CN114161157A - Machining equipment for slurry manifold pipeline for petroleum drilling and production and using method - Google Patents

Abstract

The invention relates to the technical field of oil drilling and production, in particular to a processing device for a slurry manifold pipeline for oil drilling and production, which comprises a first platform and a second platform, wherein an auxiliary supporting plate structure is connected between the first platform and the second platform; the upper end surface of the first platform is sequentially provided with a pipeline limiting mechanism and a pipeline driving mechanism, and the second platform is sequentially provided with a pipeline limiting mechanism, a pipeline cutting mechanism, a pipeline clamping mechanism and a pipeline polishing mechanism; still be provided with second pipeline actuating mechanism in the pipeline fixture, also be provided with pipeline stop gear between pipeline cutting mechanism and the pipeline fixture, pipeline grinding machanism keeps away from one side of pipeline fixture and also is provided with pipeline stop gear. The invention has simple structure, low manufacturing cost and simple operation, and integrates a plurality of processing mechanisms on one integrated device, thereby leading the processing of the pipeline to be more convenient and fast and having good processing effect.

Description

Machining equipment for slurry manifold pipeline for petroleum drilling and production and using method

Technical Field

The invention relates to a processing device, in particular to a processing device for a slurry manifold pipeline for petroleum drilling and production and a using method, and belongs to the technical field of petroleum drilling and production.

Background

The oil drilling and production technology is to find an oil storage block through exploration, namely, a special device and a special technology are utilized to drill a cylindrical hole with a certain diameter downwards or on one side at a pre-selected ground surface position and drill the work of an underground oil-gas layer, and the oil drilling and production is to excavate a surveyed oil field;

the in-process of adopting at oil drilling can need to use mud pipe to converge and carry out the extraction of oil and carry, and the mud pipe is formed by having the multiunit pipe connection, and official's pipeline need use the processing equipment to process when carrying out the processing, and the processing equipment that has now is adding man-hour comparatively troublesome to the pipeline, need carry out the conversion between a plurality of equipment.

Therefore, there is a need for an improved pipe processing apparatus to solve the above existing problems.

Disclosure of Invention

The invention aims to provide processing equipment and a using method for a slurry manifold pipeline for petroleum drilling, which have the advantages of simple structure, low manufacturing cost and simple operation, and a plurality of processing mechanisms are integrated on one integrated equipment, so that the pipeline is more convenient to process and has good processing effect.

In order to achieve the purpose, the invention adopts the main technical scheme that:

the processing equipment for the slurry manifold pipeline for oil drilling comprises a first platform and a second platform, wherein an auxiliary supporting plate structure is connected between the first platform and the second platform;

the upper end surface of the first platform is sequentially provided with a pipeline limiting mechanism and a pipeline driving mechanism, and the second platform is sequentially provided with the pipeline limiting mechanism, a pipeline cutting mechanism, a pipeline clamping mechanism and a pipeline polishing mechanism;

still be provided with second pipeline actuating mechanism in the pipeline fixture, pipeline cutting mechanism with also be provided with between the pipeline fixture pipeline stop gear, pipeline grinding machanism keeps away from one side of pipeline fixture also is provided with pipeline stop gear.

Preferably, the pipeline limiting mechanism comprises a main body block, a semicircular groove is formed in the upper end face of the main body block, a groove is formed in the bottom of the inner wall of the semicircular groove, a plurality of first rolling wheels are rotatably connected in the groove, and first rubber anti-slip pads are arranged on the surfaces of the first rolling wheels.

Preferably, the pipeline driving mechanism comprises a bottom plate, two side plates and a first driving motor, the two side plates are symmetrically arranged, a first through hole is formed below each side plate, a first bearing is clamped in the first through hole, a motor supporting plate is arranged on one side of the bottom plate, the first driving motor is arranged on the upper end face of the motor supporting plate, a first connecting rod is connected between the two side plates, two ends of the first connecting rod are respectively clamped in the two first bearings, a plurality of driving wheels are connected to the first connecting rod, a second rubber anti-skid pad is arranged on the surface of each driving wheel, and the output end of the first driving motor is connected with one end of the first connecting rod.

