CN203980957U - Gas piping cooling device - Google Patents
Gas piping cooling device Download PDFInfo
- Publication number
- CN203980957U CN203980957U CN201420275790.XU CN201420275790U CN203980957U CN 203980957 U CN203980957 U CN 203980957U CN 201420275790 U CN201420275790 U CN 201420275790U CN 203980957 U CN203980957 U CN 203980957U
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- China
- Prior art keywords
- cooling water
- storage tank
- gas piping
- water storage
- valve
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Abstract
The utility model proposes a kind of gas piping cooling device, simple in structure, reasonable in design, good cooling results, is easy to clean.It comprises: cooling water storage tank, liquid suction line, cooling water are discharged pipe, bilge discharge pipe, Cooling capacity exchanging coil pipe, the first valve, the gentle body pipeline of the second valve; Liquid suction line and bilge discharge pipe are connected to cooling water storage tank bottom, cooling water is discharged pipe and is connected to cooling water storage tank top, the first valve and the second valve are arranged on respectively on liquid suction line and bilge discharge pipe, gas piping is placed in cooling water storage tank inside and discharges between pipe at liquid suction line and cooling water, gas piping is helicoidal structure up and down, it is outside that the entrance and exit of gas piping is positioned at cooling water storage tank, and Cooling capacity exchanging coil pipe is arranged on cooling water storage tank inside and is coiled on gas piping.
Description
Technical field
The utility model relates to temperature control technology field, relates in particular to a kind of gas piping cooling device.
Background technology
In gas generation process, gas in some pipeline need to carry out cooling, can guarantee safety and store, conventional gas cooled mode is that gas piping outer cover has condenser pipe now, the space of cooling water between condenser pipe and gas piping flow through, and then gas is played to cooling effect, the method cooling effect is general, to the thermal insulation of condenser pipe, require high to avoid cold to distribute, and of long duration, in condenser pipe, tend to fouling, after fouling, the incrustation scale of condenser pipe inside is inconvenient to clean on the one hand, in addition after condensation in-tube fouling, cooling effectiveness to gas reduces greatly, therefore both wasted a large amount of water, can not obtain desirable cooling effect again.
Utility model content
The problem existing based on background technology, the utility model proposes a kind of gas piping cooling device, simple in structure, reasonable in design, and good cooling results is easy to clean.
A kind of gas piping cooling device the utility model proposes, comprising: cooling water storage tank, liquid suction line, cooling water are discharged pipe, bilge discharge pipe, Cooling capacity exchanging coil pipe, the first valve, the gentle body pipeline of the second valve; Liquid suction line and bilge discharge pipe are connected to cooling water storage tank bottom, cooling water is discharged pipe and is connected to cooling water storage tank top, the first valve and the second valve are arranged on respectively on liquid suction line and bilge discharge pipe, gas piping is placed in cooling water storage tank inside and discharges between pipe at liquid suction line and cooling water, gas piping is helicoidal structure up and down, it is outside that the entrance and exit of gas piping is positioned at cooling water storage tank, and Cooling capacity exchanging coil pipe is arranged on cooling water storage tank inside and is coiled on gas piping.
Preferably, Cooling capacity exchanging coil pipe outer setting has fin.
Preferably, on cooling water storage tank, be connected with the first Pressure gauge that detects its internal pressure, on liquid suction line, be provided with the second Pressure gauge that detects its internal pressure.
Preferably, gas piping runs through cooling water storage tank and its entrance higher than outlet.
Preferably, the first valve and the second valve are one-way cock.
Preferably, the first valve is magnetic valve.
Preferably, cooling water is discharged pipe and is provided with the 3rd valve.
During the utility model work, liquid suction line is connected to cooling water carrier pipe, open the also storage in liquid suction line input cooling water storage tank of the first valve cooling water, water level in cooling water storage tank spreads to after cooling water is discharged the position of pipe and discharges in the mode of overflow, close the first valve and stop cooling water input, because cooling water discharge is managed with the link position of cooling water storage tank higher than Cooling capacity exchanging coil pipe, Cooling capacity exchanging coil pipe is immersed in cooling water, temperature in the gas piping of Cooling capacity exchanging coil pipe coiling is higher than cooling water, Cooling capacity exchanging coil pipe has outstanding heat conductivility, by the heat in gas piping be transmitted in cooling water by and the mode of the temperature difference to gas piping, carry out cooling, liquid suction line is connected to cooling water storage tank bottom, cooling water is discharged pipe and is connected to cooling water storage tank top, when in gas piping, temperature is higher, open the first valve and input cooling water by bottom, the cooling water of cooling water storage tank top cold deficiency is discharged pipe by cooling water and is discharged to keep the cold in cooling water storage tank, closes the first valve after gas piping is cooling, when needs clean cooling water storage tank, opening second valve goalkeeper cooling water drains, then close the second valve, liquid suction line is connected to and opens the first valve after cleaning fluid conveying pipeline and input cleaning fluid and clean cooling water storage tank in cooling water storage tank, after cleaning completes, open second valve door row and go out cleaning fluid, the bottom that bilge discharge pipe is arranged on cooling water storage tank is convenient to drain cleaning fluid and is avoided residual.
