CN204214296U - A kind of multi-joint cooling tower - Google Patents
A kind of multi-joint cooling tower Download PDFInfo
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- CN204214296U CN204214296U CN201420564296.5U CN201420564296U CN204214296U CN 204214296 U CN204214296 U CN 204214296U CN 201420564296 U CN201420564296 U CN 201420564296U CN 204214296 U CN204214296 U CN 204214296U
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Abstract
The utility model belongs to cooling tower field, particularly relate to a kind of multi-joint cooling tower, it is characterized in that: described multi-joint tower body comprises single tower body, cut off, described water-locator is positioned at the top of filler, described water-distribution nozzle is arranged towards the top of water-locator, described vapor collection funnel is installed on the top of water-distribution nozzle, the air intake of described vapour storage tank is connected with vapor collection funnel, one end of described first super heat-conductive pipe is inserted in vapour storage tank and its other end is inserted in air tank, described circulating pump is connected with buffer tank, described buffer tank is connected with the lower end of water inlet pipe, one end of described second super heat-conductive pipe is inserted in water tank and its other end is inserted in fluid tank, the delivery port of described water tank is connected with circulating pump.Energy consumption in the utility model cooling tower water level balance, radiation processes short, radiation processes consuming time is also lower.
Description
Technical field
The utility model belongs to cooling tower field, particularly relates to a kind of multi-joint cooling tower.
Background technology
Multi-joint cooling tower is formed in parallel by multiple stage cooling tower, and every platform cooling tower is all can the large-scale heat-sink unit of independent operating.Separated by partition between adjacent two cooling towers.Multi-joint cooling tower utilizes gravity-flow ventilation or force ventilation mode that the hot water of spray is lowered the temperature.Multi-joint cooling tower shares a circulating pump in the course of the work, hot water is beaten to cooling tower top by circulating pump, evenly be sprayed onto on the filler of cooling tower with water-locator, carry out cold and hot exchange after utilizing water and air to flow to contact and produce steam, steam volatile zone is walked heat and is reached cooling object.Because multiple stage cooling tower shares a circulating pump, easily there is energy imbalance in the water level of cooling tower, and in addition, cooling tower utilizes merely water to flow to contact with air and dispel the heat, and radiation processes length consuming time, the energy consumption in radiation processes is also higher.
Summary of the invention
The utility model, for above-mentioned technical problem, provides multi-joint the cooling tower that energy consumption in a kind of cooling tower water level balance, radiation processes short, radiation processes consuming time is also lower.
In order to solve the problems of the technologies described above, the utility model provides a kind of multi-joint cooling tower, it is characterized in that: comprise multi-joint tower body, circulating pump, buffer tank, water tank, fluid tank, first super heat-conductive pipe, air tank, second super heat-conductive pipe, described multi-joint tower body comprises single tower body, cut off, described partition is installed between connected single tower body, the inside of described single tower body is provided with filler, water-locator, water inlet pipe, vapour storage tank, vapor collection funnel, first blower fan, described filler is positioned at the bottom of described single tower body, described water-locator is positioned at the top of described filler, the upper end of described water inlet pipe is connected with described water-locator through described filler, the top of described water-locator is provided with water-distribution nozzle, described water-distribution nozzle is arranged towards the top of described water-locator, described vapor collection funnel is installed on the top of described water-distribution nozzle, described vapour storage tank, air tank is arranged in parallel, one end of described vapour storage tank offers air intake and its other end offers venthole, described air intake is connected with described vapor collection funnel, the side of described air tank is positioned at the outside of described single tower body, described air tank upper end offers air intake, the lower end of described air tank offers air outlet slit, one end of described first super heat-conductive pipe is inserted in described vapour storage tank and its other end is inserted in described air tank, described first assembling is on described single tower body and it is positioned at the top of described venthole, described circulating pump is connected with described buffer tank, described buffer tank is connected with the lower end of water inlet pipe, described water tank, fluid tank is arranged in parallel, one end of described second super heat-conductive pipe is inserted in described water tank and its other end is inserted in fluid tank, the delivery port of described water tank is connected with described circulating pump.
Described air intake is provided with the second blower fan.
Described air outlet slit is provided with the 3rd blower fan.
