CN211273621U - Condensable gas collection device of vacuum pipeline system - Google Patents
Condensable gas collection device of vacuum pipeline system Download PDFInfo
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- CN211273621U CN211273621U CN201921823151.1U CN201921823151U CN211273621U CN 211273621 U CN211273621 U CN 211273621U CN 201921823151 U CN201921823151 U CN 201921823151U CN 211273621 U CN211273621 U CN 211273621U
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Abstract
The utility model relates to a condensation field provides a vacuum pipe-line system's gas collection device that can condense for improve recovery efficiency. The utility model provides a condensable gas collecting device of a vacuum pipeline system, which comprises a condensing mechanism and a collecting mechanism, wherein the collecting mechanism is positioned below the condensing mechanism and is connected with the condensing mechanism; the collecting mechanism is provided with an air inlet and an liquid outlet, the condensable gas is condensed after the mixed gas with the condensable gas in the vacuum pipeline system enters the condensing mechanism from the air inlet, the non-condensable gas is extracted from the gas outlet due to the self weight of the gas falling into the collecting mechanism, and the condensed liquid flows out from the liquid outlet at the bottom of the collecting mechanism; the air inlet and the liquid outlet are positioned on different planes of the collecting mechanism. The condensable gas is further collected, so that the full utilization of resources is realized, the size is changeable, and flexible setting can be performed according to the amount of the condensable gas.
Description
Technical Field
The utility model relates to a condensation field, concretely relates to vacuum piping system's gas collection device that can condense.
Background
Vacuum fractionation device generally sets up vacuum condensing equipment, condenses the gas that will fractionate and collects, and these devices are generally bulky, nevertheless to the fractional distillation operation that contains multicomponent material, often appear low boiling point component condensation incomplete condition, sometimes also because the coolant liquid is unstable, the poor problem of condensation effect of condenser. These uncondensed components are pumped away by the vacuum pump and into the vacuum pump or into the atmosphere, resulting in waste of recyclable liquids and environmental pollution.
How to effectively collect the uncondensed gas in the vacuum pipeline system, so that the residual condensable gas in the vacuum pipeline does not affect the service performance of the vacuum pump and can be discharged into the atmosphere, is a technical problem to be solved urgently.
SUMMERY OF THE UTILITY MODEL
The utility model provides a technical problem for improving recovery efficiency, a gas collection device can condense of vacuum pipe-line system is provided.
In order to solve the technical problem, the utility model provides a technical scheme does:
a condensable gas collecting device of a vacuum pipeline system comprises a condensing mechanism and a collecting mechanism, wherein the collecting mechanism is positioned below the condensing mechanism and is connected with the condensing mechanism; the condensing mechanism is provided with an exhaust port, the collecting mechanism is provided with an air inlet and a liquid outlet, the condensable gas is condensed after the mixed gas containing the condensable gas flows into the condensing mechanism from the air inlet, the condensable gas enters the collecting mechanism, the non-condensable gas flows out from the air outlet, and the condensed liquid flows out from the liquid outlet; the air inlet and the liquid outlet are positioned on different planes of the collecting mechanism.
A condensing and collecting device is arranged on the conveying pipeline of the condensed gas to collect the residual liquid.
The condensable gas is further collected, so that the full utilization of resources is realized, the size is changeable, and flexible setting can be performed according to the amount of the condensable gas.
Preferably, the condensation mechanism comprises a condensation shell and a condensation assembly, the condensation assembly is positioned in the condensation shell, and the condensation assembly comprises at least one condensation pipe. The condensing assembly contacts a fluid containing a condensable gas to reduce the temperature of the fluid and separate the liquid and the gas.
Preferably, the condenser tube stores a working medium therein. The working medium in the condensation pipe is used for better heat exchange, and the heat in the fluid is transferred to the working medium and the condensation pipe, so that condensation is realized.
Preferably, the at least one condenser pipe is connected with the liquid inlet hole and the liquid outlet hole after being connected in parallel, and the liquid inlet hole and the liquid outlet hole are formed in a condensation shell of the condensation mechanism. The liquid in the condensation pipe flows through the liquid inlet hole and the liquid outlet hole, and the working efficiency of the collecting device is improved.
Preferably, a baffle plate is arranged in the condensation mechanism, the length of the baffle plate is smaller than that of the condensation pipe, and the baffle plate is connected with a condensation shell of the condensation mechanism. The baffle plate is used for distributing air and uniformly distributing the fluid in the shell of the condensing mechanism.
Preferably, the top of the condensing mechanism is provided with at least one waste gas outlet. The waste gas outlet is connected with a vacuum pump.
Preferably, the bottom of the condensing mechanism is provided with at least one condensate outlet to collect the condensed and recovered materials. The condensate outlet is connected with the receiving tank.
Preferably, the collecting mechanism is provided with a temperature measuring hole, and the temperature measuring hole is close to the air outlet.
Preferably, the collecting mechanism comprises a collecting shell, the air outlet is arranged on the side wall of the collecting shell, and the liquid outlet is arranged at the bottom of the collecting shell. The liquid outlet and the gas outlet are arranged at different positions, so that gas and liquid can be effectively separated.
