CN111495889A - Well drilling casing pipe processing apparatus - Google Patents

Abstract

The invention relates to a drilling device, in particular to a drilling casing processing device. The invention aims to provide a drilling casing processing device. A well drilling sleeve processing device comprises a first working bottom plate, a first elevated column, a real-time control screen, an oscillating mechanism, a buffering and collecting mechanism, an inner surface layer scrubbing mechanism and an outer surface scrubbing and wiping mechanism; the left side of the top end of the first working bottom plate is welded with the first elevated column. The invention realizes the efficient vibration removal of the soil blocks carried on the inner surface layer and the outer surface layer of the well drilling casing pipe, and efficiently removes oil stains on the inner surface of the casing pipe.

Description

Well drilling casing pipe processing apparatus

Technical Field

The invention relates to a drilling device, in particular to a drilling casing processing device.

Background

The task of drilling a borehole from the surface using mechanical equipment or manual labor is known as drilling. Generally refers to the engineering of drilling boreholes and large diameter water-supply wells for the exploration or exploitation of liquid and gaseous minerals such as oil, gas, and the like. The application of well drilling in national economic construction is extremely wide.

Casing drilling refers to the process of applying torque and bit pressure to a drill bit by using a casing instead of a drill rod to realize the rotation and drilling of the drill bit. The drill rod, the drill collar and the like are not used in the whole drilling process, the drill bit is thrown and dragged by using the steel wire rope, and the drill bit is lifted and lowered in the sleeve, namely the drill bit and the drilling tool are replaced without lifting the drill bit. The accident such as tripping, blowout, stuck drill and the like is reduced, the drilling safety is improved, and the drilling cost is reduced.

After the drilling casing pipe in the prior art is used, because the drill bit is lifted in the casing pipe, the casing pipe can be stained with oil stains in the use process, meanwhile, because the underground pattern layer is wet, part of soil blocks are adhered to the inner surface layer and the outer surface layer of the casing pipe, and simultaneously, because the physical property of the casing pipe limits, the oil stains in the casing pipe are difficult to clean, the service life of the casing pipe is short, the casing pipe needs to be manually cleaned after being used every time, the casing pipe needs to be manually cleaned in the cleaning process by slowly absorbing and cleaning through the oil absorption fiber, the oil stains on the inner surface layer of the casing pipe are inconvenient to clean after being used, meanwhile, the outer surface layer has the adhered soil blocks, the outer surface layer of the casing pipe can be oxidized by air after being stopped for a long time, meanwhile, the oil absorption fiber is manually used for cleaning, the time is long, the labor is great, dead angles can, the inner surface of the sleeve is smooth, so that oil stain is attracted to the sleeve strongly, and the oil stain is difficult to separate.

Accordingly, there is a need to develop a well casing treatment apparatus to overcome the above problems.

Disclosure of Invention

The invention aims to overcome the defects that the drill bit is lifted in the sleeve, the sleeve is stained with petroleum stains in the use process, a part of soil blocks are adhered to the inner surface layer and the outer surface layer of the sleeve due to the moist underground pattern layer, the oil stains in the sleeve are difficult to clean due to the limitation of the physical properties of the sleeve, the service life of the sleeve is short, manual dirt cleaning operation is required after the sleeve is used every time, the sleeve is required to be slowly absorbed and cleaned through oil absorption fibers in the manual cleaning process, the oil stains on the inner surface layer of the sleeve are inconvenient to clean after the sleeve is used, the adhered soil blocks exist on the outer surface layer, the outer surface layer of the sleeve is oxidized by air after long-time stagnation work, the oil absorption fibers are manually used for cleaning, the time consumption is long, the labor is great, dead corners cannot be cleaned, and the inner surface layer and the outer surface layer of the sleeve are relatively smooth due to the, the invention provides a drilling well casing pipe processing device, which has the defects that oil stains and the attractive force of the oil stains are strong, and the oil stains are difficult to separate.

The invention is achieved by the following specific technical means:

a well drilling sleeve processing device comprises a first working bottom plate, a first elevated column, a real-time control screen, an oscillating mechanism, a buffering and collecting mechanism, an inner surface layer scrubbing mechanism and an outer surface scrubbing and wiping mechanism; the left side of the top end of the first working bottom plate is welded with the first elevated column; the middle right side of the top end of the first working bottom plate is connected with the oscillating mechanism, and the lower side of the left end of the oscillating mechanism is connected with the first elevated column; the left side of the top end of the first working bottom plate is connected with a buffering and collecting mechanism; the right side and the right end of the top end of the first working bottom plate are both connected with an inner surface layer scrubbing mechanism; the top of the left end of the first elevated column is connected with a real-time control screen; the right end bottom of the inner surface layer brushing mechanism is connected with the outer surface brushing and wiping mechanism.

Preferably, the oscillating mechanism comprises a first power motor, a first motor plate, a first driving wheel, a second driving wheel, a first bevel gear, a second bevel gear, an oscillating buffer cabin, a spring buffer door, a third bevel gear, a fourth bevel gear, a first oscillating wheel, a first bearing sleeve, a first bearing frame, a second oscillating wheel, a second bearing sleeve, a second bearing frame, a feeding barrel and a barrel sleeve; the bottom end of the first power motor is connected with the first motor plate through a bolt; the middle part of the top end of the first power motor is rotationally connected with the first transmission wheel; the right side of the first driving wheel is in transmission connection with a second driving wheel; the middle part of the bottom end of the second driving wheel is rotationally connected with the first bevel gear; the middle part of the top end of the second transmission wheel is rotationally connected with the second oscillating wheel; the middle part of the rear end of the first bevel gear is meshed with the second bevel gear; the middle part of the rear end of the second bevel gear is connected with the oscillation buffer cabin; the right side of the second bevel gear is in transmission connection with a third bevel gear, and the middle part of the rear end of the third bevel gear is connected with an oscillation buffer cabin; a spring buffer door is arranged in the middle of the right end in the oscillation buffer cabin; the top end of the oscillating buffer cabin is connected with the feeding cylinder; the middle part of the top end of the third bevel gear is meshed with the fourth bevel gear; the middle part of the top end of the fourth bevel gear is rotationally connected with the first oscillating wheel; the bottom end of the outer surface of the first oscillating wheel is sleeved with the first bearing sleeve; the outer surface of the first bearing sleeve is sleeved with the first bearing frame; the lower side of the outer surface of the second oscillating wheel is sleeved with a second bearing sleeve; the outer surface of the second bearing sleeve is sleeved with the second bearing frame; the middle part of the outer surface of the feeding cylinder is sleeved with the cylinder sleeve; the left side of the bottom end of the cylinder sleeve is connected with a first elevated column; the left part of the second bearing frame is connected with the first elevated column; the left end of the first motor plate is connected with the first overhead column; the bottom end of the first bearing frame is connected with the first working bottom plate.

