CN213000585U - Magnetoelectric circulation regeneration reduction oil purification system - Google Patents

Abstract

The utility model relates to a magnetoelectric circulation regeneration reduction oil purification system, which comprises a magnetoelectric primary filter tank, a fine filter tank connected with a coalescence water removal tank, and an oil purifier, wherein the magnetoelectric primary filter tank, the fine filter tank and the oil purifier are sequentially connected; the oil purifier include tank shell, rotation axis, gear motor, screw conveyer, feed inlet, oil inlet, lauter tub, support, oil-out, bin outlet, the tank shell internal fixation has the lauter tub, the lauter tub be used for the splendid attire filter material, the vertical rotation axis that is equipped with in the middle of the tank shell, the rotation axis that has rotating vane is driven by gear motor, footstep bearing and leg joint are passed through to the rotation axis bottom, the support is fixed on screw conveyer, screw conveyer and tank shell fixed connection, screw conveyer and lauter tub bottom intercommunication. The utility model discloses rational in infrastructure, industry oil is in proper order through magnetoelectric primary filter jar, essence jar, the oily machine processing of oil purifier, reduces the water content of industry oil, improves the oil quality after handling, obtains the regeneration oil of high-quality.

Description

Magnetoelectric circulation regeneration reduction oil purification system

Technical Field

The utility model relates to a magnetoelectric circulation regeneration reduction oil purification system.

Background

At present, the working principle of the oil filter for regenerating industrial oil products includes a centrifugal oil filter, a vacuum oil filter, an electrostatic oil filter and the like. The vacuum oil filter has good vacuum dewatering effect, but has the defects of large power, high energy consumption and the like, and has high operation cost, high maintenance cost and complex operation; centrifugal oil filters, which are not effective in removing impurities when the water content in the oil exceeds 500 ppm; the purification requirements of high-purity lubricating oil cannot be met. And the treated industrial oil product has no regenerative reduction effect, and clear and transparent industrial oil products cannot be obtained.

Disclosure of Invention

For overcoming prior art's not enough, the utility model aims at providing a magnetoelectric circulation regeneration reduces absolute oil system, the water content of reducible industry oil further improves the cleanliness grade of handling back oil, improves the oil quality after handling.

In order to achieve the above object, the utility model discloses a following technical scheme realizes:

a magnetoelectric circulation regeneration reduction oil purification system comprises a magnetoelectric primary filter tank, a fine filter tank connected with a coalescence water removal tank, and an oil purifier, wherein the magnetoelectric primary filter tank, the fine filter tank and the oil purifier are sequentially connected; the oil purifier comprises a tank shell, a rotating shaft, a speed reducing motor, a screw conveyor, a feed inlet, an oil inlet, a filter barrel, a support, an oil outlet and a discharge outlet, wherein the filter barrel is fixed in the tank shell and is used for containing filter materials; the top of the tank shell is connected with a feed inlet and an oil inlet, and the bottom of the tank shell is connected with an oil outlet and a discharge outlet.

The rotating blades are fixed on the rotating shaft in a spiral shape.

The oil outlet is arranged above the discharge port.

The filter vat is made of a plurality of layers of steel plates with filter holes.

The filter vat comprises multilayer steel wire net.

The filter material is alkaline clay.

The spiral conveyer is characterized by further comprising an inclined plate, the upper half part of the spiral conveyer in the filter vat is open, the lower half part of the spiral conveyer is fixedly connected with the inclined plate, and the outer edge of the inclined plate is fixedly connected with the bottom of the filter vat.

The sloping plate structure is the same as the wall structure of the filter barrel.

A plurality of herringbone plates are fixed inside the magnetoelectric primary filter tank.

The fine filtration tank comprises a filter element and a blind plate, the blind plate is fixed in the fine filtration tank, the filter element is fixed on the blind plate, and a connecting pipe at the top of the fine filtration tank is connected with the coalescence dewatering tank through an oil outlet valve.

