side, and is provided between the first filler-heat exchanger tube compound evaporation cooling unit and air inlet a
High temperature surface cooler a;Set on the corresponding machine unit shell opposite side wall of second filler-heat exchanger tube compound evaporation cooling unit inlet side
It is equipped with air inlet b, and be provided with high temperature surface cooler between the second filler-heat exchanger tube compound evaporation cooling unit and air inlet b
b;High temperature surface cooler a, high temperature surface cooler b are all connected with split material filling type direct evaporating-cooling unit;Split material filling type directly steams
Send out on cooling unit, the first standpipe-packing composite evaporation cooling unit and the second standpipe-packing composite evaporation cooling unit
It is respectively arranged with exhaust outlet on the corresponding machine unit shell roof in side;It is provided with volume control damper in air inlet a and air inlet b.
Feature of the present utility model also resides in:
It is provided with low efficient filter in air inlet a and air inlet b.
Split material filling type direct evaporating-cooling unit, includes cubic filler and stands upside down and be arranged at cubic and fill out
The triangular pyramid filler of material lower section;Cubic filler be sequentially arranged above split type water distribution unit, plant fiber stuffing c
And exhaust blower;Split type water distribution unit is connected with high temperature surface cooler a, high temperature surface cooler b respectively;The lower section of triangular pyramid filler sets
It is equipped with storage tank c, storage tank c connects water main;The arranged on left and right sides of triangular pyramid filler be respectively arranged with wet filter b,
Wet filter a;The top of wet filter b is provided with spray unit b, and spray unit b passes through the second feed pipe and always supplies water
Pipe connects, and the lower section of wet filter b is provided with storage tank b;The top of wet filter a is provided with spray unit a, and spray is single
First a is connected with water main by the first feed pipe, and the lower section of wet filter a is provided with storage tank a.
High temperature surface cooler a connects outlet pipe a, water inlet pipe a respectively, and high temperature surface cooler a passes through outlet pipe a and split type water distribution
Unit connects;High temperature surface cooler b connects outlet pipe b, water inlet pipe b respectively, and high temperature surface cooler b passes through outlet pipe b and split type cloth
Water unit connects.
Split type water distribution unit is made up of the water-locator c in left and right setting and water-locator d;Water-locator c and outlet pipe a is even
Connect, for spraying to the corresponding part of cubic filler;Water-locator d is connected with outlet pipe b, for filling out to cubic
The corresponding part of material is sprayed.
Water circulating pump c is provided with water main.
First filler-heat exchanger tube compound evaporation cooling unit, includes vertical heat exchanging pipe group a, vertical heat exchanging pipe group a
It has been sequentially arranged above PVC filler a, water-locator a, plant fiber stuffing a and secondary exhausting machine a;The lower section of vertical heat exchanging pipe group a
It is provided with cyclic water tank a, between vertical heat exchanging pipe group a and cyclic water tank a, form the first secondary wind runner;Cyclic water tank a passes through
First water pipe is connected with water-locator a.
Vertical heat exchanging pipe group a is made up of the many heat exchanger tubes being vertically arranged;The corresponding machine unit shell of first secondary wind runner
Secondary air inlet a is provided with the wall of side;Water circulating pump a is provided with the first water pipe.
Second filler-heat exchanger tube compound evaporation cooling unit, includes vertical heat exchanging pipe group b, vertical heat exchanging pipe group b
It has been sequentially arranged above PVC filler b, water-locator b, plant fiber stuffing b and secondary exhausting machine b;The lower section of vertical heat exchanging pipe group b
It is provided with cyclic water tank b, between vertical heat exchanging pipe group b and cyclic water tank b, form the second secondary wind runner;Cyclic water tank b passes through
Second water pipe is connected with water-locator b.
Vertical heat exchanging pipe group b is made up of the many heat exchanger tubes being vertically arranged;The corresponding machine unit shell of second secondary wind runner
Secondary air inlet b is provided with the wall of side;Water circulating pump b is provided with the second water pipe.
The beneficial effects of the utility model are:
1) multistage influence diagram handpiece Water Chilling Units of the present utility model, have been respectively arranged cubic filler and three in unit
Pyramid-shaped filler, and cubic filler, in horizontal direction immediately filler-heat exchanger tube compound evaporation cooling unit, increased and fill out
The horizontal span of material, thus reducing the longitudinally height of filler, increased stability and the safety of unit.
