Nothing Special   »   [go: up one dir, main page]

CN101270963B - Combination method for coil pipe unit of transverse flow enclosed cooling tower - Google Patents

Combination method for coil pipe unit of transverse flow enclosed cooling tower Download PDF

Info

Publication number
CN101270963B
CN101270963B CN200810037569XA CN200810037569A CN101270963B CN 101270963 B CN101270963 B CN 101270963B CN 200810037569X A CN200810037569X A CN 200810037569XA CN 200810037569 A CN200810037569 A CN 200810037569A CN 101270963 B CN101270963 B CN 101270963B
Authority
CN
China
Prior art keywords
coil pipe
pipe unit
cooling tower
export
port
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN200810037569XA
Other languages
Chinese (zh)
Other versions
CN101270963A (en
Inventor
章立新
何仁兔
高明
苏永秋
黄陈师
范志远
欧阳新萍
薛梅
王企鲲
金林波
刘妮
邹艳芳
陈岩永
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ZHEJIANG JINLING REFRIGERATING ENGINEERING Co Ltd
University of Shanghai for Science and Technology
Original Assignee
ZHEJIANG JINLING REFRIGERATING ENGINEERING Co Ltd
University of Shanghai for Science and Technology
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ZHEJIANG JINLING REFRIGERATING ENGINEERING Co Ltd, University of Shanghai for Science and Technology filed Critical ZHEJIANG JINLING REFRIGERATING ENGINEERING Co Ltd
Priority to CN200810037569XA priority Critical patent/CN101270963B/en
Publication of CN101270963A publication Critical patent/CN101270963A/en
Application granted granted Critical
Publication of CN101270963B publication Critical patent/CN101270963B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)

Abstract

The invention relates to a combination method for a coil unit of a crossfolw closed circuit cooling tower, the process of which is as follows: firstly, an in-and-out end of the coil unit is a bellmouth-shaped pipe end plus to nut which is used for connecting with a vertical header of the crossfolw closed circuit cooling tower, a section of corrugated pipe close to the in-and-out end is used to adjust the position of the in-and-out end; then, a h-shaped converter, a straight tube, and a U-shaped tube between the corrugated pipes are connected to form upper and lower coil units with equal resistance and equal resistance which are staggered in parallel, and each straight tube of the coil tube is fixed at certain intervals. Because of the invention, the installation and replacement of the coil unit is convenient, and the structure is compact, which is beneficial to deflation and drainage. The coil unit can be freely combined with the coil unit or water drenching fillers to decrease the radiating effect per unit area of tube.