Preferably, the buffering and collecting mechanism comprises a soil collecting cabin, a portal frame, a top cover screen plate, a first buffering stagnation seat and a second buffering stagnation seat; the top of the left end and the top of the right end of the soil collection cabin are connected with the portal frame through bolts; the top end of the soil collection cabin is sleeved with the top cover mesh plate; the left side of the top end of the portal frame is connected with the first buffering stagnation seat; the right side of the top end of the portal frame is connected with the second buffering stagnation seat; the bottom end of the soil collection cabin is connected with the first working bottom plate.

Preferably, the inner surface layer scrubbing mechanism comprises a cleaning fluid blanking mechanism, a first electric slide block, a first electric slide rail, a first slide rail plate, a first electric push rod, a first arc-shaped clamping plate, a third bearing frame, a third bearing sleeve, a first middle shaft column, a first steel wire brush, a first giant gear, a first bearing disc, a second giant gear, a second gear control motor and a second working bottom plate; the right lower part of the cleaning liquid blanking mechanism is connected with a first electric slide block; the rear end of the first electric sliding block is connected with the first electric sliding rail in a sliding manner; the middle part of the right end of the first electric sliding block is inserted into the first electric push rod; the right end of the first electric slide rail is connected with the first slide rail plate; the bottom end of the first sliding rail plate is welded with the third bearing frame, and the left side of the top end of the third bearing frame is connected with the first electric sliding rail; the right end of the first electric push rod is connected with the first arc-shaped clamping plate; the middle part in the third bearing frame is sleeved with a third bearing sleeve; the left side of the bottom end of the third bearing frame is welded with the second working bottom plate; the middle part in the third bearing sleeve is sleeved with the first middle shaft column; the top of the left end of the first middle shaft column is connected with a first steel wire brush; the middle part of the bottom end of the first middle shaft column is rotationally connected with the first huge gear; the middle part of the bottom end of the first giant gear is sleeved with a first bearing disc, and the bottom end of the first bearing disc is connected with a second working bottom plate; the middle part of the right end of the first giant gear is meshed with the second giant gear; the middle part of the bottom end of the second giant gear is connected with a second gear control motor, and the bottom end of the second gear control motor is connected with a second working bottom plate; the left end of the second working bottom plate is connected with the first working bottom plate; the bottom end of the cleaning liquid blanking mechanism is connected with the first working bottom plate.

Preferably, the outer surface scrubbing and wiping mechanism comprises a second electric push rod, a first push rod plate, a third working bottom plate, a second arc-shaped clamping plate, a wiping fiber ball, a second middle shaft column, a cleaning brush plate, a second steel wire brush, a micro cleaning liquid spray head, a fourth bearing frame, a third giant gear, a second bearing disc, a fourth giant gear and a third gear control motor; the left end of the second electric push rod is inserted with the first push rod plate; the right end of the second electric push rod is connected with the second arc-shaped clamping plate; the bottom end of the first push rod plate is welded with the third working bottom plate; a wiping fiber ball is arranged at the right lower part of the second arc-shaped clamping plate; the middle part of the bottom end of the wiping fiber ball is inserted into the second middle shaft column; a cleaning brush plate is arranged on the left side of the wiping fiber ball, and the bottom of the right end of the cleaning brush plate is connected with a second middle shaft column; the bottom end of the outer surface of the second middle shaft column is sleeved with a fourth bearing frame, and the left side of the bottom end of the fourth bearing frame is connected with a third working bottom plate; the bottom end of the second middle shaft column is rotationally connected with the third huge gear; the top of the right end of the cleaning brush plate is connected with a second steel wire brush; a miniature cleaning solution spray head is arranged below the second steel wire brush, and the left end of the miniature cleaning solution spray head is connected with the cleaning brush plate; the bottom end of the third giant gear is sleeved with the second bearing disc, and the bottom end of the second bearing disc is connected with the third working bottom plate; the middle part of the right end of the third huge gear is meshed with the fourth huge gear; the middle part of the bottom end of the fourth giant gear is rotationally connected with a third gear control motor, and the bottom end of the third gear control motor is connected with a third working bottom plate; the connecting left end of the third working bottom plate is connected with the second working bottom plate.

Preferably, the first oscillating wheel comprises a connecting and fixing shaft seat, a rubber linkage strip and a rigid oscillating ball; the middle upper part of the left end of the connecting and fixing shaft seat is connected with the rubber linkage strip; the left end of the rubber linkage strip is connected with the rigid vibration ball; the bottom end of the outer surface of the connecting and fixing shaft seat is connected with the first bearing sleeve; the bottom end of the connecting and fixing shaft seat is connected with a fourth bevel gear.

Preferably, the first buffering stagnation seat comprises a control telescopic rod, a first gathering plate, a counterweight balance ball, a third arc-shaped bottom clamping plate, a first buffering spring and an embedded fixed seat; controlling the top end of the telescopic rod to be in bolted connection with the first assembling plate; the middle part of the front end of the first gathering plate is connected with a counterweight balance ball; the right end of the first collecting plate is connected with a third arc-shaped bottom clamping plate; the right side of the bottom end of the first gathering plate is connected with a first buffer spring; the bottom end of the first buffer spring is connected with the embedded fixed seat; the bottom end of the embedded fixed seat is connected with the portal frame; the bottom end of the control telescopic rod is connected with the portal frame.

