CN203892862U - Device for storing and transporting liquid - Google Patents
Device for storing and transporting liquid Download PDFInfo
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- CN203892862U CN203892862U CN201320861079.8U CN201320861079U CN203892862U CN 203892862 U CN203892862 U CN 203892862U CN 201320861079 U CN201320861079 U CN 201320861079U CN 203892862 U CN203892862 U CN 203892862U
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Abstract
The utility model provides a device for storing and transporting liquid. The device for storing and transporting the liquid comprises a first vessel, a second vessel and a refrigerant releasing vessel, wherein the first vessel is used for storing liquid, and the second vessel is used for storing refrigerant; the first vessel is provided with a first inlet and a first outlet; the second vessel is provided with a second inlet and a second outlet; the first vessel is maintained in the second vessel; the refrigerant releasing vessel is arranged outside the second vessel and used for recycling the refrigerant released from the second vessel; the refrigerant releasing vessel is communicated with the second vessel through a compression pump, and the compression pump has a pressure sensing function and a self-controlling function. By adopting the device for storing and transporting the liquid, tetrafluoroethylene possibly can be transported and stored for a long time, thus bringing convenience for the search and production of tetrafluoroethylene subsequent products.
Description
Technical field
The utility model relates to liquid storage and transport field, refers to especially a kind of for storing and transport the equipment of tetrafluoroethylene.
Background technique
Tetrafluoroethylene, chemical product English name: tetrafluoroethylene, Chinese 2: perfluoroethylene English name 2:TFE, technical specification coding: 77, CASNo.:116-14-3, molecular formula: C2F4 molecular weight: 100.02, fusing point :-142.5 ℃, boiling point :-78.4 ℃, critical temperature: 33.3 ℃, critical pressure: 3.85Mpa, critical density: 572kg/m3, vapor tension in the time of 25 ℃: 3.19Mpa, vapor density: 572kg/m3; Higher than 200 ℃, start pyrolysis.Heat decomposites the toxic gases such as HF.
Airborne explosion limit increases and broadens with pressure, is 11%~46% during 1.0-1.5Mpa.When aerobic exists, easily form unstable explosive superoxide.
TFE chemical property is very active, hydrogenation, hydrohalogenation, amination, nitrated, sulfonation and multiple sulfo group substitution reaction can occur, can be oxidized, peroxidization, copolymerization own can generate dimerization, cyclodimerization body, long-chain polymerization generates teflon, polymerization reaction heat 172kJ/mol; During polymerization easily there is disproportionated reaction in local superheating, the possibility of blasting.Because polymerizing condition is wide in range, there is the possibility very big (under micro amount of oxygen exists, tetrafluoroethylene forms superoxide, and causes spontaneous polymerization) of autohemagglutination; During autohemagglutination, because reaction heat is larger, can not remove in time reaction heat, blast.Need and add under the condition of stabilizer (terpenes or tri-n-butylamine) and store at low temperature, isolated air for this reason.Initator during polymerization can be oxygen, superoxide or variable valency metal oxide; Water can accelerate initiation.
Due to the chemical characteristics of tetrafluoroethylene, under prior art condition, generally do not carry out the storage of long period, more dare not transport; Be all with producing with use, enter next process, tetrafluoroethylene is transformed into other safer material, as hexafluoropropene, teflon etc. at once.
Therefore, do not have in the market tetrafluoroethylene industrial products to sell.
Before, people have solved the explosive issue of TFE in transportation process by HCl being added in the pressurized container of contain TFE.This mixture forms azeotrope, and when TFE evaporates, HCl is also with similar same ratio evaporation like this.When the method has solved this problem of TFE explosion risk, but introduced the problem of other two aspects: when TFE will be for polymerization, must remove a large amount of HCl that TFE exists, and the toxicity problem of taking notice of HCl in outward leakage event.
About memory device, on many parts of patents in the past and periodicals and magazines, all there is detailed introduction, at this, do not enumerate, but these common memory devices can not be for storing tetrafluoroethylene.Application number is
201210169891.4 application documents disclose a kind of low-temperature storage tank, this storage tank can be used in store liquid oxygen,
The cryogenic gas such as liquid nitrogen, liquid argon, but can not be for storing tetrafluoroethylene.Reason is as follows: when tank temperature rises, can cause the increased pressure in storage tank, when being increased to CLV ceiling limit value, must take measures, make the pressure in tank return to safety value, just as the utility model, by gasified refrigerant, temperature is declined, thereby make pressure drop.Liquid oxygen, liquid nitrogen, liquid argon etc. belong to non-toxic gas, itself are exactly refrigeration agent during liquid, need only emptying when pressure raises to atmosphere, and pressure will return to safety value.But the poisonous and harmful hazardous gas of picture tetrafluoroethylene and so on, can not be vented to atmosphere.