Preferably, the auxiliary supporting plate structure comprises a connecting base and a plurality of auxiliary wheels, a second groove is formed in the upper end face of the connecting base, the auxiliary wheels are evenly distributed and connected inside the second groove, and one side of the first platform is far away from the auxiliary supporting plate structure and is contacted with the connecting base.

Preferably, the pipeline cutting mechanism comprises two side supporting plates, a sliding plate, a cutting machine and a second driving motor, the two side supporting plates are symmetrically arranged, a first sliding groove is vertically formed in the inner side surface of each side supporting plate, first sliding blocks are arranged on two sides of the sliding plate, a second bearing is arranged at the bottom of each first sliding groove, the cutting machine is arranged on the lower end surface of the sliding plate, a first threaded hole is formed in each first sliding block, a first through hole is formed in the upper end surface of each first sliding groove, the output end of the second driving motor is arranged in each first through hole and connected with a first threaded rod, and each first threaded rod penetrates through each first threaded hole and is connected with each second bearing.

Preferably, the pipeline clamping mechanism comprises a fixed base, two second supporting plates, a second sliding plate and a second threaded rod, the two second supporting plates are symmetrically arranged, a groove is formed in the upper end face of the fixed base, the two second supporting plates are vertically arranged on two sides of the upper end face of the fixed base respectively, a through groove is vertically formed in the second supporting plates, sliding plates are arranged on two sides of the second sliding plate, the sliding plates extend to the outer sides of the second supporting plates, a connecting plate is arranged above the outer sides of the second supporting plates, a third threaded hole is formed in the connecting plate, a third bearing is arranged on the upper end face of the sliding plate, the second threaded rod penetrates through the third threaded hole and is connected with the third bearing, and a rotating hand wheel is connected to the upper end of the second threaded rod.

Preferably, second pipeline actuating mechanism is including third driving motor, second connecting rod and a plurality of second drive wheel, one side of unable adjustment base is provided with second motor backup pad, the third through-hole has all been seted up to recess inner wall's both sides, the third through-hole inside callipers is equipped with the fourth bearing, the both ends of second connecting rod 902 are respectively with two the fourth bearing is connected, third driving motor with second connecting rod wherein one end is connected, a plurality of second drive wheel evenly distributed is in second connecting rod surface.

Preferably, pipeline grinding machanism is including supporting two baffles, roof and two fourth driving motor that base, symmetry set up, the block groove has been seted up on the support base, one of them fourth driving motor card is established the block inslot, two the baffle sets up respectively support the both sides of base up end, the roof sets up two the top of baffle medial surface, the second is led to the groove has been seted up on the roof, another fourth driving motor card is established the second leads to the inslot, fourth driving motor's output is connected with the brush, two fourth driving motor longitudinal symmetry sets up and leaves the space between the two.

Preferably, supporting legs are arranged below the first platform and the second platform, and third rubber anti-slip pads are arranged on the lower end faces of the supporting legs.

A method of using a processing apparatus for a mud manifold pipe for oil drilling, comprising the steps of:

s1: placing one end of an unprocessed pipeline on the surface of a first rolling wheel, then pushing the pipeline to the surface of a driving wheel, then starting a first driving motor, enabling the first driving motor to drive the driving wheel to rotate, so that the pipeline is conveyed to the surface of an auxiliary supporting plate structure, then continuing conveying the pipeline until the pipeline is conveyed to the position below a pipeline cutting mechanism, and then adjusting the conveying distance according to the cutting length;

s2: after the pipeline is adjusted, one end of the pipeline is positioned on the surface of a pipeline limiting mechanism between the pipeline cutting mechanism and the pipeline clamping mechanism, and then a second driving motor and the cutting machine are started to enable the second driving motor to drive a first threaded hole to rotate between a second bearing and the first threaded hole, so that a sliding plate and the cutting machine are driven to move downwards, and then the pipeline is cut;

