CN114248346A

CN114248346A - Fracturing construction device for unconventional oil gas development

Info

Publication number: CN114248346A
Application number: CN202111462718.9A
Authority: CN
Inventors: 段润; 何岩峰; 窦祥骥; 侯腾飞; 郭璐瑶; 潘楠; 朱鹏飞; 王安
Original assignee: Changzhou University
Current assignee: Changzhou University
Priority date: 2021-12-02
Filing date: 2021-12-02
Publication date: 2022-03-29

Abstract

The invention relates to a fracturing construction device for unconventional oil gas development, which comprises a barrel body, a sealing cover and a discharge assembly, wherein a charging opening for adding materials into the barrel body is formed in the top of the sealing cover, a liquid injection assembly communicated with the interior of the barrel body is fixed on the outer side surface of the barrel body, an annular support capable of rotating along the circumferential direction is arranged on the inner wall of the upper end of the barrel body, a stirring assembly is fixed in the center of the annular support, a plurality of horizontally arranged support plates are uniformly distributed on the inner wall of the annular support in the circumferential direction, a material mixing assembly coaxial with the barrel body is fixed at the inner end of each support plate, and the material at the bottom of the barrel body is conveyed to the upper part of the barrel body by the material mixing assembly and is discharged into the barrel body again. According to the invention, through the matching use of the annular support, the support plate, the mixing component and the liquid injection component, the annular support rotates, so that the mixing component conveys sand materials at the bottom of the barrel body to the upper part of the barrel body and discharges the sand materials into the barrel body again, thereby achieving the purpose of turning the sand materials in the barrel body up and down, and fully mixing the sand materials with the mixed liquid.

Description

Fracturing construction device for unconventional oil gas development

Technical Field

The invention relates to the technical field of oil and gas development, in particular to a fracturing construction device for unconventional oil and gas development.

Background

The fracturing is a method for forming cracks on oil and gas layers by utilizing the hydraulic action in the oil and gas development process, is also called hydraulic fracturing, and requires fracturing fluid in the fracturing work, wherein various additives and sand grains are uniformly stirred by a mixing tank to form the fracturing fluid which is conveyed to a fracturing truck at a certain pressure.

The present mulling device structure for fracturing construction, upper end opening at the jar body is equipped with coaxial annular plate, the annular plate passes through several connecting rod fixed connection with the jar body, the upper portion of coaxial standpipe periphery is connected to the inboard bearing of annular plate, the coaxial ring gear of upper end fixed mounting of standpipe periphery, the left side fixed mounting motor on annular plate top side, the upper end fixed mounting gear of motor shaft, gear and ring gear meshing cooperation, be equipped with coaxial vertical axis in the standpipe, the bottom fixed connection of several bracing piece and the jar body is passed through to the lower extreme of vertical axis. Although this scheme has improved the mixing efficiency of muddy sand tank bottom sand material and mixed liquid, the sand material near the vertical puddler of being convenient for mixes with mixed liquid fast, but when mixing because the sand material of jar body bottom can produce certain siltation, the sand grain of these siltation can not mix with mixed liquid well, cause the bottom wearing and tearing still to exist to muddy sand tank, and the sand material stirring is not abundant, leads to the churning time extension, influences the efficiency that the sand material mixes, can't satisfy actual demand.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects in the prior art, the invention provides a fracturing construction device for unconventional oil gas development, which realizes the full mixing of sand materials and mixed liquid, thereby improving the mixing effect of fracturing liquid preparation.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a fracturing construction equipment for unconventional oil gas development, includes the staving, fixes the sealed lid at the staving top and installs the row's material subassembly at staving bottom lateral surface, and sealed lid top is equipped with the charge door to the internal material that adds of staving, the staving lateral surface be fixed with the inside intercommunication of staving and pour into the notes subassembly of mixed liquid into, staving upper end inner wall is equipped with can follow circumferencial direction pivoted ring carrier, is located ring carrier central point and puts and be fixed with the stirring subassembly, ring carrier inner wall circumference equipartition has the backup pad that a plurality of roots level set up, the backup pad inner is fixed with the compounding subassembly with the staving coaxial line, the compounding subassembly with staving bottom material to the staving upper portion conveying and discharge into the staving again.

Specifically speaking, annotate the liquid subassembly including the annular catheter of cover locating staving periphery side, annular catheter passes through connecting pipe and staving inside intercommunication, the connecting pipe is along staving periphery side equidistance distribution, be equipped with on the annular catheter and annotate the liquid mouth.

