CN205965131U - High -efficient oil -water separating equipment of two vacuum pumps of serial -type - Google Patents
High -efficient oil -water separating equipment of two vacuum pumps of serial -type Download PDFInfo
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- CN205965131U CN205965131U CN201620542018.9U CN201620542018U CN205965131U CN 205965131 U CN205965131 U CN 205965131U CN 201620542018 U CN201620542018 U CN 201620542018U CN 205965131 U CN205965131 U CN 205965131U
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Abstract
The utility model discloses a high -efficient oil -water separating equipment of two vacuum pumps of serial -type, include heating portion, vacuum separation portion, the portion of producing oil and the portion of giving vent to anger of tube coupling in proper order, the portion of producing oil then include the tube coupling at the export pump station and the fluid issuing of vacuum separation troops under one's command end, the portion of giving vent to anger is including vortex sheet pump and outlet duct, cooler, moisture separator, connection ball valve and with cooler, moisture separator, be connected the parallelly connected roots vacuum pump of ball valve and connection ball valve and air inlet unit, vacuum separation portion be vacuum filler tank, be equipped with the blowdown ball valve on the pipeline that vacuum filler tank lower extreme and export pump station are connected in addition. The utility model discloses can effectively improve the vacuum in the filler tank of vacuum, make the moisture in vacuum filler tank's fluid fully evaporate, make the water content in the fluid reduce, effectively improve water oil separating effect and water oil separating speed.
Description
Technical field
This utility model is related to separation equipment technical field, especially a kind of series connection for transformer oil fine vacuum eliminating water
The double vacuum pump high efficiency oil-water separation equipment of formula.
Background technology
Oil-water separation is mainly different according to water and oily boiling temperature, so that boiling water under certain vacuum degree condition
And oily not boiling, water, and oil is still liquid, thus by oil-water separation.Common oil-water separation vacuum filling tank, by true
Empty pump, to evacuation in vacuum filling tank, makes the moisture evaporation in vacuum filling tank inner fluid, reduces the water content in fluid.Single
During conventional vacuum pumping vacuum, fully can not close moisture in inner fluid by evaporation in vacuo pipe, oil-water separation can not reach
Require to expected, and oil-water separation speed is slower.
Utility model content
The technical problems to be solved in the utility model is:Overcome the deficiency in prior art, provide a kind of structure simple, can
So that the moisture that vacuum in vacuum filling tank reaches in high level and vacuum filling tank inner fluid can be fully evaporated, reduce in fluid
Water content, oil-water separation is good, the double vacuum pump high efficiency oil-water separation equipment of the tandem of efficiency high.
This utility model solves its technical problem and be employed technical scheme comprise that:A kind of double vacuum pump high efficiency oil-water of tandem
Separation equipment, the heating part connecting including pipeline successively, vacuum separation portion, fuel-displaced portion and portion of giving vent to anger, described heating part includes
Fluid intake and with fluid inlet line the heater being connected and the temperature sensor being arranged on heater upper end, heater lower end
Then it is provided with Blowoff ball valve, described fuel-displaced portion then includes that pipeline is connected to the outlet pumping plant at vacuum separation subordinate end and fluid goes out
Mouthful, the described portion of giving vent to anger includes sliding vane rotary pump and escape pipe, and described vacuum separation portion is vacuum filling tank, vacuum filling tank lower end
Be additionally provided with Blowoff ball valve with the outlet pipeline that is connected of pumping plant, the described portion of giving vent to anger also include successively pipeline connection in vacuum filler
Tank upper end give vent to anger cooler on part, steam trap, connect ball valve;Described connection ball valve then with sliding vane rotary pump and escape pipe according to
Secondary connected, the described portion of giving vent to anger also includes being arranged between vacuum filling tank upper end and sliding vane rotary pump and separating with cooler, steam
Device, the Roots vaccum pump connecting ball valve parallel connection and connection ball valve, the described portion of giving vent to anger also includes being arranged on hypomere in vacuum filling tank
Air intake installation, described air intake installation includes air inlet pipe, air filter, manual modulation valve and the check valve being sequentially connected,
Pressure switch and pressure gauge are additionally provided with the pipeline between described check valve and vacuum filling tank.