s3: after the pipeline is cut, the pipeline at the rear part is conveyed continuously, the cut pipeline is pushed into a second pipeline driving mechanism, then a third driving motor is started to drive a second driving wheel to rotate, so that the pipeline is conveyed into a pipeline polishing mechanism, then a second threaded rod is rotated in a third threaded hole and a third bearing by rotating a second threaded rod, so that a second sliding plate is pushed to move downwards until the pipeline is fixed, then a fourth driving motor is started to drive a brush to rotate, so that one end of the pipeline is polished, then a pipeline clamping mechanism is opened, the pipeline is conveyed continuously by using the second pipeline driving mechanism, a worker holds the polished pipeline part by hand, and the rest parts of the pipeline are polished by using the pipeline polishing mechanism in the pipeline conveying process, when the pipeline is conveyed to a certain position, the pipeline can be kept away from one side of the pipeline clamping mechanism through the pipeline polishing mechanism, the pipeline limiting mechanism supports the pipeline, the hands of workers do not leave the pipeline, and after the pipeline after cutting is completely polished, the workers can directly take away the pipeline.

The invention has at least the following beneficial effects:

1. simple structure, low in manufacturing cost, and easy operation, the utilization is integrated on an integration equipment with a plurality of processing agency, thereby it is more convenient to make the processing of pipeline, the simultaneous processing is respond well, realize spacing to the pipeline through utilizing a plurality of pipeline stop gear, prevent that the phenomenon of skew from appearing in the pipeline when carrying, good support nature has, and then stability when having guaranteed the pipe-line transportation, the transportation to the pipeline has been realized to utilizing pipeline actuating mechanism's setting, the cutting effect to the pipeline has been realized to utilizing pipeline cutting mechanism's setting, when the pipeline is polished through pipeline grinding mechanism, it fixes the pipeline to utilize pipeline fixture can be fine, thereby make the pipeline can not appear the condition of rocking when carrying out the part and polish.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

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

FIG. 2 is a cross-sectional view of the pipe cutting mechanism of the present invention;

FIG. 3 is a cross-sectional view of the pipe sanding mechanism of the present invention;

FIG. 4 is a schematic perspective view of a portion of the pipe cutting mechanism of the present invention;

FIG. 5 is a cross-sectional view of the tube gripping mechanism and the second drive mechanism of the present invention;

FIG. 6 is a perspective view of the pipe drive mechanism of the present invention;

FIG. 7 is a schematic perspective view of a portion of the tube gripping device of the present invention;

FIG. 8 is a partial cross-sectional view of the pipe drive mechanism of the present invention;

fig. 9 is a schematic perspective view of a portion of the pipe sanding mechanism according to the present invention.

In the figure, 1-a first platform, 2-a second platform, 3-an auxiliary supporting plate structure, 301-a connecting base, 302-an auxiliary wheel, 303-a second groove, 4-a pipeline limiting mechanism, 401-a main body block, 402-a semicircular groove, 403-a groove, 404-a first rolling wheel, 405-a first rubber anti-slip pad, 5-a pipeline driving mechanism, 501-a bottom plate, 502-a side plate, 503-a first driving motor, 504-a first through hole, 505-a first bearing, 506-a motor supporting plate, 507-a first connecting rod, 508-a driving wheel, 509-a second rubber anti-slip pad, 6-a pipeline cutting mechanism, 601-a side supporting plate, 602-a sliding plate, 603-a cutting machine, 604-a second driving motor, 605-a first sliding groove, 606-a first slider, 607-a second bearing, 608-a first threaded hole, 609-a first through hole, 610-a first threaded rod, 7-a pipe clamping mechanism, 701-a fixed base, 702-a second support plate, 703-a second sliding plate, 704-a second threaded rod, 705-a groove, 706-a through groove, 707-a sliding plate, 708-a connecting plate, 709-a third threaded hole, 710-a third bearing, 711-a rotating hand wheel, 8-a pipe polishing mechanism, 801-a support base, 802-a baffle, 803-a top plate, 804-a fourth driving motor, 805-a clamping groove, 806-a second through groove, 807-a brush, 9-a second pipe driving mechanism, 901-a third driving motor, 902-a second connecting rod, 903-a second driving wheel, 904-a second motor supporting plate, 905-a third through hole, 906-a fourth bearing, 10-a supporting leg and 11-a third rubber non-slip mat.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

