CN212651463U - High-precision three-stage treatment three-phase separator - Google Patents

Abstract

The utility model discloses a high accuracy tertiary treatment three-phase separator, including three-phase separator, connection pivot, the separator cabin body, first filter element group, first filtering mechanism, two-way stainless steel connecting pipe A, water inlet, device base, drain A and second filtering mechanism, be equipped with the separator cabin body in the three-phase separator, the inside one side in the separator cabin body is equipped with first filtering mechanism, the inside opposite side in the separator cabin body is equipped with second filtering mechanism, the water inlet is connected to first filtering mechanism bottom, the beneficial effects of the utility model are that: the utility model discloses when using, after the water droplet is gathered into big water droplet by breakdown of emulsion layer and coalescence layer, divide the oil filter core to block in its outside by nanometer interface, rely on gravity to subside in the bottom, realize oil, separation of water, clean jet fuel flows out from gas vent A, gas vent B and gas vent C after separating the filter core in the two-way stainless steel connecting pipe C on the third filter mechanism.

Description

High-precision three-stage treatment three-phase separator

Technical Field

The utility model belongs to the technical field of the three-phase separator, in particular to high accuracy tertiary treatment three-phase separator.

Background

Separators are machines that separate a mixed substance into two or more different substances, and are widely used in the industrial field.

However, the conventional three-phase separator has many defects in oil-water separation, such as incomplete separation, low separation precision, and difficult maintenance.

Disclosure of Invention

The utility model aims at providing a high accuracy tertiary treatment three-phase separator for solving above-mentioned problem.

In order to solve the above problem, the utility model provides a technical scheme:

the high-precision three-stage treatment three-phase separator comprises a three-phase separator, a connecting rotating shaft, a separator cabin body, a first filter element group, a first filter mechanism, a two-way stainless steel connecting pipe A, a water inlet, a device base, a drain A and a second filter mechanism, wherein the separator cabin body is arranged in the three-phase separator, the first filter mechanism is arranged on one side inside the separator cabin body, the second filter mechanism is arranged on the other side inside the separator cabin body, the water inlet is connected to the bottom of the first filter mechanism, the water inlet penetrates through the three-phase separator and is positioned on one side of the bottom of the three-phase separator, the bottom of the second filter mechanism is connected with the water outlet, the water outlet penetrates through the three-phase separator and is positioned on the other side of the bottom of the three-phase separator, the drain A is installed at the bottom of the three-phase, the three-phase separator bottom that drain A one side was kept away from to the delivery port is connected drain B, drain B and the separator cabin body intercommunication, the separator cabin body of second filter mechanism top is installed the third filter mechanism, the relief valve interface is installed at the three-phase separator top, gas vent C is installed at the three-phase separator top of relief valve interface one side, gas vent B is installed at the three-phase separator top of gas vent C one side, gas vent A is installed at the three-phase separator top of gas vent B one side, the device base is installed to the three-phase separator bottom.

Preferably, the first filtering mechanism is composed of a bidirectional stainless steel connecting pipe A and a plurality of first filter element groups, the bidirectional stainless steel connecting pipe A is of a single-row structure, and the first filtering mechanism is connected with the water inlet through the bidirectional stainless steel connecting pipe A.

Preferably, the second filtering mechanism comprises a bidirectional stainless steel connecting pipe B and a plurality of second filter element groups, the bidirectional stainless steel connecting pipe B is provided with a plurality of rows, and each bidirectional stainless steel connecting pipe B is provided with a plurality of second filter element groups.

Preferably, the third filtering mechanism is composed of a bidirectional stainless steel connecting pipe C and a third filter element group, and the third filter element group is installed on one side of the inner top of the separator cabin body through the bidirectional stainless steel connecting pipe C.

Preferably, the first filter element group, the second filter element group and the third filter element group are the same in structure and are respectively composed of a metal net, a central pipe, a dewatering cotton sleeve, an outer gathering end, an inner gathering end, a demulsifying layer and a filtering layer.

Preferably, the bidirectional stainless steel connecting pipe a, the bidirectional stainless steel connecting pipe B and the bidirectional stainless steel connecting pipe C are made of 2205 stainless steel materials.

Preferably, a sealing cabin door is installed on one side of the outside of the three-phase separator, the sealing cabin door is rotatably connected with the three-phase separator through a connecting rotating shaft, a rubber sealing ring is arranged at the joint of the sealing cabin door and the three-phase separator, and a round toughened glass window is arranged in the middle of the sealing cabin door.

Preferably, the safety valve interface, the exhaust port C, the exhaust port B and the exhaust port A are communicated with the separator cabin body, so that constant pressure and exhaust are facilitated.