Specifically speaking, the annular support include the annular plate, the annular spacing groove has been seted up to the staving inner wall, the annular plate inner wall is fixed with the connecting rod of inner and stirring subassembly rigid coupling, annular plate outer wall circumference all is equipped with the ball with annular spacing groove roll complex.

Further, the stirring subassembly include with the pivot of the inner rigid coupling of connecting rod, the outer disc of pivot is equipped with the stirring leaf that the multiunit is circumference equipartition and slope and arranges along the axial, the stirring leaf that is located the pivot bottom and staving bottom surface clearance fit.

Furthermore, the inner wall of the sealing cover is provided with a driving assembly for driving the annular support to rotate in the circumferential direction, the driving assembly comprises an annular gear strip fixed on the inner wall of the annular plate, the top of the sealing cover is provided with a second motor, an output shaft of the second motor extends into the barrel body, and a gear in meshing transmission with the annular gear strip is fixed at the shaft end of the second motor.

Specifically speaking, the mixing subassembly include with the mixing pipe of backup pad inner bottom surface rigid coupling, mixing subassembly bottom is equipped with the feed end of laminating mutually with the staving inner bottom surface, mixing subassembly top is equipped with the discharge end, the intraductal rotation of mixing is equipped with the spiral conveying axle, the backup pad top is fixed with and is connected just can just positive and negative first motor of rotating with the spiral conveying axle transmission.

Specifically speaking, arrange the material subassembly including installing at staving outer wall, be equipped with the row of material pipe of auger in, arrange material pipe outer end side-mounting and have the rotatory third motor of drive auger, arrange the material socle portion and be equipped with the bin outlet.

The invention has the beneficial effects that: according to the invention, through the cooperative matching of the liquid injection assembly, the annular support, the stirring assembly, the supporting plate, the mixing assembly and the driving assembly, the problem that sand at the bottom of the barrel body of the existing fracturing device cannot be well mixed with mixed liquid due to siltation of the sand at the bottom of the barrel body during mixing is solved, the abrasion of the silted sand to the bottom of the barrel body is effectively prevented, the sand is fully stirred, the sand stirring time is shortened, and the sand mixing efficiency is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the interior of the tub of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

FIG. 4 is a schematic structural view of a compounding assembly of the present invention.

FIG. 5 is a schematic view of the combined structure of the mixing assembly and the supporting plate according to the present invention.

FIG. 6 is a schematic view of the combination structure of the ring support and the stirring assembly according to the present invention.

FIG. 7 is a schematic view of the structure of the combination of the ring support, stirring assembly, support plate and mixing assembly of the present invention.

FIG. 8 is a partial cross-sectional view of the bucket body of the present invention.

FIG. 9 is a schematic structural view of a combination of the barrel, the liquid injection assembly and the discharge assembly according to the present invention.

In the figure: 1-barrel body, 101-annular limiting groove, 2-sealing cover, 201-charging opening, 3-discharging assembly, 301-discharging pipe, 302-third motor, 303-discharging opening, 4-liquid injection assembly, 401-annular liquid guide pipe, 402-connecting pipe, 403-liquid injection opening, 5-annular bracket, 501-annular plate, 502-connecting rod, 6-driving assembly, 601-annular gear strip, 602-second motor, 603-gear, 7-stirring assembly, 701-rotating shaft, 702-stirring blade, 8-supporting plate, 9-mixing assembly, 901-feeding end, 902-discharging end, 903-mixing pipe, 904-spiral conveying shaft and 905-first motor.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 9, the fracturing construction device for unconventional oil gas development comprises a barrel body 1, a sealing cover 2 and a discharging component 3, wherein the sealing cover 2 is fixed at the top of the barrel body 1, a charging opening 201 is formed in the top of the sealing cover 2, the discharging component 3 is fixed on the outer side surface of the barrel body 1 and is communicated with the inside of the barrel body 1, a liquid injection component 4 communicated with the barrel body 1 is fixed on the outer side surface of the barrel body 1, an annular support 5 is rotatably arranged on the inner wall of the barrel body 1 along the circumferential direction, a driving component 6 for driving the annular support 5 to rotate is fixed on the inner wall of the sealing cover 2, a stirring component 7 is fixed at the central position of the annular support 5, a plurality of supporting plates 8 are uniformly distributed on the inner wall of the annular support 5 along the circumferential direction, and a mixing component 9 is axially fixed on the bottom surface of the inner end of each supporting plate 8; the mixing components 9 are linearly distributed relative to the length direction of the supporting plate 8, the bottom of the mixing component 9 is provided with a feeding end 901, so that when a plurality of feeding ends 901 are combined, the bottom of the barrel body 1 can be better covered, when the mixing component 9 rotates in the barrel body 1, the efficiency of conveying sand at the bottom of the barrel body 1 into the mixing component 9 can be improved, the top of the mixing component 9 is provided with a discharging end 902, the feeding end 901 is in fit with the bottom in the barrel body 1 in a fit clearance manner, the sand is filled into the barrel body 1 through the feeding port 201, meanwhile, mixed liquid is filled into the barrel body 1 through the liquid filling component 4, the driving component 6 drives the annular support 5 to rotate along the circumferential direction of the barrel body 1, on one hand, the stirring component 7 is driven to stir and mix the materials in the barrel body 1, on the other hand, the corresponding mixing component 9 is driven by the supporting plate 8 to input the sand at the bottom of the barrel body 1 into the mixing component 9 through the feeding end 901, and then discharged through the discharge end 902, thereby achieving the purpose of turning the sand material in the barrel body 1 up and down, and fully mixing the sand material and the mixed liquid.

