CN214426468U - Steam condensate water recovery unit in production - Google Patents
Steam condensate water recovery unit in production Download PDFInfo
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- CN214426468U CN214426468U CN202120530332.6U CN202120530332U CN214426468U CN 214426468 U CN214426468 U CN 214426468U CN 202120530332 U CN202120530332 U CN 202120530332U CN 214426468 U CN214426468 U CN 214426468U
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Abstract
The utility model discloses a steam condensate recovery device in production, which comprises a recovery tank and a cold water pool; the bottom intermediate position department of this recovery tank is provided with the steam inlet of the interior concave shape that upwards extends, be provided with the cold water pipe in the cold water pond, install the circulating pump on this cold water pipe to the cold water pipe stretches into from the installation of the upper end intermediate position department of recovery tank, and the oblique cold water pipe that divide into two oblique downwardly extending is installed to the cold water pipe from the top in the recovery tank. In the device, an air port extending upwards is arranged at the middle position of the lower end of the recovery tank and is used as a steam inlet, and the steam inlet enters from the air port, so that the steam inlet is rapid and cannot be wasted and volatilized; this device steam gets into after just corresponding and this slant cold water pipe carries out the heat transfer, and the inside water that separates out of steam can be corresponding attached to on the slant cold water pipe to along with the downward gathering of setting up of pipe chute, consequently can be very fast drip in the water storage district of below, drop very fast, can not too greatly influence the temperature of cold water pipe.
Description
Technical Field
The utility model relates to a chemical industry equipment technical field, steam condensate recovery unit in the production specifically says so.
Background
In the prior art, the steam of chemical equipment usually contains a large amount of moisture, and if the moisture is simply discharged into the atmosphere, more water resources are wasted, so that in the prior art, most of the moisture in the steam is recycled by arranging condensation equipment, so that the water resources can be saved, and in most of the condensation equipment adopted in the prior art, a condensation recovery tank or a condensation filter and the like are arranged; in the existing equipment, a recovery tank body is usually arranged, condensing equipment is installed in the recovery tank body, collected steam is put into the recovery tank, and condensation and water precipitation are carried out through a condensing assembly; but the structure of existing equipment sets up comparatively unreasonablely usually, can not be high-efficient high-quality recycle work of accomplishing the comdenstion water, and during the condensation, the water droplet is appeared slowly to gathering and not rapid enough when dripping, the long-time gathering of water droplet can seriously influence the temperature of condenser pipe on the condenser pipe, influences the condensation effect.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a steam condensate recovery device in production; to solve the problems of the background art.
The technical scheme is as follows: in order to realize the purpose of the utility model, the utility model discloses a technical scheme as follows: a steam condensate recovery device in production comprises a recovery tank and a cold water pool; an upward extending concave steam inlet is arranged at the middle position of the bottom of the recovery tank, a cold water pipe is arranged in the cold water pool, a circulating pump is arranged on the cold water pipe, the cold water pipe extends into the recovery tank from the middle position of the upper end of the recovery tank, the cold water pipe is arranged in the recovery tank from top to bottom and is divided into two oblique cold water pipes extending obliquely downwards, and the oblique cold water pipes at the two sides extend downwards and then extend out of the two sides of the recovery tank to be circularly arranged in the cold water pool; the space at two sides of the steam inlet in the recovery tank is provided with water storage areas, the lower ends of the water storage areas at two sides are also correspondingly provided with water outlet pipes, and water outlet pumps are correspondingly arranged on the water outlet pipes; and the upper end of the recovery tank is also provided with a liquid level meter which is arranged below the oblique cold water pipe, and the liquid level meter is also connected with a control device which is correspondingly connected to the water outlet pump.
Preferably, both sides of the upper end of the recovery tank are also provided with extension tank bodies which expand outwards; the inclined cold water pipe can correspondingly extend into the extension tank body.
Preferably, the tail end of the cold water pipe is correspondingly provided with S-shaped cold water pipes which are continuously arranged, the S-shaped cold water pipes extend outwards and are integrally arranged in the extension tank body, and the S-shaped cold water pipes on the two sides extend upwards and are connected back to the cold water pool.
Preferably, the extending tank body is also provided with an air leakage pipe; and the air release pipe is correspondingly provided with an air release valve, and the air release valve is correspondingly connected with the control device.
Preferably, the steam inlet is a cylindrical inlet structure, and the inner diameter of the steam inlet is 10 cm.
Preferably, the angle between the two oblique cold water pipes is set to be 30-45 degrees; in order to ensure that the accumulated water drops can fall quickly, the inclined angle of the inclined cold water pipe can be correspondingly set.
Preferably, the plurality of cold water pipes and the plurality of oblique cold water pipes connected with the oblique cold water pipes are arranged side by side.