The beneficial effects of the utility model are:
1, the top of water-locator is provided with water-distribution nozzle, water-distribution nozzle is arranged towards the top of water-locator, and the hot water entered from water inlet pipe is sprayed upward by water-distribution nozzle, and the hot water ejected does upwards parabolic motion, the time that hot water contacts with air is long, accelerates radiation processes;
2, vapor collection funnel is installed on the top of water-distribution nozzle, and vapor collection funnel is for gathering steam, and collecting effect is good;
3, vapour storage tank, air tank is arranged in parallel, one end of vapour storage tank offers air intake and its other end offers venthole, air intake is connected with vapor collection funnel, the side of air tank is positioned at the outside of single tower body, air tank upper end offers air intake, the lower end of air tank offers air outlet slit, one end of first super heat-conductive pipe is inserted in vapour storage tank and its other end is inserted in air tank, the steam of vapor collection funnel collection enters in vapour storage tank by air intake, steam is moved to venthole by air intake in vapour storage tank, first super heat-conductive pipe absorb steam heat and by this part heat conduction in air tank, in vapour storage tank, vapor (steam) temperature reduces and is condensed into water droplet, thus reduce the steam amount of shedding, save recirculated water, radiation processes is consuming time short, energy consumption in radiation processes is also lower,
4, the first assembling is on single tower body and it is positioned at the top of venthole, accelerates gas circulation;
5, circulating pump is connected with buffer tank, and buffer tank is connected with the lower end of water inlet pipe, and buffer tank plays cushioning effect, cooling tower water level balance;
6, water tank, fluid tank are arranged in parallel, one end of second super heat-conductive pipe is inserted in water tank and its other end is inserted in fluid tank, the delivery port of water tank is connected with circulating pump, high temperature circulation water enters in water tank, current cryogen in fluid tank, second super heat-conductive pipe is by the cryogen of the heat conduction of high temperature circulation water to fluid tank, the temperature of cryogen raises, thus reclaim the heat of high temperature circulation water and this part heat is used for fluid heating, the energy consumption in radiation processes short, radiation processes consuming time is also lower;
7, air intake is provided with the second blower fan, air outlet slit is provided with the 3rd blower fan, accelerate air circulation, improve heat exchange efficiency.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail:
In figure, the multi-joint tower body of 1-, 2-circulating pump, 3-buffer tank, 4-water tank, 5-fluid tank, 6-first super heat-conductive pipe, 7-air tank, 8-second super heat-conductive pipe, the mono-tower body of 9-, 10-cuts off, 11-filler, 12-water-locator, 13-water inlet pipe, 14-vapour storage tank, 15-vapor collection funnel, 16-first blower fan, 17-water-distribution nozzle, 18-air intake, 19-venthole, 20-air intake, 21-air outlet slit, 22-the 3rd blower fan, 23-delivery port, 24-second blower fan.
Embodiment
As shown in Figure 1, a kind of multi-joint cooling tower, comprise multi-joint tower body 1, circulating pump 2, buffer tank 3, water tank 4, fluid tank 5, first super heat-conductive pipe 6, air tank 7, second super heat-conductive pipe 8, multi-joint tower body 1 comprises single tower body 9, cut off 10, cutting off 10 is installed between connected single tower body 9, the inside of single tower body 9 is provided with filler 11, water-locator 12, water inlet pipe 13, vapour storage tank 14, vapor collection funnel 15, first blower fan 16, filler 11 is positioned at the bottom of single tower body 9, water-locator 12 is positioned at the top of filler 11, the upper end of water inlet pipe 13 is connected with water-locator 12 through filler 11, the top of water-locator 12 is provided with water-distribution nozzle 17, water-distribution nozzle 17 is arranged towards the top of water-locator 12, vapor collection funnel 15 is installed on the top of water-distribution nozzle 17, vapour storage tank 14, air tank 7 is arranged in parallel, one end of vapour storage tank 14 offers air intake 18 and its other end offers venthole 19, air intake 18 is connected with vapor collection funnel 15, the side of air tank 7 is positioned at the outside of single tower body 9, air tank 7 upper end offers air intake 20, the lower end of air tank 7 offers air outlet slit 21, one end of first super heat-conductive pipe 6 is inserted in vapour storage tank 14 and its other end is inserted in air tank 7, first blower fan 16 is installed on single tower body 9 and it is positioned at the top of venthole 19, circulating pump 2 is connected with buffer tank 3, buffer tank 3 is connected with the lower end of water inlet pipe 13, water tank 4, fluid tank 5 is arranged in parallel, one end of second super heat-conductive pipe 8 is inserted in water tank 4 and its other end is inserted in fluid tank 5, the delivery port 23 of water tank 4 is connected with circulating pump 2.
Air intake 20 is provided with the second blower fan 24.
Air outlet slit 21 is provided with the 3rd blower fan 22.
