CN204778831U - Argon gas desicator - Google Patents
Argon gas desicator Download PDFInfo
- Publication number
- CN204778831U CN204778831U CN201520391894.1U CN201520391894U CN204778831U CN 204778831 U CN204778831 U CN 204778831U CN 201520391894 U CN201520391894 U CN 201520391894U CN 204778831 U CN204778831 U CN 204778831U
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- Prior art keywords
- valve
- adsorption tower
- argon gas
- connects
- moisture eliminator
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Separation Of Gases By Adsorption (AREA)
- Drying Of Gases (AREA)
Abstract
The utility model discloses an argon gas desicator, this argon gas desicator include 12 valves, and cooler, forced draught blower, air heater and heater are each one, and the controller with pipe connection for the equipment, makes up into one wholly. This argon gas desicator utilizes the drier of air heater extraction atmosphere in heater heating adsorption tower, then closes regeneration gas outlet valve, and the gaseous back switching work that the adsorption tower was displaced to a small amount of argon gas before will switching work, is only poured into into in hot adsorption tower natural cooling (48 hours). So only need to consume the argon gas of little volumes, reach energy -conserving purpose.
Description
Technical field
The utility model relates to a kind of energy-saving argon gas moisture eliminator.
Background technology
Some production units manufacturing battery industries need dry argon gas as shielding gas, and general moisture eliminator regeneration needs to consume certain finished product gas, and common moisture eliminator is not too applicable, and high purity argon generally to go up cost higher.
Utility model content
The utility model, for overcoming the defect described in above-mentioned prior art, provides a kind of energy-saving argon gas moisture eliminator, and this argon gas moisture eliminator in use can be tried one's best and do not consumed or only consume a small amount of argon gas.
For solving the problems of the technologies described above, the technical solution of the utility model is as follows:
A kind of argon gas moisture eliminator, comprises fan, water cooler, adsorption tower A, adsorption tower B, well heater, calorifier and the first valve to the 12 valve;
The blast inlet of described fan is argon gas import, and the air outlet of fan connects water cooler, and water cooler connects the lower port of adsorption tower A by the 5th valve, and water cooler connects the lower port of adsorption tower B by the 7th valve; The lower port of adsorption tower A connects resurgent gases relief outlet by the 6th valve of serial connection, the tenth valve, the lower port of adsorption tower B connects resurgent gases relief outlet by the 8th valve of serial connection, the tenth valve, connects argon gas import between the 8th valve and the tenth valve by the 9th valve;
The upper port of adsorption tower A meets adsorption tower B by the second valve of serial connection and the 4th valve, the upper port of adsorption tower A also meets adsorption tower B by the first valve of serial connection and the 3rd valve, the upper port of adsorption tower A also connects argon gas import by the 11 valve, and the upper port of adsorption tower B also connects argon gas import by the 12 valve;
Be connected to argon gas air outlet between second valve and the 4th valve, between the first valve and the 3rd valve, be connected to calorifier by well heater.
Preferably, described water cooler is provided with cooling water inlet and cooling water outlet, and cooling water inlet and cooling water outlet are opened in the relative both sides of water cooler respectively.When mounted, cooling water inlet is positioned at top, and cooling water outlet is positioned at below.
Preferably, described adsorption tower A and adsorption tower B lower end are equiped with the first thermometer and the second thermometer respectively.Temperature in the monitoring adsorption tower A real-time by thermometer and adsorption tower B tower, reaches and monitors more accurately.
The more temperature of installing to make thermometer, adsorption tower A and adsorption tower B shell are welded with the temperature joint of installation first thermometer and the second thermometer respectively.
Preferably, described argon gas moisture eliminator also comprises controller, the input terminus of the output termination controller of described first thermometer and the second thermometer, the output port of described controller connect respectively the first valve, the second valve ..., the 12 valve.Thermometer monitor adsorption tower temperature reach preset value time, controller controls corresponding valve and carries out opening and closing, realizes controlling accurately, and then reaches energy-conservation effect.
For the ease of observing the real-time condition of working process, described argon gas moisture eliminator is provided with and is connected indicating meter with controller.
