CN211885458U - Vacuum buffering condensing equipment - Google Patents
Vacuum buffering condensing equipment Download PDFInfo
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- CN211885458U CN211885458U CN201921824414.0U CN201921824414U CN211885458U CN 211885458 U CN211885458 U CN 211885458U CN 201921824414 U CN201921824414 U CN 201921824414U CN 211885458 U CN211885458 U CN 211885458U
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Abstract
The utility model relates to a condensation field provides a vacuum buffering condensing equipment among vacuum management system for the low boiling point that takes out can congeal gas among the stable vacuum system and the recovery vacuum system, improve equipment system's condensation efficiency and avoid the low boiling point component by the suction vacuum pump. The utility model provides a pair of vacuum buffer condensing equipment, including a jar body, condensation mechanism sets up internally at the jar, the lateral wall of the jar body is provided with air inlet and gas outlet, the air inlet is with main equipment headtotail, the gas outlet is with vacuum pump connection, the bottom of the jar body is provided with the discharge gate. The condensing mechanism is arranged in the tank body, so that gas can be effectively condensed, and the condensing efficiency is improved.
Description
Technical Field
The utility model relates to a vacuum condensation field, concretely relates to vacuum buffering condensing equipment.
Background
The vacuum concentration or vacuum fractionation process generates a large amount of gas, a considerable portion of which is recovered after being condensed by the condenser, so that it is economically efficient to feed the gas generated by the concentration to the condensing apparatus.
The existing condensing equipment generally adopts a mode of contacting and exchanging heat of gas with a large number of condensing pipes to condense the gas into liquid. However, because the flow velocity of the working medium in the heat exchange tube is small, the cooling efficiency is low, especially the condensable gas with a low boiling point is very easy to be pumped into the vacuum pipeline system by the vacuum pump, how to improve the condensation efficiency of the condenser, and how to reduce the possibility that the condensable gas in the vacuum pipeline system is pumped into the vacuum pump, the usability of the vacuum pump is affected, and the problem that the environmental pollution is caused by discharging the condensable gas into the atmosphere is urgently solved.
SUMMERY OF THE UTILITY MODEL
The utility model provides a technical problem for improving condensation efficiency, can condense gas among the reduction vacuum pipe-line system in by the suction vacuum pump, influence the performance of vacuum pump to and prevent that this gas from being discharged into the atmosphere, bring environmental pollution, provide a vacuum buffer condensing equipment.
In order to solve the technical problem, the utility model provides a technical scheme does:
the utility model provides a vacuum buffering condensing equipment, includes a jar body, condensation mechanism sets up in the jar internally, the lateral wall of the jar body is provided with air inlet and gas outlet, the gas outlet is connected with vacuum apparatus, the bottom of the jar body is provided with the discharge gate.
Condensable gas enters the tank body, contacts with the condensing mechanism, exchanges heat, the condensable part in the gas is liquefied, is separated from the gas, falls to the bottom of the tank, and is discharged after accumulating to a certain degree.
The condensing mechanism is arranged in the tank body, the flow velocity of gas entering the tank body is alleviated, and the gas is effectively condensed after the gas contacts the condensing device in the tank body.
Preferably, condensation mechanism includes the coil pipe, coil pipe one end is provided with the import, the other end of coil pipe sets up the export, the storage has working medium in the coil pipe, the both ends of coil pipe pass jar body top. The heat exchange area of the coil pipe is large, and heat exchange can be effectively carried out.
Preferably, the condensation mechanism comprises a cooling cylinder, the cooling cylinder is connected with the top of the tank body, the height of the cooling cylinder is smaller than that of the tank body, a working medium is stored in the cylinder body, an inlet and an outlet are arranged at the top of the cooling cylinder, and the inlet and the outlet of the cooling cylinder penetrate through the top of the tank body. The gas entering the tank body is effectively contacted with the cooling cylinder, so that the gas can be effectively buffered and condensed.
Preferably, the condensing mechanism comprises a coil and a cooling cylinder, the coil is wound on the outer wall of the cooling cylinder, working media are stored in the coil and the cooling cylinder, an inlet and an outlet are respectively arranged at two ends of the coil, and two ends of the coil penetrate through the top of the tank body; the cooling cylinder is connected with the top of the tank body, an inlet and an outlet are arranged at the top of the cooling cylinder, and the inlet and the outlet of the cooling cylinder penetrate through the top of the tank body. The coil pipe and the cooling cylinder are combined, so that the flow velocity of gas can be effectively buffered, the short circuit of the gas in the tank body is prevented, the heat exchange area of the cooling mechanism is increased, and the condensation efficiency is fully improved.