Preferably, the cleaning liquid blanking mechanism comprises a vertical slide rail, a second collecting plate, a first spring rod, a cleaning liquid blanking barrel, a blanking long pipe, a lever belt and a fixed pulley; the bottom end of the vertical slide rail is connected with the second gathering plate; the middle lower part of the right end of the vertical slide rail is in sliding connection with the first spring rod; the right end of the first spring rod is rotatably connected with the cleaning liquid discharging barrel, and the middle part of the bottom end of the cleaning liquid discharging barrel is connected with the second collecting plate; the middle upper part of the right end of the cleaning liquid discharging barrel is inserted with the discharging long pipe; the middle lower part of the right end of the cleaning liquid discharging barrel is connected with a lever belt; the middle part of the lever belt is in transmission connection with the fixed pulley, and the middle part of the rear end of the fixed pulley is connected with the second collecting plate; the bottom end of the second collecting plate is connected with the first working bottom plate; the lever belt bottom is connected with first electronic slider.

Preferably, first electronic slide rail, first slide rail board, first electric putter and first arc splint all are provided with two sets ofly to second electric putter and second arc splint all are provided with two sets ofly.

Preferably, the top of the left end of the oscillation buffer cabin and the top of the right end of the oscillation buffer cabin are both provided with opening and expanding type notches.

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

in order to solve the problems that the drill bit is lifted in the sleeve, the sleeve is contaminated by oil stains in the use process, the underground pattern layer is wet, part of soil blocks are adhered to the inner surface layer and the outer surface layer of the sleeve, the oil stains in the sleeve are difficult to clean due to the limitation of the physical properties of the sleeve, the service life of the sleeve is short, manual dirt cleaning operation needs to be carried out on the sleeve after each use, the sleeve is required to be slowly absorbed and cleaned through oil absorption fibers in the manual cleaning process, the oil stains on the inner surface layer of the sleeve are inconvenient to clean after the sleeve is used, the soil blocks are adhered to the outer surface layer, the outer surface layer of the sleeve is oxidized by air after long-time stagnation work, the oil absorption fibers are manually used for cleaning, the time consumption is long, the labor is great, dead corners cannot be cleaned, and the inner surface layer and the outer surface layer of the sleeve are cleaned manually, the oil stain has strong attraction with the oil stain, and the oil stain is difficult to separate;

when the device is used, firstly, the vibration mechanism is matched with the buffering and collecting mechanism to vibrate and separate soil blocks adhered to the outer surface of the sleeve, then, the inner surface layer scrubbing mechanism is used for cleaning and separating oil stains on the inner surface layer, and finally, the outer surface scrubbing and wiping mechanism is used for separating residual soil on the outer surface of the sleeve and brushing rust stains;

the portable soil block on the inner surface layer and the outer surface layer of the well drilling sleeve is removed by high-efficiency oscillation, oil stain on the inner surface of the sleeve is removed efficiently, cleaning solution containing an emulsifier is adopted, the emulsifier and the oil stain react to be removed, the oil stain is not remained, the cleaning of the residual cleaning solution on the inner surface of the sleeve is completed rapidly and efficiently, rust is removed by all-dimensional friction of the outer surface, and the effect of a smooth and clean metal sleeve without impurities is obtained.

Drawings

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

FIG. 2 is a schematic structural diagram of an oscillating mechanism according to the present invention;

FIG. 3 is a schematic view of the buffering and collecting mechanism of the present invention;

FIG. 4 is a schematic structural view of an inner surface layer brushing mechanism according to the present invention;

FIG. 5 is a schematic view of the external brushing and wiping mechanism of the present invention;

FIG. 6 is a schematic view of a first oscillation wheel according to the present invention;

FIG. 7 is a schematic structural diagram of a first buffer stagnation seat according to the present invention;

fig. 8 is a structural schematic diagram of the cleaning liquid blanking mechanism of the present invention.

The labels in the figures are: 1-a first working bottom plate, 2-a first elevated column, 3-a real-time control screen, 4-an oscillating mechanism, 5-a buffering and collecting mechanism, 6-an inner surface layer scrubbing mechanism, 7-an outer surface scrubbing and wiping mechanism, 401-a first power motor, 402-a first motor plate, 403-a first transmission wheel, 404-a second transmission wheel, 405-a first bevel gear, 406-a second bevel gear, 407-an oscillating buffer cabin, 408-a spring buffer door, 409-a third bevel gear, 4010-a fourth bevel gear, 4011-a first oscillating wheel, 4012-a first bearing sleeve, 4013-a first bearing frame, 4014-a second oscillating wheel, 4015-a second bearing sleeve, 4016-a second bearing frame, 4017-a feeding barrel, 4018-a barrel sleeve and 501-a soil collecting cabin, 502-portal frame, 503-top cover screen plate, 504-first buffer stop seat, 505-second buffer stop seat, 601-cleaning liquid blanking mechanism, 602-first electric slide block, 603-first electric slide rail, 604-first slide rail plate, 605-first electric push rod, 606-first arc-shaped clamping plate, 607-third bearing frame, 608-third bearing sleeve, 609-first middle shaft column, 6010-first steel wire brush, 6011-first giant gear, 6012-first bearing disc, 6013-second giant gear, 6014-second gear control motor, 6015-second working bottom plate, 701-second electric push rod, 702-first push rod plate, 703-third working bottom plate, 704-second arc-shaped clamping plate, 705-wiping fiberballs, 706-second middle shaft column, 707-cleaning brush plate, 708-second wire brush, 709-micro cleaning liquid spray head, 7010-fourth bearing frame, 7011-third huge gear, 7012-second bearing disc, 7013-fourth huge gear, 7014-third gear control motor, 401101-connecting fixed shaft seat, 401102-rubber linkage strip, 401103-rigid vibration ball, 50401-control telescopic rod, 50402-first assembling plate, 50403-counterweight balance ball, 50404-third arc bottom clamping plate, 50405-first buffer spring, 50406-embedded fixed seat, 60101-vertical sliding rail, 60102-second assembling plate, 60103-first spring rod, 60104-cleaning liquid charging barrel, 05-blanking long tube, 60106-lever belt, 60107-fixed pulley.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A well casing processing device is shown in figures 1-8 and comprises a first working bottom plate 1, a first elevated column 2, a real-time control screen 3, an oscillating mechanism 4, a buffering and collecting mechanism 5, an inner surface layer scrubbing mechanism 6 and an outer surface scrubbing and wiping mechanism 7; the left side of the top end of the first working bottom plate 1 is welded with the first elevated column 2; the middle right side of the top end of the first working bottom plate 1 is connected with an oscillating mechanism 4, and the lower side of the left end of the oscillating mechanism 4 is connected with a first elevated column 2; the left side of the top end of the first working bottom plate 1 is connected with a buffering and collecting mechanism 5; the right side and the right end of the top end of the first working bottom plate 1 are both connected with an inner surface layer brushing mechanism 6; the top of the left end of the first elevated column 2 is connected with a real-time control screen 3; the bottom of the right end of the inner surface layer brushing mechanism 6 is connected with an outer surface brushing and wiping mechanism 7.