2) multistage influence diagram handpiece Water Chilling Units of the present utility model, in filler-heat exchanger tube compound evaporation cooling unit
By the way of PVC filler and vertical heat exchanging pipe group combine, the hot and humid area of secondary wind and recirculated water can be increased, make recirculated water
Temperature more levels off to secondary wind wet bulb temperature, thus improve evaporative cooling efficiency, and then makes this utility model multistage evaporation cold
But the leaving water temperature of handpiece Water Chilling Units is lower, increased the stability of system.
3) multistage influence diagram handpiece Water Chilling Units of the present utility model, flow through filler-heat exchanger tube compound evaporation cooling unit
Secondary wind be air after the wet process such as high temperature surface cooler, there is the wet bulb temperature lower than outdoor air, can increase and change
The efficiency of heat.
4) employ wet filter in multistage influence diagram handpiece Water Chilling Units of the present utility model, primary air can be entered
Row double purification, making the impurity of First air in the air intercept on wet filter, finally falling in storage tank, thus decreasing
The pollution to unit water outlet for the primary air.
Brief description
Fig. 1 is the structural representation of this utility model multistage influence diagram handpiece Water Chilling Units.
In figure, 1. high temperature surface cooler a, 2. vertical heat exchanging pipe group a, 3. outlet pipe a, 4.PVC filler a, 5. water-locator a, 6.
Plant fiber stuffing a, 7. secondary exhausting machine a, 8. plant fiber stuffing c, 9. water-locator c, 10. exhaust blower, 11. cubics are filled out
Material, 12. water-locator d, 13. water inlet pipe a, 14. secondary exhausting machine b, 15. plant fiber stuffing b, 16. water-locator b, 17.PVC fill out
Material b, 18. outlet pipe b, 19. vertical heat exchanging pipe group b, 20. high temperature surface cooler b, 21. water inlet pipe b, 22. water circulating pump b, 23. 2
Secondary air inlet b, 24. cyclic water tank b, 25. spray unit a, 26. wet filter a, 27. storage tank a, 28. storage tank c, 29.
Triangular pyramid filler, 30. water circulating pump c, 31. storage tank b, 32. wet filter b, 33. spray unit b, 34. cyclic water tanks
A, 35. secondary air inlet a, 36. water circulating pump a, 37. air inlet a, 38. air inlet b.
Specific embodiment
With reference to the accompanying drawings and detailed description this utility model is described in detail.
A kind of this utility model multistage influence diagram handpiece Water Chilling Units, as shown in figure 1, including machine unit shell, machine unit shell
Interior central authorities are provided with split material filling type direct evaporating-cooling unit, and left and right the two of split material filling type direct evaporating-cooling unit
Side is respectively arranged with the first corresponding filler of structure-heat exchanger tube compound evaporation cooling unit, the second filler-heat exchanger tube is combined
Type evaporates cooling unit;On the wall of the corresponding machine unit shell side in first filler-heat exchanger tube compound evaporation cooling unit inlet side
It is provided with air inlet a37, and be provided with high temperature between the first filler-heat exchanger tube compound evaporation cooling unit and air inlet a37
Surface cooler a1;Arrange on the corresponding machine unit shell opposite side wall of second filler-heat exchanger tube compound evaporation cooling unit inlet side
There is air inlet b38, and it is cold to be provided with pyrometric scale between the second filler-heat exchanger tube compound evaporation cooling unit and air inlet b38
Device b20;High temperature surface cooler a1, high temperature surface cooler b20 are all connected with split material filling type direct evaporating-cooling unit;Split material filling type
Direct evaporating-cooling unit, the first standpipe-packing composite evaporation cooling unit and the second standpipe-packing composite evaporation cooling
It is respectively arranged with exhaust outlet on corresponding machine unit shell roof above unit.
It is provided with low efficient filter and volume control damper in air inlet a37 and air inlet b38.
