CN114307760B - Fracturing fluid treatment device for acetylene fracturing process - Google Patents

Abstract

The application discloses acetylene fracturing technology's fracturing fluid processing apparatus, fracturing fluid processing apparatus include fracturing fluid feed structure, fracturing fluid mixed structure, grit feed structure, pressurization transport structure and unable adjustment base, fracturing fluid mixed structure's last surface department fixed mounting has fracturing fluid feed structure, unable adjustment base's last surface department fixed mounting has fracturing fluid mixed structure, connect the installation between fracturing fluid feed structure and the fracturing fluid mixed structure, the installation is provided with grit feed structure on the fracturing fluid mixed structure, unable adjustment base's last surface department installation is provided with pressurization transport structure, connect the installation between pressurization transport structure and the fracturing fluid mixed structure, this application can comparatively efficient carry out abundant mixture to the fracturing fluid through fracturing fluid mixed structure, can comparatively convenient again simultaneously handle the raw materials that feeds in raw materials, and the effect of mixing is better, can heat the temperature of fracturing fluid simultaneously again and handle.

Description

Fracturing fluid treatment device for acetylene fracturing process

Technical Field

The application relates to the field of petroleum fracturing, in particular to a fracturing fluid treatment device for an acetylene fracturing process.

Background

In the field of petroleum, fracturing refers to a method of forming cracks in oil and gas layers by using the action of water power in the process of oil or gas production, and is also called hydraulic fracturing. Fracturing is the process of artificially cracking stratum, improving the flowing environment of oil in underground and increasing the yield of oil well, and plays an important role in improving the flowing condition of oil well bottom, slowing down the interlamination and improving the oil layer utilization condition.

In the work of acetylene fracturing, need handle the fracturing fluid and carry, the fracturing fluid mixed treatment device's in the present stage mixing efficiency is lower, mixes inadequately evenly, and the effect of mixing is not good enough simultaneously, is not convenient for carry out quantitative pressurization and carries. Therefore, the fracturing fluid treatment device for the acetylene fracturing process is provided for solving the problems.

Disclosure of Invention

The fracturing fluid treatment device of acetylene fracturing technology is provided in this embodiment and is used for solving the mixing efficiency of the ordinary fracturing fluid mixed treatment device among the prior art lower, mixes inadequately evenly, and the effect of mixing is not good enough simultaneously, is not convenient for carry out the problem that ration pressurization was carried.

According to an aspect of this application, a fracturing fluid processing apparatus of acetylene fracturing technology is provided, fracturing fluid processing apparatus includes fracturing fluid feed structure, fracturing fluid mixed structure, grit feed structure, pressurization transport structure and unable adjustment base, fracturing fluid mixed structure's last surface department fixed mounting has fracturing fluid feed structure, unable adjustment base's last surface department fixed mounting has fracturing fluid mixed structure, connect the installation between fracturing fluid feed structure and the fracturing fluid mixed structure, the last installation of fracturing fluid mixed structure is provided with grit feed structure, unable adjustment base's last surface department installation is provided with the pressurization transport structure, connect the installation between pressurization transport structure and the fracturing fluid mixed structure.

Further, fracturing fluid mixed structure includes support frame, circular mixing storehouse, rotation post, driving motor A, puddler and driving motor B, fixed connection between support frame and unable adjustment base's the upper surface, it is connected with circular mixing storehouse to rotate on the support frame, the installation is provided with temperature-detecting instrument on the circular mixing storehouse.

Further, one of them lateral wall department fixed mounting of support frame has driving motor B, fixed mounting between driving motor B's the output shaft end and the circular lateral wall that mixes the storehouse, swivelling joint has the rotation post in the inner chamber in circular mixed storehouse, another the lateral wall department fixed mounting of support frame has driving motor A, driving motor A's output shaft end extends to in the inner chamber in circular mixed storehouse, driving motor A's output shaft end and the one end of rotating the post between fixed connection, the total a plurality of puddler, a plurality of the puddler equidistance is fixed to be set up at the lateral wall department that rotates post and circular mixed storehouse.

Further, the puddler includes metal pole, resistance heating wire and fin, the inner chamber has been seted up to the inside of metal pole, fixed mounting has resistance heating wire in the inner chamber of metal pole, resistance heating wire is the helical shape, the surface fixedly connected with fin of metal pole department, the total a plurality of fin, a plurality of the surface department at the metal pole is fixed to the fin equidistance.