Compared with the prior art, the beneficial effects of the utility model are that:

the magnetoelectric circulation regeneration reduction oil purification system is reasonable in structure, industrial oil products are sequentially treated by the magnetoelectric primary filter tank, the fine filter tank and the oil purifier, the water content of the industrial oil products is reduced, the cleanliness grade of the treated oil products is further improved, the quality of the treated oil products is improved, and high-quality regenerated oil is obtained. The filter material contained in the filter barrel purifies industrial oil, the rotary blades rotate to enable the filter material to be in full contact with the industrial oil, the purification effect is improved, the oil filtering degree is improved, the industrial oil is clear and transparent, the filter material is made of alkaline clay, the transparency of the oil can be improved, the oil quality is improved, and meanwhile, the pH value can be adjusted to enable the acidic industrial oil to tend to be neutral. The purified industrial oil permeates to the bottom of the tank shell through the filter barrel and is discharged from the oil outlet, so that the oil outlet speed is increased, and the pressure build-up phenomenon is avoided. The device can change the oil quality of industrial oil products, and is favorable for recycling the industrial oil products. The herringbone plate is arranged in the magnetoelectric primary filter tank to accelerate oil-water separation, so that oil liquid rises, water is deposited to the lower part of the magnetoelectric primary filter tank and is discharged, and the water content of industrial oil is reduced; the blind plate inside the fine filtration tank is connected with the filter element through threads, so that the filter element is convenient to replace, the maintenance of equipment is facilitated, and the coalescence dewatering tank is connected to the fine filtration tank, so that the water content of the treated oil product can be further reduced.

Drawings

FIG. 1 is a schematic structural diagram of a magneto-electric circulation regeneration reduction oil purification system.

Fig. 2 is a front sectional view of the oil purifier.

Fig. 3 is a side sectional view of the oil purifier.

In the figure: 1-magnetoelectric primary filter tank 2-fine filter tank 3-high voltage transformer 4-oil purifier 5-control box 6-protective filter

101-oil pump 102-herringbone plate

201-coalescence dewatering tank 202-blind plate 203-filter element 204-oil outlet valve 205-coalescence filter element 206-separation filter element 207-oil outlet pipe 208-blowdown valve

401-tank shell 402-filter vat 403-gear motor 404-rotation axis 405-rotating vane 406-screw conveyer 407-feed inlet 408-support 409-oil inlet 410-discharge gate 411-oil outlet 412-discharge gate 413-inclined plate.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings, but it should be noted that the present invention is not limited to the following embodiments.

Referring to fig. 1-3, the magnetoelectric circulation regeneration reduction oil purification system comprises a magnetoelectric primary filter tank 1, a fine filter tank 2 connected with a coalescence water removal tank 201, and an oil purifier 4, wherein the magnetoelectric primary filter tank 1, the fine filter tank 2, and the oil purifier 4 are connected in sequence. The magnetoelectric circulating regeneration reduction oil purification system also comprises a protection filter 6, a high-voltage transformer 3 and a control box 5, wherein the high-voltage transformer 3 is connected with the magnetoelectric primary filter tank 1, the oil pump 101 is connected with the magnetoelectric primary filter tank 1, the control box 5 is respectively connected with the oil pump 101 and the high-voltage transformer 3,

a plurality of herringbone plates 102 are fixed inside the magnetoelectric primary filter tank 1, a blind plate 202 is fixed on the upper portion of the fine filter tank 2, a filter element 203 is arranged in the fine filter tank 2, the filter element 203 is fixed on the blind plate 202, and the blind plate 202 is connected with the filter element 203 through threads. The connecting pipe at the top of the fine filtering tank 2 is connected with the coalescence dewatering tank 201 through an oil outlet valve 204; the coalescence dewatering tank 201 is internally fixed with a coalescence filter element 205 and a separation filter element 206. The front end in the coalescence dewatering tank 201 is fixed with coalescence filter core 205, and the rear end is fixed with separation filter core 206, and coalescence dewatering tank 201 rear end external connection has oil pipe 207, and coalescence dewatering tank 201 bottom is equipped with blowoff valve 208. If the industrial oil product does not contain water or has low water content, the fine filtering tank 2 can directly output oil without the coalescence water-removing tank 201 and is connected with the oil purifier 4, otherwise, the oil needs to be removed by the coalescence water-removing tank 201 and then enters the oil purifier 4.

