CN203678122U - Oil filter used on oil purifier - Google Patents
Oil filter used on oil purifier Download PDFInfo
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- CN203678122U CN203678122U CN201320795296.1U CN201320795296U CN203678122U CN 203678122 U CN203678122 U CN 203678122U CN 201320795296 U CN201320795296 U CN 201320795296U CN 203678122 U CN203678122 U CN 203678122U
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- oil
- filter
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- vacuum tank
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Abstract
The utility model discloses an oil filter used on an oil purifier. The oil filter comprises an oil-feed pump, an oil heater, a vacuum separator, an oil discharge pump, a filter, a foam sensor, an infrared probe I and an infrared probe II, wherein the vacuum separator comprises a vacuum tank, an atomizer and a reaction rack; the filter comprises a primary filter, a secondary filter and a fine filter; the oil-feed pump, the primary filter, the oil heater, the vacuum tank, the oil discharge pump, the secondary filter and the fine filter are sequentially connected; the atomizer comprises an oil-feed tube, a distributor and a nozzle; the distributor comprises an upper cavity plate and a lower cavity plate with a spherical crown structure. The foam and the oil in the vacuum tank are detected by using the foam sensor and the infrared probes; the oil is vaporized in vacuum, and filtered through the secondary filter and the fine filter, so that the filtering effect is better; the upper cavity plate and the lower cavity plate are spherical crown panels, so that the pressure in each shower nozzle is equal, the oil forms a film after being sprayed, the vaporization effect is greatly improved, and the dewatering and degassing capacities are strong.
Description
Technical field
The utility model relates to a kind of oil filter, relates in particular to the oil filter using on a kind of oil filter.
Background technology
Because the device systems such as existing firepower, waterpower, nuclear force, combustion gas, cogeneration, chemical industry, papermaking, metallurgy happen occasionally seepage, poorly sealed, fluid for a long time in the phenomenon such as thermic load, open oil storage, airborne moisture, gas infiltrate in fluid, cause Water in oil, gas.
Therefore, often adopt oil filter to realize on-line filtration and purify, make that operating oil product is not yet deteriorated just obtains timely purified treatment, can deviate from fast and efficiently moisture, gas and impurity in oil.Make the oil product indices of operation meet national standard, guarantee that regulating system, the lubricating system of unit normally worked.
The oil filter using on oil filter is an important part of oil filter, in prior art, the oil filter using on oil filter comprises oil-feed pump, fluid heater, vacuum separation unit, go out oil pump and filter, vacuum separation unit comprises vacuum tank and is arranged on atomizer and the reaction frame in vacuum tank, the oil-out of oil-feed pump is connected with the oil-in of fluid heater, the oil-out of fluid heater is connected with the oil-in of the atomizer in vacuum tank, the oil-out of vacuum tank is connected with the oil-in that goes out oil pump, go out the oil-out of oil pump and the oil-in of filter is connected.Atomizer is a rectangular box, in the bottom of rectangular box, multiple shower nozzles is set, and multiple shower nozzles are communicated with in rectangular box by flexible pipe respectively, and shower nozzle adopts the gondola water faucet used of having a bath.The lube purification device poor filtration effect of this structure, atomizing effect is also poor, moisture in the fluid after atomization, higher containing gas rate.
Utility model content
For above shortcomings in prior art, the utility model provides the one can Precise Control of Oil liquid and foam, and atomizing effect is better, and dehydration, degassing efficiency are higher, and the oil filter using on the better oil filter of filter effect.