Split material filling type direct evaporating-cooling unit, as shown in figure 1, include cubic filler 11 arrange with standing upside down
Triangular pyramid filler 29 in cubic filler 11 lower section;Cubic filler 11 be sequentially arranged above split type water distribution
Unit, plant fiber stuffing c8 and exhaust blower 10;Split type water distribution unit respectively with high temperature surface cooler a1, high temperature surface cooler b20
Connect;The lower section of triangular pyramid filler 29 is provided with storage tank c28, and storage tank c28 connection water main, and water main set
It is equipped with water circulating pump c30;The arranged on left and right sides of triangular pyramid filler 29 is respectively arranged with wet filter b32, wet filter
a26;The top of wet filter b32 is provided with spray unit b33, and spray unit b33 passes through the second feed pipe and water main
Connect, the lower section of wet filter b32 is provided with storage tank b31;The top of wet filter a26 is provided with spray unit a25,
Spray unit a25 is connected with water main by the first feed pipe, and the lower section of wet filter a26 is provided with storage tank a27.
High temperature surface cooler a1 connects outlet pipe a3, water inlet pipe a13 respectively;High temperature surface cooler b20 connects outlet pipe respectively
B18, water inlet pipe b21;The water inlet pipe b21 of the water inlet pipe a13 of high temperature surface cooler a1 and high temperature surface cooler b20 all with indoor return pipe
Connect;High temperature surface cooler a1 is connected with split type water distribution unit by outlet pipe a3, and high temperature surface cooler b20 passes through outlet pipe b18
It is connected with split type water distribution unit.
Split type water distribution unit is made up of the water-locator c9 in left and right setting and water-locator d12, water-locator c9 and outlet pipe
A3 connect, the left-half of cubic filler 11 can be sprayed, water-locator d12 is connected with outlet pipe b18, can to cube
The right half part of body shape filler 11 is sprayed.
First filler-heat exchanger tube compound evaporation cooling unit, as shown in figure 1, including vertical heat exchanging pipe group a2, vertical
Set of heat exchange tubes a2 be sequentially arranged above PVC filler a4, water-locator a5, plant fiber stuffing a6 and secondary exhausting machine a7;Vertical
The lower section of formula set of heat exchange tubes a2 is provided with cyclic water tank a34, forms the one or two between vertical heat exchanging pipe group a2 and cyclic water tank a34
Secondary distinguished and admirable road;Cyclic water tank a34 is connected with water-locator a5 by the first water pipe.
Vertical heat exchanging pipe group a2 is made up of the many heat exchanger tubes being vertically arranged.
It is provided with secondary air inlet a35 on first secondary wind runner corresponding machine unit shell side wall.
Water circulating pump a36 is provided with the first water pipe.
Second filler-heat exchanger tube compound evaporation cooling unit, as shown in figure 1, including vertical heat exchanging pipe group b19, stands
Formula set of heat exchange tubes b19 be sequentially arranged above PVC filler b17, water-locator b16, plant fiber stuffing b15 and secondary exhausting machine
B14, the lower section of vertical heat exchanging pipe group b19 is provided with cyclic water tank b24, shape between vertical heat exchanging pipe group b19 and cyclic water tank b24
Become the second secondary wind runner;Cyclic water tank b24 is connected with water-locator b16 by the second water pipe.
Vertical heat exchanging pipe group b19 is made up of the many heat exchanger tubes being vertically arranged.
It is provided with secondary air inlet b23 on second secondary wind runner corresponding machine unit shell side wall.
Water circulating pump b22 is provided with the second water pipe.
A kind of this utility model multistage influence diagram handpiece Water Chilling Units, its work process can be divided into wind system workflow and water
System work process, specific as follows:
(1) wind system work process:
Outdoor fresh air enters in machine unit shell through air inlet a37, air inlet b38 respectively, due to air inlet a37 and air inlet
It is provided with low efficient filter in b38, so can filter to outdoor fresh air, so that outdoor fresh air is become after entering machine unit shell
Clean air;
Enter the pure air in machine unit shell through air inlet a37 and first flow through high temperature surface cooler a1, by high temperature surface cooler
A1 it is carried out etc. clammy but form precooled air, precooled air is divided into following two parts to be processed:
A part of precooled air enters the moisture film in vertical heat exchanging pipe group a2, with every heat exchange pipe outer wall as primary air
Carry out hot and humid area complete etc. clammy but, form a cold air;Cold air carries out filtering laggard through wet filter b32
Enter in split material filling type direct evaporating-cooling unit, carry out hot wet friendship again with cubic filler 11 and triangular pyramid filler 29
Change, form a cold wind;One time cold wind moves in the presence of exhaust blower 10 upwards, when flowing through plant fiber stuffing c8, by planting
Fibres filler c8 carries out dehumidification treatments to it, and a cold wind finally meeting air-supply condition is discharged in ambient atmosphere;
As secondary wind, this part precooled air enters vertical heat exchanging through secondary air inlet a35 to another part precooled air
In every heat exchanger tube of pipe group a2, make the moisture film when flowing through in heat exchanger tube with formation on heat exchange inside pipe wall for this part precooled air
There is hot and humid area, form secondary cold wind;Secondary cold wind continues up in the presence of secondary exhausting machine a7, fills out with PVC
Material a4 carries out hot and humid area again, eventually passes through the dry filter of plant fiber stuffing a6, is discharged to surrounding by secondary exhausting machine a7
In air.