Further, described steam trap lower end is provided with connection ball valve, and cooler lower end is provided with connection ball valve, described
Connect and be then connected with water tank and the Blowoff ball valve being arranged on water tank export pipeline under ball valve and connection ball valve.
Further, outlet pumping plant and fluid issuing between also by pipeline be sequentially provided with out oil strainer, check valve and
Vent ball valve.
Further, the described import going out oil strainer is provided with pressure gauge and pressure switch, goes out the outlet of oil strainer
Then it is provided with pressure gauge and Blowoff ball valve.
Further, on the pipeline between described vacuum filling tank and heater, nearly vacuum filling tank end is provided with form,
Nearly heater terminal is provided with PT100 temperature sensor.
The beneficial effects of the utility model are:The double vacuum pump high efficiency oil-water of tandem that this utility model provides separates and sets
Standby, structure is simple, can effectively improve the vacuum in vacuum filling tank, make the moisture in the fluid of vacuum filling tank abundant
Evaporation, makes the water content in fluid reduce, effectively increases oil-water separation and oil-water separation speed.
Brief description
With embodiment, this utility model is further illustrated below in conjunction with the accompanying drawings.
Fig. 1 is structural representation of the present utility model.
In figure 1. fluid intake, 2. heater, 3. temperature sensor, 4. Blowoff ball valve 5. exports pumping plant 6.PT100 temperature
Sensor 7. fluid issuing, 8. vacuum filling tank, 9. cooler, 10. steam trap, 11. Roots vaccum pump 12. sliding vane rotary pump
13. escape pipe, 14. air inlet pipe, 15. air filter, 16. manual modulation valve, 17. check valve, 18. pressure switch 19. pressure
Table 201. connection ball valve 202. connection ball valve 203. connection ball valve 204. connection ball valve 21. goes out oil strainer 22. and exports
Ball valve 23. form 24. water tank
Specific embodiment
Presently in connection with accompanying drawing, this utility model is further described.These accompanying drawings are the schematic diagram of simplification only to show
Meaning mode illustrates basic structure of the present utility model, and therefore it only shows the composition relevant with this utility model.
A kind of double vacuum pump high efficiency oil-water separation equipment of tandem as shown in Figure 1, the heating connecting including pipeline successively
Portion, vacuum separation portion, fuel-displaced portion and portion of giving vent to anger, described heating part is included fluid intake 1 and is connected with fluid intake 1 pipeline
Heater 2 and the temperature sensor 3 being arranged on heater 2 upper end, heater 2 lower end is then provided with Blowoff ball valve 4, and described is fuel-displaced
Portion then includes outlet pumping plant 5 and the fluid issuing 7 that pipeline is connected to vacuum separation subordinate end.Described vacuum separation portion is vacuum
Filling tank 8, the pipeline that vacuum filling tank 8 lower end is connected with outlet pumping plant 5 is additionally provided with Blowoff ball valve 4.
The described portion of giving vent to anger includes sliding vane rotary pump 12 and escape pipe 13.Portion of giving vent to anger also include successively pipeline connection in vacuum filler
Tank 8 upper end give vent to anger cooler 9 on part, steam trap 10, connect ball valve 201;Described connection ball valve 201 then with sliding vane rotary pump
12 and escape pipe 13 be sequentially connected, the described portion of giving vent to anger also includes being arranged between vacuum filling tank 8 upper end and sliding vane rotary pump 12 simultaneously
With cooler 9, steam trap 10, the Roots vaccum pump 11 being connected ball valve 201 parallel connection and connection ball valve 202.Described steam
Separator 10 lower end is provided with connection ball valve 203, and cooler 9 lower end is provided with connection ball valve 204, described connection ball valve 203 and connection
Then it is connected with water tank 24 and the Blowoff ball valve 4 being arranged on water tank 24 export pipeline under ball valve 204.
The described portion of giving vent to anger also includes being arranged on the air intake installation of hypomere in vacuum filling tank 8, and described air intake installation includes
Air inlet pipe 14, air filter 15, manual modulation valve 16 and the check valve 17 being sequentially connected, described check valve 17 is filled out with vacuum
Pressure switch 18 and pressure gauge 19 are additionally provided with the pipeline between batch can 8.