The utility model has the advantages that:

when the utility model is used, when the oil-water mixture flows into the interior of the separator cabin from the water inlet, the oil-water mixture passes through the first filtering mechanism and the second filtering mechanism at one time, and the coalescing filter elements on the first filter element group and the second filter element group which correspond to each mechanism respectively have two functions of filtering solid particles and coalescing water drops, wherein the solid particles are blocked inside the coalescing filter elements on the first filter element group and the second filter element group by the filtering layer, so that solid-liquid separation is realized; after the small water drops are aggregated into large water drops by the demulsification layer and the coalescence layer, the large water drops are blocked outside by the nano interface oil separation filter element and are settled at the bottom by virtue of gravity, so that oil and water are separated, and clean jet fuel flows out from the exhaust port A, the exhaust port B and the exhaust port C after passing through the separation filter element in the bidirectional stainless steel connecting pipe C on the third filtering mechanism.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and accompanying drawings.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view taken along line A-A of the present invention;

FIG. 3 is a cut-away view of the utility model B-B;

fig. 4 is a top view of the internal structure of the present invention;

fig. 5 is a structure view of the first filter element assembly of the present invention.

In the figure: 1. a three-phase separator; 2. connecting the rotating shaft; 3. a separator tank; 4. a first filter element group; 5. a first filter mechanism; 6. a bidirectional stainless steel connecting pipe A; 7. a water inlet; 8. a device base; 9. a sewage draining outlet A; 10. a second filter mechanism; 11. a water outlet; 12. a sewage draining outlet B; 13. a bidirectional stainless steel connecting pipe B; 14. a third filter element group; 15. a second filter element group; 16. a bidirectional stainless steel connecting pipe C; 17. an exhaust port A; 18. an exhaust port B; 19. an exhaust port C; 20. a safety valve interface; 21. sealing the cabin door; 22. and a third filtering mechanism.

The specific implementation mode is as follows:

as shown in fig. 1 to 5, the following technical solutions are adopted in the present embodiment: a high-precision three-stage treatment three-phase separator comprises a three-phase separator 1, a connecting rotating shaft 2, a separator cabin 3, a first filter element group 4, a first filtering mechanism 5, a two-way stainless steel connecting pipe A6, a water inlet 7, a device base 8, a sewage discharge port A9 and a second filtering mechanism 10, wherein the three-phase separator 1 is internally provided with the separator cabin 3, one side inside the separator cabin 3 is provided with the first filtering mechanism 5, the other side inside the separator cabin 3 is provided with the second filtering mechanism 10, the bottom of the first filtering mechanism 5 is connected with the water inlet 7, the water inlet 7 penetrates through the three-phase separator 1 and is positioned on one side of the bottom of the three-phase separator 1, the bottom of the second filtering mechanism 10 is connected with a water outlet 11, the water outlet 11 penetrates through the three-phase separator 1 and is positioned on the other side of the bottom of the three-phase separator 1, the bottom of the three-phase separator 1 between the, drain outlet 11 is far away from 1 bottom connection drain B12 of three-phase separator on one side of drain A9, drain B12 communicates with the separator cabin 3, install third filter mechanism 22 in the separator cabin 3 of second filter mechanism 10 top, relief valve interface 20 is installed at three-phase separator 1 top, gas vent C19 is installed at 1 top of three-phase separator on one side of relief valve interface 20, gas vent B18 is installed at 1 top of three-phase separator on one side of gas vent C19, gas vent A17 is installed at 1 top of three-phase separator on one side of gas vent B18, device base 8 is installed to 1 bottom of three-phase separator.

Further, first filter mechanism 5 comprises two-way stainless steel connecting pipe A6 and a plurality of first filter element group 4, and two-way stainless steel connecting pipe A6 is single-row structure, and first filter mechanism 5 is connected with water inlet 7 through two-way stainless steel connecting pipe A6, is convenient for first filter mechanism 5's filtration separation work.

Furthermore, the second filtering mechanism 10 is composed of a bidirectional stainless steel connecting pipe B13 and a plurality of second filter element groups 15, the bidirectional stainless steel connecting pipe B13 is provided with a plurality of rows, and each bidirectional stainless steel connecting pipe B13 is provided with a plurality of second filter element groups 15, so that the second filtering mechanism 10 can conveniently filter and separate.

Further, the third filter mechanism 22 is composed of a two-way stainless steel connecting pipe C16 and a third filter element group 14, and the third filter element group 14 is installed at one side of the inner top of the separator chamber 3 through the two-way stainless steel connecting pipe C16, which is convenient for the last operation.

