CN103307926A - Heat dissipation structure of cooling water tower - Google Patents
Heat dissipation structure of cooling water tower Download PDFInfo
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- CN103307926A CN103307926A CN201210058705XA CN201210058705A CN103307926A CN 103307926 A CN103307926 A CN 103307926A CN 201210058705X A CN201210058705X A CN 201210058705XA CN 201210058705 A CN201210058705 A CN 201210058705A CN 103307926 A CN103307926 A CN 103307926A
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Abstract
The invention discloses a heat dissipation structure of a cooling water tower. The heat dissipation structure mainly comprises a plurality of layers of spirally wound pipe bodies, a plurality of fixed connecting pieces, a water outlet connecting piece and a water inlet connecting piece, wherein the spirally wound pipe bodies are arranged in a coil face manner; the fixed connecting pieces are arranged among the spirally wound pipe bodies; each spirally wound pipe body is provided with a U-shaped connecting pipe, a first cooling pipe and a second cooling pipe; the U-shaped connecting pipe is connected with one ends of the first cooling pipe and the second cooling pipe; the first cooling pipe and the second cooling pipe are spirally wound, and the free ends of the first cooling pipe and the second cooling pipe are used as a water outlet and a water inlet; the water outlet connecting piece is connected with the water outlet of the spirally wound pipe bodies to lead liquid in the spirally wound pipe bodies out; and the water inlet connecting piece is connected with the water inlet of the spirally wound pipe bodies to lead the external liquid into the spiral wound pipe bodies, so that the liquid in the spiral wound pipe bodies flows circularly.
Description
Technical field
The present invention is relevant with cooling tower, the more detailed heat-dissipating structure that refers to a kind of cooling tower.
Background technology
General cooling tower mainly generally is divided into two kinds at present; a kind of is open; another kind then is closed; wherein open cooling tower is directly to cool off by fin and fan; via pump cooling water and thermal source are done cold and hot exchange; and open type cooling water tower when heat radiation spatter loss; airborne dust; dirty gas and cooling water mix; the cooling water enrichment is accumulated (be about former water source 20~30 times) fast; so that the cooling water of highly enriched degree is with the cold and hot exchange of thermal source the time; can produce incrustation scale (calcium carbonate); this is the puzzlement of using cooling tower; incrustation scale (calcium carbonate) not only affects the cold and hot exchange of thermal source, more can affect the running of machine, so that inefficiency; expend the energy; easy disorderly closedown; and then impact is produced.Yet, remove incrustation scale (calcium carbonate), must use acid, basic agent to decompose, but easily injure on the contrary copper pipe and system's materials and parts in the cooling system, cause entire machine to be scrapped, therefore incrustation scale is puzzlement common in the open cooling system.
Another kind of closed-type water cooling tower then is the cold and hot metal exchange by many one decks; be that secondary cooling water cools off indirectly, do not have accumulation concentrated cooling water and thermal source to do cold and hot exchange in the pipe, therefore do not have the puzzlement of incrustation scale; risk that also needn't useful pickling, do not have to shut down and fault because disturbing.But, at present in the streets all closed-type water cooling tower is all the square design, the making of the used elbow of secondary cool metal pipe coil pipe, welding, main is very complicated, although closed adopts many one decks indirectly to cool off, can overcome the puzzlement of open type cooling water tower incrustation scale fully, but after in the streets selling price is general opening 10 times, cause the buyer to step back because of price.
Therefore, how to provide a kind of heat-dissipating structure of closed cooling water tower, can reach low cost, the high again easily cleaning of efficient, the problem of just being badly in need of solving for current relevant dealer.
Summary of the invention
In view of this, one purpose of the present invention is to provide a kind of heat-dissipating structure of airtight cooling tower, its low cost.
Another object of the present invention is to provide a kind of heat-dissipating structure of cooling tower, its radiating efficiency is splendid.
For reaching above-mentioned purpose, the invention provides a kind of heat-dissipating structure of cooling tower, include:
Some helical form circles of up and down multilayer disc face setting that are are around body, this each helical form circle has respectively a U-shaped adapter around body, one first cooling tube and one second cooling tube, one end of this first cooling tube and an end of this second cooling tube are connected on the two ends of this U-shaped adapter, make on the outer fix of this U-shaped adapter this first cooling tube of position and the second cooling tube, this first cooling tube and the second cooling tube are communicated with by this U-shaped adapter, and this first cooling tube and the second cooling tube be with helical form enclosed around, make the free end of this first cooling tube and the second cooling tube can be selectively as a delivery port and a water inlet;
Some fixed connecting pieces are arranged at these a plurality of helical form circles around between body, have some grooves, and are in addition accommodating around the first cooling tube and second cooling tube of body for these a plurality of helical form circles;
One delivery port connector, have some body connectors and a delivery port connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the delivery port of body with these a plurality of helical form circles, by this delivery port connector the liquid of these a plurality of helical form circles in body is derived;
One water inlet connector, have some body connectors and a water inlet connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the water inlet of body with these a plurality of helical form circles, by this water inlet connector the liquid of outside is directed into these a plurality of helical form circles in body, the liquid of these a plurality of helical form circles in body is circulated.