Model utility content
The utility model proposes a kind ofly for storing the equipment with transport liquid, solved and cannot store and transport the problem of tetrafluoroethylene in prior art.
The technical solution of the utility model is achieved in that
For an equipment for storage of liquids, comprise the first container for storing liquid, for storing second container and the refrigeration agent of refrigeration agent, discharge container;
Wherein said the first container has the first import and the first outlet;
Wherein said second container has the second import and the second outlet;
Wherein said the first container remains in described second container;
Wherein said refrigeration agent discharges the outside that container is arranged on described second container, in order to reclaim the refrigeration agent discharging in described second container;
Wherein said refrigeration agent discharges container and is communicated with described second container by compressor pump, described compressor pump band pressure sensing and automatic control; Refrigeration agent in second container is discharged into refrigeration agent and discharges container, and compressor pump vacuumizes, and refrigerants vaporize makes the temperature of the first container and second container be reduced to refrigeration agent temperature control scope and keep this temperature.
For storing the equipment with transport liquid, comprise haulage device and for store liquid the first container, for storing second container and the refrigeration agent of refrigeration agent, discharge container;
Wherein said the first container has the first import and the first outlet;
Wherein said second container has the second import and the second outlet;
Wherein said the first container remains in described second container;
Wherein said refrigeration agent discharges the outside that container is arranged on described second container, in order to reclaim the refrigeration agent discharging in described second container;
Wherein said refrigeration agent discharges container and is communicated with described second container by compressor pump, described compressor pump band pressure sensing and automatic control; Refrigeration agent in second container is discharged into refrigeration agent and discharges container, and compressor pump vacuumizes, and refrigerants vaporize makes the temperature of the first container and second container be reduced to refrigeration agent temperature control scope and keep this temperature.
As preferred technological scheme, on described the first container, be provided with to control the temperature conditioning unit of described storage of liquids temperature.
As preferred technological scheme, described the first import and the first outlet are respectively equipped with valve.
As preferred technological scheme, described the second import is provided with valve, and described compressor pump is communicated with described the second import, and is provided with the first internally piloted valve.
As preferred technological scheme, described the second outlet is provided with valve and the second internally piloted valve, and described the second outlet discharges container by pipeline and described refrigeration agent and is communicated with, and approaches refrigeration agent release container end and is provided with valve.
As preferred technological scheme, the outside insulation material parcel of the described equipment for storage of liquids.
As preferred technological scheme, described thermal insulating material is polyurethane foam.
As preferred technological scheme, the bottom of described the first container contacts with described second container by elastic support member.
As preferred technological scheme, described refrigeration agent discharges on container and is provided with exhausting pipeline, on described exhausting pipeline, is provided with valve.
As preferred technological scheme, described the first container, second container and refrigeration agent discharge container and are provided with pressure gauge.
A kind of for storing storage and the transportation that is applied to tetrafluoroethylene with the equipment of transport liquid.
A method of using the device storage liquid of above-mentioned storage of liquids, comprising:
Vacuumize second container, nitrogen purge and refrigeration agent clean;
Dry the first container, then vacuumize, nitrogen purge and storage liquid clean; Make first container oxygen content≤20PPm, moisture content≤5PPm, undesirable cleaning again;
Refrigeration agent is added in second container;
Open the valve of the second outlet, refrigeration agent is put into refrigeration agent and discharge container, refrigerants vaporize makes the temperature of the first container and second container be reduced to refrigeration agent temperature control scope and keeps this temperature; Afterwards toward the liquid that adds needs storage in the first container; When the temperature of the liquid of the first container storage rises to predetermined temperature CLV ceiling limit value (different refrigerant temperature control scopes is different), the second internally piloted valve is opened automatically, refrigerant is vaporized in refrigeration agent discharges container, makes the temperature of the first container and second container be reduced to safety value; When refrigeration agent discharges, gas pressure in container rises to 0.1MPa or when higher, compressor pump is opened, the first internally piloted valve is opened, and the gas compression that refrigeration agent is discharged in container comes back to second container to liquid state.
