CN114426195B - Feeding system for oil casing surface anti-corrosion treatment - Google Patents

Abstract

The invention provides a feeding system for corrosion-resistant treatment of the surface of an oil sleeve, and relates to the technical field of feeding equipment. Including batching platform, feeding mechanism, leveling mechanism, guide mechanism and delivery mechanism, wherein: a batching platform for placing the oil jacket to be treated; a pick-up mechanism for delivering oil jackets to be treated on the batching platform to the levelling mechanism; the leveling mechanism is arranged between the material taking mechanism and the material guiding mechanism and is used for aligning each oil sleeve; the material guide mechanism is arranged between the leveling mechanism and the distribution mechanism and is used for guiding the oil sleeve to be processed on the leveling mechanism to the distribution mechanism; and the delivery mechanism is used for conveying the oil sleeve guided by the guide mechanism to the anti-corrosion spraying machine. According to the invention, automatic feeding is realized, the oil sleeve is not required to be manually conveyed to the anti-corrosion treatment machine for anti-corrosion treatment, the work load of workers is greatly reduced, and the work efficiency is effectively improved.

Description

Feeding system for oil casing surface anti-corrosion treatment

Technical Field

The invention relates to the technical field of feeding equipment, in particular to a feeding system for oil casing surface corrosion prevention treatment.

Background

The petroleum casing is a steel pipe for supporting the well wall of an oil and gas well so as to ensure the normal operation of the whole oil well after the well drilling process and the well completion. Several layers of casing are used for each well depending on the drilling depth and geology. Cement well cementation is adopted after the casing is put into the well, and the casing is different from an oil pipe and a drill rod, can not be reused and belongs to disposable consumable materials. Therefore, the consumption of the casing accounts for 70% or more of the total oil country tubular goods.

In general, in the production of petroleum casing, the surface thereof needs to be subjected to corrosion-preventing treatment to increase the corrosion resistance of the petroleum casing. At present, the petroleum casing pipe is manually sent into the anti-corrosion spraying machine for surface anti-corrosion treatment, and the production mode has the advantages of large workload and low working efficiency.

Therefore, how to solve the above technical problems is an important point of study by those skilled in the art.

Disclosure of Invention

The invention aims to provide a feeding system for the surface anti-corrosion treatment of an oil sleeve, which can solve the problems of large workload and low working efficiency caused by manual feeding.

Embodiments of the present invention are implemented as follows:

the utility model provides a feeding system of oil jacket surface anti-corrosion treatment, includes batching platform, feeding mechanism, leveling mechanism, guide mechanism and delivery mechanism, wherein:

a batching platform for placing the oil jacket to be treated;

a pick-up mechanism for delivering oil jackets to be treated on the batching platform to the levelling mechanism;

the leveling mechanism is arranged between the material taking mechanism and the material guiding mechanism and is used for aligning each oil sleeve;

the material guide mechanism is arranged between the leveling mechanism and the distribution mechanism and is used for guiding the oil sleeve to be processed on the leveling mechanism to the distribution mechanism;

and the delivery mechanism is used for conveying the oil sleeve guided by the guide mechanism to the anti-corrosion spraying machine.

The embodiment of the invention has at least the following advantages or beneficial effects:

according to the feeding system for the anti-corrosion treatment of the oil sleeve surface, which is provided by the invention, the to-be-treated oil sleeve is sequentially transferred to the distribution mechanism from one side of the batching platform by sequentially arranging the batching platform, the material taking mechanism, the leveling mechanism, the material guiding mechanism and the distribution mechanism, so that automatic feeding is completed, the oil sleeve is not required to be manually conveyed to the anti-corrosion treatment machine for anti-corrosion treatment, the work load of workers is greatly reduced, and the work efficiency is effectively improved.

In some embodiments of the invention, the batching platform comprises a plurality of support beams arranged in parallel and spaced apart from each other, the end of the support beams close to the extracting mechanism being provided with a blanking plate i.

