CN202484580U - Intelligent multi-channel steam trap - Google Patents
Intelligent multi-channel steam trap Download PDFInfo
- Publication number
- CN202484580U CN202484580U CN2012200220826U CN201220022082U CN202484580U CN 202484580 U CN202484580 U CN 202484580U CN 2012200220826 U CN2012200220826 U CN 2012200220826U CN 201220022082 U CN201220022082 U CN 201220022082U CN 202484580 U CN202484580 U CN 202484580U
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- China
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- channel
- dewatering assembly
- assembly
- passage
- steam trap
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Abstract
An intelligent multi-channel steam trap comprises an inlet pipe, a check valve a, a filter, a flowmeter and a check valve b which are sequentially connected with a shunt through connecting pipes. The shunt is respectively connected with a channel dewatering assembly I, a channel dewatering assembly II, a channel dewatering assembly III and a channel dewatering assembly IV through connecting pipes, the channel dewatering assembly I, the channel dewatering assembly II, the channel dewatering assembly III and the channel dewatering assembly IV are sequentially connected with a check valve c, an electrically operated valve, a steam trap, a check valve, a temperature sensor and a check valve d, and a junction station is finally connected with an outlet pipe. The intelligent multi-channel steam trap is characterized in that an intelligent controller is respectively connected with the flowmeter and the electrically operated valve and the temperature sensor in the channel dewatering assembly I, the channel dewatering assembly II, the channel dewatering assembly III and the channel dewatering assembly IV to feed back signals at any time, and the intelligent controller gives out commands to control switching and work states of the channel dewatering assembly I, the channel dewatering assembly II, the channel dewatering assembly III and the channel dewatering assembly IV. The intelligent multi-channel steam trap has the advantages of saving steam dosage, providing stoppage prompting alarm, automatically switching spare channels, being free of influences of a heat exchange system, reasonably using resources, saving energy and reducing consumption.
Description
Technical field
The utility model relates to the STEAM TRAP field, specifically relates to a kind of intelligent multichannel STEAM TRAP.
Background technique
The steam trap connection of heat exchanger system commonly used is generally all established single drain valve, because it is in the working medium environment of the steam water interface of high temperature, and acts frequently tired rapid wear.Often because after it damages, can't discharge condensed water or steam water interface is discharged together, influence the normal operation of unit or waste energy.Automatic switchover in the time of can't solving load variations in addition, the automatic switchover problem when reaching fault, backup issue, fault prompting problem.
Summary of the invention
In order to solve the defective that existing technology exists, the utility model provides an intelligent automatic steam trap composite set, at first can save steam consumption according to the hydrophobic channel of applied load intelligence adjustment coupling automatically; Secondly standby functions each other can be provided, fault prompting warning function be provided, automatic switchover alternate channel function when fault is provided; The Temporarily Closed fault point, heat-exchange system is unaffected, thereby can accomplish to make rational use of resources; Be convenient to save energy and reduce the cost, help the unit continuous operation.
In order to solve the problems of the technologies described above; The technical solution of the utility model is: a kind of intelligent multichannel STEAM TRAP comprises by inlet duct, service valve a, filter, flowmeter, service valve b successively through connecting leg connection shunt; Shunt is respectively through the hydrophobic assembly I of connecting leg connecting passage, the hydrophobic assembly II of passage, the hydrophobic assembly III of passage, the hydrophobic assembly IV of passage and connect junction station; The hydrophobic assembly I of passage, the hydrophobic assembly II of passage, the hydrophobic assembly III of passage, the hydrophobic assembly IV of passage comprise respectively by connecting leg and connect service valve c, mortor operated valve, STEAM TRAP, safety check, temperature transducer, service valve d successively; Junction station connects outer pipe at last; Intelligent controller respectively with flowmeter, the hydrophobic assembly I of passage, the hydrophobic assembly II of passage, the hydrophobic assembly III of passage, the hydrophobic assembly IV of passage in mortor operated valve, temperature sensor scheme be connected; At any time feedback signal; And send instruction, switching and the working state of the hydrophobic assembly I of control channel, the hydrophobic assembly II of passage, the hydrophobic assembly III of passage, the hydrophobic assembly IV of passage by intelligent controller.
The utility model can adopt wherein any one tunnel of the hydrophobic assembly I of passage~IV four-way, two-way parallel connection arbitrarily, and any three tunnel parallel connections and whole four tunnel parallel connections are carried out hydrophobic.
The utility model working principle is: be equipped with a kind of intelligent multichannel STEAM TRAP that the hydrophobic assembly I~IV of type passage forms by three usefulness one; The STEAM TRAP inlet duct links to each other with the hydrophobic interface of heat transmission equipment; Medium gets in the shunt through inlet duct; Feed back to flux signal in the intelligent controller by flowmeter, instruct through the shunting allotment of intelligent controller to take three hydrophobic assembly operatings of passage wherein, the hydrophobic assembly of one of them passage is in stand-by state; When the flowmeter feedback signal for setting flow 50% when following, intelligent controller instructs and closes the hydrophobic assembly of one of them passage, at this moment two passages are in stand-by state, two passages are in running order.
In normal course of operation, when the temperature signal that receives temperature transducer feedback when intelligent controller is higher than setting value, reflect that promptly the hydrophobic assembly of this passage has fault; In time send instruction, close this road mortor operated valve, and open another equipment simultaneously and use the passage mortor operated valve; Working state is continued; Unaffected, meanwhile the fault buzzer of intelligent controller sends tweeting sound, and the prompting operator on duty is maintenance and handling failure point in time.