The oscillating mechanism 4 comprises a first power motor 401, a first motor plate 402, a first driving wheel 403, a second driving wheel 404, a first bevel gear 405, a second bevel gear 406, an oscillating buffer cabin 407, a spring buffer door 408, a third bevel gear 409, a fourth bevel gear 4010, a first oscillating wheel 4011, a first bearing sleeve 4012, a first bearing frame 4013, a second oscillating wheel 4014, a second bearing sleeve 4015, a second bearing frame 4016, a feeding barrel 4017 and a barrel sleeve 4018; the bottom end of the first power motor 401 is connected with a first motor plate 402 through bolts; the middle part of the top end of the first power motor 401 is rotatably connected with a first driving wheel 403; the right side of the first driving wheel 403 is in driving connection with a second driving wheel 404; the middle part of the bottom end of the second driving wheel 404 is rotationally connected with a first bevel gear 405; the middle part of the top end of the second driving wheel 404 is rotationally connected with a second oscillating wheel 4014; the middle part of the rear end of the first bevel gear 405 is meshed with the second bevel gear 406; the middle part of the rear end of the second bevel gear 406 is connected with an oscillation buffer cabin 407; the right side of the second bevel gear 406 is in transmission connection with a third bevel gear 409, and the middle of the rear end of the third bevel gear 409 is connected with an oscillation buffer cabin 407; a spring buffer door 408 is arranged in the middle of the right end in the oscillating buffer cabin 407; the top end of the oscillating buffer cabin 407 is connected with a feeding cylinder 4017; the middle part of the top end of the third bevel gear 409 is meshed with a fourth bevel gear 4010; the middle part of the top end of a fourth bevel gear 4010 is rotationally connected with a first oscillating wheel 4011; the bottom end of the outer surface of the first oscillating wheel 4011 is sleeved with a first bearing sleeve 4012; the outer surface of the first bearing sleeve 4012 is sleeved with a first bearing frame 4013; the lower side of the outer surface of the second oscillating wheel 4014 is sleeved with a second bearing sleeve 4015; the outer surface of the second bearing sleeve 4015 is sleeved with a second bearing frame 4016; the middle part of the outer surface of the feeding cylinder 4017 is sleeved with a cylinder sleeve 4018; the left side of the bottom end of the barrel sleeve 4018 is connected with the first overhead column 2; the left part of the second bearing frame 4016 is connected with the first elevated column 2; the left end of the first motor plate 402 is connected with the first overhead column 2; the bottom end of the first bearing frame 4013 is connected with the first working bottom plate 1.

The buffering and collecting mechanism 5 comprises a soil collecting cabin 501, a portal frame 502, a top cover screen plate 503, a first buffering stagnation seat 504 and a second buffering stagnation seat 505; the top of the left end and the top of the right end of the soil collection cabin 501 are connected with the portal frame 502 through bolts; the top end in the soil collection cabin 501 is sleeved with the top cover screen plate 503; the left side of the top end of the gantry 502 is connected with a first buffer stagnation seat 504; the right side of the top end of the portal frame 502 is connected with a second buffer stagnation seat 505; the bottom end of the soil collection cabin 501 is connected with the first working bottom plate 1.

The inner surface layer scrubbing mechanism 6 comprises a cleaning liquid blanking mechanism 601, a first electric slide block 602, a first electric slide rail 603, a first slide rail plate 604, a first electric push rod 605, a first arc-shaped clamping plate 606, a third bearing frame 607, a third bearing sleeve 608, a first middle shaft column 609, a first steel wire brush 6010, a first giant gear 6011, a first bearing disc 6012, a second giant gear 6013, a second gear control motor 6014 and a second working bottom plate 6015; the right lower part of the cleaning liquid blanking mechanism 601 is connected with a first electric slide block 602; the rear end of the first electric slide block 602 is connected with a first electric slide rail 603 in a sliding manner; the middle part of the right end of the first electric sliding block 602 is inserted into the first electric push rod 605; the right end of the first electric slide rail 603 is connected with a first slide rail plate 604; the bottom end of the first sliding rail plate 604 is welded with the third bearing frame 607, and the left side of the top end of the third bearing frame 607 is connected with the first electric sliding rail 603; the right end of the first electric push rod 605 is connected with the first arc-shaped clamping plate 606; the middle part in the third bearing frame 607 is sleeved with a third bearing sleeve 608; the left side of the bottom end of the third bearing frame 607 is welded with the second working bottom plate 6015; the inner middle part of the third bearing sleeve 608 is sleeved with a first middle shaft column 609; the top of the left end of the first middle shaft column 609 is connected with a first wire brush 6010; the middle part of the bottom end of the first middle shaft column 609 is rotationally connected with a first huge gear 6011; the middle of the bottom end of the first giant gear 6011 is sleeved with a first bearing disc 6012, and the bottom end of the first bearing disc 6012 is connected with a second working base plate 6015; the middle part of the right end of the first giant gear 6011 is meshed with the second giant gear 6013; the middle of the bottom end of the second giant gear 6013 is connected to a second gear control motor 6014, and the bottom end of the second gear control motor 6014 is connected to a second work base plate 6015; the left end of the second working bottom plate 6015 is connected with the first working bottom plate 1; the bottom end of the cleaning liquid blanking mechanism 601 is connected with the first working bottom plate 1.