Compared with prior art, the beneficial effect of technical solutions of the utility model is: argon gas moisture eliminator is provided with 12 valves, is separately provided with each one of water cooler, fan, calorifier and well heater, controller, backup line will be established to connect, combine in aggregates.This argon gas moisture eliminator utilizes the siccative in calorifier extraction air heater via heating adsorption tower, then resurgent gases outlet valve is closed, the adsorption tower naturally cooling (48 hours) of heat, before wanting switch operating, only injects switch operating after the gas of a small amount of argon replaces adsorption tower.So only need the argon gas of the seldom amount that consumes, reach energy-conservation object.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Embodiment
Below in conjunction with drawings and Examples, the technical solution of the utility model is described further.
In figure, 1-fan, 2 water coolers, 3-adsorption tower A, 4-adsorption tower B, 5-well heater, 6-calorifier, 7-thermometer, the import of 8-argon gas, 9-argon gas export, 10-cooling water inlet, 11-cooling water outlet, 12-resurgent gases relief outlet, V1 to V12-first valve are to the 12 valve.
A kind of argon gas moisture eliminator, comprises fan, water cooler, adsorption tower A, adsorption tower B, well heater, calorifier and the first valve to the 12 valve;
The blast inlet of described fan is argon gas import, and the air outlet of fan connects water cooler, and water cooler connects the lower port of adsorption tower A by the 5th valve, and water cooler connects the lower port of adsorption tower B by the 7th valve; The lower port of adsorption tower A connects resurgent gases relief outlet by the 6th valve of serial connection, the tenth valve, the lower port of adsorption tower B connects resurgent gases relief outlet by the 8th valve of serial connection, the tenth valve, connects argon gas import between the 8th valve and the tenth valve by the 9th valve;
The upper port of adsorption tower A meets adsorption tower B by the second valve of serial connection and the 4th valve, the upper port of adsorption tower A also meets adsorption tower B by the first valve of serial connection and the 3rd valve, the upper port of adsorption tower A also connects argon gas import by the 11 valve, and the upper port of adsorption tower B also connects argon gas import by the 12 valve;
Be connected to argon gas air outlet between second valve and the 4th valve, between the first valve and the 3rd valve, be connected to calorifier by well heater.
In the present embodiment, described water cooler is provided with cooling water inlet and cooling water outlet, and cooling water inlet and cooling water outlet are opened in the relative both sides of water cooler respectively.When mounted, cooling water inlet is positioned at top, and cooling water outlet is positioned at below.That installs to make thermometer is more firm, and the lower end of adsorption tower A and adsorption tower B shell is welded with temperature joint, for being equiped with the first thermometer and the second thermometer.Temperature in the monitoring adsorption tower A real-time by thermometer and adsorption tower B tower, reaches and monitors more accurately.
Argon gas moisture eliminator also comprises controller, the input terminus of the output termination controller of described first thermometer and the second thermometer, the output port of described controller connect respectively the first valve, the second valve ..., the 12 valve and fan, water cooler, well heater, calorifier.In implementation and operation process, when thermometer monitor adsorption tower temperature reach preset value time, the opening and closing of the valve that controller control is corresponding and fan, water cooler, well heater, calorifier etc. carry out working order, realize controlling accurately, and then reach energy-conservation effect.
For the ease of observing the real-time condition of working process, described argon gas moisture eliminator is provided with indicating meter, and this indicating meter is connected with controller, and in the present embodiment, controller is PLC.
Above-mentioned argon gas moisture eliminator utilizes calorifier to extract the siccative of air heater via thermal regeneration tower, then resurgent gases outlet valve is closed, the regenerator column naturally cooling (48 hours) of heat, before wanting switch operating, only injects switch operating after the gas of a small amount of argon replaces regenerator column.So only need the argon gas of the seldom amount that consumes, reach certain energy-conservation object.
The use flow process of argon gas moisture eliminator is as follows:
(1), adsorption tower A works, adsorption tower B hot recycling:
Deliver to water cooler from glove box argon gas out through fan, then after water cooler cooling, then enter adsorption tower A via the 5th valve and adsorb, send back in glove box by the second valve.Calorifier enters adsorption tower B from the 3rd valve and carries out hot recycling after extracting the heating of air heater via, after discharge from the 8th valve and the tenth valve.
(2), adsorption tower A works, adsorption tower B cooling stages:
Adsorption tower B, after certain hour heating, when the temperature in tower reaches 250 DEG C, stops calorifier and A Bi the 3rd valve, the 8th valve and the tenth valve, naturally cooling in the warm air allowing in adsorption tower B.Before waiting switching, open the 9th valve and the 12 valve, inject some argon gas to adsorption tower B, displace the air in adsorption tower B, then close the 9th valve and the 12 valve, wait until the lower half phase.