Further, fracturing fluid feed structure includes additive liquid storage pot, measuring pump A, connecting pipe A, coupling hose A, fracturing fluid liquid storage pot, measuring pump B, connecting pipe B and coupling hose B, additive liquid storage pot and fracturing fluid liquid storage pot are all fixed in unable adjustment base's upper surface department, the upper surface department fixed mounting of additive liquid storage pot has measuring pump A, measuring pump A's input end department fixedly connected with connecting pipe A's one end, connecting pipe A's the other end extends to the inner chamber bottom side department of additive liquid storage pot, measuring pump A's output end department fixedly connected with coupling hose A, coupling hose A's one end extend to in the inner chamber of circular mixing storehouse and with circular mixing between the storehouse fixed connection, the upper surface department fixed mounting of fracturing fluid liquid storage pot has measuring pump B, measuring pump B's input end department fixedly connected with connecting pipe B's one end, connecting pipe B's the other end extends to the inner chamber bottom side department of fracturing fluid liquid storage pot, measuring pump B's output end department fixedly connected with coupling hose B's one end, coupling hose B's the other end extend to in the inner chamber of circular mixing storehouse and with between the circular mixing storehouse fixed connection.

Further, grit feeding structure includes feeder hopper, axis of rotation, backup pad, weigher, weighing plate, display, vibrations board, filter, shock dynamo, supporting shoe and supporting spring, fixed connection between feeder hopper and the circular mixing bin, it is connected with the axis of rotation to rotate in the inner chamber of feeder hopper, fixedly connected with backup pad in the axis of rotation, the fixedly connected with weigher of upper surface department of backup pad, the fixed weighing plate that is provided with of upper surface department of weigher, the fixed servo motor that has of outer surface department of feeder hopper, fixed connection between the output shaft end of servo motor and the one end of axis of rotation, the fixed mounting of outer surface department of feeder hopper has the display, electric connection between display and the weigher.

Further, the vibrating plate is arranged in the inner cavity of the feeding hopper in a sliding mode, a vibrating motor is fixedly mounted at the bottom face of the vibrating plate, a supporting block is fixedly connected to the side wall of the inner cavity of the feeding hopper, a supporting spring is fixedly connected to the upper surface of the supporting block, the other end of the supporting spring is fixedly connected with the bottom face of the vibrating plate, and a filtering plate is fixedly arranged on the vibrating plate.

Further, pressurization transport structure includes conveying bin, bracing piece, piston, rectangle set casing, removal slider, connecting plate, servo drive motor, threaded rod, locating plate, drain pipe, delivery pump, delivery hose A, delivery hose B, rectangle fixed column, limiting plate, limit slide, twist grip and threaded rod, the one end of fixedly connected with bracing piece is located to the bottom surface of conveying bin, fixed connection between the other end of bracing piece and unable adjustment base's the upper surface, the fixedly connected with drain pipe is located to the bottom surface of conveying bin, it is provided with the piston to slide in the inner chamber of conveying bin, delivery pump and unable adjustment base's upper surface department fixed mounting, the input end fixedly connected with delivery hose B's of delivery pump one end, delivery hose B's the other end extend to in the inner chamber of circular mixing bin and with circular mixing bin between fixed mounting, the output end fixedly connected with delivery hose A's of delivery pump one end, delivery hose A's the other end extend to in the inner chamber of conveying bin and with carry bin between fixed mounting.

Further, the upper surface department fixed mounting who carries the storehouse has the rectangle set casing, it is provided with the removal slider to slide in the inner chamber of rectangle set casing, the one end of the bottom surface department fixedly connected with connecting plate of removal slider, the other end of connecting plate extend to carry the inner chamber in storehouse and with the upper surface of piston between fixed connection, the lateral wall department fixedly connected with locating plate of removal slider, the upper surface department fixed mounting of rectangle set casing has servo drive motor, servo drive motor's the one end of output shaft terminal fixedly connected with threaded rod, the other end of threaded rod extend to the inner chamber diapire department of rectangle set casing and with the rectangle set casing between the inner chamber diapire rotate be connected, the threaded rod run through the removal slider and with remove between the slider screw-thread fit.

