CN117380354A

CN117380354A - Multistage gel dispersion reinforced polymer and surfactant compound oil displacement preparation device

Info

Publication number: CN117380354A
Application number: CN202311585278.5A
Authority: CN
Inventors: 杨世刚; 梁利宁
Original assignee: Shaanxi Zhongli Hechuang Energy Technology Co ltd
Current assignee: Shaanxi Zhongli Hechuang Energy Technology Co ltd
Priority date: 2023-11-24
Filing date: 2023-11-24
Publication date: 2024-01-12

Abstract

The invention relates to the field of preparation devices, in particular to a multistage gel dispersion reinforced polymer and surfactant compound oil displacement preparation device; technical problems: the material is directly input into the millstone structure for processing, when the oversized material enters the millstone structure, the millstone structure is blocked, and after the oversized material enters the millstone structure, a larger reaction force is generated on the millstone structure, so that the millstone structure is worn; the technical scheme is as follows: the multistage gel dispersion reinforced polymer and surfactant compound oil displacement preparation device comprises a screening component and a crushing component; compared with the prior art, the grinding disc structure is directly processed by inputting materials into the grinding disc structure, the grinding disc structure is blocked and is worn, the device screens and pulverizes the materials in advance, so that the materials entering the grinding disc structure meet the processing requirements of the grinding disc structure, the grinding disc structure is protected, and meanwhile, the processing efficiency and the processing effect of the grinding disc structure are improved.

Description

Multistage gel dispersion reinforced polymer and surfactant compound oil displacement preparation device

Technical Field

The invention relates to the field of preparation devices, in particular to a multistage gel dispersion reinforced polymer and surfactant compound oil displacement preparation device.

Background

A colloid mill is a device capable of shearing, grinding and stirring; the grinding is realized through the relative movement of tooth-shaped inclined planes of the grinding disks, wherein one grinding disk rotates at a high speed, and the other grinding disk is kept static, so that materials experience high-speed shearing force and friction force between the tooth-shaped inclined planes; meanwhile, due to the complex forces of high-frequency vibration, high-speed vortex and the like, the materials also undergo the processes of grinding, emulsifying, crushing, mixing, dispersing and homogenizing; in the preparation process of the gel dispersion, a colloid mill is needed; in the use process of the colloid mill, materials are directly input into the mill structure for processing, and the method for generating gel dispersion is adopted, when the oversized materials enter the mill structure, the mill structure can be blocked, and after the oversized materials enter the inside of the mill structure, larger reaction force can be generated on the mill structure, so that the mill structure is worn greatly, and the service life of the mill structure is shortened.

Disclosure of Invention

In order to overcome the problems that in the using process of a colloid mill, materials are directly input into a mill structure for processing and gel dispersion is generated, when the oversized materials enter the mill structure, the mill structure is blocked, and after the oversized materials enter the inside of the mill structure, larger reaction force is generated on the mill structure, so that the mill structure is worn greatly and the service life of the mill structure is shortened.

The technical scheme of the invention is as follows: the utility model provides a compound oil displacement preparation facilities of polymer and surfactant polymer is reinforceed to multistage gel dispersion, including the storage silo, screening subassembly, broken subassembly, the mill subassembly, drive assembly, cooling module, adjusting part and cleaning module, screening subassembly sets up in the below of storage silo, screening subassembly and storage silo link up and are connected, broken subassembly sets up in one side of screening subassembly, broken subassembly and screening subassembly link up and are connected, the mill subassembly sets up in the below of screening subassembly, drive assembly sets up in the below of mill subassembly, drive assembly is connected with the mill subassembly, cooling module sets up in the inside of mill subassembly, adjusting part sets up in the inside of mill subassembly, cleaning module sets up in the inside of mill subassembly.

Preferably, the raw materials for producing the multi-stage gel dispersion reinforced polymer and surfactant compound flooding oil can be stored by arranging the storage bin, the materials which are not in line with the size in the solid raw materials can be screened by arranging the screening component, the materials which are not in line with the size can be conveyed into the crushing component, the materials which are not in line with the size can be crushed by arranging the crushing component, the grinding disk component can process the materials, the raw materials can be processed by arranging the grinding disk component, the multi-stage gel dispersion reinforced polymer and surfactant compound flooding oil can be produced, the grinding disk component can be driven by arranging the driving component, the grinding disk component can be cooled by arranging the cooling component, the protection of the grinding disk component can be realized, the grinding disk component can be regulated by arranging the regulating component, the different processing effects can be realized, and the grinding disk component can be cleaned by arranging the cleaning component.

As the preference, screening subassembly is including screening storehouse, sieve and bobbing machine, screening storehouse sets up in the below of storage silo, screening storehouse and storage silo through connection, the sieve sets up in the inside of screening storehouse, the bobbing machine sets up in one side of screening storehouse, the sieve mesh of multiunit evenly distributed has been seted up on the sieve, the sieve slope sets up, when using, can install and fix the sieve through setting up screening storehouse, can screen the raw materials that accords with the size through setting up the sieve, will not accord with the material of size and screen out, carry crushing subassembly inside, can drive the sieve through setting up the bobbing machine and shake, thereby increase the motion of material on the sieve, thereby increase the screening speed of material, make the inside material of entering mill subassembly can process through the mill subassembly.

As the preference, crushing subassembly is including connecting the storehouse, smash motor and crushing blade, connect the storehouse setting in one side of screening storehouse, connect storehouse and screening storehouse link up and be connected, smash the storehouse setting in one side of connecting the storehouse, smash storehouse and connect storehouse link up and be connected, smash the bottom of storehouse and pass through the pipeline and be connected with screening storehouse link up, smash the motor setting on the top surface of smashing the storehouse, smash the blade setting in the inside of smashing the storehouse, smash the one end of blade and smash the output fixed connection of motor, when using, through setting up the connection storehouse, can carry the inside of smashing the storehouse with the material that sieves out, can drive crushing blade through setting up crushing motor and rotate, thereby can utilize crushing blade to smash too big material, make the size of material accord with the processing requirement of mill subassembly, prevent to jam mill subassembly, increase machining efficiency and machining effect.

Preferably, the mill subassembly is including preparing the storehouse, move the mill and decide the mill, the preparation storehouse sets up in the below of screening storehouse, preparation storehouse and screening storehouse through connection, move the mill setting in the inside of preparation storehouse, it sets up to round platform shape structure to move the mill, decide the mill setting in the inside of preparation storehouse, decide the mill setting in the top of moving the mill, set up the awl groove on the bottom surface of deciding the mill, move the mill setting in the inside of awl groove, when using, can install and fix moving the mill and deciding the mill through setting up the preparation storehouse, can cut, grind and high-speed stirring to the material through setting up moving the mill and deciding the mill, thereby form the jelly dispersion.

As the preference, drive assembly is including the drive shaft, driving motor, installing support and sealing washer, the installing support is arranged in the below in preparation storehouse, installing support and preparation storehouse fixed connection, driving motor sets up on the bottom surface in preparation storehouse, driving motor's output and the one end fixed connection of drive shaft, the other end of drive shaft runs through preparation storehouse, the other end and the movable millstone fixed connection of drive shaft, the sealing washer sets up in the outside of drive shaft, when using, can drive the drive shaft through setting up driving motor and rotate, can drive the movable millstone through setting up the drive shaft and rotate, thereby realize the drive to millstone assembly, can support the device through setting up the installing support, can seal the junction in drive shaft and preparation storehouse through setting up the sealing washer, prevent to leak.

As the preference, cooling module is including cooling channel, inlet tube and outlet pipe, and cooling channel sets up to spiral structure, and cooling channel sets up in the inside of deciding the mill, and the one end of inlet tube is connected with cooling channel's one end link up, and the one end of inlet tube is connected with cooling channel's the other end, inlet tube and outlet pipe are elastic material and make, when using, can be to last input cooling water in the cooling channel through setting up inlet tube and outlet pipe to realize deciding the mill cooling that dispels the heat, thereby can dispel the heat to moving the mill cooling, thereby can dispel the heat to moving the mill and decide the mill protection, can prevent simultaneously that the preparation in-house temperature is too high, leads to the inside material of preparation storehouse rotten.

As the preference, adjusting part is including accommodate motor, accommodate the lead screw and gag lever post, accommodate the lead screw and set up on the top surface in preparation storehouse, set up threaded hole on the top surface of deciding the mill, accommodate the lead screw and set up in the inside of threaded hole, accommodate the one end of lead screw and accommodate the output fixed connection of motor, the gag lever post sets up into the multiunit, the gag lever post sets up in the inside in preparation storehouse, set up multiunit spacing hole on the top surface of deciding the mill, the one end and the inside top surface fixed connection in preparation storehouse of gag lever post, the other end of gag lever post sets up in the inside in spacing hole, when using, can drive accommodate the lead screw through threaded hole and decide mill threaded connection, and the gag lever post is spacing to decide the mill, thereby when gag lever post is rotatory, drive and go up and down, thereby can be to decide the mill with the distance between the mill, thereby make and decide the mill between the mill, thereby produce different size clearance, thereby reach different machining effects, and the size of clearance is progressively reduced, make gradually the machining shaping, the machining effect is increased.

Preferably, the cleaning assembly comprises a cleaning pipeline, a pressurizing pump and a spray head, wherein the spray heads are arranged in a plurality of groups, the spray heads are arranged in the screening bin, the spray heads are obliquely downwards arranged, one end of the cleaning pipeline is connected with the spray heads, the pressurizing pump is arranged on the cleaning pipeline, and when the cleaning assembly is used, the interior of the cleaning pipeline can be pressurized by the pressurizing pump, so that the interior of the spray heads is pressurized, clear water conveyed by the cleaning pipeline is sprayed out by the spray heads, and the movable millstone and the fixed millstone are washed.

The invention has the beneficial effects that:

1. compared with the prior art, the method for directly inputting materials into the millstone structure to process and generate jelly dispersion is adopted, when the oversized materials enter the millstone structure, the millstone structure is blocked, and after the oversized materials enter the millstone structure, larger reaction force is generated on the millstone structure, so that the millstone structure is worn out greatly, the service life of the millstone structure is shortened, and the device screens and pulverizes the materials in advance, so that the materials entering the millstone structure meet the processing requirements of the millstone structure, the millstone structure is protected, and meanwhile, the processing efficiency and the processing effect of the millstone structure are improved;

2. the screening bin is arranged to install and fix the screening plate, the screening plate is arranged to screen the raw materials meeting the size, the materials which do not meet the size are screened out and conveyed to the inside of the crushing assembly to be screened, the vibrating machine is arranged to drive the screening plate to vibrate, so that the movement of the materials on the screening plate is increased, the screening speed of the materials is increased, the materials entering the inside of the grinding plate assembly can be processed through the grinding plate assembly, the connecting bin is arranged to convey the materials screened out through the screening plate to the inside of the crushing bin, the crushing motor is arranged to drive the crushing blade to rotate, and therefore the crushing blade can be utilized to crush the oversized materials, the size of the materials meets the processing requirement of the grinding plate assembly, the grinding plate assembly is prevented from being blocked, and the processing efficiency and the processing effect are improved;

3. can drive adjusting screw through setting up accommodate motor and rotate, adjusting screw passes through the screw hole and decides mill threaded connection, and the gag lever post is spacing to decide the mill, thereby when the gag lever post is rotatory, drive decide the mill go up and down, thereby can be to deciding the mill and moving the distance between the mill and adjust, thereby make and move the mill and decide the mill between produce the clearance of equidimension, thereby reach different machining effects, and can control the size of clearance progressively diminish, make gradually machine-shaping, increase the machining effect.

Drawings

FIG. 1 shows a schematic three-dimensional structure of a multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device of the invention;

FIG. 2 shows a schematic side perspective view of a multi-stage gel dispersion strengthened polymer and surfactant composite flooding preparation device according to the invention;

FIG. 3 shows a schematic diagram of a cross-sectional perspective structure of a multi-stage gel dispersion strengthened polymer and surfactant composite flooding preparation device according to the invention;

FIG. 4 shows an enlarged schematic view of the structure within the circular region 001 of FIG. 3;

FIG. 5 shows an enlarged schematic view of the structure within the circular region 002 of FIG. 3;

FIG. 6 shows another schematic cross-sectional perspective view of a multi-stage gel dispersion strengthened polymer and surfactant complex flooding preparation device of the invention;

FIG. 7 shows an enlarged schematic view of the configuration within the circular region 003 of FIG. 6;

reference numerals illustrate: 1. a storage bin; 2. a screening component; 3. a crushing assembly; 4. a millstone assembly; 5. a drive assembly; 6. a cooling assembly; 7. an adjustment assembly; 8. cleaning the assembly; 201. screening bins; 202. a sieve plate; 203. a vibrator; 301. a connecting bin; 302. crushing the bin; 303. a crushing motor; 304. a crushing blade; 401. preparing a bin; 402. a movable millstone; 403. a fixed grinding disc; 501. a drive shaft; 502. a driving motor; 503. a mounting bracket; 504. a seal ring; 601. a cooling channel; 602. a water inlet pipe; 603. a water outlet pipe; 701. adjusting a motor; 702. adjusting a screw rod; 703. a limit rod; 704. a threaded hole; 705. a limiting hole; 801. cleaning the pipeline; 802. a pressurizing pump; 803. a spray head.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Referring to fig. 1-2, embodiments of the present invention are provided: the utility model provides a multistage gel dispersion strengthening polymer and surfactant complex preparation facilities that drive reservoir oil, including storage silo 1, screening subassembly 2, broken subassembly 3, mill subassembly 4, actuating unit 5, cooling unit 6, adjusting part 7 and cleaning subassembly 8, screening subassembly 2 sets up in the below of storage silo 1, screening subassembly 2 and storage silo 1 link up and be connected, broken subassembly 3 sets up in one side of screening subassembly 2, broken subassembly 3 and screening subassembly 2 link up and are connected, mill subassembly 4 sets up in the below of screening subassembly 2, actuating unit 5 sets up in the below of mill subassembly 4, actuating unit 5 is connected with mill subassembly 4, cooling unit 6 sets up in the inside of mill subassembly 4, adjusting part 7 sets up in the inside of mill subassembly 4, cleaning subassembly 8 sets up in the inside of mill subassembly 4.

Referring to fig. 3-5, in this embodiment, the screening assembly 2 includes a screening bin 201, a screen plate 202 and a vibrator 203, the screening bin 201 is disposed below the storage bin 1, the screening bin 201 is connected with the storage bin 1 in a penetrating manner, the screen plate 202 is disposed inside the screening bin 201, the vibrator 203 is disposed at one side of the screening bin 201, a plurality of groups of evenly distributed screen holes are formed in the screen plate 202, the screen plate 202 is obliquely disposed, when in use, the screen plate 202 can be installed and fixed by the setting of the screening bin 201, raw materials conforming to the size can be screened by the setting of the screen plate 202, materials not conforming to the size are screened out and conveyed into the crushing assembly 3 for screening, the screen plate 202 can be driven to vibrate by the setting of the vibrator 203, so as to increase the movement of the materials on the screen plate 202, so that the screening speed of the materials entering the millstone assembly 4 can be processed by the millstone assembly 4, the crushing assembly 3 comprises a connecting bin 301, a crushing bin 302, a crushing motor 303 and a crushing blade 304, wherein the connecting bin 301 is arranged on one side of the screening bin 201, the connecting bin 301 is in through connection with the screening bin 201, the crushing bin 302 is arranged on one side of the connecting bin 301, the crushing bin 302 is in through connection with the connecting bin 301, the bottom end of the crushing bin 302 is in through connection with the screening bin 201 through a pipeline, the crushing motor 303 is arranged on the top surface of the crushing bin 302, the crushing blade 304 is arranged in the crushing bin 302, one end of the crushing blade 304 is fixedly connected with the output end of the crushing motor 303, when the crushing assembly is used, materials screened out by the screen plate 202 can be conveyed into the crushing bin 302 through the arrangement of the connecting bin 301, the crushing blade 304 can be driven to rotate through the arrangement of the crushing motor 303, so that the excessive materials can be crushed by the aid of the crushing blade 304, make the size of material accord with the processing requirement of mill subassembly 4, prevent to block up mill subassembly 4, increase machining efficiency and machining effect, mill subassembly 4 is including preparation storehouse 401, move mill 402 and decide mill 403, preparation storehouse 401 sets up in the below of screening storehouse 201, preparation storehouse 401 and screening storehouse 201 link up and be connected, move the mill 402 and set up in the inside of preparation storehouse 401, move the mill 402 and set up to round platform shape structure, decide the mill 403 and set up in the inside of preparation storehouse 401, decide the mill 403 and set up in the top of moving the mill 402, set up the awl groove on the bottom surface of deciding the mill 403, move the mill 402 and set up in the inside of awl groove, when using, can install and fix moving mill 402 and deciding the mill 403 through setting up preparation storehouse 401, can cut, grind and high-speed stirring to the material through setting up moving mill 402 and deciding the mill 403, thereby form the jelly dispersion.

Referring to fig. 6-7, in this embodiment, the driving assembly 5 includes a driving shaft 501, a driving motor 502, a mounting bracket 503 and a sealing ring 504, the mounting bracket 503 is disposed below the preparation bin 401, the mounting bracket 503 is fixedly connected with the preparation bin 401, the driving motor 502 is disposed on the bottom surface of the preparation bin 401, the output end of the driving motor 502 is fixedly connected with one end of the driving shaft 501, the other end of the driving shaft 501 penetrates through the preparation bin 401, the other end of the driving shaft 501 is fixedly connected with the movable grinding disc 402, the sealing ring 504 is disposed outside the driving shaft 501, when in use, the driving motor 502 is disposed to drive the driving shaft 501 to rotate, the movable grinding disc 402 is disposed to rotate, thereby realizing driving of the grinding disc assembly 4, the mounting bracket 503 is disposed to support the device, the sealing ring 504 is disposed to seal the joint of the driving shaft 501 and the preparation bin 401, prevent leaking, cooling module 6 is including cooling channel 601, inlet tube 602 and outlet pipe 603, and cooling channel 601 sets up to spiral structure, and cooling channel 601 sets up in the inside of deciding mill 403, and the one end of inlet tube 602 is connected with cooling channel 601's one end link up, and inlet tube 602's one end is connected with cooling channel 601's the other end, inlet tube 602 and outlet pipe 603 are made for elastic material, when using, can last the input cooling water in to cooling channel 601 through setting up inlet tube 602 and outlet pipe 603 to realize deciding mill 403 and dispel the heat the cooling, thereby can dispel the heat the cooling to moving mill 402, thereby can dispel the heat the protection to moving mill 402 and deciding mill 403, can prevent simultaneously that the interior material of preparation storehouse 401 is rotten, and adjusting part 7 is including accommodate motor 701 The adjusting screw 702 and the spacing rod 703, the adjusting motor 701 is arranged on the top surface of the preparation bin 401, the threaded hole 704 is formed in the top surface of the fixed grinding disc 403, the adjusting screw 702 is arranged in the threaded hole 704, one end of the adjusting screw 702 is fixedly connected with the output end of the adjusting motor 701, the spacing rod 703 is arranged into a plurality of groups, the spacing rod 703 is arranged in the preparation bin 401, a plurality of groups of spacing holes 705 are formed in the top surface of the fixed grinding disc 403, one end of the spacing rod 703 is fixedly connected with the inner top surface of the preparation bin 401, the other end of the spacing rod 703 is arranged in the spacing holes 705, the adjusting screw 702 can be driven to rotate by the adjusting motor 701, the adjusting screw 702 is in threaded connection with the fixed grinding disc 403 through the threaded hole 704, and the spacing rod 703 is used for limiting the fixed grinding disc 403, so that the distance between the fixed grinding disc 403 and the movable grinding disc 402 can be adjusted, gaps of different sizes are generated between the movable grinding disc 402 and the fixed grinding disc 403, the different machining effects are achieved, the size of the gaps can be controlled to be gradually reduced, the size of the pressurizing nozzle 803 is gradually arranged to be used, the pressurizing nozzle 803 is gradually arranged in the pressurizing nozzle 803, the pressurizing nozzle is arranged in the pressurizing nozzle 803, and the pressurizing nozzle is used for cleaning the pipe 803, and the pipe is used for cleaning the pipe 803, the pipe is set up and the pipe is set up to be used for cleaning the pipe 803, and the pipe is used, the pipe is set up and the pipe is used for cleaning, and the pipe is 803 is set up and the pipe is used and the pipe is 803 and the pipe is cleaned.

When the material screening machine works, firstly, materials are added into the storage bin 1, the screening bin 201 is used for installing and fixing the screen plate 202, the screen plate 202 is used for screening raw materials which are in accordance with the size, the materials which are not in accordance with the size are screened out and conveyed into the crushing assembly 3 for screening, the vibrating machine 203 is used for driving the screen plate 202 to vibrate, so that the movement of the materials on the screen plate 202 is increased, the screening speed of the materials is increased, and the materials entering the grinding disc assembly 4 are processed through the grinding disc assembly 4;

the materials screened out by the screen plate 202 are conveyed into the crushing bin 302 by the connecting bin 301, and the crushing motor 303 drives the crushing blade 304 to rotate, so that the excessive materials are crushed by the crushing blade 304, the size of the materials meets the processing requirement of the millstone assembly 4, the millstone assembly 4 is prevented from being blocked, and the processing efficiency and the processing effect are improved;

the driving motor 502 is utilized to drive the driving shaft 501 to rotate, the driving shaft 501 is utilized to drive the movable millstone 402 to rotate, thus driving of the millstone assembly 4 is realized, the mounting bracket 503 is utilized to support the device, the sealing ring 504 is utilized to seal the joint of the driving shaft 501 and the preparation bin 401 to prevent leakage, the preparation bin 401 is utilized to mount and fix the movable millstone 402 and the fixed millstone 403, and the movable millstone 402 and the fixed millstone 403 are utilized to shear, grind and stir materials at high speed, thus forming jelly dispersion;

meanwhile, cooling water is continuously input into the cooling channel 601 by utilizing the water inlet pipe 602 and the water outlet pipe 603, so that the fixed grinding disc 403 is subjected to heat dissipation and cooling, the movable grinding disc 402 and the fixed grinding disc 403 are subjected to heat dissipation and protection, and meanwhile, the material in the preparation bin 401 is prevented from deteriorating due to overhigh temperature in the preparation bin 401;

utilize accommodate motor 701 to drive adjusting screw 702 and rotate, adjusting screw 702 passes through screw hole 704 and decides mill 403 threaded connection, and gag lever post 703 is spacing to decide mill 403, thereby when gag lever post 703 is rotatory, drive decide mill 403 go up and down, thereby adjust the distance between deciding mill 403 and moving mill 402, thereby make and move mill 402 and decide the clearance of producing different sizes between the mill 403, thereby reach different machining effects, and the size of control clearance progressively diminishes, make gradually the machine-shaping, increase the machining effect, and utilize force (forcing) pump 802 to pressurize in the wash pipe 801, thereby pressurize in shower nozzle 803, utilize shower nozzle 803 to spout the clear water of wasing pipe 801 transport, wash moving mill 402 and deciding mill 403.

Through the steps, raw materials for producing the multi-stage gel dispersion reinforced polymer and surfactant compound flooding oil are stored by using the storage bin 1, materials which are not in line with the size in the solid raw materials are screened by using the screening component 2, the materials which are not in line with the size are conveyed into the crushing component 3, the materials which are not in line with the size are crushed by using the crushing component 3, so that the millstone component 4 processes the materials, the raw materials are processed by using the millstone component 4, the multi-stage gel dispersion reinforced polymer and surfactant compound flooding oil material is produced, the millstone component 4 is driven by using the driving component 5, the millstone component 4 is cooled by using the cooling component 6, the millstone component 4 is protected by using the adjusting component 7, different processing effects are achieved, and the millstone component 4 is cleaned by using the cleaning component 8.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims

1. The multi-stage gel dispersion reinforced polymer and surfactant compound oil displacement preparation device comprises a storage bin (1); the method is characterized in that: still including screening subassembly (2), broken subassembly (3), mill subassembly (4), actuating unit (5), cooling module (6), adjusting part (7) and cleaning module (8), screening subassembly (2) set up in the below of storage silo (1), screening subassembly (2) link up with storage silo (1), broken subassembly (3) set up in one side of screening subassembly (2), broken subassembly (3) link up with screening subassembly (2), mill subassembly (4) set up in the below of screening subassembly (2), actuating unit (5) set up in the below of mill subassembly (4), actuating unit (5) are connected with mill subassembly (4), cooling module (6) set up in the inside of mill subassembly (4), adjusting part (7) set up in the inside of mill subassembly (4), cleaning module (8) set up in the inside of mill subassembly (4).

2. The multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device according to claim 1, characterized in that: screening subassembly (2) is including screening storehouse (201), sieve (202) and bobbing machine (203), screening storehouse (201) set up in the below of storage silo (1), screening storehouse (201) link up with storage silo (1), inside screening storehouse (201) is set up in sieve (202), bobbing machine (203) set up in one side of screening storehouse (201), the sieve mesh of multiunit evenly distributed has been seted up on sieve (202), sieve (202) slope setting.

3. The multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device according to claim 2, characterized in that: crushing subassembly (3) is including connecting storehouse (301), smash storehouse (302), smash motor (303) and crushing blade (304), connect storehouse (301) and set up in one side of screening storehouse (201), connect storehouse (301) and screening storehouse (201) link up and be connected, smash storehouse (302) and set up in one side of connecting storehouse (301), smash storehouse (302) and connect storehouse (301) link up and be connected, the bottom of smashing storehouse (302) is passed through the pipeline and is link up with screening storehouse (201), smash motor (303) and set up on the top surface of smashing storehouse (302), smash blade (304) set up in the inside of smashing storehouse (302), smash the one end of blade (304) and the output fixed connection of smashing motor (303).

4. The multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device according to claim 2, characterized in that: the grinding disc assembly (4) comprises a preparation bin (401), a movable grinding disc (402) and a fixed grinding disc (403), wherein the preparation bin (401) is arranged below the screening bin (201), the preparation bin (401) is in through connection with the screening bin (201), the movable grinding disc (402) is arranged inside the preparation bin (401), the movable grinding disc (402) is arranged into a circular truncated cone-shaped structure, the fixed grinding disc (403) is arranged inside the preparation bin (401), the fixed grinding disc (403) is arranged above the movable grinding disc (402), a conical groove is formed in the bottom surface of the fixed grinding disc (403), and the movable grinding disc (402) is arranged inside the conical groove.

5. The multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device according to claim 4, wherein the device is characterized in that: the driving assembly (5) comprises a driving shaft (501), a driving motor (502), a mounting bracket (503) and a sealing ring (504), wherein the mounting bracket (503) is arranged below the preparation bin (401), the mounting bracket (503) is fixedly connected with the preparation bin (401), the driving motor (502) is arranged on the bottom surface of the preparation bin (401), the output end of the driving motor (502) is fixedly connected with one end of the driving shaft (501), the other end of the driving shaft (501) penetrates through the preparation bin (401), the other end of the driving shaft (501) is fixedly connected with the movable grinding disc (402), and the sealing ring (504) is arranged outside the driving shaft (501).

6. The multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device according to claim 4, wherein the device is characterized in that: the cooling assembly (6) comprises a cooling channel (601), a water inlet pipe (602) and a water outlet pipe (603), wherein the cooling channel (601) is in a spiral structure, the cooling channel (601) is arranged in the fixed grinding disc (403), one end of the water inlet pipe (602) is connected with one end of the cooling channel (601) in a penetrating manner, one end of the water inlet pipe (602) is connected with the other end of the cooling channel (601), and the water inlet pipe (602) and the water outlet pipe (603) are made of elastic materials.

7. The multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device according to claim 4, wherein the device is characterized in that: the adjusting assembly (7) comprises an adjusting motor (701), an adjusting screw (702) and a limiting rod (703), wherein the adjusting motor (701) is arranged on the top surface of the preparation bin (401), a threaded hole (704) is formed in the top surface of the fixed grinding disc (403), the adjusting screw (702) is arranged in the threaded hole (704), one end of the adjusting screw (702) is fixedly connected with the output end of the adjusting motor (701), the limiting rod (703) is arranged in a plurality of groups, the limiting rod (703) is arranged in the preparation bin (401), a plurality of groups of limiting holes (705) are formed in the top surface of the fixed grinding disc (403), one end of the limiting rod (703) is fixedly connected with the inner top surface of the preparation bin (401), and the other end of the limiting rod (703) is arranged in the limiting holes (705).

8. The multi-stage gel dispersion strengthened polymer and surfactant compound flooding preparation device according to claim 2, characterized in that: the cleaning assembly (8) comprises a cleaning pipeline (801), a pressurizing pump (802) and a spray head (803), wherein the spray heads (803) are arranged in a plurality of groups, the spray head (803) is arranged in the screening bin (201), the spray head (803) is obliquely downwards arranged, one end of the cleaning pipeline (801) is connected with the spray head (803), and the pressurizing pump (802) is arranged on the cleaning pipeline (801).