Beneficial effect
(1) the utility model, owing to discharging between container and second container and being communicated with the compressor pump with pressure sensing and automatic control at refrigeration agent, can be adjusted the temperature and pressure in container by gasified refrigerant in time, has guaranteed the Security of tetrafluoroethylene storage and transportation.
(2) the utility model equipment makes the transportation of tetrafluoroethylene and long period storage become possibility, for researching and developing and produce tetrafluoroethylene subsequent product, provides convenience.
(3) the utility model device structure is simple, and element is few, easy to manufacture, easy to operate.
Accompanying drawing explanation
In order to be illustrated more clearly in the utility model embodiment or technological scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
Fig. 1 is the structural representation of a kind of equipment for storage of liquids of the utility model.
Picture in picture mark:
10-the first container, 20-second container, 30-refrigeration agent discharge container, 101-the first import, 102-the first outlet, 201-the second import, 202-the second outlet, 40-compressor pump, 401-the first internally piloted valve, 203-the second internally piloted valve, 50-temperature conditioning unit, 60-elastic support member, 301-exhausting pipeline.
Embodiment
Below the technological scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiments.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment who obtains under creative work prerequisite, all belong to the scope of the utility model protection.
The purposes of tetrafluoroethylene is very large, take tetrafluoroethylene as the developable subsequent product of raw material a lot.But due to can not accumulating, greatly dangerous, make subsequent product exploitation be subject to great restriction; Even each universities and colleges, R&D institution all dare not make a service test and product development with tetrafluoroethylene.
Therefore the utility model provides a kind of equipment that can store and transport tetrafluoroethylene based on an above-mentioned difficult problem.
Embodiment 1
Shown in Figure 1, for the equipment of storage of liquids, comprise the first container 10 for storing liquid, for storing second container 20 and the refrigeration agent of refrigeration agent, discharge container 30.Wherein the first container has the first import 101 and the first outlet 102.And be respectively arranged with the valve of controlling liquid turnover, easy-to-operat in the first import 101 and the first outlet 102.Second container 20 has the second import 201 and the second outlet 202.Wherein the first container 10 remains in second container 20, and first top of container 10 and the top of second container are almost in the same horizontal line.Wherein refrigeration agent discharges the outside that container 30 is arranged on second container 20, and in order to reclaim the refrigeration agent discharging in second container 20, refrigeration agent can be selected R22, R410a, R404a, liquid nitrogen, liquid CO 2, liquefied ammonia etc.Refrigeration agent discharges container 30 and is communicated with second container 20 by compressor pump 40, compressor pump 40 band pressure sensing and automatic controls.Refrigeration agent in second container 20 is discharged into refrigeration agent and discharges container 30, and compressor pump 40 vacuumizes, and refrigerants vaporize is reduced to the temperature of the first container 10 and second container 20 and refrigeration agent temperature control scope and keep this temperature.For example temperature is reduced to-60 ℃~-25 ℃ (different refrigerant temperature control scopes is different).The second import 201 is provided with valve, and compressor pump 40 is communicated with the second import 201, and is provided with the first internally piloted valve 401.The second outlet 202 is provided with valve and the second internally piloted valve 203, the second outlets 202 are communicated with by pipeline and refrigeration agent release container 30, approaches refrigeration agent release container 30 ends and be provided with valve.In the present embodiment, also at the first container 10, second container 20 and refrigeration agent, discharge on container 30 and be provided with pressure gauge (not marking in figure).
In order to control the temperature of tetrafluoroethylene in the first container 10, on the first container 10, be provided with the temperature conditioning unit 50 in order to control store fluid temperature.
For rocking of anti-vibration and minimizing the first container 10, the bottom of the first container 10 contacts with second container 20 by elastic support member 60.Wherein elastic support member 60 is resilient support block.Also can adopt the habitual saddle support in related domain, the patent documentation that is 201210169891.4 referring to application number herein.In the bottom of second container 20, also resilient support block can be set simultaneously.
For the refrigeration agent after vaporization is emptying, at refrigeration agent, discharge on container 30 and be provided with exhausting pipeline 301, on exhausting pipeline 301, be provided with valve.