Further, the lateral wall department fixedly connected with rectangle fixed column of rectangle set casing, the lateral wall department of rectangle fixed column slides and is provided with the limiting plate, the inner chamber has been seted up to the inside of rectangle fixed column, it is provided with limit slide to slide in the inner chamber of rectangle fixed column, fixed connection between limit slide and the limiting plate, the upper end department of rectangle fixed column rotates and is connected with twist grip, twist grip's one end extends to in the inner chamber of rectangle fixed column, twist grip's one end department fixedly connected with threaded rod's one end, the other end of threaded rod extend to the inner chamber diapire department of rectangle fixed column and with the rectangle fixed column between rotate and be connected, the threaded rod run through limit slide and with limit slide between screw-thread fit, the scale mark has been seted up to the lateral wall department of rectangle fixed column.

Through the above-mentioned embodiment of this application, can comparatively the efficient carry out abundant mixture to fracturing fluid through fracturing fluid mixed structure, simultaneously can comparatively convenient again carry out reinforced processing to the raw materials, the effect of mixing is better, simultaneously can carry out thermal treatment to the temperature of fracturing fluid again, the thermal mixing is comparatively even, high speed, this application has grit feeding structure, can comparatively convenient reinforced the grit through grit feeding structure, simultaneously can comparatively convenient weigh the grit again, be convenient for carry out quantitative reinforced to the grit, can carry out filtration treatment to reinforced grit, this application has pressurization transport structure, can pressurize the transport to the fracturing fluid after handling through pressurization transport structure, the volume of the fracturing fluid of carrying simultaneously can effectually be carried out the ration, it is comparatively convenient and flexible to use, the precision is higher, and is suitable for being generalized to use.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic perspective view of an embodiment of the present application;

FIG. 2 is a schematic diagram of an internal structure of an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a fracturing fluid feed configuration according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a fracturing fluid mixing configuration according to an embodiment of the present application;

FIG. 5 is a schematic cross-sectional view of a stir bar according to an embodiment of the present application;

FIG. 6 is a schematic perspective view of a sand feed structure according to an embodiment of the present application;

FIG. 7 is an internal schematic view of a sand feed structure according to an embodiment of the present application;

FIG. 8 is a schematic top view of a filter plate according to an embodiment of the present application;

FIG. 9 is an internal schematic view of a pressurized delivery structure according to an embodiment of the present application;

FIG. 10 is a perspective view of a rectangular stationary housing according to one embodiment of the present application;

fig. 11 is a perspective internal schematic view of a rectangular fixing column according to an embodiment of the present application.

In the figure: 1. a fracturing fluid treatment device; 2. a fracturing fluid feed structure; 3. a fracturing fluid mixing structure; 4. a sand feed structure; 5. a pressurized conveying structure; 6. a fixed base; 7. an additive liquid storage tank; 8. a metering pump A; 9. a connecting pipe A; 10. a connecting hose A; 11. a fracturing fluid storage tank; 12. a metering pump B; 13. a connecting pipe B; 14. a connecting hose B; 15. a support frame; 16. a circular mixing bin; 17. rotating the column; 18. driving a motor A; 19. a stirring rod; 20. a drive motor B; 21. a metal rod; 22. resistance heating wires; 23. a fin; 24. a feed hopper; 25. a rotating shaft; 26. a support plate; 27. a weighing device; 28. a weighing plate; 29. a display; 30. a vibration plate; 31. a filter plate; 32. vibrating a motor; 33. a support block; 34. a support spring; 35. a servo adjusting motor; 36. a conveying bin; 37. a support bar; 38. a piston; 39. a rectangular stationary case; 40. moving the slide block; 41. a connecting plate; 42. a servo drive motor; 43. a threaded rod; 44. positioning a plate; 45. a liquid outlet pipe; 46. a delivery pump; 47. a delivery hose A; 48. a delivery hose B; 49. a rectangular fixing column; 50. a limiting plate; 51. a limiting slide block; 52. rotating the handle; 53. a threaded rod.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the accompanying drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.