Furthermore, the first filter element group 4, the second filter element group 15 and the third filter element group 14 are the same in structure and are composed of a metal net, a central pipe, a dewatering cotton sleeve, an outer gathering end, an inner gathering end, a demulsifying layer and a filter layer, so that solid impurities can be effectively filtered, the filtering precision reaches 3-5 microns, small water drops in oil can be coalesced into large water drops, the oil separation efficiency of a subsequent nano interface net film is improved, and the nano interface net film has the characteristics of corrosion resistance, large pollutant carrying capacity and capability of being cleaned and reused for many times.

Furthermore, the bidirectional stainless steel connecting pipe A6, the bidirectional stainless steel connecting pipe B13 and the bidirectional stainless steel connecting pipe C16 are all made of 2205 stainless steel materials, so that the service life is prolonged.

Further, a sealing cabin door 21 is installed on one side of the outside of the three-phase separator 1, the sealing cabin door 21 is rotatably connected with the three-phase separator 1 through a connecting rotating shaft 2, a rubber sealing ring is arranged at the joint of the sealing cabin door 21 and the three-phase separator 1, and a round toughened glass window is arranged in the middle of the sealing cabin door 21, so that observation, disassembly and maintenance are facilitated.

Further, the safety valve interface 20, the exhaust port C19, the exhaust port B18 and the exhaust port a17 are all communicated with the separator chamber 3, so that constant pressure and air exhaust are facilitated.

Specifically, the method comprises the following steps: when the high-precision three-stage treatment three-phase separator is used, when an oil-water mixture flows into the separator cabin body 3 from the water inlet 7, the oil-water mixture passes through the first filtering mechanism 5 and the second filtering mechanism 10 at one time, and then the coalescing filter elements on the first filter element group 4 and the second filter element group 15 respectively corresponding to each mechanism have two effects of filtering solid particles and coalescing water drops, wherein the solid particles are blocked inside the coalescing filter elements on the first filter element group 4 and the second filter element group 15 by the filtering layers, so that solid-liquid separation is realized; after the small water drops are aggregated into large water drops by the demulsification layer and the coalescence layer, the large water drops are blocked outside by the nano interface oil separation filter element and settle at the bottom by means of gravity, so that oil and water separation is realized, clean jet fuel is separated from the filter element in a bidirectional stainless steel connecting pipe C16 on the third filtering mechanism 22 and then flows out of an air outlet A17, an air outlet B18 and an air outlet C19, wherein the first filtering mechanism 5 is composed of a bidirectional stainless steel connecting pipe A6 and a plurality of first filter element groups 4, the bidirectional stainless steel connecting pipe A6 is of a single-row structure, and the first filtering mechanism 5 is connected with a water inlet 7 through a bidirectional stainless steel connecting pipe A6, so that the filtering and separating work of the first filtering mechanism 5 is facilitated; the second filtering mechanism 10 is composed of a bidirectional stainless steel connecting pipe B13 and a plurality of second filter element groups 15, the bidirectional stainless steel connecting pipe B13 is provided with a plurality of rows, and each bidirectional stainless steel connecting pipe B13 is provided with a plurality of second filter element groups 15, so that the filtering and separating work of the second filtering mechanism 10 is facilitated; the third filtering mechanism 22 is composed of a bidirectional stainless steel connecting pipe C16 and a third filter element group 14, the third filter element group 14 is arranged at one side of the inner top of the separator cabin body 3 through the bidirectional stainless steel connecting pipe C16, so that the last step of operation is facilitated; the first filter element group 4, the second filter element group 15 and the third filter element group 14 are all composed of a metal net, a central pipe, a dewatering cotton sleeve, an outer gathering end, an inner gathering end, a demulsifying layer and a filter layer in the same structure, so that solid impurities can be effectively filtered, the filtering precision reaches 3-5 microns, small water drops in oil can be coalesced into large water drops, the oil separation efficiency of a subsequent nano interface net film is improved, and the nano interface net film has the characteristics of corrosion resistance, large pollutant carrying capacity and capability of being cleaned and reused for many times; the bidirectional stainless steel connecting pipe A6, the bidirectional stainless steel connecting pipe B13 and the bidirectional stainless steel connecting pipe C16 are all made of 2205 stainless steel materials, so that the service life is prolonged; a sealing cabin door 21 is arranged on one side of the outer part of the three-phase separator 1, the sealing cabin door 21 is rotatably connected with the three-phase separator 1 through a connecting rotating shaft 2, a rubber sealing ring is arranged at the joint of the sealing cabin door 21 and the three-phase separator 1, and a round toughened glass window is arranged in the middle of the sealing cabin door 21, so that observation, disassembly and assembly and maintenance are facilitated; the safety valve interface 20, the exhaust port C19, the exhaust port B18 and the exhaust port A17 are all communicated with the separator cabin body 3, so that constant pressure exhaust is facilitated.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above, and it should be understood by those skilled in the art that the present invention is not limited by the above embodiments, which are only illustrative, but also various changes and modifications may be made without departing from the spirit and scope of the present invention, which fall within the scope of the present invention as claimed, which is defined by the appended claims and their equivalents.

