CN207688731U - Fillers for transverse-flow cooling tower and its processing mold - Google Patents
Fillers for transverse-flow cooling tower and its processing mold Download PDFInfo
- Publication number
- CN207688731U CN207688731U CN201721463537.7U CN201721463537U CN207688731U CN 207688731 U CN207688731 U CN 207688731U CN 201721463537 U CN201721463537 U CN 201721463537U CN 207688731 U CN207688731 U CN 207688731U
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- cooling tower
- segment
- heat dissipation
- fillers
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- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
The utility model provides a kind of fillers for transverse-flow cooling tower, including heat dissipation segment unit, the heat dissipation segment unit are equipped with equally distributed perforation hole and connecting hole, and the perforation hole and connecting hole are correspondingly arranged.The utility model additionally provides the processing mold of production fillers for transverse-flow cooling tower, radiating segment die unit including being molded the heat dissipation segment unit, the radiating segment die unit is equipped with multiple equally distributed first boss and second boss to be molded perforation hole and connecting hole, and the first boss and the second boss are correspondingly arranged.The utility model can complete the production of the more specifications of a mould, prevent waste.
Description
Technical field
The utility model is related to crossflow cooling tower field, more particularly to a kind of fillers for transverse-flow cooling tower and its processing mold.
Background technology
Crossing current tower refers to, by means of the forced draft of ventilation blower, air being made laterally to flow into tower, and water droplet is then by weight
Power from top to bottom flows in filler, and the flow direction of two kinds of fluids is in 90 ° of angles, and mass-and heat-transfer is carried out in filler.Filler
It is the most important part of cooling tower, its efficiency, the degree come into full contact in filler depending on cooling water and air.It is horizontal
Stream tower sine V waves filler is made of radiating segment, air inducing section, water conduction section, receipts water section, and fresh air enters air inducing section with 45 jiaos first,
Then it is exchanged with from the water progress caloic under water conduction section in radiating segment, finally goes out filler from receipts water section with 45 degree of angles.Flow over tower
Filler is whole arrangement of requirement in the height direction since the height of the tower packing of different flow is different, but is passed
The sinusoidal V waves filler of system needs mold exchange repeatedly when manufacturing there are many specification, when mold changing, needs four workers' resultant forces
One big section of product needs to scrap again before when could complete, and start production after changing the mold, and not only waste of manpower is also unrestrained in this way
Take material.And in the installation process of filler, traditional filler cannot separate every uniform filling, be easy to happen shifting
It is dynamic.
Utility model content
In order to solve the technical problem, the utility model provides a kind of fillers for transverse-flow cooling tower and its processing mold, uses
Time and cost is caused to waste in solving in the prior art repeatedly mold exchange, and filler cannot be asked every uniform filling is separated
Topic.
To solve the above-mentioned problems, the utility model provides a kind of fillers for transverse-flow cooling tower, including heat dissipation segment unit, institute
It states heat dissipation segment unit and is equipped with equally distributed perforation hole and connecting hole, the perforation hole and connecting hole are correspondingly arranged.
The utility model is by being arranged perforation hole and connecting hole, and poling on the heat dissipation segment unit on cooling tower filler
Hole and connecting hole are correspondingly arranged, and when installing cooling tower filler, by the way that the tie point of adjacent cooling tower filler is cross-superimposed, are made
Will not move between each filler, secured performance is more preferable.
Further improvement of the utility model is, the heat dissipation segment unit is equipped with multiple wave bands, the perforation hole and
Connecting hole is set on each wave band.
Further improvement of the utility model is that the length of the cooling tower filler is the integer of the wave band length
Times.
Further improvement of the utility model is to further include the receipts water section and air inducing for being set to the heat dissipation segment unit both sides
Section.
The utility model additionally provides a kind of processing mold producing fillers for transverse-flow cooling tower, including the molding radiating segment
The radiating segment die unit of unit, the radiating segment die unit are equipped with multiple equally distributed first boss and second boss
To be molded perforation hole and connecting hole, the first boss and the second boss are correspondingly arranged.