Referring to fig. 1-11, a fracturing fluid treatment device for an acetylene fracturing process, the fracturing fluid treatment device 1 includes a fracturing fluid feeding structure 2, a fracturing fluid mixing structure 3, a sand feeding structure 4, a pressurizing and conveying structure 5 and a fixed base 6, the fracturing fluid feeding structure 2 is fixedly mounted at the upper surface of the fracturing fluid mixing structure 3, the fracturing fluid mixing structure 3 is fixedly mounted at the upper surface of the fixed base 6, the fracturing fluid feeding structure 2 and the fracturing fluid mixing structure 3 are connected and mounted, the sand feeding structure 4 is mounted on the fracturing fluid mixing structure 3, the pressurizing and conveying structure 5 is mounted at the upper surface of the fixed base 6, the pressurizing and conveying structure 5 is connected and mounted between the pressurizing and conveying structure 5 and the fracturing fluid mixing structure 3, the fracturing fluid can be sufficiently mixed through the fracturing fluid mixing structure 3, raw materials can be conveniently and conveniently fed, the mixing effect is good, the fracturing fluid can be heated, the heating and mixing are uniform, the sand can be conveniently and quantitatively conveyed through the fracturing fluid mixing structure 4, the sand can be conveniently and quantitatively conveyed through the pressurizing and conveying structure, the sand can be conveniently and quantitatively weighed, the sand can be conveniently and quantitatively conveyed through the pressurizing and the sand feeding structure, and the pressurizing and conveying structure is suitable for being conveniently and conveying sand.

Fracturing fluid mixed structure 3 includes support frame 15, circular mixing storehouse 16, rotates post 17, driving motor A18, puddler 19 and driving motor B20, fixed connection between support frame 15 and unable adjustment base 6's the upper surface, it is connected with circular mixing storehouse 16 to rotate on the support frame 15, the installation is provided with temperature detector on the circular mixing storehouse 16, can detect the temperature of the fracturing fluid in the 16 inner chambers of circular mixing storehouse through temperature detector.

One of them fixed mounting is located to the lateral wall of support frame 15 has driving motor B20, fixed mounting between the output shaft end of driving motor B20 and the circular lateral wall that mixes storehouse 16, it is connected with rotation post 17 to rotate in the inner chamber of circular mixing storehouse 16, another the fixed mounting of lateral wall department of support frame 15 has driving motor A18, driving motor A18's output shaft end extends to in the inner chamber of circular mixing storehouse 16, fixed connection between driving motor A18's output shaft end and the one end of rotating post 17, puddler 19 is total a plurality of, a plurality of puddler 19 equidistance is fixed to be set up in the lateral wall department that rotates post 17 and circular mixing storehouse 16, can drive circular mixing storehouse 16 through driving motor B20's work and rotate, can overturn the mixture to the fracturing fluid that mixes inside the circular mixing storehouse 16, can drive through driving motor A18's work and rotate post 17, can drive puddler 19 through the rotation that rotates, and then stir the fracturing fluid of rotating post 17 and mix, the result of use is better, stirs comparatively evenly.

Puddler 19 includes metal pole 21, resistance heating wire 22 and fin 23, the inner chamber has been seted up to the inside of metal pole 21, fixed mounting has resistance heating wire 22 in the inner chamber of metal pole 21, resistance heating wire 22 is the helical shape, the outer surface department fixedly connected with fin 23 of metal pole 21, fin 23 is total a plurality of, a plurality of fin 23 equidistance is fixed in the surface department of metal pole 21, can play the heating effect to metal pole 21 through resistance heating wire 22's work, and then carries out abundant heating to fracturing fluid through the stirring effect of metal pole 21 to fracturing fluid, avoids fracturing fluid temperature to hang down excessively, simultaneously through the setting of fin 23 for the heat exchange area of contact of heating is bigger, makes the efficiency of heating higher, and the result of use is better.