Based on the design, be used for bearing the oil jacket pipe that waits to treat through a plurality of supporting beams to be provided with striker plate I in the one end that is close to the extracting mechanism at the supporting beam, utilize striker plate I can prevent that oil jacket pipe from sliding off from supporting beam.

In some embodiments of the present invention, the material taking mechanism, the material guiding mechanism and the distributing mechanism each comprise a supporting frame and a material taking assembly arranged on one side of the supporting frame, wherein the material taking assembly is used for taking the oil sleeve off one side.

Based on the design, through the setting of getting the material subassembly, can be with oil sleeve pipe follow one side and take off and shift.

In some embodiments of the present invention, the material taking assembly includes a material taking telescopic cylinder and a plurality of material taking arms, the material taking arms are arranged on the support frame at intervals, each material taking arm includes a material taking arm plate, a material taking rotating shaft fixed with the material taking arm plate and rotatably arranged on the support frame, and a material taking connecting arm sleeved at the end part of the material taking rotating shaft, the material taking telescopic cylinder is hinged with the material taking connecting arm positioned at the side, and two adjacent material taking connecting arms are hinged with each other through a material taking connecting rod.

Based on the design, through getting the flexible jar of getting flexible, can link all getting the connecting rod and drive and get the pivot rotation of getting, get the arm board and can rotate along with getting the pivot, at horizontal plane and vertical plane free conversion to realize getting the oil sleeve pipe off from one side.

In some embodiments of the present invention, a dam plate ii is disposed at an end of the take-out arm plate remote from the dispensing platform.

Based on the design, through being provided with striker plate II in the one end that the material arm board kept away from the batching platform, can prevent that the oil jacket from getting the material arm board landing.

In some embodiments of the invention, the take-off mechanism and the guide mechanism further comprise a discharge assembly disposed on the other side of the support frame for transferring the oil jacket to the other side.

Based on the design, through setting up the material subassembly of putting, cooperate with getting the material subassembly to realize that the oil sleeve shifts from one side to the opposite side.

In some embodiments of the present invention, the discharging assembly includes a discharging telescopic cylinder and a plurality of discharging arms, the discharging arms are arranged on the supporting frame at intervals, each discharging arm includes a discharging arm plate, a discharging rotating shaft fixed with the discharging arm plate and rotatably arranged on the supporting frame, and a discharging connecting arm sleeved at the end of the discharging rotating shaft, the discharging telescopic cylinder is hinged with the discharging connecting arm at the side, and two adjacent discharging connecting arms are hinged with each other through a discharging connecting rod.

Based on the design, through the flexible jar of blowing is flexible, alright all blowing connecting rods of linkage drive the blowing pivot and rotate, then the blowing arm board alright rotate along with the blowing pivot, at horizontal plane and vertical plane free conversion to realize shifting the oil jacket pipe to the opposite side.

In some embodiments of the invention, the guide mechanism further comprises a plurality of guide rails which are spaced apart from each other and are arranged in parallel, and one end of the guide rail, which is close to the dispensing mechanism, is provided with a stop plate III.

Based on the design, the oil sleeve can be transferred to one side of the distribution mechanism by arranging the guide rail, and the oil sleeve can be prevented from sliding off the guide rail by arranging the baffle plate III.

In some embodiments of the present invention, the dispensing mechanism further includes a plurality of conveying rollers disposed on the support frame, and the conveying rollers are in transmission connection with each other through a sprocket assembly.

Based on the design, through setting up a plurality of conveying running rollers to pass through sprocket assembly transmission with conveying running roller and connect, thereby carry the oil sleeve to anticorrosive flush coater along conveying running roller and carry out anticorrosive spraying treatment.

In some embodiments of the present invention, the leveling mechanism includes a V-shaped monolith platform, a monolith telescoping cylinder, and a monolith retaining plate, the monolith telescoping cylinder and the monolith retaining plate being disposed at two ends of the monolith platform, respectively.