It is sequentially provided with out oil strainer 21, check valve 17 also by pipeline between described outlet pumping plant 5 and fluid issuing 7
With vent ball valve 22.The described import going out oil strainer 21 is provided with pressure gauge 19 and pressure switch 18, goes out oil strainer 21
Outlet is then provided with pressure gauge 19 and Blowoff ball valve 4.
On pipeline between described vacuum filling tank 8 and heater 2, nearly vacuum filling tank 8 end is provided with form 23, closely adds
Hot device 2 end is provided with PT100 temperature sensor 6.
During work, aqueous fluid enters heater 2 from fluid intake 1 through inlet ball valve, inlet oil filter, in heater
2 upper end temperature sensors are heated under controlling, and when being heated to design temperature, aqueous fluid enters vacuum filling tank 8, in vacuum
In filling tank 8, the very thin oil film of stroke slowly declines.Air-flow penetrates the water steaming taking away oil film surface from vacuum filling tank 8 bottom
Gas, separates through collision and removes the fluid little particle that major part may be attached, and discharges from moisture outlet.Fluid warp after oil-water separation
The outlet pumping plant 5 that frequency conversion motor controls is discharged to fluid issuing 7 through going out oil strainer 21, check valve 17 and vent ball valve 22.
When equipment just brings into operation, because in aqueous fluid, water content is of a relatively high, close on Roots vaccum pump 11 pipeline
Connection ball valve 20, the connection ball valve 20 in parallel with Roots vaccum pump 11 on steam trap 10 and cooler 9 pipeline, gas
From the cooled device 9 of vacuum filling tank 8, steam trap 10, connect ball valve 201, then discharge from gas outlet 13 through sliding vane rotary pump 12.
Through processing after a while, the water content in aqueous fluid reduces, and the negative pressure of vacuum filling tank 8 constantly raises, when
When vacuum filling tank 8 negative pressure reaches -90KPa, by manual observation control selections, close the cooler in parallel with Roots vaccum pump 11
9 and steam trap 10 pipeline on connection ball valve 201, open the connection ball valve 202 on Roots vaccum pump 11 pipeline, start sieve
Thatch vacuum pump 11, steam through Roots vaccum pump 11 and connects ball valve 202, then discharges from gas outlet 13 through sliding vane rotary pump 12.
Larger in the internal water smoke of vacuum filling tank 8, the steam of discharge passes through cooler 9 metathesis condensation heat, and lifting vacuum is filled out
Batch can 8 vacuum.The little water droplet that steam coagulation becomes separates in steam trap 10, can significantly lower sliding vane rotary pump 12 entrance
Water droplet or water vapour content, it is to avoid the pollution of pump oil, improve sliding vane rotary pump 12 service life, be a kind of quick profit of high temperature
Separate mode.And when the internal water smoke of vacuum filling tank 8 is less, in vacuum filling tank 8, pressure is less, then using Roots vaccum pump
11 and the dual evacuation of sliding vane rotary pump 12, effectively improve the vacuum of vacuum filling tank 8, make the water in the fluid of vacuum filling tank 8
Divide and fully evaporate, so that the water content in fluid is reduced, effectively increase oil-water separation and oil-water separation speed, be a kind of high
Vacuum efficient oil-water separation mode.
Above-mentioned embodiment is only that technology design of the present utility model and feature are described, its object is to allow and is familiar with this skill
The personage of art will appreciate that content of the present utility model and is carried out, and can not limit protection model of the present utility model with this
Enclose, all equivalence changes made according to this utility model spirit or modification, all should cover in protection model of the present utility model
In enclosing.