Accompanying drawing explanation
Fig. 1 is the structure chart of a kind of gas piping cooling device that the utility model proposes.
The specific embodiment
Fig. 1 is the structure chart of a kind of gas piping cooling device that the utility model proposes, comprising: cooling water storage tank 10, liquid suction line 11, cooling water are discharged pipe 12, bilge discharge pipe 13, Cooling capacity exchanging coil pipe 14, the first valve 15, the second valve 16, the first Pressure gauge 17, the second Pressure gauge 18 and gas piping 20.
Cooling water is discharged pipe 12 and is connected to cooling water storage tank 10 tops, liquid suction line 11 is connected to cooling water storage tank 10 bottoms, cooling water is entered in cooling water storage tank 10 by liquid suction line 11, when being elevated to when cooling water discharge manages 12, cooling water storage tank 10 middle water levels discharge in the mode of overflow, liquid suction line 11 is discharged pipe 12 with the link position of cooling water storage tank 10 away from cooling water, avoids cooling water just to enter cooling water storage tank 10 and just by cooling water discharge pipe 12, is discharged and can not be played a role.
Bilge discharge pipe 13 is connected to cooling water storage tank 10 near the position of bottom, when cooling water storage tank 10 need to clean, by liquid suction line 11 input cleaning fluids, rinsed, after flushing completes, sewage is discharged by bilge discharge pipe 13, bilge discharge pipe 13 be arranged on cooling water storage tank 10 near the position of bottom as much as possible emptying sewage avoid residual.
The first valve 15 is arranged on the input of controlling cooling water or cleaning fluid on liquid suction line 11, and the second valve 16 is arranged on to be controlled sewage and discharge on bilge discharge pipe 13.
The first Pressure gauge 17 is connected on cooling water storage tank 10 for detection of its internal pressure, and the second Pressure gauge 18 is arranged on liquid suction line 14 for detection of its internal pressure.The detection position of the first Pressure gauge 17 is the link position with cooling water storage tank 10 away from liquid suction line 14, because the hydraulic pressure of liquid suction line 14 outgoing positions can not represent the internal pressure of cooling water storage tank 10.
Gas piping 20 is placed in cooling water storage tank 10 inside and discharges between pipe 12 at liquid suction line 11 and cooling water, and gas piping 20 is helicoidal structure up and down.In cooling water storage tank 10 because cooling water is exported by input top, bottom, so cooling water storage tank 10 middle and lower part temperature are lower than top, the entrance 201 of gas piping 20 and outlet 202 run through cooling water storage tank 10 and entrance 201 higher than outlet 202, in gas piping 20, the flow direction of gas meets the warm field distribution in cooling water storage tank 10, has guaranteed the cryogenic effect of gas piping 20 output gases.
Cooling capacity exchanging coil pipe 14 is arranged on cooling water storage tank 10 inside and is coiled on gas piping 20, because gas piping 20 is discharged between pipe 12 at liquid suction line 11 and cooling water, Cooling capacity exchanging coil pipe 14 is completely submerged in the cooling water of the storage in cooling water storage tank 10, Cooling capacity exchanging coil pipe 14 has good guide temp energy, heat in the higher gas piping 20 of temperature is conducted to the lower cooling water of temperature, as far as possible and the temperature contrast of cooling water and gas piping 20, thereby the gas in gas piping 20 is lowered the temperature, Cooling capacity exchanging coil pipe 14 is along with gas piping 20 forms helicoidal structure, strengthened heat-conducting area.
In the present embodiment, Cooling capacity exchanging coil pipe 14 outsides are also provided with fin (not providing in figure), heat on Cooling capacity exchanging coil pipe 14 is distributed in cooling water, expand the temperature spread of Cooling capacity exchanging coil pipe 14 and gas piping 20, improve the warm efficiency of leading of Cooling capacity exchanging coil pipe 14, fin is arranged on a side of close cooling water to guarantee best radiating effect.