As shown in fig. 1 to 9, the processing equipment for a slurry manifold pipeline for oil drilling and production provided by this embodiment includes a first platform 1 and a second platform 2, an auxiliary support plate structure 3 is connected between the first platform 1 and the second platform 2, the auxiliary support plate structure 3 includes a connection base 301 and a plurality of auxiliary wheels 302, a second groove 303 is formed on an upper end surface of the connection base 301, the plurality of auxiliary wheels 302 are uniformly distributed and connected inside the second groove 303, one side of the auxiliary support plate structure 3, which is far away from the first platform 1, is in contact with the connection base 301, when a pipeline is conveyed by a pipeline driving mechanism 5, the pipeline is driven to the surface of the auxiliary support plate structure 3, the pipeline is continuously conveyed by the arrangement of the plurality of auxiliary wheels 302, so that the smoothness of the equipment during pipeline transportation is improved;

the upper end face of the first platform 1 is sequentially provided with a pipeline limiting mechanism 4 and a pipeline driving mechanism 5, the pipeline limiting mechanism 4 comprises a main body block 401, the main body block 401 plays a main supporting effect, the upper end face of the main body block 201 is provided with a semicircular groove 402, the semicircular groove 402 is matched with the pipeline in shape and is convenient for limiting the pipeline, the bottom of the inner wall of the semicircular groove 402 is provided with a groove 403, a plurality of first rolling wheels 404 are rotatably connected in the groove 403, the first rolling wheels 404 are convenient for conveying the pipeline, first rubber anti-skid pads 405 are arranged on the surfaces of the first rolling wheels 404, the arrangement of the first anti-skid pads 405 ensures that the pipeline has an anti-skid effect during transportation, the stability of pipeline conveying is ensured, and the phenomenon of skidding cannot occur;

the pipeline driving mechanism 5 comprises a bottom plate 501, two side plates 502 and a first driving motor 503, wherein the two side plates 502 are symmetrically arranged, a first through hole 504 is formed below the side plate 502, a first bearing 505 is clamped in the first through hole 504, a motor supporting plate 506 is arranged on one side of the bottom plate 501, the first driving motor 503 is arranged on the upper end surface of the motor supporting plate 506, the motor supporting plate 507 is used for supporting the first driving motor 503, a first connecting rod 507 is connected between the two side plates 502, two ends of the first connecting rod 507 are respectively clamped in the two first bearings 505, the arrangement of the first bearing 505 ensures the rotating effect of the first connecting rod 507, the first connecting rod 507 is connected with a plurality of driving wheels 508, a second rubber anti-skid pad 509 is arranged on the surface of the driving wheel 508, the output end of the first driving motor 503 is connected with one end of the first connecting rod 507, the first connecting rod 507 and the driving wheel 508 are driven to rotate by the opening of the first driving motor 503, the conveying effect of the pipeline is realized, and the anti-skid effect of the surface of the driving wheel 508 is improved due to the arrangement of the second rubber anti-skid pad 509;