Based on the design, can form the support to the oil sleeve through the material arranging platform to the V type material arranging platform can prevent that the oil sleeve from dropping, utilizes the telescopic jar of material arranging to promote oil sheathed tube one end simultaneously and removes, makes oil sheathed tube other end offset with material arranging butt plate, thereby aligns every oil sleeve.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a feeding system for oil casing surface corrosion protection treatment according to an embodiment of the present invention.

Icon: 1-a material distribution platform, 101-a supporting beam, 102-a material baffle I, 2-a material taking mechanism, 21-a supporting frame, 22-a material taking assembly, 220-a material taking telescopic cylinder, 221-a material taking rotating shaft, 222-a material taking arm plate, 223-a material taking connecting arm, 224-a material taking connecting rod, 225-a material baffle II, 23-a material discharging assembly, 230-a material discharging telescopic cylinder, 231-a material discharging rotating shaft, 232-discharging arm plates, 233-discharging connecting arms, 234-discharging connecting rods, 3-leveling mechanisms, 301-monolith platforms, 302-monolith telescopic cylinders, 303-monolith retaining plates, 4-material guiding mechanisms, 401-guide rails, 402-baffle plates III, 5-distribution mechanisms, 501-conveying rollers, 502-sprocket assemblies, 6-oil sleeves and 7-anti-corrosion spraying machines.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "center," "upper," "lower," "inner," "outer," and the like indicate an azimuth or a positional relationship based on that shown in the drawings, or an azimuth or a positional relationship in which the product of the present invention is conventionally put when used, it is merely for convenience of describing the present invention and simplifying the description, and does not indicate or imply that the apparatus or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, "plurality" means at least 2.

In the description of the embodiments of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Examples

Referring to fig. 1, fig. 1 is a schematic structural diagram of a feeding system for corrosion protection treatment of an oil casing according to an embodiment of the present invention.

Specifically, in this embodiment, the feeding system for the surface anti-corrosion treatment of the oil jacket pipe 6 comprises a batching platform 1, a material taking mechanism 2, a leveling mechanism 3, a material guiding mechanism 4 and a distributing mechanism 5, wherein:

a batching platform 1 for placing an oil jacket 6 to be treated;

a pick-up mechanism 2 for delivering the oil jacket 6 to be treated on the batching platform 1 to the levelling mechanism 3;

the leveling mechanism 3 is arranged between the material taking mechanism 2 and the material guiding mechanism 4 and is used for aligning each oil sleeve 6;

a material guiding mechanism 4, which is arranged between the leveling mechanism 3 and the distribution mechanism 5, and is used for guiding the oil sleeve 6 to be processed on the leveling mechanism 3 to the distribution mechanism 5;

and a dispensing mechanism 5 for conveying the oil jacket 6 guided by the guide mechanism 4 to a corrosion-preventing applicator 7.

From the above, it is known that by hanging the oil jacket 6 to be antiseptic treated to the batching platform 1 by crane, cutting the rope short, scattering the oil jacket 6 on the batching platform 1, transferring the oil jacket 6 from the batching platform 1 to the leveling mechanism 3 by the material taking mechanism 2, arranging each oil jacket 6 by the leveling mechanism 3 so that the ends are aligned in the same line, transferring the oil jacket 6 on the leveling mechanism 3 to the distribution mechanism 5 by the material guiding mechanism 4, and conveying the oil jacket 6 to the antiseptic spraying machine 7 by the distribution mechanism 5 for antiseptic spraying treatment.

In order to realize the feeding process, in this embodiment, the specific structures of the batching platform 1, the material taking mechanism 2, the leveling mechanism 3, the material guiding mechanism 4 and the distributing mechanism 5 are as follows:

wherein the batching platform 1 comprises a number of transversely arranged support beams 101, adjacent support beams 101 being spaced apart from each other and parallel to each other, and the oil jacket 6 to be treated is placed on the batching platform 1 across the support beams 101. In order to prevent the oil jacket 6 from slipping off the support beam 101, a striker plate i 102 is integrally formed on the upper surface of the end of the support beam 101 near the take-out mechanism 2.