Fracturing fluid feed structure 2 includes additive liquid storage pot 7, measuring pump A8, connecting pipe A9, coupling hose A10, fracturing fluid liquid storage pot 11, measuring pump B12, connecting pipe B13 and coupling hose B14, additive liquid storage pot 7 and fracturing fluid liquid storage pot 11 are all fixed in the upper surface department of unable adjustment base 6, the upper surface department fixed mounting of additive liquid storage pot 7 has measuring pump A8, the input end department fixed connection of measuring pump A8 has the one end of connecting pipe A9, the other end of connecting pipe A9 extends to the inner chamber bottom side department of additive liquid storage pot 7, the output end department fixed connection of measuring pump A8 has coupling hose A10, the one end of coupling hose A10 extend to in the inner chamber of circular mixing storehouse 16 and with circular mixing storehouse between 16 fixed connection, the upper surface department fixed mounting of fracturing fluid liquid storage pot 11 has B12, the input end department fixed connection of measuring pump B12 has the one end of connecting pipe B13, the other end of connecting pipe B13 extends to the inner chamber department of fracturing fluid liquid storage pot 11, the output end department fixed connection of coupling hose B12 has the other end of coupling hose B14, the other end of coupling hose B14 extends to the inner chamber of circular mixing storehouse and the inner chamber of circular mixing storehouse 16 and the inner chamber of the measuring pump A, and the mixing storehouse can carry out the inner chamber of follow-up fixed connection of measuring pump A8 between the measuring pump B16, and the mixing storehouse.

The sand feeding structure 4 comprises a feed hopper 24, a rotating shaft 25, a support plate 26, a weigher 27, a weighing plate 28, a display 29, a vibrating plate 30, a filter plate 31, a vibrating motor 32, a support block 33 and a support spring 34, wherein the feed hopper 24 is fixedly connected with the circular mixing bin 16, the rotating shaft 25 is rotatably connected in an inner cavity of the feed hopper 24, the support plate 26 is fixedly connected with the rotating shaft 25, the weighing plate 27 is fixedly arranged at the upper surface of the support plate 26, the weighing plate 28 is fixedly arranged at the upper surface of the weigher 27, a servo adjusting motor 35 is fixedly arranged at the outer surface of the feed hopper 24, the tail end of an output shaft of the servo adjusting motor 35 is fixedly connected with one end of the rotating shaft 25, the display 29 is fixedly arranged at the outer surface of the feed hopper 24, the display 29 is electrically connected with the weigher 27, when the sand is placed at the upper surface of the weighing plate 28, the weight of the sand is weighed through the weighing effect of the weigher 27, the sand is quantitatively fed, the weighed weight can be conveniently displayed through the display 29, the use effect is good, the work of the servo adjusting motor 35 can drive the sand to drive the circular mixing bin 16 to drive the sand to drive the rotating shaft 16 to enable the sand to flow.

The utility model discloses a vibrating screen, including feeder hopper 24, vibrating plate 30, supporting shoe 33, the one end of upper surface department fixedly connected with supporting spring 34 of supporting shoe 33, fixed connection between the other end of supporting spring 34 and vibrating plate 30's the bottom surface, the fixed filter 31 that is provided with on vibrating plate 30, the work through vibrating motor 32 can drive vibrating plate 30 and vibrate, and then drive filter 31 and vibrate, can vibrate the screening to the grit through the vibrations of filter 31, and the tangent plane of filter 31 is the V-arrangement simultaneously, can sieve the grit through the filter 31 of V-arrangement, also can avoid the grit to block up the sieve mesh when the filter 31 of V-arrangement sieves the grit simultaneously, and excellent in use effect.

The pressurization conveying structure 5 comprises a conveying bin 36, a supporting rod 37, a piston 38, a rectangular fixed shell 39, a movable sliding block 40, a connecting plate 41, a servo driving motor 42, a threaded rod 43, a positioning plate 44, a liquid outlet pipe 45, a conveying pump 46, a conveying hose A47, a conveying hose B48, a rectangular fixed column 49, a limiting plate 50, a limiting sliding block 51, a rotating handle 52 and a threaded rod 53, wherein one end of the supporting rod 37 is fixedly connected to the bottom surface of the conveying bin 36, the other end of the supporting rod 37 is fixedly connected to the upper surface of the fixed base 6, the liquid outlet pipe 45 is fixedly connected to the bottom surface of the conveying bin 36, the piston 38 is arranged in the inner cavity of the conveying bin 36 in a sliding mode, the conveying pump 46 and the upper surface of the fixed base 6 are fixedly installed, one end of the conveying hose B48 is fixedly connected to the input end of the conveying pump 46, the other end of the conveying hose B48 extends into the inner cavity of the circular mixing bin 16 and is fixedly installed between the circular mixing bin 16, one end of the conveying hose A47 extends into the inner cavity of the conveying bin 36, and the conveying bin can convey a fracturing fluid to the conveying bin 36 through the conveying bin.