Preferably, the side wall of the tank body is provided with a vent. When discharging, the air is discharged, and the liquid can be discharged in time.
Preferably, the discharge port is connected with the receiving mechanism, a feed port is arranged at the top of the receiving mechanism, and the feed port is connected with the discharge port. The receiving mechanism is used for collecting the condensed liquid material.
Preferably, the width of the receiving means is greater than the height. The width of the receiving mechanism is large, so that the stability of the device can be ensured, and materials can be received more effectively.
Preferably, a sight glass is arranged on the top of the side wall of the receiving mechanism. The apparent behavior of the collected liquid can be observed by a sight glass.
Preferably, the top of the receiving mechanism is provided with a vent and a vacuum-pumping interface.
Preferably, the bottom of the receiving mechanism is provided with a discharge opening.
Compared with the prior art, the utility model discloses the beneficial effect who has does: the condensing mechanism is arranged in the tank body, can stabilize the vacuum system and recover the low-boiling-point condensable gas brought out from the vacuum system, improves the condensing efficiency of the equipment system and avoids the low-boiling-point components from being pumped into the vacuum pump. The condensation efficiency is improved.
Drawings
Fig. 1 is a schematic view of a vacuum buffer condensing device.
Fig. 2 is another schematic diagram of a vacuum buffer condensing unit.
Fig. 3 is another schematic view of a vacuum buffer condensing unit.
Fig. 4 is another schematic view of a vacuum buffer condensing unit.
Detailed Description
The following examples are further illustrative of the present invention and are not intended to be limiting thereof.
Example 1
The utility model provides a vacuum buffer condensing equipment, includes jar body 1, condensation mechanism 2 sets up in jar body 1, the lateral wall of jar body 1 is provided with air inlet 11 and gas outlet 12, gas outlet 12 is connected with vacuum apparatus, the bottom of jar body 1 is provided with discharge gate 14. The condensing mechanism 2 comprises a coil 21 and a cooling cylinder 22, the coil 21 is wound on the outer wall of the cooling cylinder 22, working media are stored in the coil 21 and the cooling cylinder 22, an inlet 211 and an outlet 212 are respectively arranged at two ends of the coil 21, and two ends of the coil 21 penetrate through the top of the tank body 1; the cooling cylinder 22 is connected with the top of the tank body 1, the top of the cooling cylinder 22 is provided with an inlet 221 and an outlet 222, and the inlet 221 and the outlet 222 of the cooling cylinder 22 penetrate through the top of the tank body 1. And a vent 13 is arranged on the side wall of the tank body 1. The discharge hole 14 is connected with the receiving mechanism 3, a feed inlet 31 is arranged at the top of the receiving mechanism 3, and the feed inlet 31 is connected with the discharge hole 14. The width of the receiving means 3 is greater than the height. The top of the side wall of the receiving mechanism 3 is provided with a sight glass 35. The top of the receiving mechanism 3 is provided with a vent 32 and a vacuum port 33. The bottom of the receiving means 3 is provided with a discharge opening 34.
Condensable gas enters the tank body, contacts with the condensing mechanism, exchanges heat, the condensable part in the gas is liquefied, is separated from the gas, falls to the bottom of the tank, and is discharged after accumulating to a certain degree.
The condensing mechanism is arranged in the tank body, so that gas can be effectively condensed, and the condensing efficiency is improved. The heat exchange area of the coil pipe is large, and heat exchange can be effectively carried out. The temperature of the cooling cylinder is not easy to change greatly, and the gas can be cooled for a long time. Coil pipe and cooling cylinder ally oneself with usefulness, can the effectual temperature that reduces the coil pipe, improve cooling body's heat transfer area simultaneously, fully improve condensation efficiency. When discharging, the air is discharged, and the liquid can be discharged in time. The width of the receiving mechanism is large, so that the stability of the device can be ensured, and materials can be received more effectively. The apparent behavior of the collected liquid can be observed by a sight glass.
Example 2
The utility model provides a vacuum buffer condensing equipment, includes jar body 1, condensation mechanism 2 sets up in jar body 1, the lateral wall of jar body 1 is provided with air inlet 11 and gas outlet 12, gas outlet 12 is connected with vacuum apparatus, the bottom of jar body 1 is provided with discharge gate 14. Condensation mechanism 2 includes coil pipe 21, coil pipe 21 one end is provided with import 211, coil pipe 21's the other end sets up export 212, working medium has been stored in the coil pipe 21, the both ends of coil pipe 21 are passed jar body 1 top. And a vent 13 is arranged on the side wall of the tank body 1.