Enter the pure air in machine unit shell through air inlet b38 and first flow through high temperature surface cooler b20, by high temperature surface cooler
B20 it is carried out etc. clammy but form precooled air, precooled air is divided into following two parts to be processed:
A part of precooled air enters the water in vertical heat exchanging pipe group b19, with every heat exchange pipe outer wall as primary air
Film carry out hot and humid area complete etc. clammy but, form a cold air;After one time cold air is filtered through wet filter a26
Enter split material filling type direct evaporating-cooling unit in, with cubic filler 11 and triangular pyramid filler 29 carry out again heat wet
Exchange, form a cold wind;One time cold wind moves in the presence of exhaust blower 10 upwards, when flowing through plant fiber stuffing c8, by
Plant fiber stuffing c8 carries out dehumidification treatments to it, and a cold wind finally meeting air-supply condition is discharged in ambient atmosphere;
As secondary wind, this part precooled air enters vertical heat exchanging through secondary air inlet b23 to another part precooled air
In every heat exchanger tube of pipe group b19, make the water when flowing through in heat exchanger tube with formation on heat exchange inside pipe wall for this part precooled air
There is hot and humid area in film, form secondary cold wind;Secondary cold wind continues up in the presence of secondary exhausting machine b14, with PVC
Filler b17 carries out hot and humid area again, eventually passes through the dry filter of plant fiber stuffing b15, is discharged to by secondary exhausting machine b14
In ambient atmosphere.
(2) work process of water system is specific as follows:
The work process of the first water system is concrete:
Indoor backwater first passes through water inlet pipe a13 and enters in high temperature surface cooler a1, treats that high temperature surface cooler a1 is indirect with air
After heat exchange, the water in high temperature surface cooler a1 enters in water-locator c9 along outlet pipe a3, and by water, spray exists downwards by water-locator c9
Form moisture film on cubic filler 11 and triangular pyramid filler 29, now flow through cubic filler 11 and triangular pyramid filler
29 primary air can occur hot and humid area, cubic filler 11 and triangular pyramid filler 29 after the completion of hot and humid area with moisture film
On water temperature step-down, this part water falls under gravity in storage tank c28.
Indoor backwater first passes through water inlet pipe b21 and enters in high temperature surface cooler b20, treats between high temperature surface cooler b20 and air
After connecing heat exchange, the water in high temperature surface cooler b20 enters in water-locator d12 along outlet pipe b18, and by water-locator d12, water is downward
Spray falls and forms moisture film on cubic filler 11 and triangular pyramid filler 29, now flows through cubic filler 11 and Rhizoma Sparganii
The primary air of taper filler 29 can occur hot and humid area, cubic filler 11 and triangular pyramid after the completion of hot and humid area with moisture film
Water temperature step-down on shape filler 29, this part water falls under gravity in storage tank c28.
The work process of second water system is concrete:
Recirculated water in cyclic water tank a34 enters water-locator in dynamic action lower edge first water pipe of water circulating pump a36
In a5, water is sprayed to downwards on PVC filler a4 by water-locator a5, moisture film, PVC filler a4 can be formed on PVC filler a4 surface
Unnecessary water droplet drops down onto in vertical heat exchanging pipe group a2, flows through vertical heat exchanging pipe group a2 and the air of PVC filler a4 can be carried out twice
Hot and humid area, reduces the temperature of air further, and in PVC filler a4 and vertical heat exchanging pipe group a2, unnecessary water energy falls into circulation
In water tank a34, move in circles.