The upper surface of the conveying bin 36 is fixedly provided with a rectangular fixed shell 39, a movable sliding block 40 is arranged in an inner cavity of the rectangular fixed shell 39 in a sliding mode, the bottom surface of the movable sliding block 40 is fixedly connected with one end of a connecting plate 41, the other end of the connecting plate 41 extends into the inner cavity of the conveying bin 36 and is fixedly connected with the upper surface of the piston 38, a positioning plate 44 is fixedly connected with the side wall of the movable sliding block 40, a servo driving motor 42 is fixedly arranged on the upper surface of the rectangular fixed shell 39, one end of a threaded rod 43 is fixedly connected at the tail end of an output shaft of the servo driving motor 42, the other end of the threaded rod 43 extends to the bottom wall of the inner cavity of the rectangular fixed shell 39 and is rotatably connected with the bottom wall of the inner cavity of the rectangular fixed shell 39, the threaded rod 43 penetrates through the movable sliding block 40 and is in threaded fit with the movable sliding block 40, the threaded rod 43 can be driven to rotate through the work of the servo driving motor 42, the movable sliding block 40 can be driven to move through the rotation of the threaded rod 43, the connecting plate 41 is driven to move, the connecting plate 41 to move, and the piston 38 can be used for pressurizing and conveying fracturing fluid in the conveying bin 36 through the movement of the piston 38.

A rectangular fixing column 49 is fixedly connected to the side wall of the rectangular fixing shell 39, a limiting plate 50 is slidably arranged on the side wall of the rectangular fixing column 49, an inner cavity is formed in the rectangular fixing column 49, a limiting slide block 51 is slidably arranged in the inner cavity of the rectangular fixing column 49, the limiting slide block 51 is fixedly connected with the limiting plate 50, a rotating handle 52 is rotatably connected to the upper end of the rectangular fixing column 49, one end of the rotating handle 52 extends into the inner cavity of the rectangular fixing column 49, one end of a threaded rod 53 is fixedly connected to one end of the rotating handle 52, the other end of the threaded rod 53 extends to the bottom wall of the inner cavity of the rectangular fixing column 49 and is rotatably connected with the rectangular fixing column 49, threaded rod 53 run through limiting slide 51 and with between the limiting slide 51 screw-thread fit, the scale mark has been seted up to the lateral wall department of rectangle fixed column 49, can drive threaded rod 53 through manual rotatory twist grip 52 and rotate, and then drive limiting slide 51 and remove, and then can drive limiting plate 50 and remove, adjust limiting plate 50's position, and then carry out spacing fixed to limiting plate 50's position, after spacing fixed, can fix a position locating plate 44's position, and then fix a position moving slide 40, and then can fix a position piston 38's position, and then can control fracturing fluid's pressurization conveying capacity, it is comparatively nimble to use.

The application has the advantages that:

1. the fracturing fluid mixing structure is reasonable in structure and convenient to use, fracturing fluid can be sufficiently mixed in a relatively high-efficiency mode through the fracturing fluid mixing structure, raw materials can be conveniently fed, the mixing effect is good, the temperature of the fracturing fluid can be heated, and the heating and mixing are relatively uniform and high-speed;

2. the sand weighing device is provided with a sand feeding structure, sand can be conveniently fed through the sand feeding structure, meanwhile, the sand can be conveniently weighed, quantitative feeding of the sand is facilitated, and the fed sand can be filtered;

3. this application has pressurization transport structure, can pressurize the fracturing fluid after handling through pressurization transport structure and carry, and the volume of the fracturing fluid of carrying simultaneously can effectually carry out the ration, uses comparatively convenient nimble, and the precision is higher, is fit for using widely.