In order to solve the problems of the technologies described above, the utility model has adopted following technical scheme:
The oil filter using on oil filter, comprise oil-feed pump, fluid heater, vacuum separation unit, go out oil pump and filter, described vacuum separation unit comprises vacuum tank and is arranged on atomizer in vacuum tank and reaction frame, and the oil-out of described vacuum tank is connected with the oil-in that goes out oil pump; Also comprise foam sensor, for detection of the infrared probe I of upper oil level with for detection of the infrared probe II of lower oil level; Described foam sensor is arranged on vacuum tank and between atomizer and reaction frame, described infrared probe I and infrared probe II are all arranged on vacuum tank and are positioned at the below of reaction frame, and the position of described infrared probe I is than the high 350~450mm in the position of infrared probe II;
Described filter comprises primary filter, secondary filter and fine filter; The filter core inwall of described primary filter, secondary filter and fine filter is provided with the disturbance ring of helical structure, and the filter core of described primary filter adopts single layer filter net, and the filter core of described secondary filter adopts three layer filtration net; The filter core of described fine filter adopts three layer filtration net, the cross section undulate ring-type of the screen pack of fine filter;
The oil-out of described oil-feed pump is connected with the oil-in of primary filter, the oil-out of described primary filter is connected with the oil-in of fluid heater, described go out the oil-out of oil pump and the oil-in of secondary filter be connected, the oil-out of described secondary filter is connected with the oil-in of fine filter;
Described atomizer comprises oil inlet pipe, distributor and shower nozzle; Described distributor comprises cavity plate and cavity of resorption plate, described cavity plate and cavity of resorption plate are spherical crown panel, the periphery of cavity plate is connected with the peripheral sealing of cavity of resorption plate, and forms a cavity between cavity plate and cavity of resorption plate, and the middle part of described cavity plate and cavity of resorption plate is and raises up; One end of described oil inlet pipe is connected to the end face middle part of cavity plate, and the other end of oil inlet pipe stretches out vacuum tank and is connected with the oil-out of fluid heater, and oil inlet pipe communicates with in cavity; On described cavity of resorption plate, be laid with multiple screwed holes; In each screwed hole on described cavity of resorption plate, a shower nozzle is all set; Described shower nozzle comprises the little conical pipe in the large bottom in top board, feed tube and top; Described top board is arranged on the top of conical pipe and forms a housing with conical pipe, and feed tube is arranged on the middle part of top board, and feed tube is communicated with in housing; External screw thread be set on the cylindrical of feed tube and screw in the screwed hole on cavity of resorption plate, between cavity of resorption plate and top board, seal gasket being set, uniform several through holes on described conical pipe, between described through hole, at a distance of 8~12mm, the aperture of each through hole is 0.5~0.7mm.
As a kind of preferred version of the present utility model, the inner side of the through hole on described conical pipe is young, and lateral port is large.
The beneficial effects of the utility model are: on vacuum tank, be provided with foam sensor and infrared probe, can detect the foam in vacuum tank and fluid, and then can accurately control; First fluid carry out vacuum vaporization again by primary filter, finally filters by secondary filter and fine filter, and filter effect is better; Between cavity plate in distributor and cavity of resorption plate, form a cavity, the uniform shower nozzle of base plate of cavity of resorption plate, because cavity plate and cavity of resorption plate are spherical crown panel, make the pressure in each shower nozzle of cavity of resorption plate below identical, and shower nozzle adopts conical pipe to open several through holes thereon, high-temperature oil liquid enters ejection in atomizer, at identical pressure, under identical oil temperature, first form vaporific by atomizer fluid, form membranaceously, in oil, contained moisture obtains fast vaporizing and is discharged by vacuum system under the condition on high heat, large surface again, and vaporization effect improves greatly.
Accompanying drawing explanation
Fig. 1 is the structural representation of the oil filter that uses on oil filter;
Fig. 2 is the structural representation of the filter core of secondary filter;
Fig. 3 is the structural representation that shower nozzle and seal gasket coordinate.
In accompanying drawing: 1-oil-feed pump; 2-fluid heater; 3-go out oil pump; 4-vacuum tank; 5-reaction frame; 6-foam sensor; 7-infrared probe I; 8-infrared probe II; 9-primary filter; 10-secondary filter; 11-essence is considered device; 12-filter core; 13-disturbance ring; 14-oil inlet pipe; 15-shower nozzle; 16-cavity plate; 17-cavity of resorption plate; 18-cavity; 19-top board; 20-feed tube; 21-conical pipe; 22-seal gasket; 23-through hole.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
As shown in Figure 1, the oil filter using on oil filter, comprise oil-feed pump 1, fluid heater 2, vacuum separation unit, go out oil pump 3, filter, foam sensor 6, for detection of the infrared probe I 7 of upper oil level with for detection of the infrared probe II 8 of lower oil level.Vacuum separation unit comprises vacuum tank 4 and is arranged on atomizer and the reaction frame 5 in vacuum tank, foam sensor 6 is arranged on vacuum tank 4 and between atomizer and reaction frame 5, foam sensor 6 can be used for detecting the number of vacuum tank 4 inner foams, so that open permeation valve or close permeation valve, to reach the foam in accurate control vacuum tank 4.Infrared probe I 7 and infrared probe II 8 are all arranged on vacuum tank 4 and are positioned at the below of reaction frame 5, and the position of infrared probe I 7 is than the high 350~450mm in the position of infrared probe II 8.Excessive when oil inlet quantity, when the oil level in vacuum tank 4 rises to the high oil level control point that infrared probe I 7 detects, automatically to close for solenoid, equipment stops oil-feed; In the time of low oil level control point that the interior oil level of vacuum tank 4 detects lower than infrared probe II 8, automatically open fuel feeding for solenoid.In the time that the interior oil level of vacuum tank 4 reaches the high oil level control point that infrared probe I 7 detects, oil drain pump automatically starts and carries out oil extraction; In the time that the interior oil level of vacuum tank 4 reaches the low oil level control point that infrared probe II 8 detects, oil pump stops automatically, and equipment stops oil extraction.