Claims (8)

1. High accuracy tertiary treatment three-phase separator, including three-phase separator (1), connection pivot (2), the separator cabin body (3), first filter element group (4), first filtering mechanism (5), two-way stainless steel connecting pipe A (6), water inlet (7), device base (8), drain A (9) and second filtering mechanism (10), its characterized in that: the separator comprises a three-phase separator body (1), a separator cabin body (3) is arranged in the three-phase separator body (1), a first filtering mechanism (5) is arranged on one side in the separator cabin body (3), a second filtering mechanism (10) is arranged on the other side in the separator cabin body (3), a water inlet (7) is connected to the bottom of the first filtering mechanism (5), the water inlet (7) penetrates through the three-phase separator (1) and is located on one side of the bottom of the three-phase separator (1), a water outlet (11) is connected to the bottom of the second filtering mechanism (10), the water outlet (11) penetrates through the three-phase separator (1) and is located on the other side of the bottom of the three-phase separator (1), a sewage discharge port A (9) is installed at the bottom of the three-phase separator (1) between the water inlet (7) and the water outlet (11), the sewage discharge port A (9) is communicated with the separator cabin body (3), the bottom of the three-phase separator (, drain B (12) and the separator cabin body (3) intercommunication, install third filter mechanism (22) in the separator cabin body (3) of second filter mechanism (10) top, relief valve interface (20) are installed at three-phase separator (1) top, gas vent C (19) are installed at three-phase separator (1) top of relief valve interface (20) one side, gas vent B (18) are installed at three-phase separator (1) top of gas vent C (19) one side, gas vent A (17) are installed at three-phase separator (1) top of gas vent B (18) one side, device base (8) are installed to three-phase separator (1) bottom.

2. The high precision three stage process three phase separator according to claim 1 wherein: first filtering mechanism (5) comprise two-way stainless steel connecting pipe A (6) and a plurality of first filter element group (4), two-way stainless steel connecting pipe A (6) are the single structure, just first filtering mechanism (5) are connected with water inlet (7) through two-way stainless steel connecting pipe A (6).

3. The high precision three stage process three phase separator according to claim 1 wherein: the second filtering mechanism (10) is composed of a bidirectional stainless steel connecting pipe B (13) and a plurality of second filter element groups (15), the bidirectional stainless steel connecting pipe B (13) is provided with a plurality of rows, and each bidirectional stainless steel connecting pipe B (13) is provided with a plurality of second filter element groups (15).

4. The high precision three stage process three phase separator according to claim 1 wherein: the third filtering mechanism (22) is composed of a bidirectional stainless steel connecting pipe C (16) and a third filter element group (14), and the third filter element group (14) is arranged on one side of the inner top of the separator cabin body (3) through the bidirectional stainless steel connecting pipe C (16).

5. The high precision three stage process three phase separator according to claim 1 wherein: the first filter element group (4), the second filter element group (15) and the third filter element group (14) are the same in structure and are composed of a metal net, a central pipe, a dewatering cotton sleeve, an outer gathering end, an inner gathering end, a demulsifying layer and a filtering layer.

6. The high precision three stage process three phase separator according to claim 1 wherein: the bidirectional stainless steel connecting pipe A (6), the bidirectional stainless steel connecting pipe B (13) and the bidirectional stainless steel connecting pipe C (16) are all made of 2205 stainless steel materials.

7. The high precision three stage process three phase separator according to claim 1 wherein: the three-phase separator is characterized in that a sealing cabin door (21) is installed on one side outside the three-phase separator (1), the sealing cabin door (21) is connected with the three-phase separator (1) in a rotating mode through a connecting rotating shaft (2), a rubber sealing ring is arranged at the connecting position of the sealing cabin door (21) and the three-phase separator (1), and a round toughened glass window is arranged in the middle of the sealing cabin door (21).

8. The high precision three stage process three phase separator according to claim 1 wherein: the safety valve interface (20), the exhaust port C (19), the exhaust port B (18) and the exhaust port A (17) are all communicated with the separator cabin body (3).

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