The oil purifier 4 comprises a tank shell 401, a rotating shaft 404, a speed reducing motor 403, a screw conveyor 406, a feed inlet 407, an oil inlet 409, a filter barrel 402, a support 408, an oil outlet 411 and a discharge outlet 412, wherein the filter barrel 402 is fixed in the tank shell 401, the filter barrel 402 is used for containing filter materials, the rotating shaft 404 is vertically arranged in the middle of the tank shell 401 and driven by the speed reducing motor 403, a plurality of rotating blades 405 are fixed on the rotating shaft 404, the bottom of the rotating shaft 404 is connected with the support 408 through a thrust bearing, the support 408 is fixed on the screw conveyor 406, the screw conveyor 406 is fixedly connected with the tank shell 401, the screw conveyor 406 is communicated with the bottom of the filter barrel 402, and a discharge outlet 410 of the screw conveyor 406 is arranged outside the tank shell 401; the top of tank shell 401 is connected with feed inlet 407, oil inlet 409, and feed inlet 407 is used for throwing into the filter material in tank shell 401, and oil inlet 409 is used for pouring into industrial oil into tank shell 401, and tank shell 401 bottom is connected with oil-out 411, bin outlet 412. The feed port 407, the oil outlet 411 and the discharge port 412 can be connected with valves. The filter material put into the filter barrel 402 is alkaline clay, which can make the industrial oil transparent and can neutralize the acidic industrial oil.

Wherein, rotary blade 405 becomes the heliciform and fixes on rotation axis 404, make the filter material obtain abundant stirring, realize the abundant contact of filter material and industrial oil, when rotation axis 404 corotation, rotary blade 405 drives the filter material and turns over, when the filter material can fully contact with industrial oil, prevent the emergence of suppressing the pressure phenomenon, when rotation axis 404 reversal, rotary blade 405 drives the filter material down, the ejection of compact of being convenient for gets into screw conveyer, improve discharging efficiency, can break up the piece that filter material and industrial oil become simultaneously. The rotary blades 405 may be radially arranged in multiple stages on the rotary shaft 404. The oil outlet 411 is arranged above the discharge opening 412, so that the phenomenon that the filter material which is too fine is discharged to pollute industrial oil through the oil outlet 411 is avoided. The filter vat 402 is made of a plurality of layers of steel plates with filter holes, or the filter vat 402 is made of a plurality of layers of steel wire meshes, so that the filter material is prevented from entering the purified industrial oil product through the filter vat 402. The top of the filter vat 402 is fixed with the tank shell 401, and gaps are reserved between the periphery of the filter vat 402 and the tank shell 401, so that the treated industrial oil is convenient to discharge.

The oil purifier 4 further comprises an inclined plate 413, the upper half part of the spiral conveyor 406 in the filter barrel 402 is open, namely the partial section of the barrel wall of the spiral conveyor 406 in the filter barrel 402 is semicircular, the lower half part of the spiral conveyor 406 is fixedly connected with the inclined plate 413, the outer edge of the inclined plate 413 is fixedly connected with the bottom of the filter barrel 402, the inclined plate 413 serves as the barrel bottom of the filter barrel 402, the structure of the inclined plate 413 is the same as that of the barrel wall of the filter barrel 402, and industrial oil can fall to the bottom of the tank shell 401 through the inclined plate 413.

Industrial oil enters the magnetoelectric primary filter tank 1 through an oil inlet pipe outside the magnetoelectric primary filter tank 1, oil and water can be separated through the herringbone plate 102 due to different oil-water specific gravities, the high-voltage transformer 3 is connected with the top of the electrostatic primary filter tank through a high-voltage cable, and a high-strength magnetic electric field is formed inside the magnetoelectric primary filter tank 1 to separate industrial oil impurities. After primary filtration, the oil enters the fine filtration tank 2, fine filtration is carried out by the filter element 203, the viscosity of the oil is reduced due to the primary filtration of the magnetoelectric primary filtration tank 1, and high-viscosity lubricating oil such as 320 gear oil can be treated. Therefore, the oil product treated by the magnetoelectric primary filter tank 1 is not easy to cover the filter element 203, and the service life of the filter element 203 is prolonged. The filter element 203 and the blind plate 202 are in threaded connection, so that the filter element 203 is convenient to replace, and the maintenance work efficiency can be improved. The oil product filtered by the fine filtration tank 2 enters the coalescence dewatering tank 201 through the oil outlet valve 204, the residual water in the oil product is subjected to secondary treatment through the coalescence filter element 205 and the separation filter element 206, the oil product is collected through the oil outlet pipe 207, the separated water and other impurities are discharged through the blowdown valve 208, the dewatering precision is improved to 50ppm from the original 500ppm, and the water content of the treated oil product is further reduced.