The material taking mechanism 2 comprises a supporting frame 21, a material taking assembly 22 and a material discharging assembly 23, wherein the material taking assembly 22 is arranged on one side of the supporting frame 21 away from the material mixing platform 1, the material discharging assembly 23 is arranged on one side close to the material mixing platform 1, and the material taking assembly 22 and the radiotherapy assembly are alternately lifted.

Specifically, the above-mentioned material taking assembly 22 includes a material taking telescopic cylinder 220 and a plurality of material taking arms, the material taking arms are arranged on the upper surface of the above-mentioned support frame 21 at intervals, each material taking arm includes a material taking arm plate 222, a material taking rotating shaft 221 and a material taking connecting arm 223, the material taking rotating shaft 221 is mounted on the support frame 21 through a bearing seat in a rotating manner, the material taking rotating shaft 221 is mutually perpendicular to the mounting frame, the material taking arm plate 222 is in the material taking rotating shaft 221 in an interference fit manner, one end of the material taking arm plate 222 extends to one side of the material mixing platform 1, and the end of the side is located below a first oil sleeve 6 of the material mixing platform 1. In addition, the end of the material taking arm plate 222 far away from the material taking shaft 221 is an inclined surface, and is inclined downwards from one side of the material dispensing platform 1 to one side far away from the material dispensing platform 1, and meanwhile, a material blocking plate ii 225 is disposed at one end of the material taking arm plate 222 far away from the material dispensing platform 1. The material taking telescopic cylinder 220 is mounted on the ground through a hinged support, the output end of the material taking telescopic cylinder 220 is hinged with a material taking connecting arm 223 positioned at the side, the material taking connecting arm 223 is sleeved at one end of the material taking rotary shaft 221, and two adjacent material taking connecting arms 223 are hinged with each other through a material taking connecting rod 224.

The above-mentioned blowing subassembly 23 includes blowing telescopic cylinder 230 and a plurality of blowing arm, the blowing arm interval sets up in the upper surface of above-mentioned support frame 21, every the blowing arm includes blowing arm board 232, blowing pivot 231 and blowing link arm 233, and blowing pivot 231 passes through the bearing frame pivoted and installs in support frame 21, and blowing pivot 231 and mounting bracket mutually perpendicular, and blowing arm board 232 interference suit is in on the blowing pivot 231, the one end of blowing arm board 232 extends to leveling mechanism 3 one side simultaneously. The end of the discharging arm plate 232 away from the discharging shaft 231 is an inclined surface, and is inclined downward from the side of the dispensing platform 1 to the side away from the dispensing platform 1. The above-mentioned expansion cylinder 230 is mounted on the ground by means of hinged support, and the output end of expansion cylinder 230 is hinged with the expansion connecting arm 233 positioned on side, the expansion connecting arm 233 is sleeved on one end of the expansion rotating shaft 231, and two adjacent expansion connecting arms 233 are mutually hinged by means of expansion connecting rod 234

Then, when the above-mentioned material taking telescopic cylinder 220 is extended, the material taking connecting arm 223 is driven to rotate downwards, the material taking rotating shaft 221 is driven to rotate by the material taking connecting arm 223, the material taking arm plate 222 rotates along with the material taking rotating shaft 221 and is tilted upwards, so that the first oil sleeve 6 on the material mixing platform 1 is jacked up, the oil sleeve 6 is transferred onto the material taking arm plate 222 and slides to one end of the material baffle II 225 along with the inclined surface of the material taking arm plate 222, when the material taking arm plate 222 rotates from the horizontal plane to the vertical plane, the material taking telescopic rod starts to shorten, the material taking connecting arm 223 is driven to rotate upwards, the material taking rotating shaft 221 is driven to rotate by the material taking connecting arm 223, and the material taking arm plate 222 rotates along with the material taking rotating shaft 221 and is retracted downwards;