Claims (5)
1. the double vacuum pump high efficiency oil-water separation equipment of a kind of tandem, include the heating part of the connection of pipeline successively, vacuum separation portion,
Fuel-displaced portion and portion of giving vent to anger, described heating part includes fluid intake (1) and the heater (2) being connected with fluid intake (1) pipeline
With the temperature sensor (3) being arranged on heater (2) upper end, heater (2) lower end is then provided with Blowoff ball valve (4), and described goes out
Oily portion then includes outlet pumping plant (5) and the fluid issuing (7) that pipeline is connected to vacuum separation subordinate end, and the described portion of giving vent to anger includes
Sliding vane rotary pump (12) and escape pipe (13), is characterized in that:Described vacuum separation portion is vacuum filling tank (8), vacuum filling tank (8)
It is additionally provided with Blowoff ball valve (4), the described portion of giving vent to anger also includes pipeline connection successively on the pipeline that lower end is connected with outlet pumping plant (5)
Give vent to anger in vacuum filling tank (8) upper end cooler (9) on part, steam trap (10), connect ball valve (201);Described company
Access valve (201) is then sequentially connected with sliding vane rotary pump (12) and escape pipe (13), and the described portion of giving vent to anger also includes being arranged on vacuum to be filled out
Between batch can (8) upper end and sliding vane rotary pump (12) and with cooler (9), steam trap (10), be connected ball valve (201) sieve in parallel
Thatch vacuum pump (11) and connection ball valve (202), the described portion of giving vent to anger also includes the air inlet dress being arranged on hypomere in vacuum filling tank (8)
Put, air inlet pipe (14) that described air intake installation includes being sequentially connected, air filter (15), manual modulation valve (16) and unidirectional
Valve (17), the pipeline between described check valve (17) and vacuum filling tank (8) is additionally provided with pressure switch (18) and pressure gauge
(19).
2. the double vacuum pump high efficiency oil-water separation equipment of tandem according to claim 1, is characterized in that:Described steam divides
It is provided with connection ball valve (203) from device (10) lower end, cooler (9) lower end is provided with connection ball valve (204), described connection ball valve
(203) Blowoff ball valve and being then connected with water tank (24) and being arranged on water tank (24) export pipeline under connection ball valve (204)
(4).
3. the double vacuum pump high efficiency oil-water separation equipment of tandem according to claim 1, is characterized in that:Described outlet pump
Stand (5) and be sequentially provided with out oil strainer (21), check valve (17) and vent ball valve also by pipeline and fluid issuing (7) between
(22).
4. the double vacuum pump high efficiency oil-water separation equipment of tandem according to claim 3, is characterized in that:Described is fuel-displaced
The import of filter (21) is provided with pressure gauge (19) and pressure switch (18), and the outlet going out oil strainer (21) is then provided with pressure gauge
And Blowoff ball valve (4) (19).
5. the double vacuum pump high efficiency oil-water separation equipment of tandem according to claim 1, is characterized in that:Described vacuum is filled out
On pipeline between batch can (8) and heater (2), nearly vacuum filling tank (8) end is provided with form (23), and nearly heater (2) end is provided with
PT100 temperature sensor (6).
Priority Applications (1)
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CN201620542018.9U CN205965131U (en) | 2016-06-06 | 2016-06-06 | High -efficient oil -water separating equipment of two vacuum pumps of serial -type |
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CN201620542018.9U CN205965131U (en) | 2016-06-06 | 2016-06-06 | High -efficient oil -water separating equipment of two vacuum pumps of serial -type |
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CN201620542018.9U Active CN205965131U (en) | 2016-06-06 | 2016-06-06 | High -efficient oil -water separating equipment of two vacuum pumps of serial -type |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109091947A (en) * | 2018-09-20 | 2018-12-28 | 山东航天电子技术研究所 | A kind of oil liquid vacuum intelligent filtering water scavenging system |
-
2016
- 2016-06-06 CN CN201620542018.9U patent/CN205965131U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109091947A (en) * | 2018-09-20 | 2018-12-28 | 山东航天电子技术研究所 | A kind of oil liquid vacuum intelligent filtering water scavenging system |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CP03 | Change of name, title or address |
Address after: 213000 No. 3 Xiaming Road, Hengshanqiao Town, Changzhou Economic Development Zone, Jiangsu Province Patentee after: Jiangsu Weiken Purification Technology Co.,Ltd. Address before: 213000 No. 658 Qiyue line, Heng Shan Qiao Xin'an village, Wujin District, Changzhou City, Jiangsu Province Patentee before: CHANGZHOU VIKING FILTRATION & SEPARATION ENVIRONMENTAL TECHNOLOGY Co.,Ltd. |
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CP03 | Change of name, title or address |