Filter comprises primary filter 9, secondary filter 10 and fine filter 11.Filter core 12 inwalls of primary filter 9, secondary filter 10 and fine filter 11 are provided with the disturbance ring 13 of helical structure, as shown in Figure 2, the fluid that makes to enter in filter forms helical flow, the filter core of primary filter 9 adopts single layer filter net, and the filter core of secondary filter 10 adopts three layer filtration net.The filter core of fine filter 11 adopts three layer filtration net, and the cross section undulate ring-type of the screen pack of fine filter 11, when fluid process fine filter 11, accurately filters fluid.
The oil-out of oil-feed pump 1 is connected with the oil-in of primary filter 9, and the oil-out of primary filter 9 is connected with the oil-in of fluid heater 2, and the oil-out of vacuum tank 4 is connected with the oil-in that goes out oil pump 3; The oil-out that goes out oil pump 3 is connected with the oil-in of secondary filter 10, and the oil-out of secondary filter 10 is connected with the oil-in of fine filter 11.
Atomizer comprises oil inlet pipe 14, distributor and shower nozzle 15.Distributor comprises cavity plate 16 and cavity of resorption plate 17, cavity plate 16 and cavity of resorption plate 17 are spherical crown panel, the periphery of cavity plate 16 is connected with the peripheral sealing of cavity of resorption plate 17, and forms a cavity 18 between cavity plate 16 and cavity of resorption plate 17, and the middle part of cavity plate 16 and cavity of resorption plate 17 is and raises up.One end of oil inlet pipe 14 is connected to the end face middle part of cavity plate 16, and the other end of oil inlet pipe 14 stretches out vacuum tank 4 and is connected with the oil-out of fluid heater 2, and oil inlet pipe 14 communicates with in cavity 18.On cavity of resorption plate 17, be laid with multiple screwed holes, a shower nozzle 15 is all set in the each screwed hole on cavity of resorption plate 17.
As shown in Figure 3, shower nozzle 15 comprises top board 19, the little conical pipe 21 in the large bottom of feed tube 20 and top to the structure of shower nozzle.Top board 19 is arranged on the top of conical pipe 21 and forms a housing with conical pipe 21, and feed tube 20 is arranged on the middle part of top board 19, and feed tube 20 is communicated with in housing; External screw thread is set on the cylindrical of feed tube 20 and screws in the screwed hole on cavity of resorption plate 17, between cavity of resorption plate 17 and top board 19, seal gasket 22 is set, uniform several through holes 23 on conical pipe 21, between adjacent two through holes 23, at a distance of 8~12mm, the aperture of each through hole 23 is 0.5~0.7mm.The inner side of the through hole 23 on conical pipe 21 is young, and lateral port is large, can effectively avoid this through hole 23 to be stopped up by impurity in the time of oil spout.
While using the oil filter using on this oil filter, first fluid heat by primary filter again, pretreated high temperature oil enters distributor by oil inlet pipe 14, by being connected to the ejection of shower nozzle on cavity of resorption plate 17, the uniform shower nozzle of base plate of cavity of resorption plate 17, because cavity plate 16 and cavity of resorption plate 17 are spherical crown panel, make the pressure in each shower nozzles 15 of cavity of resorption plate 17 belows identical, and shower nozzle 15 adopts conical pipe, after oil ejection, atomizing effect is better.Moisture contained in oil obtains fast vaporizing and is discharged by vacuum system under the condition on high heat, large surface, and vaporization effect improves greatly.Foam sensor 6, infrared probe I 7 and infrared probe II 8 can detect the foam in vacuum tank and fluid, and then can accurately control.Dehydration, degassed very competent, pumps into the fine particle impurity in filtering fluid in secondary filter and fine filter through going out oil pump 3 again through dehydration, fluid after degassed, and filter effect is better.