The heat-dissipating structure of described cooling tower, wherein, the free end of this first cooling tube is delivery port, the free end of this second cooling tube is water inlet.
The heat-dissipating structure of described cooling tower, wherein, the free end of this first cooling tube is water inlet, the free end of this second cooling tube is delivery port.
The heat-dissipating structure of described cooling tower wherein, arranges a plurality of staggered semicircle shape grooves that arrange that are with preset space length respectively on the end face of this fixed connecting piece and the bottom surface.
The heat-dissipating structure of described cooling tower, wherein, this helical form circle is snake belly tube around the first cooling tube and second cooling tube of body, has the ring-type side face that is continuously concavo-convex.
The present invention also provides a kind of heat-dissipating structure of cooling tower, includes:
Some helical form circles of up and down multilayer disc face setting that are are around body, this each helical form circle has respectively a U-shaped adapter around body, one first cooling tube and one second cooling tube, this U-shaped adapter places near on the home position, and an end of an end of this first cooling tube and this second cooling tube is connected on the two ends of this U-shaped adapter, this first cooling tube and the second cooling tube are communicated with by this U-shaped adapter, again with this first cooling tube and the second cooling tube with helical form enclosed around, make the free end of this first cooling tube and the second cooling tube can be selectively as a delivery port and a water inlet;
Some fixed connecting pieces are arranged at these a plurality of helical form circles around between body, have some grooves, and are in addition accommodating around the first cooling tube and second cooling tube of body for these a plurality of helical form circles;
One delivery port connector, have some body connectors and a delivery port connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the delivery port of body with these a plurality of helical form circles, by this delivery port connector the liquid of these a plurality of helical form circles in body is derived;
One water inlet connector, have some body connectors and a water inlet connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the water inlet of body with these a plurality of helical form circles, by this water inlet connector the liquid of outside is directed into these a plurality of helical form circles in body, the liquid of these a plurality of helical form circles in body is circulated.
The heat-dissipating structure of described cooling tower, wherein, the free end of this first cooling tube is delivery port, the free end of this second cooling tube is water inlet.
The heat-dissipating structure of described cooling tower, wherein, the free end of this first cooling tube is water inlet, the free end of this second cooling tube is delivery port.
The heat-dissipating structure of described cooling tower wherein, arranges a plurality of staggered semicircle shape grooves that arrange that are with preset space length respectively on the end face of this fixed connecting piece and the bottom surface.
The heat-dissipating structure of described cooling tower, wherein, this helical form circle is snake belly tube around the first cooling tube and second cooling tube of body, has the ring-type side face that is continuously concavo-convex.
The invention has the beneficial effects as follows: low cost, radiating efficiency are splendid.
Description of drawings
Fig. 1 is the assembling schematic diagram of the present invention's the first preferred embodiment;
Fig. 2 is Local Members assembling schematic diagram embodiment illustrated in fig. 1;
Fig. 3 is Local Members relevant position schematic diagram embodiment illustrated in fig. 1;
Fig. 4 is Local Members stereogram embodiment illustrated in fig. 1;
Fig. 5 is the assembling schematic diagram of the present invention's the second preferred embodiment;
Fig. 6 is Local Members assembling schematic diagram embodiment illustrated in fig. 5.
Description of reference numerals:
The first preferred embodiment: the heat-dissipating structure 100 of cooling tower; The helical form circle is around body 10; U-shaped adapter 11; The first cooling tube 12; The second cooling tube 13; Delivery port 14; Water inlet 15; Fixed connecting piece 20; Groove 21; Delivery port connector 30; Body connector 31; Delivery port connector 32; Water inlet connector 40; Body connector 41; Water inlet connector 42; Main body 50;
The second preferred embodiment: the heat-dissipating structure 200 of cooling tower; The helical form circle is around body 10; U-shaped adapter 11; The first cooling tube 12; The second cooling tube 13; Delivery port 14; Water inlet 15; Fixed connecting piece 20; Delivery port connectedness 30; Water inlet connectedness 40; Main body 50.