Has the advantages that: compared with the prior art, the utility model, have following advantage:
(1) the injection of the steam in the recovery tank in the device is different from the traditional recovery device, an air port extending upwards is arranged at the middle position of the lower end of the recovery tank in the device and is used as a steam inlet, the steam inlet enters from the air port, the steam inlet is rapid, and the waste and the volatilization are avoided;
(2) the water cooling pipe at the upper end of the steam inlet in the device is arranged to be an oblique water cooling pipe, heat exchange is correspondingly carried out between the steam and the oblique water cooling pipe after the steam enters, and water separated out from the steam is correspondingly attached to the oblique water cooling pipe and is collected downwards along with the arrangement of the oblique pipe, so that the water can quickly drip into a water storage area below the water storage area and quickly fall off, and the temperature of the water cooling pipe cannot be influenced too much;
(3) the upper end of the recovery tank in the device is also provided with an extension tank body, the lower end of the oblique cold water pipe is provided with an S-shaped cold water pipe in an extension mode, so that the length of the integral cold water pipe and the space for condensation are correspondingly increased, and due to the S-shaped cold water pipe, the condensed cold water pipe which is attached to the pipe body still can rapidly slide down and fall to a water storage area, and the recovery quality and efficiency are improved;
(4) the extended tank body in the device is also provided with an air leakage pipeline which can correspondingly maintain the air pressure balance in the tank body, and water can be discharged and sent to other equipment for use through the arranged liquid level meter, the control device and the water outlet pipe when the water quantity is more; and the water in the cold water pool of the device is recycled, so that the temperature of cold water in the cold water pipe is maintained, and the recovery efficiency is improved.
Drawings
Fig. 1 is a structural diagram of the present invention.
Detailed Description
The present invention will be further clarified by the following embodiments with reference to the attached drawings, which are implemented on the premise of the technical solution of the present invention, and it should be understood that these embodiments are only used for illustrating the present invention and are not used for limiting the scope of the present invention.
As shown in fig. 1, a steam condensate recovery device in production comprises a recovery tank 1 and a cold water pool 2; an upward extending concave steam inlet 3 is arranged at the middle position of the bottom of the recovery tank 1, a cold water pipe 4 is arranged in the cold water pool 2, a circulating pump 5 is arranged on the cold water pipe 4, the cold water pipe 4 extends into the recovery tank 1 from the middle position of the upper end of the recovery tank, the cold water pipe 4 is arranged in the recovery tank 1 from top to bottom and is divided into two oblique cold water pipes 6 extending obliquely downwards, and the oblique cold water pipes 6 at two sides extend downwards and then extend out from two sides of the recovery tank 1 to be circularly arranged in the cold water pool 2; the space at two sides of the steam inlet 3 in the recovery tank 1 is provided with water storage areas 7, the lower ends of the water storage areas 7 at two sides are also correspondingly provided with water outlet pipes 8, and the water outlet pipes 8 are correspondingly provided with water outlet pumps 9; and the upper end of the recovery tank 1 is also provided with a liquid level meter 10, the liquid level meter 10 is arranged below the inclined cold water pipe 6, the liquid level meter 10 is also connected with a control device 11, and the control device 11 is correspondingly connected to the water outlet pump 9.
The two sides of the upper end of the recovery tank 1 are also provided with extension tank bodies 12 which expand outwards; the inclined cold water pipe 6 can correspondingly extend into the extension tank body 12.
The tail end of the cold water pipe 4 is correspondingly provided with a continuously arranged S-shaped cold water pipe 13, the S-shaped cold water pipe 13 extends outwards and is integrally arranged in an extending tank body 12, and the S-shaped cold water pipes 13 at the two sides extend upwards and are connected back to the cold water pool 2.
The extending tank body 12 is also provided with an air leakage pipe 14; the air release pipe 14 is correspondingly provided with an air release valve 15, and the air release valve 15 is correspondingly connected with the control device 11.
The steam inlet 3 is provided in a cylindrical inlet structure, and the inner diameter of the steam inlet 3 is set to be 10 cm. The angle between the two oblique cold water pipes 6 is set to be 30-45 degrees; in order to ensure that the accumulated water drops can fall quickly, the inclined angle of the inclined cold water pipe 6 can be correspondingly set.
The plurality of cold water pipes 4 and the inclined cold water pipes 6 connected to the inclined cold water pipes 6 may be provided, and the plurality of cold water pipes 4 and the inclined cold water pipes 6 are arranged side by side.
The injection of the steam in the recovery tank in this device is different from traditional recovery unit in the past, sets up the gas port that upwards extends together in the lower extreme intermediate position department of recovery tank in this device, and as steam inlet, steam inlet gets into from this gas port, and is comparatively rapid, can not extravagant volatilizing.