When the oil purifier 4 works, a filter material is firstly put in, the filter material is sent into the filter barrel 402 from the feeding hole 407, the industrial oil product treated by the fine filtration tank 2 enters the oil purifier 4 and enters the tank shell 401 from the oil inlet 409, the speed reducing motor 403 drives the rotating shaft 404 to rotate, the filter material is stirred, the industrial oil product is treated by the filter material, seeps into a space between the filter barrel 402 and the tank shell 401 from the filter barrel 402 and flows to the bottom of the tank shell 401 under the action of gravity, and the valve of the oil outlet 411 is opened to obtain the purified industrial oil product. When the filter material needs to be replaced, the filter material enters from the screw conveyor 406 at the bottom of the filter barrel 402, is discharged from the discharge port 410 of the screw conveyor 406, and is emptied, and then new filter material is put into the filter material through the feed port 407. The filter material in the industrial oil product, which is too fine, passes through the filter barrel 402 and settles at the bottom of the tank shell 401, and can be discharged from the discharge outlet 412 periodically.

The utility model discloses rational in infrastructure, purify the industry oil through the filter material of splendid attire in cask 402, rotating vane 405 rotates, makes the abundant contact of filter material and industry oil, improves purifying effect, has improved the oil filtration degree, makes industry oil clarification transparent, and the filter material adopts alkaline carclazyte preparation, can improve the transparency of oil, and adjustable PH value makes acidic industry oil tend to neutrality simultaneously. The purified industrial oil permeates to the bottom of the tank shell 401 through the filter barrel 402 and is discharged from the oil outlet 411, so that the oil outlet speed is increased, and the pressure build-up phenomenon is avoided. The treated finished product industrial oil product reaches the reuse standard.

Claims (10)

1. A magnetoelectric circulation regeneration reduction oil purification system is characterized by comprising a magnetoelectric primary filter tank, a fine filter tank connected with a coalescence water removal tank and an oil purifier, wherein the magnetoelectric primary filter tank, the fine filter tank and the oil purifier are sequentially connected; the oil purifier comprises a tank shell, a rotating shaft, a speed reducing motor, a screw conveyor, a feed inlet, an oil inlet, a filter barrel, a support, an oil outlet and a discharge outlet, wherein the filter barrel is fixed in the tank shell and is used for containing filter materials; the top of the tank shell is connected with a feed inlet and an oil inlet, and the bottom of the tank shell is connected with an oil outlet and a discharge outlet.

2. The system according to claim 1, wherein said rotating blades are fixed to the rotating shaft in a spiral shape.

3. The magnetoelectric circulation regeneration reduction oil purification system according to claim 1, wherein the oil outlet is arranged above the discharge port.

4. The magnetoelectric circulation regeneration reduction oil purification system according to claim 1, wherein the filter vat is made of a plurality of layers of steel plates with filter holes.

5. The magnetoelectric circulation regeneration reduction oil purification system according to claim 1, wherein the filter vat is composed of a plurality of layers of steel wire meshes.

6. The magnetoelectric circulation regeneration reduction oil purification system according to claim 1, wherein the filter material is alkaline clay.

7. The magnetoelectric circulation regeneration reduction oil purification system according to claim 1, further comprising an inclined plate, wherein the upper half part of the spiral conveyor in the filter vat is open, the lower half part is fixedly connected with the inclined plate, and the outer edge of the inclined plate is fixedly connected with the bottom of the filter vat.

8. The magnetoelectric circulation regeneration reduction net oil system according to claim 7, wherein the swash plate structure is the same as the wall structure of the filter vat.

9. The magnetoelectric circulation regeneration reduction oil purification system according to claim 1, wherein a plurality of herringbone plates are fixed inside the magnetoelectric primary filter tank.

10. The magnetoelectric circulation regeneration reduction oil purification system according to claim 1, wherein the fine filtration tank comprises a filter element and a blind plate, the blind plate is fixed in the fine filtration tank, the filter element is fixed on the blind plate, and a connecting pipe at the top of the fine filtration tank is connected with the coalescence dewatering tank through an oil outlet valve.

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