Description

The combined method that is used for the coil pipe unit of transverse flow enclosed cooling tower
Technical field
The present invention relates to the core component of a kind of cooler or cooling tower, the method for the coil pipe of especially a kind of combination transverse flow enclosed cooling tower or crossing current evaporative cooling (condensation) device.
Background technology
Closed cooling tower or cooling (condensation) device is to be widely used in the refrigerating industry cycle fluid with the equipment to air discharging used heat, and is closely related with the energy-saving and water-saving that presses for solution in the national economy and social development.
Cooler with the air cooling circulating water is commonly referred to cooling tower.The water that is cooled is limited in and conducts heat in the coil pipe and the outer closed cooling tower that is called that the shower water auxiliary heat dissipation is arranged of pipe.When be cooled in the pipe for other working medium of non-water the time, often be called devaporizer, what working medium had a phase transformation in cooling procedure then is called evaporative condenser, though these three kinds of equipment because the difference of cooling object has different titles, its principle is identical with structure.In this kind equipment, shower water flows in vertical direction, and air flows in nearly horizontal direction, and the horizontal separately coil pipe bundle of plunderring, and then is called the crossing current form.
General transverse flow enclosed cooling tower has inside and outside two groups of vertical headers, and the coil pipe bundle of some parallel connections is arranged between two groups of collectors.Traditional method of attachment is welding between coil pipe bundle and collector, in case leakage is arranged, it is very inconvenient to keep in repair.The form of being threaded of using instead is arranged now, but install and discharge water, aspect such as exhaust is still waiting to improve.
Summary of the invention
The present invention will provide a kind of combined method that is used for the coil pipe unit of transverse flow enclosed cooling tower, and this method makes coil pipe unit install and change conveniently that compact conformation helps venting, draining.
For realizing purpose of the present invention, the technical scheme of employing is as follows:
A kind of combined method that is used for the coil pipe unit of transverse flow enclosed cooling tower, its process is: at first, the entrance point of coil pipe and the port of export are made belled tube-end and are added the nut form, in order to be connected with the vertical headers of transverse flow enclosed cooling tower; Adjacent entrance point respectively is connected one section bellows with the port of export, in order to adjust the position of the entrance point and the port of export, the other end at two bellowss respectively connects a h shape conversion head then, between two h shape conversion heads, connect the reciprocal coiled pipe row of forming by a plurality of straight tubes and a plurality of U-shaped pipe, constitute two-way up and down in parallel and become stagger arrangement etc. flow process and etc. the coil pipe unit of flow resistance, and each straight tube in the coil pipe is fixed by certain spacing with spacer.
In the said process, make that the entrance point of coil pipe unit is shorter than the port of export, wherein, entrance point is positioned at the air side of upper strata coil pipe, the port of export is positioned at the inlet side of lower floor's coil pipe, and coil pipe unit had a down dip one to outlet side from inlet side becomes 4~7 ° angle with horizontal plane.
The invention has the beneficial effects as follows:
Make coil pipe unit install and change conveniently that compact conformation helps venting, draining, can also be with coil pipe unit and coil pipe unit or coil pipe unit and packing independent assortment, to improve the radiating effect of unit tube area.
Description of drawings
Fig. 1 is a structural representation of the present invention;
Fig. 2 be between structure of the present invention with the schematic diagram of one of filler combination form;
Fig. 3 be between structure of the present invention with two schematic diagram of filler combination form;
Fig. 4 be between structure of the present invention with three schematic diagram of filler combination form.
The specific embodiment
The present invention is further illustrated below in conjunction with accompanying drawing and embodiment.
As shown in drawings: a kind of combined method that is used for the coil pipe unit of transverse flow enclosed cooling tower, its process is: at first, the entrance point 7 of coil pipe unit and the port of export 1 are all made belled tube-end and are added the nut form, respectively in order to be connected with outlet vertical headers 10 with the import vertical headers 11 of transverse flow enclosed cooling tower; Adjacent entrance point 7 is one section bellows 8, the adjacent port of export 1 also is one section bellows 2, in order to adjust the position of the entrance point 7 and the port of export 1, the other end at bellows 8 connects h shape conversion head 9 then, the other end at bellows 2 connects h shape conversion head 3, between h shape conversion head 9 and h shape conversion head 3, connect the coiled pipe row of forming by a plurality of straight tubes 4 and a plurality of U-shaped pipe 6, constitute two-way up and down in parallel and become stagger arrangement etc. flow process and etc. the coil pipe unit of flow resistance, and each straight tube in the coil pipe 4 is fixed by certain spacing with spacer 5.
This structure adopts being threaded of coil pipe unit and collector 11 and collector 10, install change convenient, and under the condition of the outer windage permission of pipe, (B when minimum accomplishes that straight tube centre-to-centre spacing L is the triangular arrangement of external diameter of pipe D twice Min=1.732D), still can import and export between joint and adjacent disc pipe unit import and export joint and leave enough spanner working spaces at coil pipe unit, at this moment coil pipe unit is imported and exported the minimum centers-distance L of joint and adjacent disc pipe unit import and export joint MinShould be 2B Min, therefore accomplish the compact conformation (see figure 2).One section bellows piece 8 is arranged behind the import pipeline section 7, and one section bellows piece 2 arranged behind the outlet pipe section 1, fine-tuning angle and length are passed through under the fixing condition of spacer 5 and tower body coil pipe unit, and coil pipe unit is imported and exported joint and docked and tighten very convenient with the screw thread of collector 11 and collector 10.
The entrance point 7 of coil pipe unit is positioned at the air side of upper strata coil pipe, and the port of export 1 is positioned at the inlet side of lower floor's coil pipe, makes coil pipe unit and horizontal plane form a low-angle α who has a down dip to outlet side from inlet side and (sees that Fig. 2~Fig. 4), this angle is recommended as 4~7 °.So just guaranteed the highest point of entrance point 7 at coil pipe unit, the port of export 1 is at the lowest part of coil pipe unit, and from entrance point 7 always descending to the port of export 1 along journey, can be when blank pipe fills working medium thereby convenient from the abundant exhaust of top vent valve of inlet header 11, because the existence of inner air tube will reduce the radiating effect of intraductal working medium; Also make things convenient for simultaneously when stopping using bottom blow valve emptying intraductal working medium, in order to avoid bursting by freezing coil pipe in the winter time from outlet header 10.
Zu He another benefit is like this, flow processs such as the coil pipe of two tunnel parallel connections of this coil pipe unit just in time is and etc. flow resistance, be that the flow through distance of every road coil pipe and elbow number average of intraductal working medium equates, then on-way resistance and local resistance also equate, therefore the assignment of traffic of each coil pipe of flowing through also is impartial, helps balanced heat radiation.
Bolt hole is left at the two ends of this coil pipe unit spacer 5, can make coil pipe unit be well secured to tower body, Stability Analysis of Structures.
In addition, the entrance point 7 of coil pipe unit is shorter than the port of export 1, make inlet header 11 in the length range of coil pipe unit, and outlet header 10 when changing coil pipe unit, moves to outlet side from inlet side outside the length range of coil pipe unit, move to the inlet side from the air side in other words, because outlet header 10 is outside the length range of coil pipe unit, as long as lay down the framework vertical rod that is used for fixing spacer 5 on the tower body, coil pipe unit just can successfully shift out or move into.
This coil pipe unit not only can be a plurality of up and down stack form the coil pipe groups, and can resemble Fig. 2~Fig. 4 with the different combining form of packing 12 formations, with the radiating effect of raising unit tube area.13 is the air intake district among the figure, plays uniform air flow and prevents that shower water from splashing away from air inlet; 14 is water collection device among the figure, for preventing that air-flow from carrying shower water and being extracted out outside the tower by blower fan.
Need to prove that at last Fig. 1 is embodiment to the flow process number of coil pipe unit shown in Figure 4 and the number of coil pipe unit stack, is not the feature of invention.