Example 3
The utility model provides a vacuum buffer condensing equipment, includes jar body 1, condensation mechanism 2 sets up in jar body 1, the lateral wall of jar body 1 is provided with air inlet 11 and gas outlet 12, gas outlet 12 is connected with vacuum apparatus, the bottom of jar body 1 is provided with discharge gate 14. The condensing mechanism 2 comprises a cooling cylinder 22, the cooling cylinder 22 is connected with the top of the tank body 1, the height of the cooling cylinder 22 is smaller than that of the tank body 1, a working medium is stored in the cylinder body 22, an inlet 221 and an outlet 222 are arranged at the top of the cooling cylinder 22, and the inlet 221 and the outlet 222 of the cooling cylinder penetrate through the top of the tank body 1. And a vent 13 is arranged on the side wall of the tank body 1.
Example 4
The utility model provides a vacuum buffer condensing equipment, includes jar body 1, condensation mechanism 2 sets up in jar body 1, the lateral wall of jar body 1 is provided with air inlet 11 and gas outlet 12, gas outlet 12 is connected with vacuum apparatus, the bottom of jar body 1 is provided with discharge gate 14. The condensing mechanism 2 comprises a coil 21 and a cooling cylinder 22, the coil 21 is wound on the outer wall of the cooling cylinder 22, working media are stored in the coil 21 and the cooling cylinder 22, an inlet 211 and an outlet 212 are respectively arranged at two ends of the coil 21, and two ends of the coil 21 penetrate through the top of the tank body 1; the cooling cylinder 22 is connected with the top of the tank body 1, the top of the cooling cylinder 22 is provided with an inlet 221 and an outlet 222, and the inlet 221 and the outlet 222 of the cooling cylinder 22 penetrate through the top of the tank body 1. And a vent 13 is arranged on the side wall of the tank body 1.
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. The utility model provides a vacuum buffer condensing equipment, its characterized in that, includes a jar body, condensation mechanism sets up internally at the jar, the lateral wall of the jar body is provided with air inlet and gas outlet, the gas outlet is connected with vacuum apparatus, the bottom of the jar body is provided with the discharge gate.
2. The vacuum buffer condensing unit as claimed in claim 1, wherein the condensing mechanism comprises a coil pipe, one end of the coil pipe is provided with an inlet, the other end of the coil pipe is provided with an outlet, the coil pipe is stored with working medium, and two ends of the coil pipe penetrate through the top of the tank body.
3. The vacuum buffer condensing device of claim 1, wherein said condensing mechanism comprises a cooling cylinder, said cooling cylinder is connected to the top of said tank, said cooling cylinder has a height less than the height of said tank, said cylinder stores working medium, said top of said cooling cylinder is provided with an inlet and an outlet, said inlet and outlet of said cooling cylinder pass through the top of said tank.
4. The vacuum buffer condensing device according to claim 1, wherein the condensing mechanism comprises a coil and a cooling cylinder, the coil is wound on the outer wall of the cooling cylinder, a working medium is stored in the coil and the cooling cylinder, an inlet and an outlet are respectively arranged at two ends of the coil, and two ends of the coil penetrate through the top of the tank body; the cooling cylinder is connected with the top of the tank body, an inlet and an outlet are arranged at the top of the cooling cylinder, and the inlet and the outlet of the cooling cylinder penetrate through the top of the tank body.
5. A vacuum buffer condensing unit according to claim 1 characterized by that the side walls of the tank are provided with vents.
6. The vacuum buffer condensing unit of claim 1, wherein said outlet is connected to a receiving mechanism, said receiving mechanism having a top with an inlet connected to said outlet.
7. A vacuum buffer condensing unit according to claim 6 characterized by the fact that the width of the receiving means is larger than the height.
8. A vacuum buffer condensing unit according to claim 6 characterized by the fact that the top of the side walls of the receiving mechanism is provided with a sight glass.
9. A vacuum buffer condensing unit according to claim 6 characterized by the fact that the top of the receiving means is provided with a vent and an evacuation connection.
10. A vacuum buffer condensing unit according to claim 6 characterized in that the bottom of the receiving means is provided with a discharge opening.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921824414.0U CN211885458U (en) | 2019-10-28 | 2019-10-28 | Vacuum buffering condensing equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921824414.0U CN211885458U (en) | 2019-10-28 | 2019-10-28 | Vacuum buffering condensing equipment |
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Publication Number | Publication Date |
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CN211885458U true CN211885458U (en) | 2020-11-10 |
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Family Applications (1)
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CN201921824414.0U Active CN211885458U (en) | 2019-10-28 | 2019-10-28 | Vacuum buffering condensing equipment |
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2019
- 2019-10-28 CN CN201921824414.0U patent/CN211885458U/en active Active
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