The specific embodiment
For making your auditor further understanding and approval be arranged to feature of the present invention and characteristics, hereby enumerate following preferred embodiment and cooperate description of drawings as follows:
See also Fig. 1 to Fig. 4, the heat-dissipating structure 100 of a kind of cooling tower that provides for the present invention's the first preferred embodiment, it consists predominantly of some helical form circles around body 10, some fixed connecting piece 20, a delivery port connectedness 30 and a water inlet connectedness 40, wherein;
See also Fig. 1 and Fig. 2, these a plurality of helical form circles are arranged in the main body 50 of a cooling tower around body 10, and these a plurality of helical form circles go to upper and lower the setting of multilayer card around body 10.Wherein, this each helical form circle has respectively a U-shaped adapter 11, one first cooling tube 12 and one second cooling tube 13 around body 10; One end of this first cooling tube 12 is connected on the end of this U-shaped adapter 11, one end of this second cooling tube 13 is connected on the other end of this U-shaped adapter 11, make this first, two cooling tubes 12,13 are communicated with by this U-shaped adapter 11, and this is first years old, two cooling tubes 12,13 spiral circles around, and be communicated with in the U-shaped adapter 11 of outer fix and this, make this first, two cooling tubes 12,13 free end is near the center of circle, and selectively as the usefulness of delivery port 14 or water inlet 15 (namely when the free end of this first cooling tube during as delivery port, the free end of this second cooling tube is then as water inlet, when the free end of this first cooling tube during as water inlet, the free end of this second cooling tube is then as delivery port).
See also Fig. 2 and Fig. 3, these a plurality of fixed connecting pieces 20 are arranged at the helical form circle of each layer around 10 of bodys, and in order to fixing these a plurality of helical form circles around the relevant position of body 10, and each helical layer shape circle arranges several fixed connecting pieces 20 around 10 of bodys.Wherein, this each fixed connecting piece 20 generally is a strip, and with preset space length a plurality of grooves 21 that are semicircle shape are set respectively on the Yu Qiding, bottom surface, and the groove 21 on these fixed connecting piece 20 tops, bottom surface is staggered and arranges, arranged fixingly for per two layers helical form circle around body 10, be staggered around body 10 and arrange to tie up this each helical layer shape circle.
See also Fig. 1 and Fig. 4, this delivery port connector 30, be arranged in the main body 50 of this cooling tower, have some body connectors 31 and a delivery port connector 32, and these a plurality of body connectors 31 are with this delivery port connector 32 and are communicated with, make by these a plurality of body connectors 31 to be connected around the delivery port 14 of body 10 with these a plurality of helical form circles respectively, and the liquid of these a plurality of helical form circles in body 10 can be derived via this delivery port connector 32.
See also Fig. 1 and Fig. 4, this water inlet connector 40, be arranged in the main body 50 of this cooling tower, have some body connectors 41 and a water inlet connector 42, and these a plurality of body connectors 41 are with this water inlet connector 42 and are communicated with, make by these a plurality of body connectors 41 to be connected around the water inlet 15 of body 10 with these a plurality of helical form circles respectively, and can make outside liquid be directed into these a plurality of helical form circles in body 10 from this water inlet connector 42; Enable pass is crossed this delivery port connector 30 circulates the liquid of these a plurality of helical form circles in body 10 with this water inlet connector 40.
Above-mentioned helical form circle adopts by the made plastic tube body of polyethylene (PE) material around U-shaped adapter 11 and first and second cooling tube 12,13 of body 10, can not only reduce manufacturing cost and more can alleviate whole weight.
Secondly, above-mentioned helical form circle uses the moulding of snake belly tube around first and second cooling tube 12,13 of body 10, be the design of continuous concave, convex ring-type side face to rely on outer peripheral face, and can significantly increase the area of outer peripheral face, and the area of cold and hot exchange is strengthened, so that radiating efficiency is splendid.
In addition, when cleaning cooling tower, because helical form circle of the present invention adopts plastic to make around body 10, therefore do not have the risk that is subject to the chemical agent corrosion.
The present embodiment is this u shaped connector 11 to be connected in these a plurality of helical form circles (namely be communicated in this first and second cooling tube 12,13 outer fix) around the outer fix place of body 10, and this delivery port connector 30 is arranged at these a plurality of helical form circles around the close home position place of body 10 with this water inlet connector 40.Thus, can not only reach above-mentioned effect, more can reduce whole volume with this, so that the present invention has more practicality.