(3), adsorption tower B works, adsorption tower A hot recycling:
Deliver to water cooler from glove box argon gas out through fan, after water cooler cooling, then enter adsorption tower B via the 7th valve and adsorb, send back in glove box by the 4th valve.Calorifier enters adsorption tower A from the first valve and carries out hot recycling after extracting the heating of air heater via, after discharge from serial connection the 6th valve and the tenth valve.
(4), adsorption tower B works, adsorption tower A cooling stages:
Adsorption tower A, after certain hour heating, when the temperature in tower reaches 250 DEG C, stops calorifier and closes the first valve, the 6th valve and the tenth valve, naturally cooling in the warm air allowing in adsorption tower A.Before waiting switching, open the 9th valve and the 11 valve injects some argon gas to adsorption tower A, displace the air in adsorption tower A, then close the 9th valve and the 11 valve, wait until the lower half phase.
The corresponding same or analogous parts of same or analogous label;
Describe in accompanying drawing position relationship for only for exemplary illustration, the restriction to this patent can not be interpreted as;
Obviously, above-described embodiment of the present utility model is only for the utility model example is clearly described, and is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.All do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., within the protection domain that all should be included in the utility model claim.
Claims (6)
1. an argon gas moisture eliminator, is characterized in that, comprises fan, water cooler, adsorption tower A, adsorption tower B, well heater, calorifier and the first valve to the 12 valve;
The blast inlet of described fan is argon gas import, and the air outlet of fan connects water cooler, and water cooler connects the lower port of adsorption tower A by the 5th valve, and water cooler connects the lower port of adsorption tower B by the 7th valve; The lower port of adsorption tower A connects resurgent gases relief outlet by the 6th valve of serial connection, the tenth valve, the lower port of adsorption tower B connects resurgent gases relief outlet by the 8th valve of serial connection, the tenth valve, connects argon gas import between the 8th valve and the tenth valve by the 9th valve;
The upper port of adsorption tower A meets adsorption tower B by the second valve of serial connection and the 4th valve, the upper port of adsorption tower A also meets adsorption tower B by the first valve of serial connection and the 3rd valve, the upper port of adsorption tower A also connects argon gas import by the 11 valve, and the upper port of adsorption tower B also connects argon gas import by the 12 valve;
Be connected to argon gas air outlet between second valve and the 4th valve, between the first valve and the 3rd valve, be connected to calorifier by well heater.
2. argon gas moisture eliminator according to claim 1, is characterized in that, described water cooler is provided with cooling water inlet and cooling water outlet, and cooling water inlet and cooling water outlet are opened in the relative both sides of water cooler respectively.
3. argon gas moisture eliminator according to claim 2, is characterized in that, described adsorption tower A and adsorption tower B lower end are equiped with the first thermometer and the second thermometer respectively.
4. argon gas moisture eliminator according to claim 3, is characterized in that, adsorption tower A and adsorption tower B shell is welded with respectively the temperature joint of installation first thermometer and the second thermometer.
5. argon gas moisture eliminator according to claim 4, it is characterized in that, described argon gas moisture eliminator also comprises controller, the input terminus of the output termination controller of described first thermometer and the second thermometer, the output port of described controller connect respectively the first valve, the second valve ..., the 12 valve.
6. argon gas moisture eliminator according to claim 5, is characterized in that, described argon gas moisture eliminator is provided with and is connected indicating meter with controller.
Priority Applications (1)
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CN201520391894.1U CN204778831U (en) | 2015-06-09 | 2015-06-09 | Argon gas desicator |
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CN201520391894.1U CN204778831U (en) | 2015-06-09 | 2015-06-09 | Argon gas desicator |
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CN201520391894.1U Expired - Fee Related CN204778831U (en) | 2015-06-09 | 2015-06-09 | Argon gas desicator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116177504A (en) * | 2021-11-28 | 2023-05-30 | 石兴平 | Substitution method of purification system of argon recovery device |
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2015
- 2015-06-09 CN CN201520391894.1U patent/CN204778831U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116177504A (en) * | 2021-11-28 | 2023-05-30 | 石兴平 | Substitution method of purification system of argon recovery device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
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: 20151118 Termination date: 20200609 |