Because the backup pad 8 along 5 circumferencial direction equidistance distributions of ring carrier, the compounding subassembly 9 on the corresponding backup pad 8 also is circumferencial direction equidistance distribution like this, and then can turn the material in the staving 1 fully, reduce and omit.

Mixing subassembly 9 include the mixing tube 903 with 8 rigid couplings of backup pad, the internal rotation of mixing tube 903 is equipped with spiral conveying

axle

904, 8 inner planes on of backup pad are fixed with first motor 905, first motor 905 output shaft extends to in mixing tube 903 and is connected with spiral conveying axle 904 transmission, when needing to improve the material mixing effect of staving 1 inside, start first motor 905 forward and rotate, make the material that gets into in mixing tube 903 through feed end 901 passes through spiral conveying axle 904's rotation, carry to discharge end 902 and discharge, when needs discharge staving 1 inside material, start first motor 905 reversal, and then drive spiral conveying axle 904 antiport, discharge the remaining material in mixing tube 903 into staving 1 through feed end 901, the inside material of staving 1 is all discharged to rethread discharge subassembly 3.

The feeding end 901 is of a funnel-shaped structure, the opening of the discharging end 902 is downward, materials in the barrel body 1 can be fully input into the mixing component 9 through the feeding end 901 of the funnel-shaped structure, and then the materials are discharged into the barrel body 1 again through the discharging end 902. Because the mixing component 9 is linearly distributed relative to the length direction of the supporting plate 8, when a plurality of feeding ends 901 are combined, the bottom of the barrel body 1 can be covered to the maximum extent, so that when the mixing component 9 rotates in the barrel body 1, the sand at the bottom of the barrel body 1 can be turned over as much as possible, and the working efficiency is improved.

The annular support include annular plate 501, annular spacing groove 101 has been seted up to 1 inner wall of staving, annular plate 501 inner wall is fixed with the connecting rod 502 of inner and stirring subassembly 7 rigid coupling, annular plate 501 outer wall circumference all is equipped with ball 503 with annular spacing groove 101 roll fit. When the annular plate 501 rotates along the annular limiting groove 101, the resistance of the annular plate 501 during rotation is effectively reduced through the rolling fit of the balls 503 and the inner wall of the annular limiting groove 101.

Stirring subassembly 7 include with the fixed pivot 701 in connecting rod 502 inner, the outer disc of pivot 701 has a plurality of stirring leaves 702 that are the circumference array and distribute along the axial rigid coupling, stirring leaf 702 inclines to set up, drives stirring leaf 702 when 1 inside rotations of staving like this when pivot 701, can improve the efficiency of stirring, and the stirring leaf 702 that is located pivot 701 bottommost forms clearance fit with the interior bottom laminating of staving 1, the stirring leaf 702 through pivot 701 bottommost turns over the shovel with the sand material of 1 bottom of staving to prevent that the sand material silts and can't carry out the intensive mixing with mixed liquid, further improved the preparation efficiency of fracturing fluid.

The driving assembly 6 comprises an annular gear rack 601 fixed on the inner wall of the annular plate 501, a second motor 602 is installed on the top of the sealing cover 2, and the output shaft of the second motor 602 extends into the barrel body 1 and is fixed with a gear 603 engaged with the annular gear rack 601 for transmission.

Annotate liquid subassembly 4 include annular catheter 401, annular catheter 401 cover is located staving 1 periphery side, annular catheter 401 inner circle face passes through connecting pipe 402 and staving 1 inside intercommunication, connecting pipe 402 distributes along staving 1 periphery side circumference equidistance, is equipped with the notes liquid mouth 403 that can annotate the mixed liquid on the annular catheter 401, annotate liquid and input to staving 1 in to annular catheter 401 through annotating liquid mouth 403 in and through connecting pipe 402. Through the connecting pipe 402 that distributes along 1 periphery side circumference equidistance of staving, can be with mixed liquid comparatively all with input to staving 1 in, avoided the input of centralized position and leaded to the sand material of other positions in 1 staving to mix with mixed liquid in time effectively.