Recirculated water in cyclic water tank b24 enters water-locator in dynamic action lower edge second water pipe of water circulating pump b22
In b16, water is sprayed to downwards on PVC filler b17 by water-locator b16, moisture film can be formed on PVC filler b17 surface, PVC fills out
The unnecessary water droplet of material b17 drops down onto in vertical heat exchanging pipe group b19, flows through vertical heat exchanging pipe group b19 and the air energy of PVC filler b17
Carry out hot and humid area twice, reduce the temperature of air further, and unnecessary water in PVC filler b17 and vertical heat exchanging pipe group b19
Can fall in cyclic water tank b24, move in circles.
The work process of the third water system is concrete:
Sub-fraction cold water in storage tank c28 exports in the dynamic action lower edge water main of water circulating pump c30, and point
It flow to the first feed pipe, the second feed pipe;Water is delivered to spray unit a25 by the first feed pipe, is sprayed water by spray unit a25
Drench to wet filter a26, unnecessary water falls storage tank a27 under gravity;Water is delivered to spray by the second feed pipe
Unit b33, by spray unit b33 by Water spray to wet filter b32, unnecessary water falls storage tank under gravity
b31.
A kind of this utility model multistage influence diagram handpiece Water Chilling Units, solve existing double flash evaporation cooling handpiece Water Chilling Units and exist
Unit is highly higher, standpipe heat exchange efficiency is low, leaving water temperature is higher and water outlet cleanliness is low problem.
Claims (10)
1. a kind of multistage influence diagram handpiece Water Chilling Units are it is characterised in that include machine unit shell, the central authorities in described machine unit shell
It is provided with split material filling type direct evaporating-cooling unit, the arranged on left and right sides of described split material filling type direct evaporating-cooling unit is divided
It is not provided with the first corresponding filler of structure-heat exchanger tube compound evaporation cooling unit, the compound steaming of the second filler-heat exchanger tube
Send out cooling unit;
Be provided with the wall of the corresponding machine unit shell side in described first filler-heat exchanger tube compound evaporation cooling unit inlet side into
It is provided with pyrometric scale cold between air port a (37), and the first filler-heat exchanger tube compound evaporation cooling unit and air inlet a (37)
Device a (1);Set on the corresponding machine unit shell opposite side wall of described second filler-heat exchanger tube compound evaporation cooling unit inlet side
It is equipped with air inlet b (38), and be provided with height between the second filler-heat exchanger tube compound evaporation cooling unit and air inlet b (38)
Warm surface cooler b (20);High temperature surface cooler a (1), high temperature surface cooler b (20) are all with split material filling type direct evaporating-cooling unit even
Connect;
Described split material filling type direct evaporating-cooling unit, the first standpipe-packing composite evaporation cooling unit and the second standpipe-
It is respectively arranged with exhaust outlet on corresponding machine unit shell roof above packing composite evaporation cooling unit;
It is provided with volume control damper in described air inlet a (37) and air inlet b (38).
2. multistage influence diagram handpiece Water Chilling Units according to claim 1 are it is characterised in that described air inlet a (37) and entering
Air port b is provided with low efficient filter in (38).
3. multistage influence diagram handpiece Water Chilling Units according to claim 1 are it is characterised in that described split material filling type directly steams
Send out cooling unit, include cubic filler (11) and the triangular pyramid being arranged at below cubic filler (11) of standing upside down
Filler (29);
Described cubic filler (11) be sequentially arranged above split type water distribution unit, plant fiber stuffing c (8) and row
Blower fan (10);Described split type water distribution unit is connected with high temperature surface cooler a (1), high temperature surface cooler b (20) respectively;
The lower section of described triangular pyramid filler (29) is provided with storage tank c (28), and described storage tank c (28) connects water main;
The arranged on left and right sides of described triangular pyramid filler (29) is respectively arranged with wet filter b (32), wet filter a (26);
The top of described wet filter b (32) is provided with spray unit b (33), and described spray unit b (33) is passed through second and supplied
Water pipe is connected with water main, and the lower section of described wet filter b (32) is provided with storage tank b (31);
The top of described wet filter a (26) is provided with spray unit a (25), and spray unit a (25) passes through the first feed pipe
It is connected with water main, the lower section of described wet filter a (26) is provided with storage tank a (27).
