TWM524215U - Oil/water separator - Google Patents

Description

Oil water separation device

The creation is a water-oil separation device, in particular, a technical field in which the oil slick and the residue are smeared with a mesh belt to improve the separation efficiency of the oil and water.

According to the general machine tool processing, it is usually necessary to make cutting or lubricating oil. Otherwise, not only the processing surface and precision will be affected, but also the service life of the machining tool group will be directly affected. Therefore, the cutting oil is not suitable for machining. For the missing elements, the cutting oil is usually recycled by the oil passage circuit. However, since the cutting oil is mostly a chemical compound, it will chemically react after being processed. Therefore, in order to maintain the cutting oil during processing, The quality and the avoidance of the quality of the cutting oil and the unpleasant smell, the waste oil produced after processing will be recycled by the oil-water separator.

As shown in the first figure, the conventional oil-water separator is mainly driven by a motor 10 to rotate a turntable 20, and a turn-type guide plate 30 is disposed on one side of the turntable 20, and a lower side of the guide plate 30 is disposed. The separating groove 40 is formed in the center of the guiding plate 30, and a groove 301 of a proper length is formed in the center of the guiding plate 30, so that a part of the rotating plate 20 extends into the slot 301, and the guiding plate 30 is combined with a squeegee 50 on both sides of the slot 301 to scrape One side of the plate 50 is locked to the guide plate 30, and the other side abuts against the side of the turntable 20.

In practice, the conventional oil-water separator is assembled on the oil tank 60, and the motor 10 drives the turntable 20 to rotate, and the oil and impurities in the oil tank 60 are turned. The two sides of the turntable 20 are dipped, and are scraped off to the squeegee 50 as the turntable 20 rotates, and the scraped oil and impurities are guided to the guide plate 30, and then flow into the separation groove 40.

However, the above-mentioned oil-water separator uses the turntable 20 to absorb oil and impurities, and because the surface of the turntable 20 is smooth and flaky, the oil slick and impurities that can be smudged are very limited, so the scraping effect is not obvious. Even if the continuous circulation of oil and water separation will provide the inferior waste oil and water for mechanical processing, it will not only affect the quality of machining, but also damage the life of the processing tool, especially for the purification of waste oil water to meet the standard. The oil-water separator even needs to be turned on and off for operation throughout the day, which is very costly and needs to be improved. Moreover, since the scraping material of the squeegee 50 contains impurities, the scraping end surface of the squeegee 50 may be concave, so that a gap is formed between the squeegee 50 and the contact surface of the turntable 20, and the scraping effect is further improved. Poor, the more the effect of oil-water separation is reduced.

In addition, the patent case of the "Mine-Water Separation Structure" of China Patent Announcement No. M317285 mainly uses the motor drive drive wheel to rotate, the drive wheel drives the steel belt around it to circulate, and the steel belt extends down to the waste oil water. Moreover, the two sides of the steel strip are constrained to form an inner eight shape, whereby the steel strip can be moved in the waste oil water to increase the range of degreasing, and the other steel strip is scraped off by the scraper when the steel strip is recycled. .

However, the conventional oil-water separation structure still utilizes a smooth, thin steel sheet-like steel strip with oil slick, and its ability to absorb oil slick is still insufficient, and in order to effectively transmit the steel belt to the driving wheel power, the steel strip is subject to A pressing wheel suppresses it, which also affects the ability to separate oil and water. Therefore, it needs to be improved and innovated.

According to the above, it can be seen that the technical problem to be solved in the present invention is that, in view of the fact that the existing oil-water separation device has a sheet-like turntable or a steel strip which is inferior in the performance of oil slick and impurities, it can provide a lifting oil slick and The technology of the residue capacity, and effectively collect the oil and residue of the dipped belt in order to achieve the purpose of separating the oil and water in essence.

The technical solution adopted in the present invention to solve the above technical problem is: creating a water-oil separation device for installing above an oil water tank containing waste oil water, the oil-water separation device comprises a power source, a rotating component and an oil guiding groove; The source has a power shaft, and the main improvement is that the rotating component comprises at least one roller and one mesh belt, the roller is guided to the power shaft, and the roller is wound around the mesh belt, and the waste mesh extends below the mesh belt. In the oil water, and the oil guiding groove is fixed under the roller, and is actuated by the power source and the power shaft, so that the roller rotates, and the oil floating and residue of the oil tank are sucked up by the mesh belt, and dripped around the roller. In the oil guide. According to this, the ability to greatly enhance the oil slick and residue can be greatly improved to achieve the purpose of separating oil and water in essence.

