CN210302517U

CN210302517U - Oil-water separation device

Info

Publication number: CN210302517U
Application number: CN201921122063.9U
Authority: CN
Inventors: 李聪定; 宋杰; 薛正松; 吴高兴; 张学亮
Original assignee: Shanying International Holding Co Ltd
Current assignee: Shanying International Holding Co Ltd
Priority date: 2019-07-17
Filing date: 2019-07-17
Publication date: 2020-04-14
Anticipated expiration: 2029-07-17

Abstract

The utility model discloses an oil-water separation device, which comprises a separation cavity mechanism and a base mechanism, wherein the separation cavity mechanism comprises a separation cavity upper cavity, a first filter sieve, a grid plate, a second filter sieve, a support column, a separation cavity top cover, a feed inlet, a separation cavity lower cavity, a drain pipe, an air inlet valve, a sealing cover handle, a pressure gauge, a slag discharge port, a filter and a first oil discharge pipe; through filtering many times, it can't avoid impurity such as a large amount of water, pappus directly to get into the oil station to have solved when current oil-water separator is used for the papermaking trade, can cause the oil inefficacy, and the oil that became invalid can lead to equipment bearing life greatly reduced's such as dryer deflector roll technical problem.

Description

Oil-water separation device

Technical Field

The utility model relates to a separator specifically is an oil-water separator.

Background

The paper sheet drying of the paper machine is carried out in a closed high-temperature environment (a closed air hood), the wet paper sheet with the water content of about 50 percent is dried through high-temperature steam, damp and hot gas with large water content can be generated in the drying process, the damp and hot gas can enter a lubricating system along with the gap between a bearing seat and a shaft head of a drying part in the paper machine operation, a large amount of condensation deposition water is generated in an oil station of the lubricating system of the drying part and mixed with lubricating oil, the oil product can be invalid, the invalid oil product can greatly reduce the service life of equipment bearings such as a drying cylinder guide roller and the like, the oil changing times and the maintenance cost are increased, therefore, how to reduce the condensation deposition water in the oil station is a difficult problem in the whole paper making industry, the general method of the industry is that a drain valve and an electric heating system are additionally arranged at the bottom of the oil, The impurities such as paper wool and the like directly enter the oil station.

The Chinese invention patent CN104310528A discloses a full-automatic oil-water separator, which comprises an oil-water separating device, wherein the oil-water separating device comprises an oil-water separating cavity, the oil-water separating cavity is provided with an oil-water separating drain outlet, an oil drain outlet, a water inlet and a water outlet, a partition board is arranged in the oil-water separating cavity, the oil-water separating cavity is divided into two cavities, namely an upper cavity and a lower cavity, and the upper cavity and the lower cavity are connected through a water conveying pipe; the water inlet is positioned on the side wall of the lower cavity, and the water outlet is positioned on the side wall of the upper cavity; a drain outlet is formed in the bottom of the lower cavity and serves as an oil-water separation drain outlet, and a first valve is arranged at the oil-water separation drain outlet; the oil drain port is positioned on the side wall of the upper cavity, and a second valve is arranged at the oil drain port.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical problem, the utility model provides an oil-water separation device.

The utility model discloses the technical problem who solves:

(1) when the existing oil-water separation device is used in the papermaking industry, a large amount of impurities such as water, paper wool and the like can not be prevented from directly entering an oil station, so that the oil product is invalid, and the service life of equipment bearings such as a drying cylinder guide roller and the like is greatly reduced due to the invalid oil product;

(2) the inside impurity clearance degree of difficulty of oil water separator is very big, need spend the long time and empty the processing, needs maintainer cost a large amount of working hours and operating time to handle, maintains, extravagant cost.

The purpose of the utility model can be realized by the following technical scheme:

an oil-water separation device comprises a separation cavity mechanism and a base mechanism, wherein the separation cavity mechanism is fixed above the base mechanism and is in contact with the base mechanism;

