CN212962878U - Rotary wheel type condensation pipe assembly - Google Patents
Rotary wheel type condensation pipe assembly Download PDFInfo
- Publication number
- CN212962878U CN212962878U CN202020887878.2U CN202020887878U CN212962878U CN 212962878 U CN212962878 U CN 212962878U CN 202020887878 U CN202020887878 U CN 202020887878U CN 212962878 U CN212962878 U CN 212962878U
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- condensate
- pipe
- outlet pipe
- inlet pipe
- condenser
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- Expired - Fee Related
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Abstract
The utility model provides a rotary wheel type condenser pipe assembly belongs to the useless treatment facility technical field of danger. The condensing pipe comprises a plurality of condensing pipes, wherein the condensing pipes are connected in parallel, a condensate inlet pipe and a condensate outlet pipe are fixedly arranged on a flow guide body, a first shunt frame is rotatably connected onto the condensate inlet pipe, a second shunt frame is rotatably connected onto the condensate outlet pipe, one end of each condensing pipe is communicated with the condensate inlet pipe through the first shunt frame, the other end of each condensing pipe is communicated with the condensate outlet pipe through the second shunt frame, a first screw rod capable of extruding condensate in the condensate inlet pipe into the condensing pipe is arranged between the condensate inlet pipe and the first shunt frame, and a second screw rod capable of extruding condensate in the condensing pipe out of the condensate outlet pipe is arranged between the condensate outlet pipe and the second shunt frame; the first screw rod is fixed on the condensate inlet pipe, and the second screw rod is fixed on the condensate outlet pipe. The utility model has the advantages of condensation efficiency is high.
Description
Technical Field
The utility model belongs to the technical field of the useless treatment facility of danger, a rotary wheel formula condenser pipe subassembly is related to.
Background
The rectification is a treatment process for separating volatile liquid from non-volatile liquid by reversely converting gas phase and liquid phase, the volatile liquid is cooled after being volatilized to the top of a rectification tower and is recovered in a liquid phase, the existing condenser has low efficiency and cannot fully utilize a condensing medium, so that the energy consumption is high, the condensed gas is a mixed gas, the gas contains gas formed by volatilization of the liquid and steady-state gas (also called make-up gas, generally nitrogen or air) filled in the distillation process, and the backflow of the steady-state gas is a technical problem which cannot be well solved by the existing condenser.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a runner formula condenser pipe subassembly to the above-mentioned problem that prior art exists, the utility model aims to solve the technical problem how improve the condensation effect.
The purpose of the utility model can be realized by the following technical proposal: a runner type condenser pipe assembly is characterized by comprising a hollow flow guide body and a plurality of condenser pipes, wherein the condenser pipes are connected in parallel, a condensate inlet pipe and a condensate outlet pipe are fixedly arranged on the flow guide body, a first shunt frame is connected to the condensate inlet pipe in a rotating mode, a second shunt frame is connected to the condensate outlet pipe in a rotating mode, one end of each condenser pipe is communicated with the condensate inlet pipe through the first shunt frame, the other end of each condenser pipe is communicated with the condenser outlet pipe through the second shunt frame, a first screw rod capable of extruding condensate in the condensate inlet pipe into the condenser pipe is arranged between the condensate inlet pipe and the first shunt frame, and a second screw rod capable of extruding condensate in the condenser pipe out of the condensate outlet pipe is arranged between the condensate outlet pipe and the second shunt frame; the first screw rod is fixed on the condensate inlet pipe, and the second screw rod is fixed on the condensate outlet pipe.
Every four condenser pipes are a set of, four groups in total, the condensate is gone into and is gone out through a connecting rod fixed connection between the pipe, the condensate goes into the pipe and the condensate exit tube, and connecting rod, condensate are gone into the pipe and the condensate exit tube three is coaxial, makes condenser pipe, condensate go into the pipe and the condensate exit tube three forms a runner, in every group condenser pipe, reserves less gap between the adjacent condenser pipe, and four condenser pipes of same group are in the coplanar, form the blade that can form the resistance to the air current.
The rotating wheel rotates, the first screw fixed at the condensate inlet pipe can extrude condensate in the condensate inlet pipe into the condensate pipe, and the second screw fixed at the condensate outlet pipe can extrude condensate in the condensate pipe; and the condensate is discharged from the pipe to form circulation of the condensate.
A heat release device, such as a compression refrigeration system, is arranged between the condensate inlet pipe and the condensate outlet pipe and outside the guide body, and the condensate is circulated through the first screw and the second screw.
When the condensate circulates in each condenser pipe, the condensate in the condenser pipe at the lower position is more, the circulation is quicker, the condensate in the condenser pipe at the higher position is less, the temperature of the condenser pipe at the lower position is lower, and the position is just the position of the liquid outlet pipe, so that the water gathering effect is improved.
Drawings
Fig. 1 is a schematic view of the overall structure of a condenser.
Fig. 2 is a schematic view of the structure of a rotary wheel composed of condenser tubes.
In the figure, 1, a flow guide body; 11. an air inlet pipe; 12. an air outlet pipe; 13. a liquid outlet pipe; 14. A vortex chamber; 15. a pod; 2. a condenser tube; 31. introducing condensate into the pipe; 32. a condensate outlet pipe; 41. a first shunt stand; 42. a second flow distribution frame; 51. a first screw; 52. A second screw.
Detailed Description
The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.
As shown in fig. 1, the condenser includes a hollow flow guiding body 1, an air inlet pipe 11, an air outlet pipe 12 and a liquid outlet pipe 13 are provided on the flow guiding body 1, a vortex cavity 14 is provided in the flow guiding body 1, an inlet of the vortex cavity 14 is connected with the air inlet pipe 11, an outlet of the vortex cavity 14 is connected with the air outlet pipe 12, a bottom of the vortex cavity 14 is connected with the water outlet pipe, a plurality of condensing pipes 2 located in the vortex cavity 14 are provided on the flow guiding body 1, and a flow guiding cover 15 is provided above the air outlet pipe 12.