Further improvement of the utility model is that the heat dissipation segment unit is equipped with multiple wave bands, the radiating segment mould
Have unit and is equipped with the wave band die unit for being molded the wave band.
Further improvement of the utility model is that the length of the mold of fillers for transverse-flow cooling tower is the wave band mold list
The integral multiple of the length of member.
Further improvement of the utility model is, the both sides of the radiating segment die unit be additionally provided with to be formed receive water section and
The receipts water section die unit and air inducing section die unit of air inducing section.
The beneficial effects of the utility model compared with the prior art lie in:
The utility model is by being arranged perforation hole and connecting hole, and poling on the heat dissipation segment unit on cooling tower filler
Hole and connecting hole are correspondingly arranged, and when installing cooling tower filler, by the way that the tie point of adjacent cooling tower filler is cross-superimposed, are made
Will not move between each filler, secured performance is more preferable.The mold can complete various types of cooling tower fillers
Processing and making.
Description of the drawings
Fig. 1 is the schematic diagram of fillers for transverse-flow cooling tower in the utility model;
Fig. 2 is the schematic diagram of the processing mold of fillers for transverse-flow cooling tower in the utility model.
Reference numeral
1, radiate segment unit;11, perforation hole;12, connecting hole;2, water segment unit is received;3, air inducing segment unit;4, radiating segment mould
Has unit;41, first boss;42, second boss;5, water section die unit is received;6, air inducing section die unit.
Specific implementation mode
Below in conjunction with attached drawing, technical characteristic above-mentioned to the utility model and other and advantage carry out clearly and completely
Description, it is clear that described embodiment is only the section Example of the utility model, rather than whole embodiments.
The utility model provides a kind of fillers for transverse-flow cooling tower.Traditional fillers for transverse-flow cooling tower by heat dissipation segment unit,
Air inducing segment unit, water guide segment unit and receive water segment unit composition, at work, each filler cannot well uniformly every
It opens, and the mold for processing the filler need to be replaced when producing the filler of different model, the process of replacement wastes manpower
And cost.The filler of the utility model can disposably be completed by a mold, and can be evenly distributed water after installing
On each filler.Mold can disposably complete the production of the filler of plurality of specifications, save time and cost.With reference to
Attached drawing illustrates the fillers for transverse-flow cooling tower of the utility model.
Refering to fig. 1, the utility model is a kind of fillers for transverse-flow cooling tower, including heat dissipation segment unit 1, in heat dissipation segment unit 1
It is equipped with equally distributed perforation hole 11 and connecting hole 12, and perforation hole 11 and connecting hole 12 are correspondingly arranged.In installation filler
When, connecting hole 12 is regard as location hole, by the way that the tie point of adjacent cooling tower filler is cross-superimposed so that each filler it
Between will not move, secured performance is more preferable.
On fillers for transverse-flow cooling tower be equipped with multiple wave bands because on filler the distance of each wave band be it is equal,
For the convenience and stabilization of installation, perforation hole 11 and tie point 12 are designed on each wave band.So no matter in which kind of type
Number filler on waveform be the same.
In order to ensure that the filler of each model can be produced by a kind of mold, the length of the filler of each model is all
The integral multiple of wave band length.
It receives water segment unit 2 and air inducing segment unit 3 is separately positioned on the both sides of heat dissipation segment unit 1, fresh air is first with 45 jiaos
Into air inducing segment unit 3, then exchanged with from the water progress caloic under water guide segment unit 4 in heat dissipation segment unit 1, finally from receipts
Water segment unit 2 goes out filler with 45 degree of angles.
The utility model additionally provide it is a kind of producing the processing mold of above-mentioned fillers for transverse-flow cooling tower, including be used for most end form
At the radiating segment die unit 4 of heat dissipation segment unit 1, it is convex that multiple first boss 41 and second are equipped on radiating segment die unit 4
Platform 42, these first boss 41 and second boss 42 are used for the molding of perforation hole 11 and connecting hole 12, and 41 He of first boss
Second boss 42 is correspondingly arranged.