the separation cavity mechanism comprises a separation cavity upper cavity, a first filter sieve, a grid plate, a second filter sieve, support columns, a separation cavity top cover, a feed inlet, a separation cavity lower cavity, a drain pipe, an air inlet valve, a sealing cover handle, a pressure gauge, a slag discharge port, a filter and a first oil discharge pipe, wherein the first filter sieve, the grid plate and the second filter sieve are all arranged inside the separation cavity upper cavity, the first filter sieve, the second filter sieve and the grid plate are sequentially arranged from top to bottom, the outer surface of the separation cavity upper cavity is provided with three support columns in a surrounding manner, the separation cavity top cover is arranged at the top end of the separation cavity upper cavity, the separation cavity upper cavity and the separation cavity top cover are fixed through buckles, the feed inlet and the sealing cover handle are arranged on the separation cavity top cover, the feed inlet penetrates through the separation cavity top cover, the sealing cover handle is arranged at the central position of the separation, the lower cavity of the separation cavity is fixed and communicated with the lower part of the upper cavity of the separation cavity, the air inlet pipe is arranged on the lateral surface of the upper cavity of the separation cavity, the air inlet pipe penetrates through the upper cavity of the separation cavity, the upper surface of the air inlet pipe is provided with an air inlet valve, the pressure gauge is fixed on the lateral surface of the upper cavity of the separation cavity, the deslagging port is arranged on the lateral surface of the bottom end of the upper cavity of the separation cavity, the first oil discharge pipe is arranged on the lateral surface of the upper cavity of the separation cavity, the first oil discharge pipe is higher than the first filter screen, the bottom end of the lower cavity of;

the base mechanism comprises a support frame outer ring, a motor, support plates, a base bottom plate, a fixed stop block, a second oil discharge pipe, an oil inlet pipe, a movable baffle plate and an oscillator, wherein the support frame outer ring, the support plates and the fixed stop block are all arranged above the base bottom plate;

the bottom end of the filter is connected with the second oil discharge pipe through an oil inlet pipe, and the bottom end surface of the cavity under the separation cavity is in contact with the upper surface of the outer ring of the support frame.

Furthermore, the first filter sieve and the grid plate are fixed on the inner surface of the upper cavity of the separation cavity, the grid plate is obliquely fixed on the inner surface of the upper cavity of the separation cavity, and the second filter sieve is fixed on the lower surface of the first filter sieve.

Further, the cavity cooperates with the separation chamber top cap on the separation chamber, arranges cinder notch and grid plate parallel and level, and cavity side surface on the separation chamber is run through to first oil drain pipe one end, and the filter is connected to the first oil drain pipe other end.

Furthermore, the top end of the supporting plate is in surface contact with the outer side of the outer ring of the supporting frame, the bottom end of the supporting plate is fixed to the upper surface of the base bottom plate, the top end of the fixed stop block is in surface contact with the bottom end of the outer ring of the supporting frame, and the bottom end of the fixed stop block is fixed to the upper surface of the base bottom plate.

The utility model has the advantages that:

(1) the utility model relates to an oil-water separation device, which comprises a separation cavity mechanism and a base mechanism, wherein the separation cavity mechanism is fixed above the base mechanism, liquid to be separated is added into a cavity on the separation cavity through a feed inlet, the liquid is filtered through a first filter sieve and a second filter sieve in the falling process, so that the liquid and oil components in the liquid are easier to stay on the first filter sieve and the second filter sieve, the liquid is continuously added, oil particles float on the water surface after the collision of slow flow and the filter sieves for a certain time, large oil particles quickly float on the water surface, and the small oil particles are treated by the first filter sieve and the second filter sieve in the flowing process, the small oil particles are firstly stuck on the filter sieves, when the oil particles collide with a certain large buoyancy, the oil automatically floats on the water surface, the oil is more gathered on the water surface, and when the oil layer is thick enough, the oil layer automatically overflows and is discharged through a first oil discharge pipe, by utilizing the principle that the specific gravity of oil is lower than that of water, condensation deposition water, impurities and paper wool in the recycled oil product can be removed after the deposition treatment of the separation device, good lubricating oil quality is obtained again and the lubricating oil returns to the oil station for reuse, and the technical problems that when the conventional oil-water separation device is used in the papermaking industry, a large amount of water, paper wool and other impurities cannot be prevented from directly entering the oil station, the oil product is invalid, and the invalid oil product can cause the service life of equipment bearings such as a drying cylinder guide roller and the like to be greatly reduced are solved through multiple times of filtration;

(2) the separated oil is discharged from the first oil discharge pipe, the oil is filtered again by the filter and then discharged into the second oil discharge pipe through the oil inlet pipe, the other end of the second oil discharge pipe is connected with the movable baffle, the movable baffle can move in the vertical direction, the movable baffle is pulled open to discharge the oil, after the oil layer is discharged, the water discharge pipe is opened to discharge the separated water, and an inclined grid plate arranged in the device can isolate a large amount of impurities such as paper wool and the like and takes out the impurities through a slag discharge port; the utility model discloses still set up the oscillator, the oscillator work is gone up cavity and separation chamber cavity oscillation down to the separation chamber, can be to residual oil, impurity such as water and pappus is cleared up, prevent residual oil, impurity such as water and pappus still exists in the device, do not need to spend the longer time to empty the processing, can prevent most water and impurity in advance inside getting into the oil station, reduce personnel intensity of labour and activity time for follow-up clearance and maintenance, it is very big to have solved the inside impurity clearance degree of difficulty of oil water separator, need spend the longer time to empty the processing, need the maintainer to spend a large amount of working hours and activity time to handle, maintain, the technical problem of cost is wasted.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of an oil-water separator according to the present invention;