As shown in fig. 2, the condenser pipes 2 are connected in parallel, the flow guiding body 1 is fixedly provided with a condensate inlet pipe 31 and a condensate outlet pipe 32, the condensate inlet pipe 31 is rotatably connected with a first diversion frame 41, the condensate outlet pipe 32 is rotatably connected with a second diversion frame 42, one end of each of the condenser pipes 2 is communicated with the condensate inlet pipe 31 through the first diversion frame 41, the other end of each of the condenser pipes 2 is communicated with the condenser pipe 2 through the second diversion frame 42, a first screw 51 capable of squeezing condensate in the condensate inlet pipe 31 into the condenser pipe 2 is arranged between the condensate inlet pipe 31 and the first diversion frame 41, and a second screw 52 capable of squeezing condensate in the condenser pipe 2 out of the condensate outlet pipe 32 is arranged between the condensate outlet pipe 32 and the second diversion frame 42; the first screw 51 is fixed to the condensate inlet pipe 31, and the second screw 52 is fixed to the condensate outlet pipe 32.
Every four condenser pipes 2 are in a group, four groups are counted, the condensate inlet pipe 31 and the condensate outlet pipe 32 are fixedly connected through a connecting rod, the condensate inlet pipe 31 and the condensate outlet pipe 32 are coaxial, the condenser pipes 2, the condensate inlet pipe 31 and the condensate outlet pipe 32 form a rotating wheel, a small gap is reserved between every two adjacent condenser pipes 2 in each group of condenser pipes 2, the four condenser pipes 2 in the same group are positioned on the same plane to form a blade capable of forming resistance to air flow, and the guide cover 15 not only improves the guiding effect of air discharged after condensation, but also limits the air inlet path, so that the air inlet flow acts on the eccentric position of the rotating wheel, namely the rotating wheel can be well rotated; moreover, the air guide sleeve 15 can enable high-temperature hot gas and the outer wall of the low-temperature air guide sleeve 15 to perform better heat exchange, precool the intake air in advance, and reduce the overall energy consumption.
The pressurized inlet airflow acts on the rotating wheel to rotate the rotating wheel, the first screw 51 fixed at the condensate inlet pipe 31 can extrude condensate in the condensate inlet pipe 31 into the condensation pipe 2, and the second screw 52 fixed at the condensate outlet pipe 32 can extrude condensate in the condensation pipe 2; in the condensate outlet pipe 32, circulation of condensate is formed.
A heat release device, such as a compression refrigeration system, is disposed outside the flow conductor 1 between the condensate inlet pipe 31 and the condensate outlet pipe 32, and the condensate is circulated by the first screw 51 and the second screw 52.
When the condensate circulates in each condenser pipe 2, the condensate in the condenser pipe 2 at a lower position is more, the circulation is quicker, the condensate in the condenser pipe 2 at a higher position is less, the temperature of the condenser pipe 2 at the lower position is lower, and the position is just the position of the liquid outlet pipe 13, so that the water gathering effect is improved.
On the premise of basic circulation of the condensate, the rotating speed of the rotating wheel is faster, the airflow is larger, the driving effect of the first screw rod 51 and the second screw rod 52 on the condensate is stronger, the circulation of the condensate is faster, the flow speed of the condensate can be matched with the airflow speed and the airflow, the condensation effect is improved, and the energy waste is reduced.
The flow guide body 1, the flow guide cover 15, the air inlet pipe 11, the air outlet pipe 12 and the water outlet pipe are made into an integral plastic piece.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.
Claims (1)
1. A runner type condenser pipe assembly is characterized by comprising a hollow flow guide body (1) and a plurality of condenser pipes (2), wherein the condenser pipes (2) are connected in parallel, a condensate inlet pipe (31) and a condensate outlet pipe (32) are fixedly arranged on the flow guide body (1), the condensate inlet pipe (31) is rotatably connected with a first shunt bracket (41), the condensate outlet pipe (32) is rotatably connected with a second shunt bracket (42), one end of each condenser pipe (2) is communicated with the condensate inlet pipe (31) through the first shunt bracket (41), the other end of each condenser pipe (2) is communicated with the outlet pipe of the corresponding condenser pipe (2) through the second shunt bracket (42), a first screw (51) capable of extruding condensate in the condensate inlet pipe (31) into the corresponding condenser pipe (2) is arranged between the condensate inlet pipe (31) and the first shunt bracket (41), a second screw (52) capable of extruding the condensate in the condensation pipe (2) out of the condensate outlet pipe (32) is arranged between the condensate outlet pipe (32) and the second flow dividing frame (42); the first screw (51) is fixed on the condensate inlet pipe (31), and the second screw (52) is fixed on the condensate outlet pipe (32).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020887878.2U CN212962878U (en) | 2020-05-23 | 2020-05-23 | Rotary wheel type condensation pipe assembly |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020887878.2U CN212962878U (en) | 2020-05-23 | 2020-05-23 | Rotary wheel type condensation pipe assembly |
Publications (1)
Publication Number | Publication Date |
---|---|
CN212962878U true CN212962878U (en) | 2021-04-13 |
Family
ID=75376899
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202020887878.2U Expired - Fee Related CN212962878U (en) | 2020-05-23 | 2020-05-23 | Rotary wheel type condensation pipe assembly |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN212962878U (en) |
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2020
- 2020-05-23 CN CN202020887878.2U patent/CN212962878U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210413 |