The external surface brushing and wiping mechanism 7 comprises a second electric push rod 701, a first push rod plate 702, a third working bottom plate 703, a second arc-shaped clamping plate 704, a wiping fiber ball 705, a second middle shaft column 706, a cleaning brush plate 707, a second steel wire brush 708, a micro cleaning liquid spray head 709, a fourth bearing frame 7010, a third giant gear 7011, a second bearing disc 7012, a fourth giant gear 7013 and a third gear control motor 7014; the left end of the second electric push rod 701 is inserted into the first push rod plate 702; the right end of the second electric push rod 701 is connected with a second arc-shaped clamping plate 704; the bottom end of the first push rod plate 702 is welded with the third working bottom plate 703; a wiping fiber ball 705 is arranged at the right lower part of the second arc-shaped clamping plate 704; the middle part of the bottom end of the wiping fiber ball 705 is spliced with a second middle shaft column 706; a cleaning brush plate 707 is arranged on the left side of the wiping fiber ball 705, and the bottom of the right end of the cleaning brush plate 707 is connected with a second middle shaft column 706; the bottom end of the outer surface of the second middle shaft column 706 is sleeved with a fourth bearing rack 7010, and the left side of the bottom end of the fourth bearing rack 7010 is connected with a third working bottom plate 703; the bottom end of the second middle shaft column 706 is rotationally connected with a third large gear 7011; the top of the right end of the cleaning brush plate 707 is connected with a second steel wire brush 708; a micro cleaning liquid spray head 709 is arranged below the second steel wire brush 708, and the left end of the micro cleaning liquid spray head 709 is connected with the cleaning brush plate 707; the bottom end of the third giant gear 7011 is sleeved with the second bearing disc 7012, and the bottom end of the second bearing disc 7012 is connected with the third working bottom plate 703; the middle part of the right end of the third large gear 7011 is meshed with a fourth large gear 7013; the middle part of the bottom end of the fourth large gear 7013 is rotatably connected with a third gear control motor 7014, and the bottom end of the third gear control motor 7014 is connected with a third working bottom plate 703; the left end of the third operating floor 703 is connected to the second operating floor 6015.

The first oscillating wheel 4011 comprises a connection fixed shaft seat 401101, a rubber linkage strip 401102 and a rigid vibrating ball 401103; the middle upper part of the left end of the connecting and fixing shaft seat 401101 is connected with a rubber linkage strip 401102; the left end of the rubber linkage strip 401102 is connected with a rigid vibration ball 401103; the bottom end of the outer surface of the connecting and fixing shaft seat 401101 is connected with a first bearing sleeve 4012; the bottom end of the connecting and fixing shaft seat 401101 is connected with a fourth bevel gear 4010.

The first buffering and stopping seat 504 comprises a control telescopic rod 50401, a first gathering plate 50402, a counterweight balancing ball 50403, a third arc-shaped bottom clamping plate 50404, a first buffering spring 50405 and an embedded fixing seat 50406; the top end of the control telescopic rod 50401 is connected with the first collecting plate 50402 through a bolt; the middle part of the front end of the first collection plate 50402 is connected with a counterweight balancing ball 50403; the right end of the first collecting plate 50402 is connected to a third arc-shaped bottomed splint 50404; the right side of the bottom end of the first collection plate 50402 and the first buffer spring 50405; the bottom end of the first buffer spring 50405 is connected with the embedded fixing seat 50406; the bottom end of the embedded fixing seat 50406 is connected with the portal frame 502; the bottom end of the control telescopic rod 50401 is connected with the portal frame 502.

The cleaning solution blanking mechanism 601 comprises an upright slide rail 60101, a second collecting plate 60102, a first spring rod 60103, a cleaning solution blanking barrel 60104, a blanking long pipe 60105, a lever belt 60106 and a fixed pulley 60107; the bottom end of the vertical slide rail 60101 is connected with a second collecting plate 60102; the middle lower part of the right end of the vertical slide rail 60101 is slidably connected with a first spring rod 60103; the right end of the first spring rod 60103 is rotatably connected with the cleaning liquid discharging barrel 60104, and the middle part of the bottom end of the cleaning liquid discharging barrel 60104 is connected with the second collecting plate 60102; the middle upper part of the right end of the cleaning liquid blanking barrel 60104 is spliced with a blanking long pipe 60105; the middle lower part of the right end of the cleaning liquid blanking barrel 60104 is connected with a lever belt 60106; the middle part of the lever belt 60106 is in transmission connection with a fixed pulley 60107, and the middle part of the rear end of the fixed pulley 60107 is connected with a second collecting plate 60102; the bottom end of the second collection plate 60102 is connected to the first work bottom plate 1; the bottom end of the lever belt 60106 is connected to the first electric slider 602.

The first electric slide rail 603, the first slide rail plate 604, the first electric push rod 605 and the first arc-shaped clamping plate 606 are provided with two sets, and the second electric push rod 701 and the second arc-shaped clamping plate 704 are provided with two sets.

The top of the left end of the oscillating buffer cabin 407 and the top of the right end of the oscillating buffer cabin 407 are both provided with expanding notches.