The beneficial effect that the utlity model has is: at first can save steam consumption according to the hydrophobic channel of applied load intelligence adjustment coupling automatically; Secondly standby functions each other can be provided, fault prompting warning function be provided, automatic switchover alternate channel function when fault is provided; The Temporarily Closed fault point, heat-exchange system is unaffected, thereby can accomplish to make rational use of resources; Be convenient to save energy and reduce the cost, help the unit continuous operation.
Description of drawings
Fig. 1 is the utility model structural representation.
Reference character shown in Fig. 1 is following: 1, inlet duct, 2, service valve a, 3, filter, 4, flowmeter, 5, service valve b; 6, shunt, 7, intelligent controller, 8, the hydrophobic assembly I of passage, 9, the hydrophobic assembly II of passage, 10, the hydrophobic assembly III of passage; 11, the hydrophobic assembly IV of passage, 12, service valve c, 13, mortor operated valve, 14, STEAM TRAP, 15, safety check; 16, temperature transducer, 17, service valve d, 18, junction station, 19, outer pipe.
Embodiment
Describe in conjunction with 1 pair of present embodiment of accompanying drawing; Present embodiment is to select passage for use hydrophobic assembly I~parallel connection of IV four-way is hydrophobic: STEAM TRAP comprises by inlet duct 1, service valve a2, filter 3, flowmeter 4, service valve b5 and connects shunt 6 through connecting leg successively; Shunt 6 is respectively through the hydrophobic assembly I8 of connecting leg connecting passage, the hydrophobic assembly II9 of passage, the hydrophobic assembly III10 of passage, the hydrophobic assembly IV11 of passage and connect junction station 18; The hydrophobic assembly I8 of passage, the hydrophobic assembly II9 of passage, the hydrophobic assembly III10 of passage, the hydrophobic assembly IV11 of passage comprise respectively by connecting leg and connect service valve c12, mortor operated valve 13, STEAM TRAP 14, safety check 15, temperature transducer 16, service valve d17 successively; The junction station 18 last outer pipes 19 that connect; Intelligent controller 7 respectively with flowmeter 4, the hydrophobic assembly I8 of passage, the hydrophobic assembly II9 of passage, the hydrophobic assembly III10 of passage, the hydrophobic assembly IV11 of passage in mortor operated valve 13, temperature transducer 16 circuits be connected; Send instruction by intelligent controller 7, switching and the working state of the hydrophobic assembly I8 of control channel, the hydrophobic assembly II9 of passage, the hydrophobic assembly III10 of passage, the hydrophobic assembly IV11 of passage.STEAM TRAP inlet duct 1 links to each other with the hydrophobic interface of heat transmission equipment; Medium gets in the shunt 6 through inlet duct 1; Feed back to intelligent controller 7 flux signals by flowmeter 4, through the shunting allotment of intelligent controller 7, three hydrophobic assembly operatings of passage among the hydrophobic assembly I~IV of active channel.
Claims (2)
1. intelligent multichannel STEAM TRAP; Comprise by inlet duct, service valve a, filter, flowmeter, service valve b and connect shunt through connecting leg successively; Shunt is respectively through the hydrophobic assembly I~IV of connecting leg connecting passage and connect junction station; The hydrophobic assembly I~IV of passage comprises respectively by connecting leg and connects service valve c, mortor operated valve, STEAM TRAP, safety check, temperature transducer, service valve d successively; Junction station connects outer pipe at last; It is characterized in that intelligent controller respectively with flowmeter, the hydrophobic assembly I~IV of passage in mortor operated valve, temperature sensor scheme be connected feedback signal at any time, and send switching and the working state of the hydrophobic assembly I~IV of command control passage by intelligent controller; The STEAM TRAP inlet duct links to each other with the hydrophobic interface of heat transmission equipment; Medium gets in the shunt through inlet duct; Feed back to the intelligent controller flux signal by flowmeter, through the shunting allotment of intelligent controller, three hydrophobic assembly operatings of passage among the hydrophobic assembly I~IV of active channel.
2. a kind of intelligent multichannel STEAM TRAP according to claim 1 is characterized in that STEAM TRAP can adopt wherein any one tunnel of the hydrophobic assembly I of passage~IV four-way, two-way parallel connection arbitrarily, and any three tunnel parallel connections and whole four tunnel parallel connections are carried out hydrophobic.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200220826U CN202484580U (en) | 2012-01-18 | 2012-01-18 | Intelligent multi-channel steam trap |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200220826U CN202484580U (en) | 2012-01-18 | 2012-01-18 | Intelligent multi-channel steam trap |
Publications (1)
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CN202484580U true CN202484580U (en) | 2012-10-10 |
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CN2012200220826U Expired - Fee Related CN202484580U (en) | 2012-01-18 | 2012-01-18 | Intelligent multi-channel steam trap |
Country Status (1)
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105605249A (en) * | 2015-10-14 | 2016-05-25 | 周玲 | Media distributing system, media collecting system and media distributing and collecting system |
CN114534297A (en) * | 2022-04-24 | 2022-05-27 | 山东彩客东奥化学有限公司 | Automatic change steam condensate water recycle device |
-
2012
- 2012-01-18 CN CN2012200220826U patent/CN202484580U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105605249A (en) * | 2015-10-14 | 2016-05-25 | 周玲 | Media distributing system, media collecting system and media distributing and collecting system |
CN114534297A (en) * | 2022-04-24 | 2022-05-27 | 山东彩客东奥化学有限公司 | Automatic change steam condensate water recycle device |
CN114534297B (en) * | 2022-04-24 | 2022-07-15 | 山东彩客东奥化学有限公司 | Automatic change steam condensate water recycle device |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
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: 20121010 Termination date: 20150118 |
|
EXPY | Termination of patent right or utility model |