See also Fig. 5 and Fig. 6, the heat-dissipating structure 200 of a kind of cooling tower that provides for the present invention's the second preferred embodiment, it is identical with previous embodiment to include some helical form circles around body 10, some fixed connecting piece 20, a delivery port connectedness 30 and a water inlet connectedness 40, yet its Main Differences is:
See also Fig. 5, in the present embodiment, these a plurality of helical form circles are arranged in the main body 50 of a cooling tower equally around body 10, and these a plurality of helical form circles go to upper and lower the setting of multilayer card around body 10.This each helical form circle has respectively a U-shaped adapter 11, one first cooling tube 12 and one second cooling tube 13 around body 10; One end of this first cooling tube 12 is connected on the end of this U-shaped adapter 11, one end of this second cooling tube 13 is connected on the other end of this U-shaped adapter 11, make this first, two cooling tubes 12,13 are communicated with by this U-shaped adapter 11, and this is first years old, two cooling tubes 12,13 take this U-shaped adapter 11 as near the center of circle spiral circle around, make this first, two cooling tubes 12,13 free end just selectively as the usefulness of delivery port 14 or water inlet 15 (namely when the free end of this first cooling tube during as delivery port, the free end of this second cooling tube is then as water inlet, when the free end of this first cooling tube during as water inlet, the free end of this second cooling tube is then as delivery port).
See also Fig. 5, in the present embodiment, this delivery port connector 30 and this water inlet connector 40, be arranged in the main body 50 of this cooling tower, and be positioned at these a plurality of helical form circles around the outer fix place of body 10, enable pass is crossed this delivery port connector 30 and this water inlet connector 40 and this a plurality of helical form circles around being communicated with of body 10, and the liquid of these a plurality of helical form circles in body 10 is circulated.
Thus, although the present embodiment is this u shaped connector 11 to be connected in these a plurality of helical form circles (namely be communicated in this first and second cooling tube 12,13 close home position place) around the close home position place of body 10, and this delivery port connector 30 is arranged at these a plurality of helical form circles around the outside of body 10 with this water inlet connector 40, but the present embodiment can be reached effect same as the previously described embodiments equally.
Above institute takes off, and only is preferred embodiment provided by the present invention, is not the scope that limits the embodiment of the invention, and the equalization that all related art techniques persons in the art do according to the present invention changes, and all should belong to the scope that the present invention is contained.
Claims (10)
1. the heat-dissipating structure of a cooling tower is characterized in that, includes:
Some helical form circles of up and down multilayer disc face setting that are are around body, this each helical form circle has respectively a U-shaped adapter around body, one first cooling tube and one second cooling tube, one end of this first cooling tube and an end of this second cooling tube are connected on the two ends of this U-shaped adapter, make on the outer fix of this U-shaped adapter this first cooling tube of position and the second cooling tube, this first cooling tube and the second cooling tube are communicated with by this U-shaped adapter, and this first cooling tube and the second cooling tube be with helical form enclosed around, make the free end of this first cooling tube and the second cooling tube can be selectively as a delivery port and a water inlet;
Some fixed connecting pieces are arranged at these a plurality of helical form circles around between body, have some grooves, and are in addition accommodating around the first cooling tube and second cooling tube of body for these a plurality of helical form circles;
One delivery port connector, have some body connectors and a delivery port connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the delivery port of body with these a plurality of helical form circles, by this delivery port connector the liquid of these a plurality of helical form circles in body is derived;
One water inlet connector, have some body connectors and a water inlet connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the water inlet of body with these a plurality of helical form circles, by this water inlet connector the liquid of outside is directed into these a plurality of helical form circles in body, the liquid of these a plurality of helical form circles in body is circulated.
2. the heat-dissipating structure of cooling tower according to claim 1 is characterized in that, the free end of this first cooling tube is delivery port, and the free end of this second cooling tube is water inlet.
3. the heat-dissipating structure of cooling tower according to claim 1 is characterized in that, the free end of this first cooling tube is water inlet, and the free end of this second cooling tube is delivery port.
4. the heat-dissipating structure of cooling tower according to claim 1 is characterized in that, with preset space length a plurality of staggered semicircle shape grooves that arrange that are is set respectively on the end face of this fixed connecting piece and the bottom surface.
5. the heat-dissipating structure of cooling tower according to claim 1 is characterized in that, this helical form circle is snake belly tube around the first cooling tube and second cooling tube of body, has the ring-type side face that is continuously concavo-convex.