the second platform 2 is sequentially provided with a pipeline limiting mechanism 4, a pipeline cutting mechanism 6, a pipeline clamping mechanism 7 and a pipeline polishing mechanism 8; the pipeline cutting mechanism 6 comprises two side support plates 601, a sliding plate 602, a cutting machine 603 and a second driving motor 604 which are symmetrically arranged, wherein a first sliding groove 605 is vertically arranged on the inner side surface of each side support plate 601, first sliding blocks 606 are arranged on two sides of the sliding plate 602, the sliding plate 602 has a vertical sliding effect due to the arrangement of the first sliding blocks 606 and the first sliding grooves 605, a second bearing 607 is arranged at the bottom of each first sliding groove 605, the cutting machine 603 is arranged on the lower end surface of the sliding plate 602, a first threaded hole 608 is arranged on each first sliding block 606, a first through hole 609 is arranged on the upper end surface of each first sliding groove 605, the output end of the second driving motor 604 is arranged in the first through hole 609 and is connected with a first threaded rod 610, the first threaded rod 610 penetrates through the first threaded hole 608 and is connected with the second bearing 607, and the second driving motor 604 and the cutting machine 603 are opened, so that the second driving motor 604 drives the first threaded hole 610 to rotate between the second bearing 607 and the first threaded hole 608, thereby driving the sliding plate 602 and the cutter 603 to move downwards, and then performing cutting treatment on the pipeline;

the pipeline clamping mechanism 7 comprises a fixed base 701, two second supporting plates 702, a second sliding plate 703 and a second threaded rod 704, wherein the two second supporting plates 702, the second sliding plate 703 and the second threaded rod 704 are symmetrically arranged, a groove 705 is formed in the upper end face of the fixed base 701, the groove 705 is arranged to provide a rotating space for a second driving wheel 903, the two second supporting plates 702 are respectively vertically arranged on two sides of the upper end face of the fixed base 701, a through groove 706 is vertically formed in each second supporting plate 702, sliding plates 707 are arranged on two sides of the second sliding plate 703, each sliding plate 707 extends to the outer side of each second supporting plate 702, the second sliding plate 703 slides on the through groove 706 through the corresponding sliding plate 707, a connecting plate 708 is arranged above the outer side of each second supporting plate 702, a third threaded hole 709 is formed in each connecting plate 708, a third bearing 704 is arranged on the upper end face of each sliding plate 707, the second threaded rod 704 penetrates through the third threaded hole 709 and is connected with the third bearing 710, and a rotating hand wheel 711 is connected to the upper end of the second threaded rod 704, the rotation hand wheel 711 is arranged to facilitate the rotation of the second threaded rod 704, and the second threaded rod 704 is rotated in the third threaded hole 709 and the third bearing 710 by rotating the second threaded rod 704, so as to push the second sliding plate 703 to move downwards until the pipeline is fixed;

the pipeline polishing mechanism 8 comprises a supporting base 801, two baffles 802, a top plate 803 and two fourth driving motors 804, wherein the two baffles 802 are symmetrically arranged, the supporting base 801 is provided with a clamping groove 805, one fourth driving motor 804 is clamped in the clamping groove 805, the two baffles 802 are respectively arranged at two sides of the upper end surface of the supporting base 801, the top plate 803 is arranged above the inner side surfaces of the two baffles 802, the top plate 803 is provided with a second through groove 806, the other fourth driving motor 804 is clamped in the second through groove 806, the output end of the fourth driving motor 804 is connected with a brush 807, the brush 807 is driven to rotate by the opening of the fourth driving motor 804, so that the surface of the pipeline is polished, the pipeline is always positioned between the two brushes 807 during polishing, so that the polishing effect of the surface of the pipeline can be improved, the two fourth driving motors 804 are symmetrically arranged up and down, and a gap is left between the two fourth driving motors 804, the left gap is used for polishing during pipeline transportation;

a second pipeline driving mechanism 9 is further arranged in the pipeline clamping mechanism 7, the second pipeline driving mechanism 9 comprises a third driving motor 901, a second connecting rod 902 and a plurality of second driving wheels 903, a second motor supporting plate 904 is arranged on one side of the fixed base 701, the second motor supporting plate 904 is used for supporting the third driving motor 901, third through holes 905 are respectively arranged on two sides of the inner wall of the groove 705, a fourth bearing 906 is clamped in the third through holes 905, two ends of the second connecting rod 902 are respectively connected with the two fourth bearings 906, the arrangement of the fourth bearing 906 ensures the rotating effect of the connecting rod 902, the third driving motor 901 is connected with one end of the second connecting rod 902, the plurality of second driving wheels 903 are uniformly distributed on the surface of the second connecting rod 902, the third driving motor 901 rotates to drive the second connecting rod 902 and the connected second driving wheel 903 to rotate, so that the effect of conveying the pipeline is achieved; also be provided with pipeline stop gear 4 between pipeline cutting mechanism 6 and the pipeline fixture 7, pipeline grinding mechanism 8 keeps away from one side of pipeline fixture 7 and also is provided with pipeline stop gear 4, and the setting of a plurality of pipeline stop gear 4 can support the pipeline all the time, and auxiliary wheel 302, first wheel 404 that rolls, drive wheel 508 and second drive wheel 903 keep at same horizontal plane simultaneously, stability when can guaranteeing the pipe transportation like this.