The working principle is as follows: when the drilling casing processing device is used, firstly, sufficient drilling special cleaning liquid is added into an inner surface layer brushing mechanism 6 and an outer surface layer brushing and wiping mechanism 7, then an external power supply is connected, a real-time control screen 3 is manually opened, then a power system in the device is connected through the real-time control screen 3, and then a used casing is firstly added into an oscillating mechanism 4, soil block components carried by the used casing are removed in the oscillating process, after the casing is oscillated, the casing is collected and fixed through a buffering and collecting mechanism 5, then the casing is added into the inner surface layer brushing mechanism 6 to carry out oil stain cleaning and other impurity cleaning on the inner surface of the casing, finally the casing is fixed to the outer surface layer brushing and wiping mechanism 7 to clean the outer surface of the casing, the inner surface of the cleaned casing is cleaned, and the inner surface of the casing which is cleaned is efficiently oscillated to remove the soil, and the oil stain on the inner surface of the sleeve is efficiently removed, the cleaning solution containing the emulsifier is adopted, the emulsifier reacts with the oil stain to be removed, the oil stain is ensured not to be remained, the cleaning of the residual cleaning solution on the inner surface of the sleeve is rapidly and efficiently completed, the rust on the outer surface is removed through all-dimensional friction, and the effect of a smooth and clean metal sleeve without impurities is obtained.

The oscillating mechanism 4 comprises a first power motor 401, a first motor plate 402, a first driving wheel 403, a second driving wheel 404, a first bevel gear 405, a second bevel gear 406, an oscillating buffer cabin 407, a spring buffer door 408, a third bevel gear 409, a fourth bevel gear 4010, a first oscillating wheel 4011, a first bearing sleeve 4012, a first bearing frame 4013, a second oscillating wheel 4014, a second bearing sleeve 4015, a second bearing frame 4016, a feeding barrel 4017 and a barrel sleeve 4018; the bottom end of the first power motor 401 is connected with a first motor plate 402 through bolts; the middle part of the top end of the first power motor 401 is rotatably connected with a first driving wheel 403; the right side of the first driving wheel 403 is in driving connection with a second driving wheel 404; the middle part of the bottom end of the second driving wheel 404 is rotationally connected with a first bevel gear 405; the middle part of the top end of the second driving wheel 404 is rotationally connected with a second oscillating wheel 4014; the middle part of the rear end of the first bevel gear 405 is meshed with the second bevel gear 406; the middle part of the rear end of the second bevel gear 406 is connected with an oscillation buffer cabin 407; the right side of the second bevel gear 406 is in transmission connection with a third bevel gear 409, and the middle of the rear end of the third bevel gear 409 is connected with an oscillation buffer cabin 407; a spring buffer door 408 is arranged in the middle of the right end in the oscillating buffer cabin 407; the top end of the oscillating buffer cabin 407 is connected with a feeding cylinder 4017; the middle part of the top end of the third bevel gear 409 is meshed with a fourth bevel gear 4010; the middle part of the top end of a fourth bevel gear 4010 is rotationally connected with a first oscillating wheel 4011; the bottom end of the outer surface of the first oscillating wheel 4011 is sleeved with a first bearing sleeve 4012; the outer surface of the first bearing sleeve 4012 is sleeved with a first bearing frame 4013; the lower side of the outer surface of the second oscillating wheel 4014 is sleeved with a second bearing sleeve 4015; the outer surface of the second bearing sleeve 4015 is sleeved with a second bearing frame 4016; the middle part of the outer surface of the feeding cylinder 4017 is sleeved with a cylinder sleeve 4018; the left side of the bottom end of the barrel sleeve 4018 is connected with the first overhead column 2; the left part of the second bearing frame 4016 is connected with the first elevated column 2; the left end of the first motor plate 402 is connected with the first overhead column 2; the bottom end of the first bearing frame 4013 is connected with the first working bottom plate 1.

Firstly, the power supply of a first power motor 401 is controlled to be switched on through a real-time control screen 3, then the first power motor 401 drives a first driving wheel 403 to rotate, then the right side of the first driving wheel 403 drives a second driving wheel 404 to rotate through a belt, further the top end of the second driving wheel 404 drives a second oscillating wheel 4014 to rotate, simultaneously the bottom end of the second driving wheel 404 drives a first bevel gear 405 to rotate, then the first bevel gear 405 drives a second bevel gear 406 to rotate, further the right side of the second bevel gear 406 drives a third bevel gear 409 to rotate through a belt, then the third bevel gear 409 drives a fourth bevel gear 4010 to rotate, then the top end of the fourth bevel gear 4010 drives a first oscillating wheel 4011 to rotate, further the first oscillating wheel 4011 and the second oscillating wheel 4014 rotate simultaneously, then a sleeve for well drilling is added from a feeding cylinder 4017, and then the sleeve falls into an oscillating drilling buffer cabin 407, then first oscillating wheel 4011 and second oscillating wheel 4014 circulate the hammering to the sleeve pipe through the breach at vibration surge tank 407 left end top and right-hand member top, and then realized sheathed tube vibration, and spring buffering door 408 has slowed down sheathed tube falling speed simultaneously, has prolonged sheathed tube vibration time, and then has accomplished the vibration separation that the sheathed tube internal and external surface carried the clod.

The buffering and collecting mechanism 5 comprises a soil collecting cabin 501, a portal frame 502, a top cover screen plate 503, a first buffering stagnation seat 504 and a second buffering stagnation seat 505; the top of the left end and the top of the right end of the soil collection cabin 501 are connected with the portal frame 502 through bolts; the top end in the soil collection cabin 501 is sleeved with the top cover screen plate 503; the left side of the top end of the gantry 502 is connected with a first buffer stagnation seat 504; the right side of the top end of the portal frame 502 is connected with a second buffer stagnation seat 505; the bottom end of the soil collection cabin 501 is connected with the first working bottom plate 1.

The sleeve pipe falls out from the bottom of the oscillation buffer cabin 407, then falls to the top of a first buffer stop seat 504 and a second buffer stop seat 505, then the first buffer stop seat 504 and the second buffer stop seat 505 shrink, further the buffering and deceleration of the sleeve pipe is realized, meanwhile, the soil block part falls down from the middle through hole part of the portal frame 502, the top of the top cover screen plate 503 falls, then the soil block particles fall to the inside of the soil collection cabin 501 to be collected, the large soil block is intercepted at the top of the top cover screen plate 503, the buffering of the sleeve pipe and the collection of the soil block are completed.