Being equipped on radiating segment die unit makes the molding wave band die unit of the wave band.In order to be molded each different shaped
Number packing material of transverse flow tower, the length of the mold is the integral multiple of wave band die unit.By taking mold is 900mm as an example, mold is done
At 900mm long, when needing the filler of 1800 specifications, product, which is walked, secondary does a cutting;It is exactly when needing the filler of 2100 specifications
First flake products walk that secondary plus 300 do a cutting, second be residue 600 plus walk it is secondary do a cutting, repeatedly;Work as needs
Exactly first filler product walks that secondary plus 600 do a cutting when 2400 filler specification, and second is residue 300 plus walks secondary
Again plus 300 do a cutting, third piece be residue 600 plus walk it is secondary do a cutting, repeatedly;Complete the life of three kinds of specifications of product
Production.Design very well completes the more specification productions of a mould in this way, has blocked up exhausted and has wasted.
It is additionally provided with to form the receipts water section die for receiving water segment unit 2 and air inducing segment unit 3 in the both sides of radiating segment die unit
Unit 5 and air inducing section die unit 6, ultimately form a complete fillers for transverse-flow cooling tower.
The utility model is by being arranged perforation hole and connecting hole, and poling on the heat dissipation segment unit on cooling tower filler
Hole and connecting hole are correspondingly arranged, and when installing cooling tower filler, by the way that the tie point of adjacent cooling tower filler is cross-superimposed, are made
Will not move between each filler, secured performance is more preferable.And the mold for production can be completed various types of
The processing and making of cooling tower filler.Process time and cost are saved.
Particular embodiments described above has carried out into one the purpose of this utility model, technical solution and advantageous effect
The detailed description of step, it should be understood that the foregoing is merely specific embodiment of the utility model, be not used to limit this reality
With novel protection domain.Particularly point out, to those skilled in the art, it is all the spirit and principles of the utility model it
Any modification, equivalent substitution, improvement and etc. that are interior, being done, should be included within the scope of protection of this utility model.
Claims (6)
1. a kind of fillers for transverse-flow cooling tower, which is characterized in that including the segment unit that radiates, the heat dissipation segment unit, which is equipped with, uniformly to be divided
The perforation hole and connecting hole of cloth, the perforation hole and connecting hole are correspondingly arranged;The heat dissipation segment unit is equipped with multiple wave bands, institute
It states perforation hole and connecting hole is set on each wave band;The length of the cooling tower filler is the integral multiple of the wave band length.
2. cooling tower filler according to claim 1, which is characterized in that further include being set to the heat dissipation segment unit both sides
Receive water segment unit and air inducing segment unit.
3. a kind of processing mold of production such as claim 1~2 any one of them fillers for transverse-flow cooling tower, which is characterized in that
Radiating segment die unit including being molded the heat dissipation segment unit, the radiating segment die unit is equipped with multiple equally distributed
To be molded perforation hole and connecting hole, the first boss and the second boss are correspondingly arranged for first boss and second boss.
4. processing mold according to claim 3, which is characterized in that the heat dissipation segment unit is equipped with multiple wave bands, institute
It states radiating segment die unit and is equipped with the wave band die unit for being molded the wave band.
5. processing mold according to claim 4, which is characterized in that the length of the mold of fillers for transverse-flow cooling tower is described
The integral multiple of the length of wave band die unit.
6. processing mold according to claim 3, which is characterized in that the both sides of the radiating segment die unit are additionally provided with shape
At the receipts water section die unit and air inducing section die unit for receiving water segment unit and air inducing segment unit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721463537.7U CN207688731U (en) | 2017-11-06 | 2017-11-06 | Fillers for transverse-flow cooling tower and its processing mold |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721463537.7U CN207688731U (en) | 2017-11-06 | 2017-11-06 | Fillers for transverse-flow cooling tower and its processing mold |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207688731U true CN207688731U (en) | 2018-08-03 |
Family
ID=62989837
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721463537.7U Active CN207688731U (en) | 2017-11-06 | 2017-11-06 | Fillers for transverse-flow cooling tower and its processing mold |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207688731U (en) |
-
2017
- 2017-11-06 CN CN201721463537.7U patent/CN207688731U/en active Active
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