During the present embodiment work, liquid suction line 11 is connected to cooling water carrier pipe, open the also storage in liquid suction line 11 input cooling water storage tanks 10 of the first valve 15 cooling waters, water level in cooling water storage tank 10 spreads to after cooling water is discharged the position of pipe 12 and discharges in the mode of overflow, closes the first valve 15 and stops cooling water input; Cooling capacity exchanging coil pipe 14 is immersed in cooling water, temperature in the gas piping 20 of Cooling capacity exchanging coil pipe 14 coilings is higher than cooling water, Cooling capacity exchanging dish 14 pipes have outstanding heat conductivility and are further promoted by fin, Cooling capacity exchanging dish 14 by the heat in gas piping 20 be transmitted in cooling water by and the mode of the temperature difference to gas piping 20, carry out cooling; Liquid suction line 11 is connected to cooling water storage tank 10 bottoms, cooling water is discharged pipe 12 and is connected to cooling water storage tank 10 tops, when in gas piping 20, temperature is higher, open the first valve 15 by bottom input cooling water, the cooling water of cooling water storage tank 10 top cold deficiencies is discharged pipe 12 by cooling water and is discharged to keep the cold in cooling water storage tank 10, closes the first valve 15 after gas piping 20 is cooling; When needs clean cooling water storage tank 10, opening the second valve 16 drains cooling water, then close the second valve 16, liquid suction line 11 is connected to and opens the first valve 15 after cleaning fluid conveying pipeline and input cleaning fluid and clean cooling water storage tank in cooling water storage tank 10, after cleaning completes, open the second valve 16 and discharge cleaning fluids, the bottom that bilge discharge pipe 13 is arranged on cooling water storage tank is convenient to drain cleaning fluid and is avoided residual.In the time need to changing the cooling water in cooling water storage tank 10, also can need the cooling water of changing from bilge discharge pipe 13 discharges.The first Pressure gauge 17 is for detection of cooling water storage tank 10 internal pressures, when its internal pressure is too high, closing the first valve 15 alleviates, the second Pressure gauge 18 is for detection of liquid suction line 14 internal pressures, when the first valve 15 is opened, liquid suction line 14 internal pressures should acquire a certain degree, if the second Pressure gauge 18 readings are abnormal, shutoff device carries out malfunction elimination.
In above embodiment, the first valve 15 and the second valve 16 are one-way cock, and the first valve 15 is preferentially selected magnetic valve, convenient operation.In addition, cooling water is discharged on pipe 12 can also arrange the 3rd valve (not providing in figure) for controlling the discharge of cooling water, avoids cooling water overflow waste.
The above; it is only the preferably specific embodiment of the utility model; but protection domain of the present utility model is not limited to this; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; according to the technical solution of the utility model and utility model design thereof, be equal to replacement or changed, within all should being encompassed in protection domain of the present utility model.
Claims (7)
1. a gas piping cooling device, it is characterized in that, comprising: cooling water storage tank (10), liquid suction line (11), cooling water are discharged pipe (12), bilge discharge pipe (13), Cooling capacity exchanging coil pipe (14), the first valve (15), the second valve (16) and gas piping (20), liquid suction line (11) and bilge discharge pipe (13) are connected to cooling water storage tank (10) bottom, cooling water is discharged pipe (12) and is connected to cooling water storage tank (10) top, the first valve (15) and the second valve (16) are arranged on respectively on liquid suction line (11) and bilge discharge pipe (13), it is inner and be positioned at liquid suction line (11) and cooling water and discharge and manage between (12) that gas piping (20) is placed in cooling water storage tank (10), gas piping (20) is helicoidal structure up and down, the entrance (201) of gas piping (20) and outlet (202) are positioned at cooling water storage tank (10) outside, Cooling capacity exchanging coil pipe (14) is arranged on cooling water storage tank (10) inside and is coiled on gas piping (20).
2. gas piping cooling device as claimed in claim 1, is characterized in that, Cooling capacity exchanging coil pipe (14) outer setting has fin.
3. gas piping cooling device as claimed in claim 1, it is characterized in that, on cooling water storage tank (10), be connected with the first Pressure gauge (17) that detects its internal pressure, on liquid suction line (14), be provided with the second Pressure gauge (18) that detects its internal pressure.
4. gas piping cooling device as claimed in claim 1, is characterized in that, gas piping (20) runs through cooling water storage tank (10) and its entrance (201) higher than outlet (202).
5. gas piping cooling device as claimed in claim 1, is characterized in that, the first valve (15) and the second valve (16) are one-way cock.
6. gas piping cooling device as claimed in claim 4, is characterized in that, the first valve (15) is magnetic valve.
7. gas piping cooling device as claimed in claim 4, is characterized in that, cooling water is discharged pipe (12) and is provided with the 3rd valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420275790.XU CN203980957U (en) | 2014-05-27 | 2014-05-27 | Gas piping cooling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420275790.XU CN203980957U (en) | 2014-05-27 | 2014-05-27 | Gas piping cooling device |
Publications (1)
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CN203980957U true CN203980957U (en) | 2014-12-03 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201420275790.XU Expired - Fee Related CN203980957U (en) | 2014-05-27 | 2014-05-27 | Gas piping cooling device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104567479A (en) * | 2014-12-18 | 2015-04-29 | 桂林新艺制冷设备有限责任公司 | Gas cooling device |
CN104848711A (en) * | 2014-05-27 | 2015-08-19 | 安徽华盛科技控股股份有限公司 | Gas pipeline cooling device |
-
2014
- 2014-05-27 CN CN201420275790.XU patent/CN203980957U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104848711A (en) * | 2014-05-27 | 2015-08-19 | 安徽华盛科技控股股份有限公司 | Gas pipeline cooling device |
CN104567479A (en) * | 2014-12-18 | 2015-04-29 | 桂林新艺制冷设备有限责任公司 | Gas cooling device |
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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: 20141203 Termination date: 20150527 |
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EXPY | Termination of patent right or utility model |