The outside insulation material parcel of the equipment of the storage of liquids of above-mentioned introduction.Preferred thermal insulating material is polyurethane foam.
The said equipment can be made into vertical, also can be made into bedroom.
The said equipment is mainly used in storage and the transportation of tetrafluoroethylene, solves a difficult problem for prior art.
The equipment of above-mentioned storage of liquids is placed in haulage device, can transports safely.
The method of using the device storage liquid of above-mentioned storage of liquids, comprising:
Step S1: vacuumize second container 20, nitrogen purge and refrigeration agent clean and (adopt what refrigerant, just with what refrigerant gas clean.R22 for example, R410a, R404a, liquid nitrogen, liquid CO 2, liquefied ammonia etc.) clean; (in order to guarantee the purity of refrigerant);
Step S2: dry the first container 10 by heated drying air, then vacuumize, nitrogen purge and storage liquid clean; The oxygen content (requirement≤20PPm) of gas in analyzer pot; Analysis moisture content (requirement≤5PPm), cleans once when defective again; (in order to guarantee the purity of TFE)
Step S3: refrigeration agent is added in second container 20;
Step S4: open the valve of the second outlet 202, refrigeration agent is put into refrigeration agent and discharge container 30, refrigerants vaporize makes the temperature of the first container 10 and second container 20 be reduced to-60 ℃~-25 ℃ (different refrigerant temperature control scopes is different).Then pour into TFE; When the temperature of TFE rise to-45 ℃~when more than-25 ℃ (different refrigerant temperature control scopes is different), the second internally piloted valve 203 is opened automatically, refrigerant discharges the interior vaporization of container 30 at refrigeration agent, makes the temperature of the first container 10 and second container 20 be reduced to safety value; When refrigeration agent discharges, gas pressure in container 30 rises to 0.1MPa or when higher, compressor pump 40 is opened, the first internally piloted valve 401 is opened, and the gas compression that refrigeration agent is discharged in container 30 comes back to second container 20 to liquid state.
It is more than operation during filling material for the first time.During normal use, TFE is not used up, stay a bit, making has material in the first container 10 all the time, then by valve, supplements.Supplementing of refrigerant is also like this.
Open the valve of the first outlet 101, exportable TFE; Open the valve of the first import 101, can pour into TFE.
The valve of opening the second import 201 can pour into refrigerant;
The valve of opening exhausting pipeline 301 can be emptying the refrigerant after vaporization.
Concrete application examples is described in detail in detail: the equipment of use is the equipment in embodiment 1 below.
Application examples 1:
Employing liquid nitrogen is refrigerant, pours into liquid nitrogen 20L in second container 20; In the first container 10, pour into TFE liquid 1.5L;
Control storage temperature≤-60 ℃; Closes compression pump 40, manually control the switching of the valve of exhausting pipeline 301: when pressure rises to 0.15MPa in refrigeration agent release container 30, open the valve of exhausting pipeline 301, make refrigeration agent discharge Pressure Drop in container 30 and, to 0.1MPa, then close the valve of exhausting pipeline 301.
Static storage 96 hours, the interior TFE of the first container 10 can normally emit 1.490L.
On simulated automotive Transport Vibration test stand, with vibration frequency 300rpm, amplitude range 25.4mm, rotary type (Gyration), vibrate, be equivalent to simulate speed of a motor vehicle 40km/h and carry out Transport Vibration test 4 hours, the interior TFE of the first container 10 can normally emit 1.490L.
Application examples 2:
Employing liquefied ammonia is refrigerant, pours into liquefied ammonia 30L in second container 20; In the first container 10, pour into TFE liquid 3L;
Control storage temperature≤-25 ℃; When in refrigeration agent release container 30, pressure rises to 0.15MPa, compressor pump 40 is opened automatically, and when in refrigeration agent release container 30, Pressure Drop is to 0.03MPa, compressor pump 40 stops automatically.
Static storage 96 hours, the interior TFE of the first container 10 can normally emit 2.98L.
On simulated automotive Transport Vibration test stand, with vibration frequency 300rpm, amplitude range 25.4mm, rotary type (Gyration), vibrate, be equivalent to simulate speed of a motor vehicle 40km/h and carry out Transport Vibration test 4 hours, the interior TFE of the first container 10 can normally emit 2.98L.