6. the heat-dissipating structure of a cooling tower is characterized in that, includes:
Some helical form circles of up and down multilayer disc face setting that are are around body, this each helical form circle has respectively a U-shaped adapter around body, one first cooling tube and one second cooling tube, this U-shaped adapter places near on the home position, and an end of an end of this first cooling tube and this second cooling tube is connected on the two ends of this U-shaped adapter, this first cooling tube and the second cooling tube are communicated with by this U-shaped adapter, again with this first cooling tube and the second cooling tube with helical form enclosed around, make the free end of this first cooling tube and the second cooling tube can be selectively as a delivery port and a water inlet;
Some fixed connecting pieces are arranged at these a plurality of helical form circles around between body, have some grooves, and are in addition accommodating around the first cooling tube and second cooling tube of body for these a plurality of helical form circles;
One delivery port connector, have some body connectors and a delivery port connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the delivery port of body with these a plurality of helical form circles, by this delivery port connector the liquid of these a plurality of helical form circles in body is derived;
One water inlet connector, have some body connectors and a water inlet connector that is communicated with these a plurality of body connectors, these a plurality of body connectors are connected around the water inlet of body with these a plurality of helical form circles, by this water inlet connector the liquid of outside is directed into these a plurality of helical form circles in body, the liquid of these a plurality of helical form circles in body is circulated.
7. the heat-dissipating structure of cooling tower according to claim 6 is characterized in that, the free end of this first cooling tube is delivery port, and the free end of this second cooling tube is water inlet.
8. the heat-dissipating structure of cooling tower according to claim 6 is characterized in that, the free end of this first cooling tube is water inlet, and the free end of this second cooling tube is delivery port.
9. the heat-dissipating structure of cooling tower according to claim 6 is characterized in that, with preset space length a plurality of staggered semicircle shape grooves that arrange that are is set respectively on the end face of this fixed connecting piece and the bottom surface.
10. the heat-dissipating structure of cooling tower according to claim 6 is characterized in that, this helical form circle is snake belly tube around the first cooling tube and second cooling tube of body, has the ring-type side face that is continuously concavo-convex.
Priority Applications (1)
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CN201210058705.XA CN103307926B (en) | 2012-03-07 | 2012-03-07 | Heat dissipation structure of cooling water tower |
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CN201210058705.XA CN103307926B (en) | 2012-03-07 | 2012-03-07 | Heat dissipation structure of cooling water tower |
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CN103307926B CN103307926B (en) | 2014-12-24 |
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Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2482033Y (en) * | 2001-05-23 | 2002-03-13 | 王德元 | Combined condensing and cooling device for small central air conditioner |
CN1746592A (en) * | 2005-10-07 | 2006-03-15 | 金兴才 | evaporative compressor condensing unit |
CN1821699A (en) * | 2005-02-16 | 2006-08-23 | 吕学能 | Vortex cold medium coiler and fin-free condenser |
CN1963369A (en) * | 2005-11-10 | 2007-05-16 | 矿昱科技股份有限公司 | Evaporation type sealed cooling cistern |
TWM359678U (en) * | 2008-12-05 | 2009-06-21 | yun-peng Chen | Cooling water tower structure |
CN201666739U (en) * | 2010-01-29 | 2010-12-08 | 于国先 | Evaporative condenser |
KR20110085740A (en) * | 2010-01-21 | 2011-07-27 | 안상준 | Removal device of plume for cooling tower |
-
2012
- 2012-03-07 CN CN201210058705.XA patent/CN103307926B/en not_active Expired - Fee Related
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2482033Y (en) * | 2001-05-23 | 2002-03-13 | 王德元 | Combined condensing and cooling device for small central air conditioner |
CN1821699A (en) * | 2005-02-16 | 2006-08-23 | 吕学能 | Vortex cold medium coiler and fin-free condenser |
CN1746592A (en) * | 2005-10-07 | 2006-03-15 | 金兴才 | evaporative compressor condensing unit |
CN1963369A (en) * | 2005-11-10 | 2007-05-16 | 矿昱科技股份有限公司 | Evaporation type sealed cooling cistern |
TWM359678U (en) * | 2008-12-05 | 2009-06-21 | yun-peng Chen | Cooling water tower structure |
KR20110085740A (en) * | 2010-01-21 | 2011-07-27 | 안상준 | Removal device of plume for cooling tower |
CN201666739U (en) * | 2010-01-29 | 2010-12-08 | 于国先 | Evaporative condenser |
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Granted publication date: 20141224 Termination date: 20160307 |