The cold water pipe of steam inlet upper end sets up to slant cold water pipe in this device, and steam gets into and just correspondingly carries out the heat transfer with this slant cold water pipe after, and the inside water that separates out of steam can be corresponding attached to on the slant cold water pipe to along with the downward gathering of setting up of pipe, consequently can be very fast drip in the water storage district of below, drop very fast, can not too greatly influence the temperature of cold water pipe.
The upper end of retrieving the jar in this device still is provided with extends jar body, and the lower extreme of slant cold water pipe then extends and is provided with the S-shaped cold water pipe, has just so correspondingly increased the length of whole cold water pipe and the space of condensation to the setting of S-shaped cold water pipe, the water storage district that drops is fallen to still can fast gliding on the body to the ten minutes of condensation is attached to, has increased recovery quality and efficiency.
The extended tank body in the device is also provided with an air leakage pipeline which can correspondingly maintain the air pressure balance in the tank body, and water can be discharged and sent to other equipment for use through the arranged liquid level meter, the control device and the water outlet pipe when the water quantity is more; and the water in the cold water pool of the device is recycled, so that the temperature of cold water in the cold water pipe is maintained, and the recovery efficiency is improved.
The detailed description is to be construed as exemplary only and is not intended to limit the scope of the invention, which is defined by the appended claims, and all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Claims (7)
1. Steam condensate water recovery unit in the production, its characterized in that: comprises a recovery tank (1) and a cold water pool (2); an inward concave steam inlet (3) extending upwards is formed in the middle position of the bottom of the recovery tank (1), a cold water pipe (4) is arranged in the cold water pool (2), a circulating pump (5) is mounted on the cold water pipe (4), the cold water pipe (4) extends into the recovery tank (1) from the middle position of the upper end of the recovery tank, the cold water pipe (4) is mounted in the recovery tank (1) from top to bottom and is divided into two oblique cold water pipes (6) extending obliquely downwards, and the oblique cold water pipes (6) on the two sides extend downwards and then extend out from the two sides of the recovery tank (1) to be circularly mounted in the cold water pool (2); the space on two sides of the steam inlet (3) in the recovery tank (1) is provided with water storage areas (7), the lower ends of the water storage areas (7) on two sides are also correspondingly provided with water outlet pipes (8), and the water outlet pipes (8) are correspondingly provided with water outlet pumps (9); and the upper end of the recovery tank (1) is also provided with a liquid level meter (10), the liquid level meter (10) is arranged below the inclined cold water pipe (6), the liquid level meter (10) is also connected with a control device (11), and the control device (11) is correspondingly connected to the water outlet pump (9).
2. The in-process steam condensate recovery apparatus of claim 1, wherein: the two sides of the upper end of the recovery tank (1) are also provided with extension tank bodies (12) which expand outwards; the inclined cold water pipe (6) can correspondingly extend into the extension tank body (12).
3. The in-process steam condensate recovery apparatus of claim 2, wherein: the tail end of the cold water pipe (4) is correspondingly provided with an S-shaped cold water pipe (13) which is continuously arranged, the S-shaped cold water pipe (13) extends outwards and is integrally arranged in the extending tank body (12), and the S-shaped cold water pipes (13) at two sides extend upwards and are connected back to the cold water pool (2).
4. The in-process steam condensate recovery apparatus of claim 2, wherein: the extending tank body (12) is also provided with an air leakage pipe (14); and the air release pipe (14) is correspondingly provided with an air release valve (15), and the air release valve (15) is correspondingly connected with the control device (11).
5. The in-process steam condensate recovery apparatus of claim 1, wherein: the steam inlet (3) is of a cylindrical inlet structure, and the inner diameter of the steam inlet (3) is 10 cm.
6. The in-process steam condensate recovery apparatus of claim 1, wherein: the angle between the two oblique cold water pipes (6) is set to be 30-45 degrees.
7. The in-process steam condensate recovery apparatus of claim 1, wherein: the cold water pipe (4) and the oblique cold water pipe (6) connected with the oblique cold water pipe (6) can be provided with a plurality of cold water pipes (4) and the oblique cold water pipe (6) are arranged side by side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120530332.6U CN214426468U (en) | 2021-03-15 | 2021-03-15 | Steam condensate water recovery unit in production |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120530332.6U CN214426468U (en) | 2021-03-15 | 2021-03-15 | Steam condensate water recovery unit in production |
Publications (1)
Publication Number | Publication Date |
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CN214426468U true CN214426468U (en) | 2021-10-19 |
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Family Applications (1)
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CN202120530332.6U Active CN214426468U (en) | 2021-03-15 | 2021-03-15 | Steam condensate water recovery unit in production |
Country Status (1)
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CN (1) | CN214426468U (en) |
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2021
- 2021-03-15 CN CN202120530332.6U patent/CN214426468U/en active Active
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