The inner surface layer scrubbing mechanism 6 comprises a cleaning liquid blanking mechanism 601, a first electric slide block 602, a first electric slide rail 603, a first slide rail plate 604, a first electric push rod 605, a first arc-shaped clamping plate 606, a third bearing frame 607, a third bearing sleeve 608, a first middle shaft column 609, a first steel wire brush 6010, a first giant gear 6011, a first bearing disc 6012, a second giant gear 6013, a second gear control motor 6014 and a second working bottom plate 6015; the right lower part of the cleaning liquid blanking mechanism 601 is connected with a first electric slide block 602; the rear end of the first electric slide block 602 is connected with a first electric slide rail 603 in a sliding manner; the middle part of the right end of the first electric sliding block 602 is inserted into the first electric push rod 605; the right end of the first electric slide rail 603 is connected with a first slide rail plate 604; the bottom end of the first sliding rail plate 604 is welded with the third bearing frame 607, and the left side of the top end of the third bearing frame 607 is connected with the first electric sliding rail 603; the right end of the first electric push rod 605 is connected with the first arc-shaped clamping plate 606; the middle part in the third bearing frame 607 is sleeved with a third bearing sleeve 608; the left side of the bottom end of the third bearing frame 607 is welded with the second working bottom plate 6015; the inner middle part of the third bearing sleeve 608 is sleeved with a first middle shaft column 609; the top of the left end of the first middle shaft column 609 is connected with a first wire brush 6010; the middle part of the bottom end of the first middle shaft column 609 is rotationally connected with a first huge gear 6011; the middle of the bottom end of the first giant gear 6011 is sleeved with a first bearing disc 6012, and the bottom end of the first bearing disc 6012 is connected with a second working base plate 6015; the middle part of the right end of the first giant gear 6011 is meshed with the second giant gear 6013; the middle of the bottom end of the second giant gear 6013 is connected to a second gear control motor 6014, and the bottom end of the second gear control motor 6014 is connected to a second work base plate 6015; the left end of the second working bottom plate 6015 is connected with the first working bottom plate 1; the bottom end of the cleaning liquid blanking mechanism 601 is connected with the first working bottom plate 1.

After the clod and the sleeve are separated, firstly, the sleeve is fixed between two groups of first arc-shaped clamping plates 606, and at the same time, two groups of first electric push rod 605 power supplies are connected under the control of a real-time control screen 3, then the first electric push rod 605 drives the left and right groups of first arc-shaped clamping plates 606 to clamp and fix the sleeve, then two groups of first electric slide rails 603 power supplies are connected, then the first electric slide rails 603 drive the first electric slide block 602 to move downwards, namely, the first electric slide block 602 drives the first arc-shaped clamping plates 606 to move downwards through the first electric push rod 605, and then the two groups of first arc-shaped clamping plates 606 drive the sleeve to move downwards, and simultaneously the first electric slide block 602 drives a cleaning liquid blanking mechanism 601 to release cleaning liquid, the cleaning liquid is poured to the middle part in the sleeve, then the sleeve is sleeved outside a first middle shaft column 609, and at the same time, the real-time control screen 3 controls to connect the power supply of a second gear control, then the middle part of the left end of the second giant gear 6013 drives the first giant gear 6011 to rotate, and then the top end of the first giant gear 6011 drives the first middle shaft column 609 to rotate, and then the first middle shaft column 609 drives the first steel wire brush 6010 to rotate, and then the first steel wire brush 6010 brushes the inner surface of the sleeve through the cleaning solution in the rotating process, and the brushing of the inner surface of the sleeve is completed.

The external surface brushing and wiping mechanism 7 comprises a second electric push rod 701, a first push rod plate 702, a third working bottom plate 703, a second arc-shaped clamping plate 704, a wiping fiber ball 705, a second middle shaft column 706, a cleaning brush plate 707, a second steel wire brush 708, a micro cleaning liquid spray head 709, a fourth bearing frame 7010, a third giant gear 7011, a second bearing disc 7012, a fourth giant gear 7013 and a third gear control motor 7014; the left end of the second electric push rod 701 is inserted into the first push rod plate 702; the right end of the second electric push rod 701 is connected with a second arc-shaped clamping plate 704; the bottom end of the first push rod plate 702 is welded with the third working bottom plate 703; a wiping fiber ball 705 is arranged at the right lower part of the second arc-shaped clamping plate 704; the middle part of the bottom end of the wiping fiber ball 705 is spliced with a second middle shaft column 706; a cleaning brush plate 707 is arranged on the left side of the wiping fiber ball 705, and the bottom of the right end of the cleaning brush plate 707 is connected with a second middle shaft column 706; the bottom end of the outer surface of the second middle shaft column 706 is sleeved with a fourth bearing rack 7010, and the left side of the bottom end of the fourth bearing rack 7010 is connected with a third working bottom plate 703; the bottom end of the second middle shaft column 706 is rotationally connected with a third large gear 7011; the top of the right end of the cleaning brush plate 707 is connected with a second steel wire brush 708; a micro cleaning liquid spray head 709 is arranged below the second steel wire brush 708, and the left end of the micro cleaning liquid spray head 709 is connected with the cleaning brush plate 707; the bottom end of the third giant gear 7011 is sleeved with the second bearing disc 7012, and the bottom end of the second bearing disc 7012 is connected with the third working bottom plate 703; the middle part of the right end of the third large gear 7011 is meshed with a fourth large gear 7013; the middle part of the bottom end of the fourth large gear 7013 is rotatably connected with a third gear control motor 7014, and the bottom end of the third gear control motor 7014 is connected with a third working bottom plate 703; the left end of the third operating floor 703 is connected to the second operating floor 6015.