Arrange material subassembly 3 including being equipped with the row of packing auger pipe 301 in, arrange that row's material pipe 301 outside end fixed mounting has third motor 302, third motor 302 output shaft extends to row's material pipe 301 and is connected with auger shaft transmission, row's material pipe 301 bottom is equipped with bin outlet 303, bin outlet 303 department is equipped with the valve, drives the auger through third motor 302 and rotates, passes through the inside fracturing fluid that mixes of 1 staving outside row's material pipe 301 and bin outlet 303 discharge staving 1.

According to the invention, through the matching use of the driving assembly 6, the annular support 5, the supporting plate 8, the mixing assembly 9 and the liquid injection assembly 4, sand at the bottom of the barrel body 1 can enter the mixing assembly 9 through the feeding end 901 and be discharged through the discharging end 902 while the annular support 5 rotates, so that the purpose of turning the sand in the barrel body 1 up and down is achieved, the sand and a mixed liquid can be fully mixed, and the mixing effect of the fracturing liquid preparation is improved.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a fracturing construction equipment for unconventional oil gas development, includes staving (1), fixes sealed lid (2) at staving (1) top and installs row's material subassembly (3) at staving (1) bottom lateral surface, and sealed lid (2) top is equipped with charge door (201) to adding the material in staving (1), characterized by: staving (1) lateral surface be fixed with staving (1) inside intercommunication and pour into notes liquid subassembly (4) of mixed liquid into, staving (1) upper end inner wall is equipped with can follow circumferencial direction pivoted ring carrier (5), is located ring carrier (5) central point and puts and be fixed with stirring subassembly (7), ring carrier (5) inner wall circumference equipartition has backup pad (8) that a plurality of roots level set up, backup pad (8) inner is fixed with compounding subassembly (9) with staving (1) coaxial line, compounding subassembly (9) with staving (1) bottom material to staving (1) upper portion conveying and discharge into again in staving (1).

2. The fracturing construction device of claim 1, wherein: annotate liquid subassembly (4) including the annular catheter (401) of cover locating staving (1) periphery side, annular catheter (401) are through connecting pipe (402) and staving (1) inside intercommunication, connecting pipe (402) are along staving (1) periphery side equidistance distribution, be equipped with on annular catheter (401) and annotate liquid mouth (403).

3. The fracturing construction device of claim 1, wherein: annular support (5) including annular plate (501), annular spacing groove (101) have been seted up to staving (1) inner wall, annular plate (501) inner wall is fixed with connecting rod (502) of inner and stirring subassembly (7) rigid coupling, annular plate (501) outer wall circumference all is equipped with and rolls complex ball (503) with annular spacing groove (101).

4. The fracturing construction device of claim 3, wherein: stirring subassembly (7) including pivot (701) with connecting rod (502) inner rigid coupling, the outer disc of pivot (701) is equipped with multiunit stirring leaf (702) that are circumference equipartition and slope and arrange along the axial, is located stirring leaf (702) of pivot (701) bottom and staving (1) interior bottom surface clearance fit.

5. The fracturing construction device of claim 3, wherein: sealed lid (2) inner wall install drive assembly (6) that have drive ring carrier (5) circumferential direction, drive assembly (6) are including fixing annular gear strip (601) at annular plate (501) inner wall, second motor (602) are installed at sealed lid (2) top, second motor (602) output shaft extends to in staving (1) and the axle head is fixed with and meshes driven gear (603) with annular gear strip (601).

6. The fracturing construction device of claim 1, wherein: mixing material subassembly (9) including with mixture pipe (903) of backup pad (8) inner bottom surface rigid coupling, mixing material subassembly (9) bottom is equipped with feed end (901) of laminating mutually with staving (1) interior bottom surface, mixing material subassembly (9) top is equipped with discharge end (902), the internal rotation of mixture pipe (903) is equipped with spiral delivery axle (904), backup pad (8) top is fixed with and is connected just first motor (905) of positive and negative commentaries on classics with spiral delivery axle (904) transmission.

7. The fracturing construction device of claim 1, wherein: arrange material subassembly (3) including installing at the staving outer wall, be equipped with row of packing auger and manage (301), arrange material pipe (301) outer end side-mounting and have third motor (302) that the drive packing auger is rotatory, it is equipped with bin outlet (303) to arrange material pipe (301) bottom.