Application examples 3:
Employing R22 is refrigerant, pours into R22 liquid 30L in second container 20; In the first container 10, pour into TFE liquid 1.5L;
Control storage temperature≤-35 ℃; When in refrigeration agent release container 30, pressure rises to 0.15MPa, compressor pump 40 is opened automatically, and when in refrigeration agent release container 30, Pressure Drop is to 0.03MPa, compressor pump 40 stops automatically.
Static storage 96 hours, the interior TFE of the first container 10 can normally emit 1.49L.
On simulated automotive Transport Vibration test stand, with vibration frequency 300rpm, amplitude range 25.4mm, rotary type (Gyration), vibrate, be equivalent to simulate speed of a motor vehicle 40km/h and carry out Transport Vibration test 4 hours, the interior TFE of the first container 10 can normally emit 1.49L.
Application examples 4:
Employing liquid CO 2 is refrigerant, pours into CO2 liquid 50L in second container 20; In the first container 10, pour into TFE liquid 5.5L;
Control storage temperature≤-48 ℃; Closes compression pump 40, manually control the switching of the valve of exhausting pipeline 301: when pressure rises to 0.15MPa in refrigeration agent release container 30, open the valve of exhausting pipeline 301, make refrigeration agent discharge Pressure Drop in container 30 and, to 0.1MPa, then close the valve of exhausting pipeline 301.
Static storage 96 hours, the interior TFE of the first container 10 can normally emit 5.49L.
On simulated automotive Transport Vibration test stand, with vibration frequency 300rpm, amplitude range 25.4mm, rotary type (Gyration), vibrate, be equivalent to simulate speed of a motor vehicle 40km/h and carry out Transport Vibration test 4 hours, the interior TFE of the first container 10 can normally emit 5.49L.
Application examples 5:
Employing R410a is refrigerant, pours into R410a liquid 30L in second container 20; In the first container 10, pour into TFE liquid 1.5L;
Control storage temperature≤-42 ℃; When in refrigeration agent release container 30, pressure rises to 0.15MPa, compressor pump 40 is opened automatically, and when in refrigeration agent release container 30, Pressure Drop is to 0.03MPa, compressor pump 40 stops automatically.
Static storage 96 hours, the interior TFE of the first container 10 can normally emit 1.487L.
On simulated automotive Transport Vibration test stand, with vibration frequency 300rpm, amplitude range 25.4mm, rotary type (Gyration), vibrate, be equivalent to simulate speed of a motor vehicle 40km/h and carry out Transport Vibration test 4 hours, the interior TFE of the first container 10 can normally emit 1.486L.
These are only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.
Claims (16)
1. for an equipment for storage of liquids, it is characterized in that comprising the first container for storing liquid, for storing second container and the refrigeration agent of refrigeration agent, discharge container;
Wherein said the first container has the first import and the first outlet;
Wherein said second container has the second import and the second outlet;
Wherein said the first container remains in described second container;
Wherein said refrigeration agent discharges the outside that container is arranged on described second container, in order to reclaim the refrigeration agent discharging in described second container;
Wherein said refrigeration agent discharges container and is communicated with described second container by compressor pump, described compressor pump band pressure sensing and automatic control; Refrigeration agent in second container is discharged into refrigeration agent and discharges container, and compressor pump vacuumizes, and refrigerants vaporize makes the temperature of the first container and second container be reduced to refrigeration agent temperature control scope and keep this temperature.
2. a kind of equipment for storage of liquids according to claim 1, is characterized in that, is provided with to control the temperature conditioning unit of described storage of liquids temperature on described the first container.
3. a kind of equipment for storage of liquids according to claim 1, is characterized in that, described the second import is provided with valve, and described compressor pump is communicated with described the second import, and is provided with the first internally piloted valve;
Described the second outlet is provided with valve and the second internally piloted valve, and described the second outlet discharges container by pipeline and described refrigeration agent and is communicated with, and approaches refrigeration agent release container end and is provided with valve.
4. a kind of equipment for storage of liquids according to claim 1, is characterized in that, the bottom of described the first container contacts with described second container by elastic support member.
5. a kind of equipment for storage of liquids according to claim 1, is characterized in that, described refrigeration agent discharges on container and is provided with exhausting pipeline, on described exhausting pipeline, is provided with valve.