It is well within the skill of those in the art to implement, without undue experimentation, the present application is not directed to software and process improvements, as they relate to circuits and electronic components and modules.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (4)

1. The utility model provides a fracturing fluid processing apparatus of acetylene fracturing technology which characterized in that: the fracturing fluid treatment device (1) comprises a fracturing fluid feeding structure (2), a fracturing fluid mixing structure (3), a sand feeding structure (4), a pressurizing and conveying structure (5) and a fixed base (6), wherein the fracturing fluid feeding structure (2) is fixedly installed at the upper surface of the fracturing fluid mixing structure (3), the fracturing fluid mixing structure (3) is fixedly installed at the upper surface of the fixed base (6), the fracturing fluid feeding structure (2) and the fracturing fluid mixing structure (3) are connected and installed, the sand feeding structure (4) is installed on the fracturing fluid mixing structure (3), the pressurizing and conveying structure (5) is installed at the upper surface of the fixed base (6), and the pressurizing and conveying structure (5) and the fracturing fluid mixing structure (3) are connected and installed;

the fracturing fluid mixing structure (3) comprises a support frame (15), a circular mixing bin (16), a rotating column (17), a driving motor A (18), a stirring rod (19) and a driving motor B (20), wherein the support frame (15) is fixedly connected with the upper surface of a fixed base (6), the circular mixing bin (16) is rotatably connected to the support frame (15), and a temperature detector is arranged on the circular mixing bin (16);

a driving motor B (20) is fixedly mounted at the side wall of one of the support frames (15), the tail end of an output shaft of the driving motor B (20) is fixedly mounted with the side wall of the circular mixing bin (16), a rotating column (17) is rotatably connected in the inner cavity of the circular mixing bin (16), a driving motor A (18) is fixedly mounted at the side wall of the other support frame (15), the tail end of the output shaft of the driving motor A (18) extends into the inner cavity of the circular mixing bin (16), the tail end of the output shaft of the driving motor A (18) is fixedly connected with one end of the rotating column (17), the number of the stirring rods (19) is multiple, and the stirring rods (19) are fixedly arranged at the side walls of the rotating column (17) and the circular mixing bin (16) at equal intervals;

the stirring rod (19) comprises a metal rod (21), resistance heating wires (22) and fins (23), an inner cavity is formed in the metal rod (21), the resistance heating wires (22) are fixedly installed in the inner cavity of the metal rod (21), the resistance heating wires (22) are spiral, the fins (23) are fixedly connected to the outer surface of the metal rod (21), the fins (23) are a plurality, and the fins (23) are equidistantly fixed to the outer surface of the metal rod (21);

the fracturing fluid feeding structure (2) comprises an additive liquid storage tank (7), a metering pump A (8), a connecting pipe A (9), a connecting hose A (10), a fracturing fluid liquid storage tank (11), a metering pump B (12), a connecting pipe B (13) and a connecting hose B (14), wherein the additive liquid storage tank (7) and the fracturing fluid liquid storage tank (11) are fixed at the upper surface of a fixed base (6), the upper surface of the additive liquid storage tank (7) is fixedly provided with the metering pump A (8), the input end of the metering pump A (8) is fixedly connected with one end of the connecting pipe A (9), the other end of the connecting pipe A (9) extends to the bottom side of the inner cavity of the additive liquid storage tank (7), the output end of the metering pump A (8) is fixedly connected with the connecting hose A (10), one end of the connecting hose A (10) extends into the inner cavity of a circular mixing bin (16) and is fixedly connected with the circular mixing bin (16), the upper surface of the fracturing fluid liquid storage tank (11) is fixedly provided with the B (12), the input end of the connecting hose B (12) is fixedly connected with one end of the other end of the metering pump B (13) and the other end of the connecting hose B (13) extends to the inner cavity of the other end of the metering pump B (13) is connected with the other end of the connecting hose B (13), the other end of the connecting hose B (14) extends into the inner cavity of the circular mixing bin (16) and is fixedly connected with the circular mixing bin (16);

the sand feeding structure (4) comprises a feed hopper (24), a rotating shaft (25), a support plate (26), a weigher (27), a weighing plate (28), a display (29), a vibrating plate (30), a filter plate (31), a vibrating motor (32), a support block (33) and a support spring (34), wherein the feed hopper (24) is fixedly connected with the circular mixing bin (16), the rotating shaft (25) is rotatably connected in an inner cavity of the feed hopper (24), the support plate (26) is fixedly connected to the rotating shaft (25), the weigher (27) is fixedly connected to the upper surface of the support plate (26), the weighing plate (28) is fixedly arranged on the upper surface of the weigher (27), a servo adjusting motor (35) is fixedly arranged on the outer surface of the feed hopper (24), the tail end of an output shaft of the servo adjusting motor (35) is fixedly connected with one end of the rotating shaft (25), the display (29) is fixedly arranged on the outer surface of the feed hopper (24), and the display (29) is electrically connected with the weigher (27);