Preferably, the device further comprises a supporting mechanism, wherein the supporting mechanism is connected with the condensing mechanism, and the length of the supporting mechanism is greater than that of the collecting mechanism. The supporting mechanism is used for fixing the whole device.
Compared with the prior art, the utility model discloses the beneficial effect who has realized the make full use of resource for further collecting the condensable gas, also makes the remaining condensable gas in the vacuum pipeline not influence vacuum pump performance and the atmosphere of emitting.
The utility model discloses the volume can be big or small, can carry out nimble setting to the volume of the gas that can congeal.
Drawings
FIG. 1 is a cross-sectional view of a condensable gas collecting device of a vacuum line system.
FIG. 2 is a side view of a condensable gas collecting device of a vacuum line system.
FIG. 3 is a schematic view of a section B-B.
Detailed Description
The following examples are further illustrative of the present invention and are not intended to be limiting thereof.
Example 1
A condensable gas collecting device of a vacuum pipeline system comprises a condensing mechanism 1 and a collecting mechanism 2, wherein the collecting mechanism 2 is positioned below the condensing mechanism 1, and the collecting mechanism 2 is connected with the condensing mechanism 1; the condensing mechanism 1 is provided with an air outlet 11, the collecting mechanism 2 is provided with an air inlet 22 and an liquid outlet 21, the condensable gas flows into the condensing mechanism 1 from the air inlet 22, then enters the collecting mechanism 2, flows out from the air outlet 11, and the condensed liquid flows out from the liquid outlet 21; the inlet port 22 and the outlet port 21 are located on different planes of the collecting mechanism 2. The condensing mechanism 1 comprises a condensing shell 12 and a condensing assembly 13, wherein the condensing assembly 13 is positioned in the condensing shell 12, and the condensing assembly 13 comprises a plurality of condensing pipes 131. The condenser tube 131 stores a working medium, water. The plurality of condensation pipes 131 are connected with the liquid inlet hole 14 and the liquid outlet hole 15 after being connected in parallel, and the liquid inlet hole 14 and the liquid outlet hole 15 are arranged on the condensation shell 12 of the condensation mechanism 1. A baffle plate 16 is arranged in the condensation mechanism 12, the length of the baffle plate 16 is less than that of the condensation pipe 131, and the baffle plate 16 is connected with the condensation shell 12 of the condensation mechanism. The top of the condensing mechanism is provided with 2 waste gas outlets 18. The bottom of the condensing mechanism is provided with 2 waste liquid outlets 17. The collecting mechanism is provided with a temperature measuring hole 23, and the temperature measuring hole 23 is close to the air outlet 11. The collecting mechanism 2 comprises a collecting shell 24, the air outlet 11 is arranged on the side wall of the collecting shell 24, and the liquid outlet 21 is arranged at the bottom of the collecting shell 24. The condensing device further comprises a supporting mechanism 3, wherein the supporting mechanism 3 is connected with the condensing mechanism 1, and the length of the supporting mechanism 3 is greater than that of the collecting mechanism 2.
A condensing and collecting device is arranged on the conveying pipeline of the condensed gas to collect the residual liquid.
The condensable gas is further collected, so that the full utilization of resources is realized, the size is changeable, and flexible setting can be performed according to the amount of the condensable gas. The condensing assembly contacts a fluid containing a condensable gas to reduce the temperature of the fluid and separate the liquid and the gas. The working medium in the condensation pipe is used for better heat exchange, and the heat in the fluid is transferred to the working medium and the condensation pipe, so that condensation is realized. The liquid in the condensation pipe flows through the liquid inlet hole and the liquid outlet hole, and the working efficiency of the collecting device is improved. The baffle plate is used for distributing air and uniformly distributing the fluid in the shell of the condensing mechanism. After the working medium is used for a long time, the property of the working medium is changed, and the waste liquid outlet can discharge the denatured working medium. The liquid outlet and the gas outlet are arranged at different positions, so that gas and liquid can be effectively separated. The supporting mechanism is used for fixing the whole device.