6. a kind of equipment for storage of liquids according to claim 1, is characterized in that, described the first container, second container and refrigeration agent discharge container and be provided with pressure gauge.
7. a kind of equipment for storage of liquids according to claim 1, is characterized in that, the outside insulation material parcel of the described equipment for storage of liquids.
8. a kind of equipment for storage of liquids according to claim 1, is characterized in that, described storage of liquids is tetrafluoroethylene.
9. for storing the equipment with transport liquid, it is characterized in that comprising haulage device and for store liquid the first container, for storing second container and the refrigeration agent of refrigeration agent, discharge container;
Wherein said the first container has the first import and the first outlet;
Wherein said second container has the second import and the second outlet;
Wherein said the first container remains in described second container;
Wherein said refrigeration agent discharges the outside that container is arranged on described second container, in order to reclaim the refrigeration agent discharging in described second container;
Wherein said refrigeration agent discharges container and is communicated with described second container by compressor pump, described compressor pump band pressure sensing and automatic control; Refrigeration agent in second container is discharged into refrigeration agent and discharges container, and compressor pump vacuumizes, and refrigerants vaporize makes the temperature of the first container and second container be reduced to refrigeration agent temperature control scope and keep this temperature.
10. according to claim 9 a kind ofly it is characterized in that for storing the equipment with transport liquid, on described the first container, be provided with to control the temperature conditioning unit of described storage of liquids temperature.
11. according to claim 9 a kind ofly it is characterized in that for storing the equipment with transport liquid, described the second import is provided with valve, and described compressor pump is communicated with described the second import, and is provided with the first internally piloted valve;
Described the second outlet is provided with valve and the second internally piloted valve, and described the second outlet discharges container by pipeline and described refrigeration agent and is communicated with, and approaches refrigeration agent release container end and is provided with valve.
12. according to claim 9 a kind ofly it is characterized in that for storing the equipment with transport liquid, the bottom of described the first container contacts with described second container by elastic support member.
13. according to claim 9 a kind ofly it is characterized in that for storing the equipment with transport liquid, described refrigeration agent discharges on container and is provided with exhausting pipeline, on described exhausting pipeline, is provided with valve.
14. according to claim 9 a kind ofly it is characterized in that for storing the equipment with transport liquid, described the first container, second container and refrigeration agent discharge container and are provided with pressure gauge.
15. according to claim 9 a kind ofly it is characterized in that for storing the equipment with transport liquid, the outside insulation material parcel of the described equipment for storage of liquids.
16. according to claim 9 a kind ofly it is characterized in that for storing the equipment with transport liquid, described storage of liquids is tetrafluoroethylene.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320861079.8U CN203892862U (en) | 2013-12-24 | 2013-12-24 | Device for storing and transporting liquid |
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CN201320861079.8U CN203892862U (en) | 2013-12-24 | 2013-12-24 | Device for storing and transporting liquid |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103697321A (en) * | 2013-12-24 | 2014-04-02 | 衢州市鼎盛化工科技有限公司 | Equipment for storing and transporting liquid and application thereof |
CN108826009A (en) * | 2018-06-29 | 2018-11-16 | 长春汽车燃气发展有限公司 | A kind of self cooled liquefied natural gas bottle |
CN114111079A (en) * | 2021-11-23 | 2022-03-01 | 衢州荣强化工有限公司 | Refrigerant capable of reducing flammability |
-
2013
- 2013-12-24 CN CN201320861079.8U patent/CN203892862U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103697321A (en) * | 2013-12-24 | 2014-04-02 | 衢州市鼎盛化工科技有限公司 | Equipment for storing and transporting liquid and application thereof |
CN103697321B (en) * | 2013-12-24 | 2016-08-17 | 衢州市鼎盛化工科技有限公司 | For storing and transport equipment and the application thereof of liquid |
CN108826009A (en) * | 2018-06-29 | 2018-11-16 | 长春汽车燃气发展有限公司 | A kind of self cooled liquefied natural gas bottle |
CN108826009B (en) * | 2018-06-29 | 2019-05-28 | 长春汽车燃气发展有限公司 | A kind of self cooled liquefied natural gas bottle |
CN114111079A (en) * | 2021-11-23 | 2022-03-01 | 衢州荣强化工有限公司 | Refrigerant capable of reducing flammability |
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Granted publication date: 20141022 Effective date of abandoning: 20160817 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |