CN111957240A

CN111957240A - Production equipment and use method of nano efficient viscosity-reducing emulsion for oil exploitation

Info

Publication number: CN111957240A
Application number: CN202011153341.4A
Authority: CN
Inventors: 孙金龙; 冯新永; 张荣德
Original assignee: Dongying Chenying Petroleum Technology Service Co ltd
Current assignee: Dongying Tengrui Petroleum Technology Co.,Ltd.
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2020-11-20
Anticipated expiration: 2040-10-26
Also published as: CN111957240B

Abstract

The invention discloses production equipment and a use method of a nano efficient viscosity-reducing emulsion for oil exploitation, wherein the production equipment comprises a bottom plate and a movable plate connected above the bottom plate in a lifting manner; a material mixing barrel is symmetrically and rotatably connected above the movable plate, an intermediate box is fixedly connected to the upper surface of the bottom plate and communicated with the material mixing barrel, a soft telescopic pipe is communicated with an outlet of the intermediate box, an L-shaped plate is fixedly connected to one end of the soft telescopic pipe, a hard material discharging pipe is fixedly connected to the L-shaped plate and communicated with the soft telescopic pipe; the device comprises a base plate, a rotating block, a loading plate, a transparent plate, a feeding hole and an elastic rubber ring, wherein the rotating block is rotatably connected above the base plate, the rotating block is connected with the loading plate in a turnover mode, the loading plate is locked with a charging box, the charging box is provided with the transparent plate, the charging box is provided with the feeding hole, and the side wall of the feeding hole is fixedly connected with the elastic rubber ring.

Description

Production equipment and use method of nano efficient viscosity-reducing emulsion for oil exploitation

Technical Field

The invention relates to the technical field of emulsion production equipment, in particular to production equipment and a using method of a nano efficient viscosity-reducing emulsion for oil exploitation.

Background

With the development of petroleum production, the implementation of chemical oil displacement and chemical production increasing measures is increasingly paid attention and researched by people. Surfactants are widely used as the most common development tool for enhanced oil recovery. In the field of oil field development, due to two groups of hydrophilic group and lipophilic agent in a molecular structure system, the hydrophilic group and the lipophilic agent play a decisive role in reducing the surface tension of the system and improving the crude oil recovery. The activation performance of the surfactant can greatly reduce the interfacial tension of oil-water two phases in the stratum, and the sweep efficiency and the oil washing efficiency in the displacement process are improved. The reduction of interfacial tension makes the residual oil more likely to aggregate into fluid in the pores, increases the mobility of the residual oil in the pores to some extent, and eliminates or reduces the influence of formation resistance on the fluid and the adsorption force of the pores on the residual oil. Thereby achieving the purpose of oil-water migration. The emulsifying effect of the surfactant can greatly reduce the viscosity of the thick oil, so that the surfactant can be used in cold recovery of the thick oil.

With the increase of the depth and complexity of geological conditions, high temperature and high salt and the viscosity of crude oil all put higher requirements on the surfactant. And the formation water lock phenomenon and the near-wellbore zone adsorption phenomenon, which severely restrict the implementation effect of the surfactant.

In order to solve the above problems, research and development personnel have conducted intensive studies. The nano efficient viscosity-reducing emulsion can enter deep stratum and fine cracks to exert effects due to the nano scale. Meanwhile, the nano efficient viscosity reduction emulsion has the characteristics of good stability, adsorption resistance and the like, and plays an increasingly important role in crude oil exploitation and yield increase. For example, a nanoemulsion with an average particle size of 24.7nm is described in the article of energy chemical industry 2016, volume 6, month 37, and phase 3, and can achieve an ultra-low interfacial tension of the order of 10-3mN/m with crude oil. Patent CN 110964494a discloses a nano emulsion, which can be used in composite binary flooding of oil field with the current polymer. The existing nanometer efficient viscosity reduction emulsion is obtained by compounding, but the stirring effect of the existing mixing equipment is not good, and further improvement is needed.

Disclosure of Invention

The invention aims to provide production equipment and a use method of a nanometer efficient viscosity-reducing emulsion for oil exploitation, which aim to solve the problem that the existing production equipment of the nanometer efficient viscosity-reducing emulsion is poor in stirring effect and inconvenient to stir for the second time.

In order to achieve the purpose, the invention provides the following technical scheme:

a production device of nano high-efficiency viscosity-reducing emulsion for oil exploitation comprises a bottom plate and a movable plate connected above the bottom plate in a lifting manner;

a material mixing barrel is symmetrically and rotatably connected above the movable plate, an intermediate box is fixedly connected to the upper surface of the bottom plate and communicated with the material mixing barrel, a soft telescopic pipe is communicated with an outlet of the intermediate box, an L-shaped plate is fixedly connected to one end of the soft telescopic pipe, a hard material discharging pipe is fixedly connected to the L-shaped plate and communicated with the soft telescopic pipe;

the feeding device is characterized in that a rotating block is rotatably connected above the bottom plate, the rotating block is connected with a loading plate in a turnover mode, a loading box is locked on the loading plate, a transparent plate is arranged on the loading box, a feeding hole is formed in the loading box, an elastic rubber ring is fixedly connected to the side wall of the feeding hole, and the elastic rubber ring is matched with the hard discharging pipe.

As a further scheme of the invention: the bottom plate is symmetrically and fixedly connected with side plates, the side plates are connected with sliding plates in a sliding mode, first driving motors are fixedly connected onto the side plates, driving shafts of the first driving motors are fixedly connected with threaded rods, the threaded rods are in threaded connection with the sliding plates, one ends of the sliding plates are elastically connected with U-shaped clamping plates, the end portions of the sliding plates are located in the U-shaped clamping plates, when the positions of the sliding plates in the vertical direction need to be adjusted, the first driving motors work to achieve rotation of the threaded rods, due to the fact that the threaded rods are in threaded connection with the sliding plates, the sliding plates are moved in the rotating process of the threaded rods, and the positions of the sliding plates are adjusted in;

the side plate is provided with a sliding chute for sliding connection of the sliding plate, and the sliding plate can conveniently move relative to the side plate through the arrangement of the sliding chute;

the movable plate clamping device is characterized in that a groove is formed in the sliding plate, a spring is fixedly connected in the groove, a fixed rod is fixedly connected to one end of the spring, one end of the fixed rod penetrates through the groove and is fixedly connected with the U-shaped clamping plate, before the movable plate is installed between the sliding plates as required, a worker manually pushes the U-shaped clamping plate, then the movable plate is placed between the U-shaped clamping plates, the U-shaped clamping plate is manually loosened, and due to the effect of the spring, the movable plate is moved, and the end portion of the movable plate is clamped in the U-shaped.

As a further scheme of the invention: the double-shaft motor is fixedly connected to the bottom plate, a driving shaft of the double-shaft motor is fixedly connected with the mixing barrel, a supporting seat for rotatably supporting the mixing barrel is fixedly connected to the bottom plate, and when the double-shaft motor drives the mixing barrel to rotate, the mixing barrel can be conveniently rotated above the bottom plate under the action of the supporting seat;

the opening part threaded connection of compounding bucket tip has the sprue, and the staff manually rotates the sprue, makes the sprue dismantle from the compounding bucket, is convenient for to the compounding bucket in the raw materials for the mixture.

As a further scheme of the invention: the outer circumferential side wall of the mixing barrel is fixedly connected with an annular plate, the inner side wall of the supporting seat is rotatably connected with a bearing roller matched with the annular plate, and the mixing barrel can be conveniently rotated through the matching of the bearing roller and the annular plate;

fixedly connected with box body on the fly leaf, fixedly connected with dwang on the lateral wall of compounding bucket, the drive shaft of dwang and double-shaft motor all passes the box body and is connected with first gear, the box body is connected with the second gear, the second gear cooperatees with first gear, and the double-shaft motor during operation because the rotation of compounding bucket is realized in the cooperation of first gear and second gear, realizes the misce bene to the material in the compounding bucket at compounding bucket pivoted in-process.

As a further scheme of the invention: the side wall of the box body is fixedly connected with a first hydraulic rod, the movable end of the first hydraulic rod is fixedly connected with a first U-shaped connecting plate, the first gear is fixedly connected with a rotating shaft, one end of the rotating shaft penetrates through the side wall of the first U-shaped connecting plate and extends to the other side of the first U-shaped connecting plate, the driving shaft of the rotating rod and the double-shaft motor penetrates through the side wall of the box body and is fixedly connected with a second hydraulic rod, the movable end of the second hydraulic rod is fixedly connected with a rectangular rod, one end of the rectangular rod is inserted on the rotating shaft, when the rotating rod, the double-shaft motor driving shaft and the rotating shaft need to be connected, the first hydraulic rod works to realize the movement of the first U-shaped connecting plate, the position of the first gear is adjusted in the moving process of the first U-shaped connecting plate, then the second hydraulic rod works to realize the movement of the rectangular rod, and when one end of the rectangular rod, the connection between the rotating rod and the driving shaft and the rotating shaft of the double-shaft motor is realized;

be provided with the continuous board of second U-shaped in the box body, the second gear wheel rotates to be connected in the continuous inboard of second U-shaped, fixedly connected with connecting rod on the continuous board of second U-shaped, the lateral wall of box body is passed and is extended to the outside of box body to the one end of connecting rod, fixedly connected with third hydraulic stem on the lateral wall of box body, the expansion end and the connecting rod fixed connection of third hydraulic stem, when need not pass through one of them compounding bucket of double-shaft motor drive, the removal of connecting rod is realized in the work of third hydraulic stem, realizes the removal of the continuous board of second U-shaped at the in-process that the connecting rod removed, through the removal that the continuous board of second U-shaped realized the second gear, when not meshing between second gear and the first gear, the compounding bucket can not rotate when double-shaft motor during operation promptly.

As a further scheme of the invention: rotate on the circumference lateral wall of compounding bucket and be connected with annular storage board, annular storage board is provided with sealed the pad with the junction of compounding bucket, the intercommunication has first hose on the middle box, communicate through annular storage board between first hose and the compounding bucket, because annular storage board mixes the bucket rotation relatively, because the sealed effect of filling up has guaranteed the leakproofness of the junction of annular storage board and compounding bucket simultaneously.

As a further scheme of the invention: fixedly connected with horizontal plate on the lateral wall of middle box, fixedly connected with inserted bar on the L shaped plate, the one end of inserted bar is inserted and is established on the horizontal plate, and when the L shaped plate need not remove, the staff inserts the one end of inserted bar and establishes on the horizontal plate, the placing of the L shaped plate of being convenient for.

As a further scheme of the invention: the rotary table is characterized in that a vertical plate is fixedly connected to the bottom plate, a second driving motor is fixedly connected to the side wall of the vertical plate, a driving shaft of the second driving motor is fixedly connected with the rotating block, and the second driving motor works to facilitate rotation of the rotating block, so that the position of the rotating block is adjusted.

As a further scheme of the invention: the turning block is fixedly connected with a turning motor, a driving shaft of the turning motor is fixedly connected with the bearing plate, the turning motor works to realize the rotation of the bearing plate, and the position of the bearing plate is adjusted in the rotating process of the bearing plate.

As a further scheme of the invention: the loading plate is characterized in that fourth hydraulic rods are fixedly connected to the two ends of the loading plate, locking plates are fixedly connected to the movable ends of the fourth hydraulic rods, locking rods are fixedly connected to the side walls of the locking plates, one ends of the locking rods are inserted into the side walls of the loading box, when the loading box needs to be locked on the loading plate, the fourth hydraulic rods work to achieve movement of the locking plates, the locking plates are moved through the locking plates, then the loading box is placed between the two locking plates, the fourth hydraulic rods work to achieve movement of the locking plates, and when one ends of the locking rods are inserted into the loading box, the loading box is locked on the loading plate.

The use method of the production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation comprises the following steps:

when the mixing barrel is used, the plugging block is manually rotated to be detached from the mixing barrel, so that the mixing raw materials can be conveniently filled into the mixing barrel, and then the plugging block is reversely rotated to be installed on the mixing barrel;

the first driving motor works to realize rotation of the threaded rod, the threaded rod is in threaded connection with the sliding plate, so that the sliding plate moves in the rotation process of the threaded rod, the position of the movable plate is adjusted in the moving process of the sliding plate, and the material in the material mixing barrel is prevented from flowing into the middle box when the material mixing barrel is lower than the middle box;

when the double-shaft motor works, the rotation of the mixing barrel is realized due to the matching of the first gear and the second gear, and the uniform mixing of materials in the mixing barrel is realized in the rotating process of the mixing barrel;

when one of the mixing barrels is not required to be driven by the double-shaft motor, the third hydraulic rod works to realize the movement of the connecting rod, the movement of the second U-shaped connecting plate is realized in the moving process of the connecting rod, the movement of the second gear is realized through the second U-shaped connecting plate, and when the second gear is not meshed with the first gear, the mixing barrels cannot rotate when the double-shaft motor works;

the fourth hydraulic rod works to realize the movement of the locking plates, the locking plates are driven to move through the locking plates, then the loading box is placed between the two locking plates, the fourth hydraulic rod works to realize the movement of the locking plates, and when one end of the locking rod is inserted on the loading box, the loading box is locked on the loading plate;

the second driving motor works to realize the rotation of the rotating block, the position of the charging box is adjusted in the working process of the rotating block, the turnover motor works to adjust the position of the charging box, so that the charging box is positioned below the middle box, the hard discharging pipe is inserted into the feeding hole of the charging box, and the locking of the hard discharging pipe is realized due to the action of the elastic rubber ring;

the first driving motor works to realize rotation of the threaded rod, the threaded rod is in threaded connection with the sliding plate, so that the sliding plate is moved in the rotation process of the threaded rod, and the position of the movable plate is adjusted in the moving process of the sliding plate, so that the material in the material mixing barrel is higher than the middle box, and the material can conveniently flow into the material charging box from the middle box;

the transparent plate of the charging box penetrates through the stirring condition of emulsion in the charging box, if the emulsion in the charging box is not uniformly stirred, the first driving motor works to realize the rotation of the threaded rod, the threaded rod is in threaded connection with the sliding plate, so that the sliding plate moves in the rotating process of the threaded rod, and the position of the movable plate is adjusted in the moving process of the sliding plate, so that the mixing barrel is lower than the position of the middle box;

the second driving motor and the turnover motor work to realize the rotation of the charging box, so that the charging box is higher than the middle box, and the materials in the charging box can be conveniently refluxed into the mixing barrel to be stirred again.

Compared with the prior art, the invention has the beneficial effects that:

through the fly leaf of connecting at bottom plate top over-and-under type, be convenient for adjust the position of fly leaf, when the position of fly leaf in vertical direction was adjusted to needs, the threaded rod rotation was realized in the work of first driving motor, because threaded rod and slide threaded connection, consequently realized the removal of slide at threaded rod pivoted in-process, adjusted the position of fly leaf at the in-process that the slide removed.

Through set up the recess on the slide, fixedly connected with spring in the recess, the one end fixedly connected with dead lever of spring, the one end of dead lever pass the recess and with U-shaped cardboard fixed connection, before needs install the fly leaf between the slide, the staff manually promotes the U-shaped cardboard, later place the fly leaf between the U-shaped cardboard, manually loosen the U-shaped cardboard, because the removal of U-shaped cardboard is realized in the effect of spring, realize the tip card of fly leaf in the U-shaped cardboard.

The first gear and the second gear are arranged in the box body, so that the rotation of the mixing barrel is convenient to realize through the double-shaft motor, when the double-shaft motor works, the rotation of the mixing barrel is realized due to the matching of the first gear and the second gear, the uniform mixing of materials in the mixing barrel is realized in the rotating process of the mixing barrel, when the connection between the rotating rod and the driving shaft and the rotating shaft of the double-shaft motor is required, the first hydraulic rod works to realize the movement of the first U-shaped connecting plate, the position of the first gear is adjusted in the moving process of the first U-shaped connecting plate, then the second hydraulic rod works to realize the movement of the rectangular rod, when one end of the rectangular rod is inserted on the rotating rod and the driving shaft of the double-shaft motor, the connection between the rotating rod and the driving shaft of the double-shaft motor is realized, when one of the mixing barrels is not required to be driven through the double-shaft motor, the removal of the second U-shaped connecting plate is realized in the moving process of the connecting rod, the second gear is moved through the second U-shaped connecting plate, and when the second gear is not meshed with the first gear, the mixing barrel cannot rotate when the double-shaft motor works.

The annular material storage plate is connected to the outer side wall of the circumference of the material mixing barrel in a rotating mode, the connecting position of the annular material storage plate and the material mixing barrel is provided with a sealing gasket, the middle box is communicated with a first hose, the first hose and the material mixing barrel are communicated through the annular material storage plate, the annular material storage plate rotates relative to the material mixing barrel, and meanwhile the sealing performance of the connecting position of the annular material storage plate and the material mixing barrel is guaranteed due to the sealing gasket.

The production equipment and the use method of the nano efficient viscosity reduction emulsion for oil exploitation are convenient for realizing the full stirring of the nano emulsion, and the preparation effect of the nano emulsion is improved.

Drawings

FIG. 1 is a schematic structural diagram of a production device of a nanometer efficient viscosity-reducing emulsion for oil exploitation;

FIG. 2 is a schematic diagram of the connection of a side plate and a movable plate in the production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation;

FIG. 3 is a schematic view of the connection between a support seat and a bearing roller in a production apparatus for producing a nano high-efficiency viscosity-reducing emulsion for petroleum exploitation;

FIG. 4 is a schematic diagram of the interior of a mixing barrel in a production device for producing nano high-efficiency viscosity-reducing emulsion for petroleum exploitation;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a schematic diagram of an elastic rubber ring in a production device of a nanometer high-efficiency viscosity-reducing emulsion for oil exploitation;

FIG. 7 is a schematic diagram of the inside of a box body in the production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation;

FIG. 8 is a schematic connection diagram of a second gear and a connecting rod in the production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation;

FIG. 9 is a schematic diagram of the inside of a box body in a production device for producing nano high-efficiency viscosity-reducing emulsion for petroleum exploitation;

FIG. 10 is an enlarged view of a portion of FIG. 9 at B;

FIG. 11 is a schematic view of a rotating shaft in a production device of a nano high-efficiency viscosity-reducing emulsion for oil exploitation;

FIG. 12 is a schematic connection diagram of an L-shaped plate and an intermediate box in a production device of a nano high-efficiency viscosity-reducing emulsion for oil exploitation;

FIG. 13 is a schematic diagram showing the connection between a vertical plate and a cartridge in the production apparatus of the nano high-efficiency viscosity-reducing emulsion for oil exploitation;

FIG. 14 is an enlarged view of a portion of FIG. 13 at C;

in the figure: 1. a base plate; 2. a movable plate; 3. a mixing barrel; 4. a middle box; 5. a soft telescopic pipe; 6. an L-shaped plate; 7. a hard discharge pipe; 8. rotating the block; 9. a carrier plate 10, a cartridge; 11. a transparent plate; 12. a feed port; 13. an elastic rubber ring; 14. a side plate; 15. a slide plate; 16. a first drive motor; 17. a threaded rod; 18. a U-shaped clamping plate; 19. 20, a sliding chute and a spring; 21. fixing the rod; 22. a double-shaft motor; 23. a supporting seat; 24. blocking; 25. an annular plate; 26. a load bearing roller; 27. a box body; 28. rotating the rod; 29. 30, a second gear; 31. a first hydraulic lever; 32. a first U-shaped connecting plate; 33. a rotating shaft; 34. a second hydraulic rod; 35. a rectangular bar; 36. a second U-shaped connecting plate; 37. a connecting rod; 38. a third hydraulic lever; 39. 40, a sealing gasket; 41. a first hose; 42. a horizontal plate; 43. inserting a rod; 44. a vertical plate; 45. a second drive motor; 46. turning over a motor; 47. a fourth hydraulic lever; 48. a locking plate; 49. a locking lever.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-14, in an embodiment of the present invention, an apparatus for producing a nano high-efficiency viscosity-reducing emulsion for oil exploitation includes a bottom plate 1 and a movable plate 2 connected above the bottom plate 1 in a lifting manner;

a material mixing barrel 3 is symmetrically and rotatably connected above the movable plate 2, an intermediate box 4 is fixedly connected to the upper surface of the bottom plate 1, the intermediate box 4 is communicated with the material mixing barrel 3, an outlet of the intermediate box 4 is communicated with a soft telescopic pipe 5, one end of the soft telescopic pipe 5 is fixedly connected with an L-shaped plate 6, a hard material discharging pipe 7 is fixedly connected to the L-shaped plate 6, and the hard material discharging pipe 7 is communicated with the soft telescopic pipe 5;

the upper side of the bottom plate 1 is rotatably connected with a rotating block 8, the rotating block 8 is connected with a loading plate 9 in a turnover mode, a loading box 10 is tightly locked on the loading plate 9, a transparent plate 11 is arranged on the loading box 10, a feeding hole 12 is formed in the loading box 10, an elastic rubber ring 13 is fixedly connected to the side wall of the feeding hole 12, and the elastic rubber ring 13 is matched with the hard discharging pipe 7.

The bottom plate 1 is symmetrically and fixedly connected with side plates 14, the side plates 14 are connected with sliding plates 15 in a sliding mode, the side plates 14 are fixedly connected with first driving motors 16, driving shafts of the first driving motors 16 are fixedly connected with threaded rods 17, the threaded rods 17 are in threaded connection with the sliding plates 15, one ends of the sliding plates 15 are elastically connected with U-shaped clamping plates 18, the end portions of the movable plates 2 are located in the U-shaped clamping plates 18, when the positions of the movable plates 2 in the vertical direction need to be adjusted, the first driving motors 16 work to achieve rotation of the threaded rods 17, due to the fact that the threaded rods 17 are in threaded connection with the sliding plates 15, the sliding plates 15 are moved in the rotating process, and the positions of the movable plates 2 are adjusted;

the side plate 14 is provided with a sliding chute 19 for the sliding connection of the sliding plate 15, and the sliding plate 15 can move relative to the side plate 14 conveniently through the arrangement of the sliding chute 19;

set up the recess on the slide 15, fixedly connected with spring 20 in the recess, spring 20's one end fixedly connected with dead lever 21, the one end of dead lever 21 pass the recess and with U-shaped cardboard 18 fixed connection, before needs install fly leaf 2 between slide 15, the staff manually promotes U-shaped cardboard 18, later place fly leaf 2 between U-shaped cardboard 18, manually loosen U-shaped cardboard 18, because the effect of spring 20 realizes the removal of U-shaped cardboard 18, realize the tip card of fly leaf 2 in U-shaped cardboard 18.

The bottom plate 1 is fixedly connected with a double-shaft motor 22, a driving shaft of the double-shaft motor 22 is fixedly connected with the mixing barrel 3, the bottom plate 1 is fixedly connected with a supporting seat 23 for rotatably supporting the mixing barrel 3, and the double-shaft motor 22 is convenient for realizing the rotation of the mixing barrel 3 above the bottom plate 1 under the action of the supporting seat 23 when driving the mixing barrel 3 to rotate;

the opening part threaded connection of 3 tip of compounding bucket has the sprue 24, and staff's manual rotation sprue 24 makes sprue 24 dismantle from compounding bucket 3, is convenient for to the raw materials for the mixture of the interior packing of compounding bucket 3.

The outer circumferential side wall of the mixing barrel 3 is fixedly connected with an annular plate 25, the inner side wall of the supporting seat 23 is rotatably connected with a bearing roller 26 matched with the annular plate 25, and the rotation of the mixing barrel 3 is convenient to realize through the matching of the bearing roller 26 and the annular plate 25;

fixedly connected with box body 27 on the fly leaf 2, fixedly connected with dwang 28 on the lateral wall of compounding bucket 3, the drive shaft of dwang 28 and double-shaft motor 22 all passes box body 27 and is connected with first gear 29, box body 27 is connected with second gear 30, second gear 30 cooperatees with first gear 29, double-shaft motor 22 during operation, because the rotation of compounding bucket 3 is realized in the cooperation of first gear 29 and second gear 30, realize the misce bene to the interior material of compounding bucket 3 at the pivoted in-process of compounding bucket 3.

A first hydraulic rod 31 is fixedly connected to the side wall of the box body 27, a first U-shaped connecting plate 32 is fixedly connected to the movable end of the first hydraulic rod 31, a rotating shaft 33 is fixedly connected to the first gear 29, one end of the rotating shaft 33 passes through the side wall of the first U-shaped connecting plate 32 and extends to the other side of the first U-shaped connecting plate, the driving shafts of the rotating rod 28 and the biaxial motor 22 pass through the side wall of the box body 27 and are fixedly connected with a second hydraulic rod 34, a rectangular rod 35 is fixedly connected to the movable end of the second hydraulic rod 34, one end of the rectangular rod 35 is inserted into the rotating shaft 33, when connection between the driving shafts of the rotating rod 28 and the biaxial motor 22 and the rotating shaft 33 is required, the first hydraulic rod 31 works to realize the movement of the first U-shaped connecting plate 32, the position of the first gear 29 is adjusted in the movement process of the first U-shaped connecting plate 32, and then the, when one end of the rectangular rod 35 is inserted on the rotating rod 28 and the driving shaft of the dual-shaft motor 22, the connection between the rotating rod 28 and the driving shaft of the dual-shaft motor 22 and the rotating shaft 33 is realized;

a second U-shaped connecting plate 36 is arranged in the box body 27, the second gear 30 is rotatably connected in the second U-shaped connecting plate 36, a connecting rod 37 is fixedly connected to the second U-shaped connecting plate 36, one end of the connecting rod 37 penetrates through the side wall of the box body 27 and extends to the outer side of the box body 27, a third hydraulic rod 38 is fixedly connected to the outer side wall of the box body 27, the movable end of the third hydraulic rod 38 is fixedly connected with the connecting rod 37, when one of the mixing barrels 3 is not required to be driven by the dual-shaft motor 22, the third hydraulic rod 38 works to realize the movement of the connecting rod 37, the movement of the second U-shaped connecting plate 36 is realized in the moving process of the connecting rod 37, the movement of the second gear 30 is realized through the second U-shaped connecting plate 36, and when the second gear 30 is not engaged with the first gear 29, namely, the mixing barrels 3 cannot rotate when the dual-.

The circumference lateral wall of compounding bucket 3 rotates and is connected with annular storage board 39, and annular storage board 39 is provided with sealed the pad 40 with the junction of compounding bucket 3, and the intercommunication has first hose 41 on the middle box 4, through annular storage board 39 intercommunication between first hose 41 and the compounding bucket 3, because annular storage board 39 rotates with the compounding bucket 3 relatively, simultaneously because the sealed leakproofness of filling up the junction of 40 having guaranteed annular storage board 39 and compounding bucket 3 of effect of filling up.

Fixedly connected with horizontal plate 42 on the lateral wall of middle box 4, fixedly connected with inserted bar 43 on the L shaped plate 6, the one end of inserted bar 43 is inserted and is established on horizontal plate 42, and when the L shaped plate 6 need not remove, the staff inserts the one end of inserted bar 43 and establishes on horizontal plate 42, the placing of the L shaped plate 6 of being convenient for.

Fixedly connected with vertical board 44 on bottom plate 1, fixedly connected with second driving motor 45 on the lateral wall of vertical board 44, second driving motor 45's drive shaft and turning block 8 fixed connection, second driving motor 45 work is convenient for realize the rotation of turning block 8 to the position of turning block 8 has been adjusted.

The turning block 8 is fixedly connected with a turning motor 46, a driving shaft of the turning motor 46 is fixedly connected with the bearing plate 9, the turning motor 46 works to realize the rotation of the bearing plate 9, and the position of the bearing plate 9 is adjusted in the rotating process of the bearing plate 9.

The equal fixedly connected with fourth hydraulic stem 47 in both ends of loading board 9, the expansion end fixedly connected with locking plate 48 of fourth hydraulic stem 47, fixedly connected with locking lever 49 on the lateral wall of locking plate 48, the one end of locking lever 49 is inserted and is established on the lateral wall of magazine 10, before needing to lock magazine 10 on loading board 9, the removal of locking plate 48 is realized in the work of fourth hydraulic stem 47, drive the removal of locking lever 49 through locking plate 48, later place magazine 10 between two locking plates 48, the removal of locking plate 48 is realized in the work of fourth hydraulic stem 47, when the one end of locking lever 49 is inserted and is established on magazine 10, realized locking magazine 10 on loading board 9 promptly.

When the mixing device is used, a worker manually rotates the blocking block 24 to enable the blocking block 24 to be detached from the mixing barrel 3, so that mixing raw materials can be conveniently filled into the mixing barrel 3, and then the blocking block 24 is reversely rotated to enable the blocking block 24 to be installed on the mixing barrel 3.

The first driving motor 16 works to realize the rotation of the threaded rod 17, the threaded rod 17 is in threaded connection with the sliding plate 15, so that the sliding plate 15 is moved in the rotating process of the threaded rod 17, the position of the movable plate 2 is adjusted in the moving process of the sliding plate 15, the material mixing barrel 3 is lower than the middle box 4, and the material in the material mixing barrel 3 is prevented from flowing into the middle box 4.

When the double-shaft motor 22 works, the first gear 29 and the second gear 30 are matched to realize the rotation of the mixing barrel 3, so that the materials in the mixing barrel 3 are uniformly mixed in the rotating process of the mixing barrel 3.

When it is not necessary to drive one of the mixing barrels 3 by the dual-shaft motor 22, the third hydraulic rod 38 is operated to realize the movement of the connecting rod 37, the movement of the second U-shaped connecting plate 36 is realized during the movement of the connecting rod 37, the movement of the second gear 30 is realized by the second U-shaped connecting plate 36, and the mixing barrel 3 is not rotated when the second gear 30 is not engaged with the first gear 29, i.e. the dual-shaft motor 22 is operated.

The fourth hydraulic lever 47 is operated to move the locking plates 48, the locking plates 48 drive the locking rods 49 to move, then the cartridge 10 is placed between the two locking plates 48, and the fourth hydraulic lever 47 is operated to move the locking plates 48, so that when one end of the locking rod 49 is inserted into the cartridge 10, the cartridge 10 is locked on the loading plate 9.

The second driving motor 45 works to realize the rotation of the rotating block 8, the position of the charging box 10 is adjusted in the working process of the rotating block 8, the overturning motor 46 works to adjust the position of the charging box 10, so that the charging box 10 is positioned below the middle box 4, the hard discharging pipe 7 is inserted into the feeding hole 12 of the charging box 10, and the locking of the hard discharging pipe 7 is realized due to the action of the elastic rubber ring 13.

The first driving motor 16 works to realize the rotation of the threaded rod 17, the threaded rod 17 is in threaded connection with the sliding plate 15, so that the sliding plate 15 is moved in the rotating process of the threaded rod 17, the position of the movable plate 2 is adjusted in the moving process of the sliding plate 15, and the material in the mixing barrel 3 is enabled to be higher than the middle box 4, so that the material in the mixing barrel 3 can conveniently flow from the middle box 4 to the charging box 10.

Through the stirring condition that the transparent plate 11 of the charging box 10 penetrates through the emulsion in the charging box 10, if the emulsion in the charging box 10 is not uniformly stirred, the first driving motor 16 works to realize the rotation of the threaded rod 17, and because the threaded rod 17 is in threaded connection with the sliding plate 15, the sliding plate 15 is moved in the rotating process of the threaded rod 17, the position of the movable plate 2 is adjusted in the moving process of the sliding plate 15, and the material mixing barrel 3 is lower than the position of the middle box 4.

The second driving motor 45 and the turnover motor 46 are operated to rotate the cartridge 10 so that the cartridge 10 is higher than the middle cartridge 4, thereby facilitating the material in the cartridge 10 to flow back into the mixing barrel 3 for further mixing.

"fixedly connected" as described in the present invention means that two parts connected to each other are fixed together, typically by welding, screwing or gluing; "rotationally coupled" means that two components are coupled together and capable of relative motion.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation and a specific orientation configuration and operation, and thus, should not be construed as limiting the present invention. Furthermore, "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate member, or they may be connected through two or more elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims

1. Production equipment of nano efficient viscosity-reducing emulsion for oil exploitation is characterized by comprising a bottom plate (1) and a movable plate (2) connected above the bottom plate (1) in a lifting manner;

a material mixing barrel (3) is symmetrically and rotatably connected above the movable plate (2), an intermediate box (4) is fixedly connected to the upper surface of the bottom plate (1), the intermediate box (4) is communicated with the material mixing barrel (3), an outlet of the intermediate box (4) is communicated with a soft telescopic pipe (5), one end of the soft telescopic pipe (5) is fixedly connected with an L-shaped plate (6), a hard material discharging pipe (7) is fixedly connected to the L-shaped plate (6), and the hard material discharging pipe (7) is communicated with the soft telescopic pipe (5);

the feeding device is characterized in that a rotating block (8) is rotatably connected above the bottom plate (1), the rotating block (8) is connected with a bearing plate (9) in a turnover mode, a loading box (10) is locked on the bearing plate (9), a transparent plate (11) is arranged on the loading box (10), a feeding hole (12) is formed in the loading box (10), an elastic rubber ring (13) is fixedly connected to the side wall of the feeding hole (12), and the elastic rubber ring (13) is matched with the hard discharging pipe (7).

2. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 1, wherein a side plate (14) is symmetrically and fixedly connected to the bottom plate (1), a sliding plate (15) is slidably connected to the side plate (14), a first driving motor (16) is fixedly connected to the side plate (14), a threaded rod (17) is fixedly connected to a driving shaft of the first driving motor (16), the threaded rod (17) is in threaded connection with the sliding plate (15), a U-shaped clamping plate (18) is elastically connected to one end of the sliding plate (15), and an end of the movable plate (2) is located inside the U-shaped clamping plate (18);

the side plates (14) are provided with sliding grooves (19) for the sliding connection of the sliding plates (15);

the improved U-shaped clamping plate is characterized in that a groove is formed in the sliding plate (15), a spring (20) is fixedly connected in the groove, a fixing rod (21) is fixedly connected to one end of the spring (20), and one end of the fixing rod (21) penetrates through the groove and is fixedly connected with the U-shaped clamping plate (18).

3. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 2, wherein a double-shaft motor (22) is fixedly connected to the bottom plate (1), a driving shaft of the double-shaft motor (22) is fixedly connected to the mixing barrel (3), and a supporting seat (23) for rotatably supporting the mixing barrel (3) is fixedly connected to the bottom plate (1);

and the opening at the end part of the mixing barrel (3) is in threaded connection with a blocking block (24).

4. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 3, wherein an annular plate (25) is fixedly connected to the outer circumferential side wall of the mixing barrel (3), and a bearing roller (26) matched with the annular plate (25) is rotatably connected to the inner side wall of the supporting seat (23);

fixedly connected with box body (27) on fly leaf (2), fixedly connected with dwang (28) on the lateral wall of compounding bucket (3), the drive shaft of dwang (28) and double-shaft motor (22) all passes box body (27) and is connected with first gear (29), box body (27) are connected with second gear (30), second gear (30) cooperate with first gear (29).

5. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 4, wherein a first hydraulic rod (31) is fixedly connected to a side wall of the box body (27), a first U-shaped connecting plate (32) is fixedly connected to a movable end of the first hydraulic rod (31), a rotating shaft (33) is fixedly connected to the first gear (29), one end of the rotating shaft (33) penetrates through the side wall of the first U-shaped connecting plate (32) and extends to the other side of the first U-shaped connecting plate, a rotating rod (28) and a driving shaft of the double-shaft motor (22) penetrate through the side wall of the box body (27) and is fixedly connected to a second hydraulic rod (34), a rectangular rod (35) is fixedly connected to a movable end of the second hydraulic rod (34), and one end of the rectangular rod (35) is inserted into the rotating shaft (33);

be provided with the connected board of second U-shaped (36) in box body (27), second gear (30) rotate to be connected in the connected board of second U-shaped (36), fixedly connected with connecting rod (37) on the connected board of second U-shaped (36), the lateral wall of box body (27) is passed and the outside to box body (27) is extended to the one end of connecting rod (37), fixedly connected with third hydraulic stem (38) on the lateral wall of box body (27), the expansion end and connecting rod (37) fixed connection of third hydraulic stem (38).

6. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 5, wherein an annular material storage plate (39) is rotatably connected to the outer circumferential side wall of the mixing barrel (3), a sealing gasket (40) is arranged at the joint of the annular material storage plate (39) and the mixing barrel (3), the intermediate box (4) is communicated with a first hose (41), and the first hose (41) is communicated with the mixing barrel (3) through the annular material storage plate (39).

7. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 6, wherein a horizontal plate (42) is fixedly connected to the side wall of the middle box (4), an insertion rod (43) is fixedly connected to the L-shaped plate (6), and one end of the insertion rod (43) is inserted into the horizontal plate (42).

8. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 7, wherein a vertical plate (44) is fixedly connected to the bottom plate (1), a second driving motor (45) is fixedly connected to a side wall of the vertical plate (44), and a driving shaft of the second driving motor (45) is fixedly connected to the rotating block (8).

9. The production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation according to claim 8, wherein a turning motor (46) is fixedly connected to the rotating block (8), and a driving shaft of the turning motor (46) is fixedly connected to the bearing plate (9); the loading plate is characterized in that fourth hydraulic rods (47) are fixedly connected to the two ends of the loading plate (9), a locking plate (48) is fixedly connected to the movable end of each fourth hydraulic rod (47), a locking rod (49) is fixedly connected to the side wall of each locking plate (48), and one end of each locking rod (49) is inserted into the side wall of the corresponding loading box (10).

10. The use method of the production equipment of the nano high-efficiency viscosity-reducing emulsion for oil exploitation as claimed in claim 9,

when the mixing device is used, the blocking block (24) is manually rotated to enable the blocking block (24) to be detached from the mixing barrel (3), so that the mixing raw materials can be conveniently filled into the mixing barrel (3), and then the blocking block (24) is reversely rotated to enable the blocking block (24) to be installed on the mixing barrel (3);

the first driving motor (16) works to realize rotation of the threaded rod (17), and due to the threaded connection between the threaded rod (17) and the sliding plate (15), the sliding plate (15) moves in the rotating process of the threaded rod (17), and the position of the movable plate (2) is adjusted in the moving process of the sliding plate (15), so that the material mixing barrel (3) is lower than the middle box (4) to prevent the material in the material mixing barrel (3) from flowing into the middle box (4);

when the double-shaft motor (22) works, the rotation of the mixing barrel (3) is realized due to the matching of the first gear (29) and the second gear (30), and the uniform mixing of materials in the mixing barrel (3) is realized in the rotating process of the mixing barrel (3);

when one of the mixing barrels (3) is not required to be driven by the double-shaft motor (22), the third hydraulic rod (38) works to realize the movement of the connecting rod (37), the movement of the second U-shaped connecting plate (36) is realized in the moving process of the connecting rod (37), the movement of the second gear (30) is realized by the second U-shaped connecting plate (36), and when the second gear (30) is not meshed with the first gear (29), namely the mixing barrel (3) cannot rotate when the double-shaft motor (22) works;

the fourth hydraulic rod (47) works to realize the movement of the locking plates (48), the locking rod (49) is driven to move through the locking plates (48), then the loading box (10) is placed between the two locking plates (48), the fourth hydraulic rod (47) works to realize the movement of the locking plates (48), and when one end of the locking rod (49) is inserted on the loading box (10), the loading box (10) is locked on the bearing plate (9);

the second driving motor (45) works to realize the rotation of the rotating block (8), the position of the charging box (10) is adjusted in the working process of the rotating block (8), the overturning motor (46) works to adjust the position of the charging box (10), so that the charging box (10) is positioned below the middle box (4), the hard discharging pipe (7) is inserted into the feeding hole (12) of the charging box (10), and the locking of the hard discharging pipe (7) is realized due to the action of the elastic rubber ring (13);

the first driving motor (16) works to realize rotation of the threaded rod (17), and the threaded rod (17) is in threaded connection with the sliding plate (15), so that the sliding plate (15) moves in the rotating process of the threaded rod (17), and the position of the movable plate (2) is adjusted in the moving process of the sliding plate (15), so that the material in the material mixing barrel (3) is higher than the middle box (4) and can conveniently flow into the charging box (10) from the middle box (4);

through the stirring condition of emulsion in the charging box (10) penetrated through the transparent plate (11) of the charging box (10), if the emulsion in the charging box (10) is not uniformly stirred, the first driving motor (16) works to realize the rotation of the threaded rod (17), and as the threaded rod (17) is in threaded connection with the sliding plate (15), the sliding plate (15) is moved in the rotating process of the threaded rod (17), the position of the movable plate (2) is adjusted in the moving process of the sliding plate (15), and the mixing barrel (3) is lower than the position of the middle box (4);

the second driving motor (45) and the overturning motor (46) work to realize the rotation of the charging box (10), so that the charging box (10) is higher than the middle box (4), and the materials in the charging box (10) can conveniently flow back to the mixing barrel (3) for stirring again.