Secondly, a heavy distribution wheel is arranged under the mesh belt, so that the mesh belt is rotated by the roller to be stably and cyclically conveyed. Moreover, a plate frame is fixed on the oil tank, and the power shaft is connected to a speed reducer, and the speed reducer is connected to the roller, and the speed reducer and the roller are respectively located on two sides of the plate frame.

In addition, the first horizontal shaft and the second shaft are horizontally fixed, and the first shaft and the second shaft are respectively located above the oil guiding groove, and the first axial direction is connected with a first scraping roller that can be connected to the roller. a second squeegee that can be connected to the inner side of the mesh belt is connected to the second axial direction, and the first squeegee and the second squeegee are respectively abutted to the roller and the mesh belt to scrape off the oil and residue. The scraping drops into the oil guiding groove.

Furthermore, the oil guiding groove is fixed to the plate frame, and the oil guiding groove is further connected to extend an outer guiding groove, and a space for providing the mesh belt between the oil guiding groove and the outer guiding groove is provided.

Therefore, it can be seen that the main purpose of this creation is to utilize the ability of the mesh belt to carry a large amount of oil and residue, so that the roller rotates and the oil and residue of the oil tank are sucked up by the mesh belt, and the roller is wound around the belt. Dropped in the oil guiding tank, which can effectively improve the separation effect of oil and water.

Another purpose of the present invention is to abut the roller and the mesh belt by the first squeegee and the second squeegee, so that the oil and residue attached to the roller and the mesh belt are scraped off and dripped into the oil guiding groove. The sticky notes are added to collect the oil and residue completely, which is convenient for improving the separation of oil and water.

(conventional example)

10‧‧‧ motor

20‧‧‧ Turntable

30‧‧‧Guideboard

301‧‧‧ slotting

40‧‧‧Separation tank

50‧‧‧Scraper

60‧‧‧ oil tank

(This creation example)

B‧‧‧ oil tank

B1‧‧‧Shelf

B2‧‧‧ first axis

B3‧‧‧second axis

A‧‧‧Water-water separation device

1‧‧‧Power source

11‧‧‧Power shaft

12‧‧‧Reducer

2‧‧‧Rotating components

21‧‧‧Roller

22‧‧‧Net belt

23‧‧‧Heavy matching wheel

3‧‧‧ oil guide

31‧‧‧outer channel

32‧‧‧Interval space

4‧‧‧First Scraper

5‧‧‧second scraper

The first figure is a combined three-dimensional structure diagram of an existing oil-water separation device.

The second figure is a combined three-dimensional structure of the present creation and a partial enlarged view thereof.

The third picture is the plane combination structure diagram of the creation.

The fourth picture is a schematic diagram of the operation of the creation at the time of implementation.

Please refer to the second and third figures. The oil-water separation device A of the present invention is mainly installed above an oil water tank B containing waste oil water. The oil-water separation device A comprises a power source 1, a rotating component 2 and an oil guiding groove. 3. A first squeegee 4 and a second squeegee 5; wherein a slab B1 is fixed above the oil sump B, and the power source 1 mainly has a power shaft 11 and the power shaft 11 is connected to a speed reducer 12 The rotating component 2 includes at least one roller 21 and a mesh belt 22, and the roller 21 is powered by the speed reducer 12 The mesh belt 22 can be wound into a metal mesh conveyor belt having a three-dimensional mesh, and the roller 21 is wound over the mesh belt 22, and the waste oil water of the oil tank B extends below the other mesh belt 22. A heavy distribution wheel 23 is disposed under the mesh belt 22, and a circulation loop is formed by the rotation of the roller 21; wherein the power source 1 is re-powered to the roller 21 via the power shaft 11, the speed reducer 12, and The reducer 12 and the roller 21 are respectively located on two sides of the frame B1.

The first oil shaft B2 and the second shaft B3 are horizontally fixed on the horizontal direction of the oil guide groove 3, and the first shaft B2 and the second shaft B3 are located above the oil guiding groove 3. The first shaft B2 is connected to a first squeegee 4 which can be connected to the roller 21, and the second shaft B3 is connected upwardly to a second squeegee 5 which can be connected to the inner side of the mesh belt 22. The plate 4 and the second squeegee 5 respectively abut against the inside of the roller 21 and the mesh belt 22 to scrape off the oil and residue, and the oil slick and the residue are scraped off and dropped into the oil guiding groove 3.