Example 2
A condensable gas collecting device of a vacuum pipeline system comprises a condensing mechanism 1 and a collecting mechanism 2, wherein the collecting mechanism 2 is positioned below the condensing mechanism 1, and the collecting mechanism 2 is connected with the condensing mechanism 1; the condensing mechanism 1 is provided with an air outlet 11, the collecting mechanism 2 is provided with an air inlet 22 and an liquid outlet 21, the condensable gas flows into the condensing mechanism 1 from the air inlet 22, then enters the collecting mechanism 2, flows out from the air outlet 11, and the condensed liquid flows out from the liquid outlet 21; the inlet port 22 and the outlet port 21 are located on different planes of the collecting mechanism 2. The condensing mechanism 1 comprises a condensing shell 12 and a condensing assembly 13, wherein the condensing assembly 13 is positioned in the condensing shell 12, and the condensing assembly 13 comprises a plurality of condensing pipes 131. The condenser tube 131 stores a working medium, water. The plurality of condensation pipes 131 are connected with the liquid inlet hole 14 and the liquid outlet hole 15 after being connected in parallel, and the liquid inlet hole 14 and the liquid outlet hole 15 are arranged on the condensation shell 12 of the condensation mechanism 1. The volume of condensation casing is greater than the volume of condensation subassembly, the condensation casing is provided with two cavitys 101 and 102, is connected with the both ends of condensation subassembly 13 respectively, feed liquor hole 14 and play liquid hole 15 are connected with one of them cavity 102, condensation subassembly 13 is provided with seal assembly 104 with between the cavity, condenser pipe 131 passes sealing member 104 and is connected with the cavity, be provided with working medium in the cavity. And a partition plate 103 is arranged in the cavity connected with the liquid inlet hole 14 or the liquid outlet hole 15. A baffle plate 16 is arranged in the condensation mechanism 12, the length of the baffle plate 16 is less than that of the condensation pipe 131, and the baffle plate 16 is connected with the condensation shell 12 of the condensation mechanism. The top of the condensing mechanism is provided with 2 waste gas outlets 18. The bottom of the condensing mechanism is provided with 2 waste liquid outlets 17. The collecting mechanism is provided with a temperature measuring hole 23, and the temperature measuring hole 23 is close to the air outlet 11. The collecting mechanism 2 comprises a collecting shell 24, the air outlet 11 is arranged on the side wall of the collecting shell 24, and the liquid outlet 21 is arranged at the bottom of the collecting shell 24. The condensing device further comprises a supporting mechanism 3, wherein the supporting mechanism 3 is connected with the condensing mechanism 1, and the length of the supporting mechanism 3 is greater than that of the collecting mechanism 2.
The above detailed description is specific to possible embodiments of the present invention, and the above embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included within the scope of the present invention.
Claims (10)
1. A condensable gas collecting device of a vacuum pipeline system is characterized by comprising a condensing mechanism and a collecting mechanism, wherein the collecting mechanism is positioned below the condensing mechanism and is connected with the condensing mechanism; the condensing mechanism is provided with an air outlet, the collecting mechanism is provided with an air inlet and an liquid outlet, the condensable gas is condensed after the mixed gas with the condensable gas in the vacuum pipeline system enters the condensing mechanism from the air inlet, the non-condensable gas is extracted from the air outlet due to the self weight of the mixed gas falling into the collecting mechanism, and the condensed liquid flows out from the liquid outlet at the bottom of the collecting mechanism; the air inlet and the liquid outlet are positioned on different planes of the collecting mechanism.
2. The condensable gas collecting device of claim 1, wherein the condensing mechanism comprises a condensing housing and a condensing assembly disposed within the condensing housing, the condensing assembly including at least one condensing tube.
3. The condensable gas collecting device of a vacuum line system as claimed in claim 2, wherein the condenser tube has a working medium stored therein.
4. The condensable gas collecting device of a vacuum pipeline system as claimed in claim 2, wherein the at least one condensing tube is connected in parallel and then connected with a liquid inlet hole and a liquid outlet hole, and the liquid inlet hole and the liquid outlet hole are arranged on a condensing shell of the condensing mechanism.
5. The condensable gas collecting device of a vacuum line system as claimed in claim 2, wherein a baffle plate is disposed in the condensing mechanism, the length of the baffle plate is less than that of the condensing pipe, and the baffle plate is connected to the condensing shell of the condensing mechanism.
6. The condensable gas collecting device of a vacuum line system according to claim 1, wherein the top of the condensing mechanism is provided with at least one waste gas outlet.
7. The condensable gas collecting device of a vacuum line system according to claim 1, wherein the bottom of the condensing mechanism is provided with at least one waste liquid outlet.
8. The condensable gas collecting device of a vacuum pipeline system according to claim 1, wherein the collecting mechanism is provided with a temperature measuring hole, and the temperature measuring hole is close to the gas outlet.
9. The condensable gas collecting device of a vacuum line system according to claim 1, wherein the collecting mechanism comprises a collecting housing, the gas inlet is arranged on a side wall of the collecting housing, and the liquid outlet is arranged at the bottom of the collecting housing.
10. The condensable gas collecting device of a vacuum line system according to claim 1, further comprising a support mechanism, wherein the support mechanism is connected with the condensing mechanism, and the length of the support mechanism is greater than that of the collecting mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921823151.1U CN211273621U (en) | 2019-10-28 | 2019-10-28 | Condensable gas collection device of vacuum pipeline system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921823151.1U CN211273621U (en) | 2019-10-28 | 2019-10-28 | Condensable gas collection device of vacuum pipeline system |
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CN211273621U true CN211273621U (en) | 2020-08-18 |
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CN201921823151.1U Active CN211273621U (en) | 2019-10-28 | 2019-10-28 | Condensable gas collection device of vacuum pipeline system |
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CN (1) | CN211273621U (en) |
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2019
- 2019-10-28 CN CN201921823151.1U patent/CN211273621U/en active Active
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