while the material taking telescopic rod is shortened, the material discharging telescopic rod is lengthened, the material discharging arm plate 232 is lifted upwards slowly, the oil sleeve 6 on the material taking arm plate 222 is taken down and transferred to the material discharging arm plate 232, the oil sleeve 6 transferred to the material discharging arm plate 232 rolls down to the leveling mechanism 3 along the inclined surface of the material discharging arm plate 232, when the material discharging arm plate 232 rotates to a vertical surface from a horizontal surface, the material discharging telescopic cylinder 230 starts to be shortened, the material discharging connecting arm 233 is driven to rotate backwards, the material discharging rotating shaft 231 is driven to rotate by the material discharging connecting arm 233, and the material discharging arm plate 232 rotates along with the material discharging rotating shaft 231 and is retracted downwards. The oil jackets 6 are transferred one by one from the dosing platform 1 to the levelling mechanism 3 by alternating operation of the take-out assembly 22 and the discharge assembly 23.

Furthermore, the leveling mechanism 3 includes a monolith platform 301, a monolith telescopic cylinder 302, and a monolith retaining plate 303, where the monolith platform 301 has a plurality of V-shaped structures to form a row and is close to the discharging arm plate 232, so that the oil jacket 6 on the discharging arm plate 232 falls into the monolith platform 301, and the monolith telescopic cylinder 302 and the monolith retaining plate 303 are respectively disposed at two ends of the monolith platform 301. The V-shaped monolith platform 301 can smoothly catch the oil jacket 6 sliding from the material taking arm plate 222, and gradually extend against one end of the oil jacket 6 to push the other end through the monolith telescopic cylinder 302, so that the other end of the oil jacket 6 is abutted against the monolith abutment plate 303, thereby completing the monolith alignment work.

Furthermore, the above-mentioned guiding mechanism 4 includes a supporting frame, a material taking component, a material discharging component and a guide rail 401, where the supporting frame, the material taking component and the material discharging component are identical to the supporting frame 21, the material taking component 22 and the material discharging component 23 of the above-mentioned material taking mechanism 2 in structure, and the working principle is also identical, so that the description thereof will not be repeated here. The support frame, the take-out assembly, and the discharge assembly of the guide mechanism 4 are disposed on the side close to the leveling mechanism 3, and the guide rail 401 is disposed on the side close to the dispensing mechanism 5. And the oil sleeve 6 on the leveling mechanism 3 is transferred to the guide rail 401 through the alternate movement of the material taking component and the material discharging component, and the oil sleeve 6 moves to one side of the distribution mechanism 5 along the guide rail 401. Of course, a stop plate iii 402 is likewise provided on the side of the guide rail 401 adjacent to the dispensing mechanism 5, with the stop plate iii 402 preventing the oil jacket 6 from sliding off the guide rail 401.

Finally, the above-mentioned delivery mechanism 5 includes a support frame, a material taking assembly and a conveying roller 501, where the support frame and the material taking assembly are identical to the above-mentioned support frame and material taking assembly in structure, and the principle is identical, and not described in detail, the conveying roller 501 is installed on the upper surface of the support frame, and a plurality of conveying rollers are arranged along the length direction of the support frame, and each conveying roller 501 is in transmission connection through a sprocket assembly 502, and drives all conveying rollers 501 to rotate simultaneously through a motor. It can be seen that the oil jacket 6 on the guide rail 401 is transferred to the conveying roller 501 by the material taking assembly, and is transmitted to the anti-corrosion spraying machine 7 by the conveying roller for anti-corrosion spraying treatment.

In summary, according to the feeding system for the surface anti-corrosion treatment of the oil sleeve 6, provided by the invention, the to-be-treated oil sleeve 6 is sequentially transferred to the distribution mechanism 5 from one side of the distribution platform 1 by sequentially arranging the distribution platform 1, the material taking mechanism 2, the leveling mechanism 3, the material guiding mechanism 4 and the distribution mechanism 5, so that automatic feeding is completed, the oil sleeve 6 is not required to be manually conveyed to an anti-corrosion treatment machine for anti-corrosion treatment, the work load of workers is greatly reduced, and the work efficiency is effectively improved.