FIG. 2 is a schematic structural view of the separation chamber mechanism in FIG. 1;

FIG. 3 is a plan view of the separation chamber mechanism of FIG. 1;

fig. 4 is a schematic structural diagram of the base mechanism in fig. 1.

In the figure: 1. a separation chamber mechanism; 11. an upper cavity of the separation cavity; 111. a first filter sieve; 112. a grid plate; 113. a second filter sieve; 114. a support pillar; 12. a separation chamber top cover; 121. a feed inlet; 13. a lower cavity of the separation cavity; 131. a drain pipe; 14. an air inlet pipe; 141. an intake valve; 15. a handle of the sealing cover; 16. a pressure gauge; 17. a slag discharge port; 18. a filter; 19. a first oil drain pipe; 2. a base mechanism; 21. a support frame outer ring; 22. a motor; 23. a support plate; 24. a base floor; 25. fixing a stop block; 26. a second oil drain pipe; 261. an oil inlet pipe; 262. a movable baffle; 27. an oscillator.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the oil-water separator of the present invention includes a separation chamber mechanism 1 and a base mechanism 2, the separation chamber mechanism 1 is fixed above the base mechanism 2, and the separation chamber mechanism 1 contacts the base mechanism 2;

as shown in fig. 1-3, the separation chamber mechanism 1 includes a separation chamber upper chamber 11, a first filter sieve 111, a grid plate 112, a second filter sieve 113, support pillars 114, a separation chamber top cover 12, a feed inlet 121, a separation chamber lower chamber 13, a drain pipe 131, an air inlet pipe 14, an air inlet valve 141, a seal cover handle 15, a pressure gauge 16, a slag discharge port 17, a filter 18, and a first drain pipe 19, wherein the first filter sieve 111, the grid plate 112, and the second filter sieve 113 are all installed inside the separation chamber upper chamber 11, the first filter sieve 111, the second filter sieve 113, and the grid plate 112 are sequentially installed from top to bottom, the first filter sieve 111 and the grid plate 112 are fixed on the inner surface of the separation chamber upper chamber 11, the grid plate 112 is obliquely fixed on the inner surface of the separation chamber upper chamber 11, the second filter sieve 113 is fixed on the lower surface of the first filter sieve 111, the outer surface of the separation chamber upper chamber 11, a separation cavity top cover 12 is arranged at the top end of a separation cavity upper cavity 11, the separation cavity upper cavity 11 and the separation cavity top cover 12 are fixed through a buckle, the separation cavity upper cavity 11 is matched with the separation cavity top cover 12, a feed inlet 121 and a sealing cover handle 15 are arranged on the upper surface of the separation cavity top cover 12, the feed inlet 121 penetrates through the separation cavity top cover 12, the sealing cover handle 15 is arranged at the central position of the upper surface of the separation cavity top cover 12, a separation cavity lower cavity 13 is arranged below the separation cavity upper cavity 11, the separation cavity lower cavity 13 is fixed and communicated with the lower part of the separation cavity upper cavity 11, an air inlet pipe 14 is arranged on the side surface of the separation cavity upper cavity 11, the air inlet pipe 14 penetrates through the separation cavity upper cavity 11, an air inlet valve 141 is arranged on the upper surface of the air inlet pipe 14, a pressure gauge 16 is fixed on the side surface of the separation cavity upper cavity, a first oil drain pipe 19 is arranged on the side surface of the upper cavity 11 of the separation cavity, the position of the first oil drain pipe 19 is higher than that of the first filter sieve 111, one end of the first oil drain pipe 19 penetrates through the side surface of the upper cavity 11 of the separation cavity, the other end of the first oil drain pipe 19 is connected with a filter 18, a water drain pipe 131 is arranged at the bottom end of the lower cavity 13 of the separation cavity, one end of the water drain pipe 131 penetrates through the bottom end of the lower cavity 13 of the separation cavity, and the;

as shown in fig. 1 and 4, the base mechanism 2 includes a support frame outer ring 21, a motor 22, a support plate 23, a base bottom plate 24, a fixed stop 25, a second oil discharge pipe 26, an oil inlet pipe 261, a movable stop 262 and an oscillator 27, the support frame outer ring 21, the support plate 23 and the fixed stop 25 are all installed above the base bottom plate 24, the outer side surface of the support frame outer ring 21 is fixed by the two support plates 23, the top end of the support plate 23 contacts with the outer side surface of the support frame outer ring 21, the bottom end of the support plate 23 is fixed on the upper surface of the base bottom plate 24, the bottom end of the support frame outer ring 21 is fixed by the two fixed stops 25, the top end of the fixed stop 25 contacts with the bottom end of the support frame outer ring 21, the bottom end of the fixed stop 25 is fixed on the upper surface of the base bottom plate 24, the oscillator 27 is installed inside, the other end of the second oil discharge pipe 26 is connected with a movable baffle 262, the movable baffle 262 can move in the vertical direction, the oil inlet pipe 261 is installed above the second oil discharge pipe 26, and the bottom end of the oil inlet pipe 261 penetrates through the upper surface of the second oil discharge pipe 26;

as shown in fig. 1 to 4, the bottom end of the strainer 18 is connected to the second drain pipe 26 through the oil inlet pipe 261, and the bottom end surface of the separation chamber lower chamber 13 is in contact with the upper surface of the support frame outer ring 21.

The utility model relates to an oil-water separator working process and principle as follows:

firstly, a first filter sieve 111, a second filter sieve 113 and a grid plate 112 are sequentially installed from top to bottom, the first filter sieve 111 and the grid plate 112 are fixed on the inner surface of an upper cavity 11 of a separation cavity, the grid plate 112 is obliquely fixed on the inner surface of the upper cavity 11 of the separation cavity, the second filter sieve 113 is fixed on the lower surface of the first filter sieve 111, a support frame outer ring 21, support plates 23 and fixed stoppers 25 are all installed above a base bottom plate 24, the outer side surface of the support frame outer ring 21 is fixed through the two support plates 23, the bottom end of the support frame outer ring 21 is fixed through the two fixed stoppers 25, an oscillator 27 is installed inside the support frame outer ring 21, the bottom end of a filter 18 is connected with a second oil discharge pipe 26 through an oil inlet pipe 261, and the bottom end surface of a lower;

secondly, liquid to be separated is added into the upper cavity 11 of the separation cavity through the feed inlet 121, the liquid passes through the first filter sieve 111 and the second filter sieve 113 in the falling process and is filtered through the two layers of filter sieves, so that the liquid and oil components in the liquid are easier to stay on the first filter sieve 111 and the second filter sieve 113, along with the continuous liquid adding, oil particles float on the water surface after the collision between slow flow and the filter sieves for a certain time, large oil particles quickly float on the water surface, and tiny oil particles are treated by the first filter sieve 111 and the second filter sieve 113 in the flowing process, the tiny oil particles are firstly adhered to the filter sieves, automatically float on the water surface when colliding with a certain large buoyancy force, and the oil is more gathered on the water surface and automatically overflows and is discharged through the first oil discharge pipe 19 when the oil layer is thick enough;

thirdly, the separated oil is discharged from the first oil discharge pipe 19, the oil is filtered again through the filter 18 and then discharged into the second oil discharge pipe 26 through the oil inlet pipe 261, the other end of the second oil discharge pipe 26 is connected with the movable baffle 262, the movable baffle 262 can move in the vertical direction, the movable baffle 262 is pulled open to discharge the oil, after the oil layer is discharged, the water discharge pipe 131 is opened to discharge the separated water, and impurities such as water, paper wool and the like can be isolated by the inclined grid plate 112 arranged in the device and taken out through the slag discharge port 17;

fourthly, the oscillator 27 is turned on, the oscillator 27 is operated to oscillate the upper cavity 11 of the separation cavity and the lower cavity 13 of the separation cavity, impurities such as residual oil, water and paper wool can be cleaned, the impurities such as the residual oil, the water and the paper wool are prevented from still existing in the device, the emptying treatment is not needed to be performed in a long time, most of the water and the impurities can be prevented from entering the oil station in advance, and the labor intensity and the operation time of personnel are reduced for subsequent cleaning and maintenance.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only, and various modifications, additions and substitutions as described for the specific embodiments described herein may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims

1. An oil-water separation device is characterized by comprising a separation cavity mechanism (1) and a base mechanism (2), wherein the separation cavity mechanism (1) is fixed above the base mechanism (2), and the separation cavity mechanism (1) is in contact with the base mechanism (2);

the separation cavity mechanism (1) comprises a separation cavity upper cavity (11), a first filter sieve (111), a grid plate (112), a second filter sieve (113), support columns (114), a separation cavity top cover (12), a feed inlet (121), a separation cavity lower cavity (13), a drain pipe (131), an air inlet pipe (14), an air inlet valve (141), a seal cover handle (15), a pressure gauge (16), a slag discharge port (17), a filter (18) and a first oil discharge pipe (19), wherein the first filter sieve (111), the grid plate (112) and the second filter sieve (113) are all arranged inside the separation cavity upper cavity (11), the first filter sieve (111), the second filter sieve (113) and the grid plate (112) are sequentially arranged from top to bottom, the outer surface of the separation cavity upper cavity (11) is provided with three support columns (114) in a surrounding manner, the separation cavity top cover (12) is arranged at the top end of the separation cavity upper cavity (11), the separation cavity upper cavity (11) and the separation cavity top cover (12) are fixed through a buckle, the upper surface of the separation cavity top cover (12) is provided with a feed inlet (121) and a sealing cover handle (15), the feed inlet (121) penetrates through the separation cavity top cover (12), the sealing cover handle (15) is installed at the central position of the upper surface of the separation cavity top cover (12), the separation cavity lower cavity (13) is installed below the separation cavity upper cavity (11), the separation cavity lower cavity (13) is fixed and communicated with the lower part of the separation cavity upper cavity (11), an air inlet pipe (14) is installed on the side surface of the separation cavity upper cavity (11), the air inlet pipe (14) penetrates through the separation cavity upper cavity (11), the upper surface of the air inlet pipe (14) is provided with an air inlet valve (141), a pressure gauge (16) is fixed on the side surface of the separation cavity upper cavity (11), and a slag discharge port (17), a first oil drain pipe (19) is arranged on the side surface of the upper cavity (11) of the separation cavity, the first oil drain pipe (19) is higher than the first filter sieve (111), a water drain pipe (131) is arranged at the bottom end of the lower cavity (13) of the separation cavity, one end of the water drain pipe (131) penetrates through the bottom end of the lower cavity (13) of the separation cavity, and the other end of the water drain pipe (131) extends out of the separation cavity mechanism (1);

the base mechanism (2) comprises a support frame outer ring (21), a motor (22), support plates (23), a base bottom plate (24), a fixed stop block (25), a second oil discharge pipe (26), an oil inlet pipe (261), a movable baffle plate (262) and an oscillator (27), wherein the support frame outer ring (21), the support plates (23) and the fixed stop block (25) are all arranged above the base bottom plate (24), the outer side surface of the support frame outer ring (21) is fixed through the two support plates (23), the bottom end of the support frame outer ring (21) is fixed through the two fixed stop blocks (25), the oscillator (27) is arranged inside the support frame outer ring (21), the motor (22) is arranged on one side of the support frame outer ring (21), the motor (22) is connected with the oscillator (27), one end of the second oil discharge pipe (26) is sealed and connected with the oscillator (27), the other end of the second oil discharge pipe (26) is connected with, the oil inlet pipe (261) is installed above the second oil discharge pipe (26), and the bottom end of the oil inlet pipe (261) penetrates through the upper surface of the second oil discharge pipe (26);

the bottom end of the filter (18) is connected with a second oil discharge pipe (26) through an oil inlet pipe (261), and the surface of the bottom end of the lower cavity (13) of the separation cavity is in contact with the upper surface of the outer ring (21) of the support frame.

2. The oil-water separator according to claim 1, wherein the first filter screen (111) and the mesh plate (112) are fixed on the inner surface of the upper chamber (11) of the separation chamber, the mesh plate (112) is obliquely fixed on the inner surface of the upper chamber (11) of the separation chamber, and the second filter screen (113) is fixed on the lower surface of the first filter screen (111).

3. The oil-water separator according to claim 1, characterized in that the upper cavity (11) of the separation cavity is matched with the top cover (12) of the separation cavity, the slag discharge port (17) is flush with the grid plate (112), one end of the first oil discharge pipe (19) penetrates through the side surface of the upper cavity (11) of the separation cavity, and the other end of the first oil discharge pipe (19) is connected with the filter (18).

4. The oil-water separator according to claim 1, wherein the top of the support plate (23) is in contact with the outer surface of the outer ring (21) of the support frame, the bottom of the support plate (23) is fixed to the upper surface of the base plate (24), the top of the fixed stopper (25) is in contact with the surface of the bottom of the outer ring (21) of the support frame, and the bottom of the fixed stopper (25) is fixed to the upper surface of the base plate (24).