the utility model discloses a vibrating screen, including feeder hopper (24), vibrating plate (30), bottom surface department fixed mounting of vibrating plate (30) has vibrating motor (32), the intracavity lateral wall department fixedly connected with supporting shoe (33) of feeder hopper (24), the one end of upper surface department fixedly connected with supporting spring (34) of supporting shoe (33), fixed connection between the other end of supporting spring (34) and the bottom surface of vibrating plate (30), fixed filter (31) that are provided with on vibrating plate (30).

2. The fracturing fluid treatment device of the acetylene fracturing process according to claim 1, wherein: the pressurizing and conveying structure (5) comprises a conveying bin (36), a supporting rod (37), a piston (38), a rectangular fixed shell (39), a movable sliding block (40), a connecting plate (41), a servo driving motor (42), a threaded rod (43), a positioning plate (44), a liquid outlet pipe (45), a conveying pump (46), a conveying hose A (47), a conveying hose B (48), a rectangular fixed column (49), a limiting plate (50), a limiting sliding block (51), a rotating handle (52) and a threaded rod (53), wherein the bottom surface of the conveying bin (36) is fixedly connected with one end of the supporting rod (37), the other end of the supporting rod (37) is fixedly connected with the upper surface of a fixed base (6), the bottom surface of the conveying bin (36) is fixedly connected with the liquid outlet pipe (45), the piston (38) is arranged in the inner cavity of the conveying bin (36) in a sliding mode, the upper surfaces of the conveying pump (46) and the fixed base (6) are fixedly installed, the input end of the conveying pump (46) is fixedly connected with one end of the conveying hose B (48), the other end of the conveying hose B (48) extends to the inner cavity of the circular mixed bin (16), and the conveying pump (16) is connected with the output end of the mixed bin A) and the conveying hose (47), the other end of the conveying hose A (47) extends into the inner cavity of the conveying bin (36) and is fixedly installed between the conveying hose A and the conveying bin (36).

3. The fracturing fluid treatment device of claim 2, wherein: carry the upper surface department fixed mounting in storehouse (36) to have rectangle set casing (39), slide in the inner chamber of rectangle set casing (39) and be provided with removal slider (40), the bottom surface department fixedly connected with one end of connecting plate (41) of removal slider (40), the other end of connecting plate (41) extend to carry in the inner chamber of storehouse (36) and with the upper surface between the fixed connection of piston (38), lateral wall department fixedly connected with locating plate (44) of removal slider (40), the upper surface department fixed mounting of rectangle set casing (39) has servo drive motor (42), the one end of the terminal fixedly connected with threaded rod (43) of output shaft of servo drive motor (42), the other end of threaded rod (43) extend to the inner chamber diapire department of rectangle set casing (39) and with the inner chamber diapire of rectangle set casing (39) between rotate and be connected, threaded rod (43) run through remove slider (40) and with remove between the slider (40) screw-thread fit.

4. The fracturing fluid treatment device of the acetylene fracturing process according to claim 2, wherein: the utility model discloses a fixed die structure, including rectangle set casing (39), the lateral wall department fixedly connected with rectangle fixed column (49) of rectangle set casing (39), the lateral wall department of rectangle fixed column (49) slides and is provided with limiting plate (50), the inner chamber has been seted up to the inside of rectangle fixed column (49), it is provided with stop block (51) to slide in the inner chamber of rectangle fixed column (49), fixed connection between stop block (51) and limiting plate (50), the upper end department of rectangle fixed column (49) rotates and is connected with twist grip (52), the one end of twist grip (52) extends to in the inner chamber of rectangle fixed column (49), the one end department fixedly connected with one end of twist grip (52) threaded rod (53), the other end of threaded rod (53) extend to the inner chamber diapire department of rectangle fixed column (49) and with rotate between rectangle fixed column (49) to be connected, threaded rod (53) run through stop block (51) and with stop block (51) between screw-thread fit, scale mark has been seted up to the lateral wall department of rectangle fixed column (49).

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