The foregoing is merely a preferred embodiment of the present invention and is not intended to limit the present invention, and it will be apparent to those skilled in the art that the present application is not limited to the details of the above-described exemplary embodiment, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. The utility model provides a feeding system of oil jacket surface anti-corrosion treatment, its characterized in that includes batching platform, extracting mechanism, leveling mechanism, guide mechanism and delivery mechanism, wherein:

a batching platform for placing the oil jacket to be treated;

a pick-up mechanism for delivering oil jackets to be treated on the batching platform to the levelling mechanism;

the leveling mechanism is arranged between the material taking mechanism and the material guiding mechanism and is used for aligning each oil sleeve;

the material guide mechanism is arranged between the leveling mechanism and the distribution mechanism and is used for guiding the oil sleeve to be processed on the leveling mechanism to the distribution mechanism;

the delivery mechanism is used for conveying the oil sleeve guided by the guide mechanism to the anti-corrosion spraying machine;

the batching platform comprises a plurality of supporting beams which are arranged in parallel at intervals, and one end, close to the material taking mechanism, of each supporting beam is provided with a material baffle I; the material taking mechanism, the material guiding mechanism and the distribution mechanism comprise a supporting frame and a material taking assembly arranged on one side of the supporting frame, and the material taking assembly is used for taking down the oil sleeve from one side of the material mixing platform, one side of the leveling mechanism and one side of the material guiding mechanism respectively;

the material taking mechanism and the material guiding mechanism further comprise a material discharging assembly, wherein the material discharging assembly is arranged on the other side of the supporting frame and is used for transferring the oil sleeve from the material taking assembly to one side of a guide rail of the leveling mechanism and one side of a guide rail of the material guiding mechanism respectively;

the discharging assembly comprises a discharging telescopic cylinder and a plurality of discharging arms, the discharging arms are arranged on the supporting frame at intervals, each discharging arm comprises a discharging arm plate, a discharging rotating shaft which is fixed with the discharging arm plate and is rotatably arranged on the supporting frame, and a discharging connecting arm sleeved at the end part of the discharging rotating shaft, the discharging telescopic cylinder is hinged with the discharging connecting arm at the side, and two adjacent discharging connecting arms are hinged with each other through a discharging connecting rod;

the material taking assembly comprises a material taking telescopic cylinder and a plurality of material taking arms, the material taking arms are arranged on the supporting frame at intervals, each material taking arm comprises a material taking arm plate, a material taking rotating shaft which is fixedly arranged on the material taking arm plate and rotatably arranged on the supporting frame, and a material taking connecting arm sleeved at the end part of the material taking rotating shaft, the material taking telescopic cylinder is hinged with the material taking connecting arm positioned at the side, and two adjacent material taking connecting arms are hinged with each other through a material taking connecting rod;

one end of the material taking arm plate, which is far away from the material mixing platform, is provided with a material baffle II; the guide mechanism further comprises a plurality of guide rails which are arranged in parallel at intervals, and one end, close to the distribution mechanism, of each guide rail is provided with a baffle plate III;

the material taking arm plate rotates along with the material taking rotating shaft, and the material taking arm plate is tilted upwards, so that a first oil sleeve on the material mixing platform is jacked up, and then the oil sleeve is transferred to the material taking arm plate and slides to one end of the material baffle plate II along with the inclined surface of the material taking arm plate;

the discharging arm plate is slowly lifted upwards, the oil sleeve on the material taking arm plate is taken down and transferred to the discharging arm plate, and the oil sleeve transferred to the discharging arm plate rolls down to the leveling mechanism along the inclined surface of the discharging arm plate.

2. The feed system for the anti-corrosion treatment of the surface of an oil jacket tube according to claim 1, wherein the distribution mechanism further comprises a plurality of conveying rollers arranged on the supporting frame, and the conveying rollers are in transmission connection through a chain wheel assembly.

3. The feeding system for the anti-corrosion treatment of the surface of an oil sleeve according to claim 1, wherein the leveling mechanism comprises a V-shaped material arranging platform, a material arranging telescopic cylinder and material arranging retaining plates, and the material arranging telescopic cylinder and the material arranging retaining plates are respectively arranged at two ends of the material arranging platform.