In this embodiment, as shown in fig. 1, support legs 10 are disposed below the first platform 1 and the second platform 2, third rubber skidproof pads 11 are disposed on the lower end faces of the support legs 10, the support legs 10 are used for supporting the first platform 1 and the second platform 2, and the third rubber skidproof pads 11 are disposed to improve the skidproof effect of the support legs 10.

A method of using a processing apparatus for a mud manifold pipe for oil drilling, comprising the steps of:

s1: placing one end of an unprocessed pipeline on the surface of the first rolling wheel 404, then pushing the pipeline to the surface of the driving wheel 508, then starting the first driving motor 503, enabling the first driving motor 503 to drive the driving wheel 508 to rotate, so that the pipeline is conveyed to the surface of the auxiliary supporting plate structure 3, then continuing conveying the pipeline until the pipeline is conveyed below the pipeline cutting mechanism 6, and then adjusting the conveying distance according to the cutting length;

s2: after the pipeline is adjusted, one end of the pipeline is positioned on the surface of the pipeline limiting mechanism 4 between the pipeline cutting mechanism 6 and the pipeline clamping mechanism 7, and then the second driving motor 604 and the cutting machine 603 are started, so that the second driving motor 604 drives the first threaded hole 610 to rotate between the second bearing 607 and the first threaded hole 608, and the sliding plate 602 and the cutting machine 603 are driven to move downwards, and then the pipeline is cut;

s3: after the pipeline is cut, because the pipeline at the rear is still conveyed, the cut pipeline is pushed into the second pipeline driving mechanism 9, then the third driving motor 901 is started to drive the second driving wheel 903 to rotate, so that the pipeline is conveyed into the pipeline polishing mechanism 8, then the second threaded rod 704 is rotated in the third threaded hole 709 and the third bearing 710 by rotating the second threaded rod 704, so that the second sliding plate 703 is pushed to move downwards until the pipeline is fixed, then the fourth driving motor 804 is started to drive the brush 807 to rotate, so that one end of the pipeline is polished, then the pipeline clamping mechanism 7 is opened, the pipeline is conveyed continuously by using the second pipeline driving mechanism 9, a worker holds the polished pipeline part by hand, and the rest parts of the pipeline are polished by using the pipeline polishing mechanism 8 in the pipeline conveying process, when pipeline transportation to a certain position, the pipeline can be kept away from pipeline stop gear 4 of one side of pipeline fixture 7 through pipeline grinding machanism 8 and support, and the staff hand does not from the pipeline, and the pipeline after the cutting is whole to be polished after accomplishing, and the staff directly takes away can.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to achieve the technical effect basically.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or system in which the element is included.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The processing equipment for the slurry manifold pipeline for oil drilling comprises a first platform (1) and a second platform (2), and is characterized in that an auxiliary supporting plate structure (3) is connected between the first platform (1) and the second platform (2);

the pipeline cutting device is characterized in that a pipeline limiting mechanism (4) and a pipeline driving mechanism (5) are sequentially arranged on the upper end face of the first platform (1), and the pipeline limiting mechanism (4), a pipeline cutting mechanism (6), a pipeline clamping mechanism (7) and a pipeline polishing mechanism (8) are sequentially arranged on the second platform (2);

still be provided with second pipeline actuating mechanism (9) in pipeline fixture (7), pipeline cutting mechanism (6) with also be provided with between pipeline fixture (7) pipeline stop gear (4), pipeline grinding machanism (8) are kept away from one side of pipeline fixture (7) also is provided with pipeline stop gear (4).