4. the multistage influence diagram handpiece Water Chilling Units according to claim 1 or 3 are it is characterised in that described high temperature surface cooler a
(1) outlet pipe a (3), water inlet pipe a (13) are connected respectively, described high temperature surface cooler a (1) passes through outlet pipe a (3) and split type cloth
Water unit connects;
Described high temperature surface cooler b (20) connects outlet pipe b (18), water inlet pipe b (21) respectively, and described high temperature surface cooler b (20) is led to
Cross outlet pipe b (18) to be connected with split type water distribution unit.
5. multistage influence diagram handpiece Water Chilling Units according to claim 4 it is characterised in that described split type water distribution unit by
Water-locator c (9) in left and right setting and water-locator d (12) is constituted;
Described water-locator c (9) is connected with outlet pipe a (3), for spraying to the corresponding part of cubic filler (11);
Described water-locator d (12) is connected with outlet pipe b (18), for spraying to the corresponding part of cubic filler (11)
Drench.
6. multistage influence diagram handpiece Water Chilling Units according to claim 3 are it is characterised in that be provided with described water main
Water circulating pump c (30).
7. multistage influence diagram handpiece Water Chilling Units according to claim 1 are it is characterised in that described first filler-heat exchanger tube
Compound evaporation cooling unit, includes vertical heat exchanging pipe group a (2), being sequentially arranged above of described vertical heat exchanging pipe group a (2)
There are PVC filler a (4), water-locator a (5), plant fiber stuffing a (6) and secondary exhausting machine a (7);
The lower section of described vertical heat exchanging pipe group a (2) is provided with cyclic water tank a (34), described vertical heat exchanging pipe group a (2) and circulation
Form the first secondary wind runner between water tank a (34);
Described cyclic water tank a (34) is connected with water-locator a (5) by the first water pipe.
8. multistage influence diagram handpiece Water Chilling Units according to claim 7 are it is characterised in that described vertical heat exchanging pipe group a (2)
It is made up of the many heat exchanger tubes being vertically arranged;
It is provided with secondary air inlet a (35) on described first secondary wind runner corresponding machine unit shell side wall;
Water circulating pump a (36) is provided with described first water pipe.
9. multistage influence diagram handpiece Water Chilling Units according to claim 1 are it is characterised in that described second filler-heat exchanger tube
Compound evaporation cooling unit, includes vertical heat exchanging pipe group b (19), and the top of described vertical heat exchanging pipe group b (19) sets successively
It is equipped with PVC filler b (17), water-locator b (16), plant fiber stuffing b (15) and secondary exhausting machine b (14);
The lower section of described vertical heat exchanging pipe group b (19) is provided with cyclic water tank b (24), described vertical heat exchanging pipe group b (19) with follow
Form the second secondary wind runner between ring water tank b (24);Described cyclic water tank b (24) passes through the second water pipe and water-locator b
(16) connect.
10. multistage influence diagram handpiece Water Chilling Units according to claim 9 are it is characterised in that described vertical heat exchanging pipe group b
(19) it is made up of the many heat exchanger tubes being vertically arranged;
It is provided with secondary air inlet b (23) on described second secondary wind runner corresponding machine unit shell side wall;
Water circulating pump b (22) is provided with described second water pipe.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620669237.3U CN205980099U (en) | 2016-06-29 | 2016-06-29 | Multistage evaporation cooling cooling water set |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620669237.3U CN205980099U (en) | 2016-06-29 | 2016-06-29 | Multistage evaporation cooling cooling water set |
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CN205980099U true CN205980099U (en) | 2017-02-22 |
Family
ID=58022702
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CN201620669237.3U Expired - Fee Related CN205980099U (en) | 2016-06-29 | 2016-06-29 | Multistage evaporation cooling cooling water set |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109186274A (en) * | 2018-08-06 | 2019-01-11 | 湖南大学 | A kind of two-stage evaporative cooling tower and its water-cooling method |
CN109654901A (en) * | 2019-01-17 | 2019-04-19 | 武汉泰康翔科技股份有限公司 | A kind of circulating water cooling treatment equipment |
-
2016
- 2016-06-29 CN CN201620669237.3U patent/CN205980099U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109186274A (en) * | 2018-08-06 | 2019-01-11 | 湖南大学 | A kind of two-stage evaporative cooling tower and its water-cooling method |
CN109654901A (en) * | 2019-01-17 | 2019-04-19 | 武汉泰康翔科技股份有限公司 | A kind of circulating water cooling treatment equipment |
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