Claims (3)

1. combined method that is used for the coil pipe unit of transverse flow enclosed cooling tower, it is characterized in that its process is: at first, the entrance point of coil pipe unit (7) and the port of export (1) are made the form that belled tube-end adds nut, connect in order to vertical headers (11,10) with transverse flow enclosed cooling tower; Adjacent entrance point (7) respectively is connected one section bellows (8 with the port of export (1), 2), in order to adjust the position of the entrance point (7) and the port of export (1), then at two bellowss (8,2) the other end respectively connects a h shape conversion head (9,3), at two h shape conversion heads (9,3) connect the reciprocal coiled pipe of forming by a plurality of straight tubes (4) and a plurality of U-shaped pipe (6) between, row constitute two-way up and down in parallel and become stagger arrangement etc. flow process and etc. the coil pipe unit of flow resistance, and each straight tube (4) in the coil pipe is fixed by certain spacing with spacer (5).
2. the combined method that is used for the coil pipe unit of transverse flow enclosed cooling tower according to claim 1, it is characterized in that, in the described process, make that the entrance point (7) of coil pipe unit is shorter than the port of export (1), wherein, entrance point (7) is positioned at the air side of upper strata coil pipe, and the port of export (1) is positioned at the inlet side of lower floor's coil pipe, when connecting coil pipe unit had a down dip one to outlet side from inlet side and become 4~7 ° angle with horizontal plane with vertical headers (11,10).
3. the combined method that is used for the coil pipe unit of transverse flow enclosed cooling tower according to claim 1 is characterized in that, in the described process, bolt hole is left at the two ends of spacer (5), can make coil pipe unit be well secured to tower body.
CN200810037569XA 2008-05-19 2008-05-19 Combination method for coil pipe unit of transverse flow enclosed cooling tower Expired - Fee Related CN101270963B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN200810037569XA CN101270963B (en) 2008-05-19 2008-05-19 Combination method for coil pipe unit of transverse flow enclosed cooling tower