2. The processing equipment for the mud manifold piping for oil drilling and production according to claim 1, wherein: the pipeline limiting mechanism (4) comprises a main body block (401), a semicircular groove (402) is formed in the upper end face of the main body block (201), a groove (403) is formed in the bottom of the inner wall of the semicircular groove (402), a plurality of first rolling wheels (404) are rotationally connected in the groove (403), and first rubber anti-skid pads (405) are arranged on the surfaces of the first rolling wheels (404).

3. The processing equipment for the mud manifold piping for oil drilling and production according to claim 1, wherein: the pipeline driving mechanism (5) comprises a bottom plate (501), two side plates (502) which are symmetrically arranged and a first driving motor (503), a first through hole (504) is arranged below the side plate (502), a first bearing (505) is clamped in the first through hole (504), a motor supporting plate (506) is arranged on one side of the bottom plate (501), the first driving motor (503) is arranged on the upper end face of the motor supporting plate (506), a first connecting rod (507) is connected between the two side plates (502), two ends of the first connecting rod (507) are respectively clamped in the two first bearings (505), a plurality of driving wheels (508) are connected on the first connecting rod (507), a second rubber anti-skid pad (509) is arranged on the surface of each driving wheel (508), the output end of the first driving motor (503) is connected with one end of the first connecting rod (507).

4. The processing equipment for the mud manifold piping for oil drilling and production according to claim 1, wherein: the auxiliary supporting plate structure (3) comprises a connecting base (301) and a plurality of auxiliary wheels (302), a second groove (303) is formed in the upper end face of the connecting base (301), the auxiliary wheels (302) are evenly distributed and connected inside the second groove (303), and the auxiliary supporting plate structure (3) is far away from one side of the first platform (1) and is in contact with the connecting base (301).

5. The processing equipment for the mud manifold piping for oil drilling and production according to claim 1, wherein: the pipeline cutting mechanism (6) comprises two side supporting plates (601), a sliding plate (602), a cutting machine (603) and a second driving motor (604) which are symmetrically arranged, a first sliding groove (605) is vertically arranged on the inner side surface of the side supporting plate (601), first sliding blocks (606) are arranged on two sides of the sliding plate (602), a second bearing (607) is arranged at the bottom of the first sliding chute (605), the cutting machine (603) is arranged on the lower end surface of the sliding plate (602), the first sliding block (606) is provided with a first threaded hole (608), the upper end surface of the first sliding groove (605) is provided with a first through hole (609), the output end of the second driving motor (604) is arranged in the first through hole (609) and is connected with a first threaded rod (610), the first threaded rod (610) extends through the first threaded hole (608) and connects with the second bearing (607).

6. The processing equipment for the mud manifold piping for oil drilling and production according to claim 1, wherein: the pipeline clamping mechanism (7) comprises a fixed base (701), two second supporting plates (702), a second sliding plate (703) and a second threaded rod (704), wherein the two second supporting plates (702), the second sliding plate (703) and the second threaded rod (704) are symmetrically arranged, a groove (705) is formed in the upper end face of the fixed base (701), the two second supporting plates (702) are respectively and vertically arranged on two sides of the upper end face of the fixed base (701), a through groove (706) is vertically formed in the second supporting plate (702), sliding plates (707) are arranged on two sides of the second sliding plate (703), the sliding plates (707) extend to the outer side of the second supporting plate (702), a connecting plate (708) is arranged above the outer side of the second supporting plate (702), a third threaded hole (709) is formed in the connecting plate (708), a third bearing (710) is arranged on the upper end face of the sliding plates (707), and the second threaded rod (704) penetrates through the third threaded hole (709) and is connected with the third bearing (710), the upper end of the second threaded rod (704) is connected with a rotating hand wheel (711).