Operation principle
As shown in Figure 1, high temperature circulation water enters in water tank 4, current cryogen in fluid tank 5, second super heat-conductive pipe 8 is by the cryogen of the heat conduction of high temperature circulation water to fluid tank 5, the temperature of cryogen raises, thus reclaim the heat of high temperature circulation water and this part heat is used for fluid heating, recirculated water in water tank 4 is pumped into buffer tank 3 by circulating pump 2, buffer tank 3 plays cushioning effect, each cooling tower water level balance, the hot water entered from water inlet pipe 13 is sprayed upward by water-distribution nozzle 17, the hot water ejected does upwards parabolic motion, the time that hot water contacts with air is long, accelerate radiation processes, the steam that vapor collection funnel 15 gathers enters in vapour storage tank 14 by air intake 18, steam is moved to venthole 19 by air intake 18 in vapour storage tank 14, first super heat-conductive pipe 6 absorb steam heat and by this part heat conduction in air tank 7, in vapour storage tank 14, vapor (steam) temperature reduces and is condensed into water droplet, thus reduce the steam amount of shedding, save recirculated water, first blower fan 16 is installed on single tower body 9 and it is positioned at the top of venthole 19, acceleration gas circulates, the air intake 20 of air tank 7 is provided with the second blower fan 24, the air outlet slit 21 of air tank 7 is provided with the 3rd blower fan 22, accelerate air circulation, improve heat exchange efficiency.
Above an embodiment of the present utility model has been described in detail, but content being only preferred embodiment of the present utility model, can not being considered to for limiting practical range of the present utility model.All equalizations done according to the utility model application range change and improve, and all should still belong within patent covering scope of the present utility model.
Claims (3)
1. multi-joint cooling tower, it is characterized in that: comprise multi-joint tower body, circulating pump, buffer tank, water tank, fluid tank, first super heat-conductive pipe, air tank, second super heat-conductive pipe, described multi-joint tower body comprises single tower body, cut off, described partition is installed between connected single tower body, the inside of described single tower body is provided with filler, water-locator, water inlet pipe, vapour storage tank, vapor collection funnel, first blower fan, described filler is positioned at the bottom of described single tower body, described water-locator is positioned at the top of described filler, the upper end of described water inlet pipe is connected with described water-locator through described filler, the top of described water-locator is provided with water-distribution nozzle, described water-distribution nozzle is arranged towards the top of described water-locator, described vapor collection funnel is installed on the top of described water-distribution nozzle, described vapour storage tank, air tank is arranged in parallel, one end of described vapour storage tank offers air intake and its other end offers venthole, described air intake is connected with described vapor collection funnel, the side of described air tank is positioned at the outside of described single tower body, described air tank upper end offers air intake, the lower end of described air tank offers air outlet slit, one end of described first super heat-conductive pipe is inserted in described vapour storage tank and its other end is inserted in described air tank, described first assembling is on described single tower body and it is positioned at the top of described venthole, described circulating pump is connected with described buffer tank, described buffer tank is connected with the lower end of water inlet pipe, described water tank, fluid tank is arranged in parallel, one end of described second super heat-conductive pipe is inserted in described water tank and its other end is inserted in fluid tank, the delivery port of described water tank is connected with described circulating pump.
2. one according to claim 1 multi-joint cooling tower, is characterized in that: described air intake is provided with the second blower fan.
3. one according to claim 1 multi-joint cooling tower, is characterized in that: described air outlet slit is provided with the 3rd blower fan.
Priority Applications (1)
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CN201420564296.5U CN204214296U (en) | 2014-09-28 | 2014-09-28 | A kind of multi-joint cooling tower |
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CN201420564296.5U CN204214296U (en) | 2014-09-28 | 2014-09-28 | A kind of multi-joint cooling tower |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106323080A (en) * | 2016-05-27 | 2017-01-11 | 郑州大学综合设计研究院有限公司 | Pump tower shared manifold connected type open circulating cooling water overflow preventing device |
CN114082380A (en) * | 2021-11-23 | 2022-02-25 | 广东长信精密设备有限公司 | Cooling tower circulating cooling water system and reaction kettle production system |
-
2014
- 2014-09-28 CN CN201420564296.5U patent/CN204214296U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106323080A (en) * | 2016-05-27 | 2017-01-11 | 郑州大学综合设计研究院有限公司 | Pump tower shared manifold connected type open circulating cooling water overflow preventing device |
CN106323080B (en) * | 2016-05-27 | 2018-10-30 | 郑州大学综合设计研究院有限公司 | Pump the Anti-overflow device of tower common manifold linking open cycle cooling water |
CN114082380A (en) * | 2021-11-23 | 2022-02-25 | 广东长信精密设备有限公司 | Cooling tower circulating cooling water system and reaction kettle production system |
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Granted publication date: 20150318 Termination date: 20150928 |
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EXPY | Termination of patent right or utility model |