Finally explanation is, above embodiment is only unrestricted in order to the technical solution of the utility model to be described, although the utility model is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement the technical solution of the utility model, and not departing from aim and the scope of technical solutions of the utility model, it all should be encompassed in the middle of claim scope of the present utility model.
Claims (2)
1. the oil filter using on oil filter, comprise oil-feed pump (1), fluid heater (2), vacuum separation unit, go out oil pump (3) and filter, described vacuum separation unit comprises vacuum tank (4) and is arranged on atomizer in vacuum tank and reaction frame (5), and the oil-out of described vacuum tank (4) is connected with the oil-in that goes out oil pump (3); It is characterized in that: also comprise foam sensor (6), for detection of the infrared probe I (7) of upper oil level with for detection of the infrared probe II (8) of lower oil level; Described foam sensor (6) is arranged on vacuum tank (4) above and is positioned at atomizer and reacts between frame (5), described infrared probe I (7) and infrared probe II (8) are all arranged on vacuum tank (4) above and are positioned at the below of reaction frame (5), and the position of described infrared probe I (7) is than the high 350~450mm in position of infrared probe II (8);
Described filter comprises primary filter (9), secondary filter (10) and fine filter (11); Filter core (12) inwall of described primary filter (9), secondary filter (10) and fine filter (11) is provided with the disturbance ring (13) of helical structure, the filter core of described primary filter (9) adopts single layer filter net, and the filter core of described secondary filter (10) adopts three layer filtration net; The filter core of described fine filter (11) adopts three layer filtration net, the cross section undulate ring-type of the screen pack of fine filter (11);
The oil-out of described oil-feed pump (1) is connected with the oil-in of primary filter (9), the oil-out of described primary filter (9) is connected with the oil-in of fluid heater (2), described go out the oil-out of oil pump (3) be connected with the oil-in of secondary filter (10), the oil-out of described secondary filter (10) is connected with the oil-in of fine filter (11);
Described atomizer comprises oil inlet pipe (14), distributor and shower nozzle (15); Described distributor comprises cavity plate (16) and cavity of resorption plate (17), described cavity plate (16) and cavity of resorption plate (17) are spherical crown panel, the periphery of cavity plate (16) is connected with the peripheral sealing of cavity of resorption plate (17), and between cavity plate (16) and cavity of resorption plate (17), form a cavity (18), the middle part of described cavity plate (16) and cavity of resorption plate (17) is and raises up; One end of described oil inlet pipe (14) is connected to the end face middle part of cavity plate (16), and the other end of oil inlet pipe (14) stretches out vacuum tank (4) and is connected with the oil-out of fluid heater (2), and oil inlet pipe (14) communicates with in cavity (18); On described cavity of resorption plate (17), be laid with multiple screwed holes; One shower nozzle (15) is all set in the each screwed hole on described cavity of resorption plate (17); Described shower nozzle (15) comprises top board (19), the little conical pipe (21) in the large bottom of feed tube (20) and top; Described top board (19) is arranged on the top of conical pipe (21) and forms a housing with conical pipe (21), and feed tube (20) is arranged on the middle part of top board (19), and feed tube (20) is communicated with in housing; On the cylindrical of feed tube (20), external screw thread be set and screw in the screwed hole on cavity of resorption plate (17), between cavity of resorption plate (17) and top board (19), seal gasket (22) being set, the upper uniform several through holes (23) of described conical pipe (21); Between described through hole (23), at a distance of 8~12mm, the aperture of each through hole (23) is 0.5~0.7mm.
2. the oil filter using on oil filter according to claim 1, is characterized in that: the inner side of the through hole (23) on described conical pipe (21) is young, and lateral port is large.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320795296.1U CN203678122U (en) | 2013-12-06 | 2013-12-06 | Oil filter used on oil purifier |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320795296.1U CN203678122U (en) | 2013-12-06 | 2013-12-06 | Oil filter used on oil purifier |
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CN203678122U true CN203678122U (en) | 2014-07-02 |
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CN201320795296.1U Expired - Fee Related CN203678122U (en) | 2013-12-06 | 2013-12-06 | Oil filter used on oil purifier |
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CN (1) | CN203678122U (en) |
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2013
- 2013-12-06 CN CN201320795296.1U patent/CN203678122U/en not_active Expired - Fee Related
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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 |
Granted publication date: 20140702 Termination date: 20141206 |
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EXPY | Termination of patent right or utility model |