7. The processing equipment for the mud manifold piping for oil drilling and production according to claim 6, wherein: second pipeline actuating mechanism (9) is including third driving motor (901), second connecting rod (902) and a plurality of second drive wheel (903), one side of unable adjustment base (701) is provided with second motor backup pad (904), third through-hole (905) have all been seted up to the both sides of recess (705) inner wall, third through-hole (905) inside callipers is equipped with fourth bearing (906), the both ends of second connecting rod 902 respectively with two fourth bearing (906) are connected, third driving motor (901) with one end wherein of second connecting rod (902) is connected, a plurality of second drive wheel (903) evenly distributed is in second connecting rod (902) surface.

8. The processing equipment for the mud manifold piping for oil drilling and production according to claim 1, wherein: the pipeline polishing mechanism (8) comprises a supporting base (801), two baffles (802), a top plate (803) and two fourth driving motors (804), wherein the two baffles are symmetrically arranged, a clamping groove (805) is formed in the supporting base (801), one of the fourth driving motors (804) is clamped in the clamping groove (805), the two baffles (802) are respectively arranged at two sides of the upper end surface of the supporting base (801), the top plate (803) is arranged above the inner side surfaces of the two baffle plates (802), a second through groove (806) is formed in the top plate (803), the other fourth driving motor (804) is clamped in the second through groove (806), the output end of the fourth driving motor (804) is connected with a brush (807), and the two fourth driving motors (804) are arranged up and down symmetrically and have a gap between the two fourth driving motors.

9. The processing equipment for the mud manifold piping for oil drilling and production according to claim 1, wherein: the first platform (1) and the second platform (2) are provided with supporting legs (10) below, and the lower end faces of the supporting legs (10) are provided with third rubber anti-skid pads (11).

10. The use method of the processing equipment for the slurry manifold pipeline for oil drilling and production is characterized by comprising the following steps:

s1: placing one end of an unprocessed pipeline on the surface of a first rolling wheel (404), then pushing the pipeline to the surface of a driving wheel (508), then starting a first driving motor (503), enabling the first driving motor (503) to drive the driving wheel (508) to rotate, so that the pipeline is conveyed to the surface of an auxiliary supporting plate structure (3), then continuing conveying until the pipeline is conveyed below a pipeline cutting mechanism (6), and then adjusting the conveying distance according to the cutting length;

s2: after the pipeline is adjusted, one end of the pipeline is positioned on the surface of a pipeline limiting mechanism (4) between a pipeline cutting mechanism (6) and a pipeline clamping mechanism (7), and then a second driving motor (604) and a cutting machine (603) are started, so that the second driving motor (604) drives a first threaded hole (610) to rotate between a second bearing (607) and a first threaded hole (608), and further drives a sliding plate (602) and the cutting machine (603) to move downwards, and then the pipeline is cut;

s3: after the pipeline is cut, because the rear pipeline is still conveyed, the cut pipeline is pushed into a second pipeline driving mechanism (9), then the third driving motor (901) is started, the third driving motor (901) drives a second driving wheel (903) to rotate, so that the pipeline is conveyed into a pipeline grinding mechanism (8), then the second threaded rod (704) is rotated in a third threaded hole (709) and a third bearing (710), so that a second sliding plate (703) is pushed to move downwards until the pipeline is fixed, then a fourth driving motor (804) is started to drive a brush (807) to rotate, so that one end of the pipeline is ground, then a pipeline clamping mechanism (7) is opened, and the pipeline is conveyed continuously by using the second pipeline driving mechanism (9), the pipeline part after the staff holds the hand and polishes utilizes in pipeline transportation's in-process pipeline grinding mechanism (8) continues to polish to the rest parts of pipeline, and when pipeline transportation to a certain position, the pipeline can pass through pipeline grinding mechanism (8) are kept away from one side of pipeline fixture (7) pipeline stop gear (4) support, and the staff hand is not from the pipeline, and after the pipeline after the cutting was all polished and is accomplished, the staff directly took away can.

Images