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN200810037569XA CN101270963B (en) 2008-05-19 2008-05-19 Combination method for coil pipe unit of transverse flow enclosed cooling tower

Publications (2)

Publication Number Publication Date
CN101270963A CN101270963A (en) 2008-09-24
CN101270963B true CN101270963B (en) 2010-08-11

Family

ID=40005081

Family Applications (1)

Application Number Title Priority Date Filing Date
CN200810037569XA Expired - Fee Related CN101270963B (en) 2008-05-19 2008-05-19 Combination method for coil pipe unit of transverse flow enclosed cooling tower

Country Status (1)

Country Link
CN (1) CN101270963B (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103225971A (en) * 2013-03-21 2013-07-31 无锡市恒达矿山机械有限公司 Gas cooling tower
CN109028541B (en) * 2018-08-01 2020-07-17 珠海格力电器股份有限公司 Heat exchanger and air conditioning system with same
CN112325670B (en) * 2020-11-03 2022-03-29 湖南元亨科技股份有限公司 Water-saving fog-dispersing adjustable closed cooling tower

Also Published As

Publication number Publication date
CN101270963A (en) 2008-09-24

Similar Documents

Publication Publication Date Title
CN100451522C (en) Liquid separating air condenser
CN101782345A (en) Lamella heat exchanger and manufacturing method thereof and lamella evaporative condensing equipment
CN105115315B (en) One kind energy-conservation closed cooling tower
CN101270963B (en) Combination method for coil pipe unit of transverse flow enclosed cooling tower
CN205138258U (en) Do wet closed cooling tower that combines
CN100582607C (en) Liquid division type double-pipe condenser
CN2198589Y (en) Wave tube heat exchanger
CN201440016U (en) Built-in subcooler structure of horizontal shell and tube condenser
CN201221914Y (en) Coil pipe unit for transverse flow closed type cooling tower
CN101281008B (en) Method for combining coil pipe unit for adverse current closed type cooling tower
CN201210028Y (en) Coil unit for reversed flow closed type cooling tower
CN203286907U (en) Shell-and-tube air cooler
CN204268924U (en) A kind of tube bank sleeve pipe fixing hole plate supporting type heat exchanger
CN105180307B (en) A kind of air-conditioner outdoor unit and its condenser
CN105021060A (en) Natural convection cooling tower type air cooling system
CN208312769U (en) A kind of dedicated fin-tube type heat exchanger of air-conditioning
CN107270736A (en) One kind evaporation cooling decoupling type heat-exchanger rig
CN112556451A (en) Natural ventilation cooling tower and ventilation method thereof
CN108344210B (en) Parallel flow heat exchange system for improving heat exchange efficiency
CN102692155B (en) Heat conductive plastic heat exchange module used for countercurrent closed cooling tower
CN201867086U (en) Gas-liquid separation type air cooled condenser
CN2872275Y (en) Shell-and-tube heat exchanger
CN217764515U (en) Direct air cooling system of double-small 'A' type air cooling condenser
CN205736790U (en) A kind of condenser for track train air-conditioning
CN2783245Y (en) Dense distributed inverse flow type heat exchanger

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20100811

Termination date: 20170519

CF01 Termination of patent right due to non-payment of annual fee