In addition, the oil guiding groove 3 is fixed to the frame B1, and the oil guiding groove 3 is further connected to extend an outer guiding groove 31, and a space 32 for accommodating the mesh belt 22 is disposed between the oil guiding groove 3 and the outer guiding groove 31.

When the structural improvement is carried out, please refer to the fourth figure, which is actuated by the power source 1 and the power shaft 11 to rotate the roller 21, so that the oil slick and the residue of the oil tank B are smeared upward by the mesh belt 22, and The oil and the residue are slid down the roller 21 through the roller 21 and dripped down to the oil guiding groove 3, wherein the oil and residue adhering to the roller 21 are dripped by the first squeegee 4 The oil and residue remaining in the oil guiding groove 3 and remaining around the roller 21 and remaining on the mesh belt 22 are scraped off by the second squeegee 5 and then dripped into the oil guiding groove 3, so that the oil can be completely removed. The oil floating on the mesh belt 22 and the residue are collected to the oil guiding tank 3.

According to the structural composition and implementation description, it can be seen that the mesh belt 22 has the characteristics of a three-dimensional mesh belt by the three-dimensional metal mesh belt, and can be coated with a large amount of oil and residue, thereby improving the function of separating the oil and water, and additionally using the After the scraper 4 scrapes off the mesh belt 22 around the roller 21, the oil and residue adhered to the roller 21, and further, the second scraper 5 scrapes off the oil and residue remaining on the mesh belt 22, so that the complete collection is completed. The mesh belt 22 is coated with the oil and residue to greatly improve the separation effect of the oil and water. Compared with the conventional use, it is impossible to scrape off the oil and residue. The creation effect is very significant, which not only improves the oil-water separation effect, but also shortens the purification. Time has certain effects on stabilizing processing quality and extending the service life of machining tools.

In summary, when the creation of the book is more practical and progressive than the existing device, it has industrial utilization, novelty and progress, and is in line with the new patent requirements. However, the above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. That is, the equal changes and modifications made by the patent application scope of this creation are covered by the scope of the creation patent.

B‧‧‧ oil tank

B1‧‧‧Shelf

B2‧‧‧ first axis

B3‧‧‧second axis

A‧‧‧Water-water separation device

1‧‧‧Power source

11‧‧‧Power shaft

12‧‧‧Reducer

2‧‧‧Rotating components

21‧‧‧Roller

22‧‧‧Net belt

23‧‧‧Heavy matching wheel

3‧‧‧ oil guide

31‧‧‧outer channel

32‧‧‧Interval space

4‧‧‧First Scraper

5‧‧‧second scraper

Claims (5)

An oil-water separation device is disposed above an oil sump for containing waste oil water, the oil-water separation device comprises a power source, a rotating component and an oil guiding groove, the power source has a power shaft, and the characteristic is The rotating assembly comprises at least a roller and a mesh belt, the rolling guide is connected to the power shaft, and the roller belt is wound around the mesh belt, and the lower portion of the mesh belt extends into the waste oil water of the oil tank. And the oil guiding groove is fixed under the roller, and is actuated by the power source and the power shaft to rotate the roller, so that the oil slick and the residue of the oil sump are dipped upward from the mesh belt, and The roller is dropped on the oil guiding groove. The oil-water separation device according to claim 1, wherein a heavy distribution wheel is disposed under the mesh belt. The oil-water separation device according to claim 2, wherein a tank is fixed above the oil tank, and the power shaft is connected to a reducer, and the speed reducer is re-powered to the roller, and the speed is reduced. The wheel and the roller are respectively located on two sides of the plate. The oil-water separation device of claim 3, wherein the plate is horizontally fixed with a first shaft and a second shaft, and the first shaft and the second shaft are located above the oil guiding groove. The first axial direction is connected to a first squeegee that can be connected to the roller, and the second axial direction is connected to a second squeegee that can be connected to the inner side of the mesh belt. The oil-water separation device of claim 4, wherein the oil guiding groove is fixed to the plate frame, and the oil guiding groove is further connected to extend an outer guiding groove, and between the oil guiding groove and the outer guiding groove Having a room for providing the mesh belt Space.