The sleeve pipe with the cleaned inner surface is fixed between two groups of second arc-shaped clamping plates 704, then the second electric push rod 701 is connected through the control of the real-time control screen 3 to drive the second arc-shaped clamping plates 704 to push out, namely the second arc-shaped clamping plates 704 are driven to clamp the sleeve pipe, the two groups of second arc-shaped clamping plates 704 clamp the upper edge of the sleeve pipe, the inner bottom end of the sleeve pipe is sleeved outside the wiping fiber ball 705, then the real-time control screen 3 is controlled to connect the power supply of a third gear control motor 7014, then the third gear control motor 7014 drives a fourth large gear 7013 to rotate, then the left end of the fourth large gear 7013 drives a third large gear 7011 to rotate, then the third large gear 7011 drives a second middle shaft column 706 to rotate, then the second middle shaft column 706 drives a cleaning brush plate 707 and the wiping fiber ball 705 to rotate, and simultaneously the sleeve pipe is in a fixed static state, and then the cleaning brush plate 707 and the wiping fiber ball 705 rotate to respectively rub the, meanwhile, the micro cleaning liquid spray head 709 sprays cleaning liquid under the action of pressurization, so that the inner surface of the sleeve is wiped and the outer surface of the sleeve is cleaned.

The first oscillating wheel 4011 comprises a connection fixed shaft seat 401101, a rubber linkage strip 401102 and a rigid vibrating ball 401103; the middle upper part of the left end of the connecting and fixing shaft seat 401101 is connected with a rubber linkage strip 401102; the left end of the rubber linkage strip 401102 is connected with a rigid vibration ball 401103; the bottom end of the outer surface of the connecting and fixing shaft seat 401101 is connected with a first bearing sleeve 4012; the bottom end of the connecting and fixing shaft seat 401101 is connected with a fourth bevel gear 4010.

When the fourth bevel gear 4010 drives the first oscillating wheel 4011 to rotate, the fixed shaft seat 401101 is connected to drive the rigid oscillating ball 401103 to rotate through the rubber linkage strip 401102, and then the rigid oscillating ball 401103 rotates to impact the sleeve, and then drives the sleeve to vibrate.

The first buffering and stopping seat 504 comprises a control telescopic rod 50401, a first gathering plate 50402, a counterweight balancing ball 50403, a third arc-shaped bottom clamping plate 50404, a first buffering spring 50405 and an embedded fixing seat 50406; the top end of the control telescopic rod 50401 is connected with the first collecting plate 50402 through a bolt; the middle part of the front end of the first collection plate 50402 is connected with a counterweight balancing ball 50403; the right end of the first collecting plate 50402 is connected to a third arc-shaped bottomed splint 50404; the right side of the bottom end of the first collection plate 50402 and the first buffer spring 50405; the bottom end of the first buffer spring 50405 is connected with the embedded fixing seat 50406; the bottom end of the embedded fixing seat 50406 is connected with the portal frame 502; the bottom end of the control telescopic rod 50401 is connected with the portal frame 502.

The sleeve falls to the inner side of a third arc-shaped splint 50404 with a bottom plate, the third arc-shaped splint 50404 with a bottom plate is arranged, the sleeve is received, then the third arc-shaped splint 50404 with a bottom plate is stressed, then the first buffering spring 50405 is driven to compress through the first gathering plate 50402, buffering is performed through elasticity, meanwhile, due to the gravity action of the counterweight balancing ball 50403, then the counterweight balancing ball 50403 drives the control telescopic rod 50401 to contract through the first gathering plate 50402, the level of the third arc-shaped splint 50404 with a bottom plate is guaranteed, and buffering and fixing of the sleeve are achieved.

The cleaning solution blanking mechanism 601 comprises an upright slide rail 60101, a second collecting plate 60102, a first spring rod 60103, a cleaning solution blanking barrel 60104, a blanking long pipe 60105, a lever belt 60106 and a fixed pulley 60107; the bottom end of the vertical slide rail 60101 is connected with a second collecting plate 60102; the middle lower part of the right end of the vertical slide rail 60101 is slidably connected with a first spring rod 60103; the right end of the first spring rod 60103 is rotatably connected with the cleaning liquid discharging barrel 60104, and the middle part of the bottom end of the cleaning liquid discharging barrel 60104 is connected with the second collecting plate 60102; the middle upper part of the right end of the cleaning liquid blanking barrel 60104 is spliced with a blanking long pipe 60105; the middle lower part of the right end of the cleaning liquid blanking barrel 60104 is connected with a lever belt 60106; the middle part of the lever belt 60106 is in transmission connection with a fixed pulley 60107, and the middle part of the rear end of the fixed pulley 60107 is connected with a second collecting plate 60102; the bottom end of the second collection plate 60102 is connected to the first work bottom plate 1; the bottom end of the lever belt 60106 is connected to the first electric slider 602.

When the first electric slider 602 moves downwards, the first electric slider 602 drives the lever belt 60106 to move downwards, and then the lever belt 60106 drives the cleaning solution discharging barrel 60104 to rotate obliquely rightwards around a rotating shaft at the bottom end of the cleaning solution discharging barrel 60104 through the fixed pulley 60107, so that the cleaning solution inside the cleaning solution discharging barrel 60104 inclines rightwards and flows out to the inside of the sleeve through the discharging long pipe 60105, and after cleaning is completed, the first spring rod 60103 can drive the cleaning solution discharging barrel 60104 to recover to the original position.

The first electric slide rail 603, the first slide rail plate 604, the first electric push rod 605 and the first arc-shaped clamp plate 606 are provided with two sets, and the second electric push rod 701 and the second arc-shaped clamp plate 704 are provided with two sets, so as to clamp and fix the sleeve in two directions.

The top of the left end of the oscillation buffer cabin 407 and the top of the right end of the oscillation buffer cabin 407 are both provided with an opening type notch, so that the second oscillation wheel 4014 and the first oscillation wheel 4011 can perform impact vibration on the sleeve through the notches.

The above description is provided only to illustrate the technical concept of the present invention, and those skilled in the art will appreciate that various changes and modifications can be made without changing the essential features of the present invention. Accordingly, the exemplary embodiments of the present invention are provided for illustrative purposes only, and are not intended to limit the technical concept of the present invention. The scope of the technical idea of the present disclosure is not limited thereto. Therefore, it should be understood that the above-described exemplary embodiments are illustrative in all respects, not restrictive of the disclosure. The scope of the present disclosure should be construed based on the claims, and all technical ideas within the equivalent scope thereof should be construed to fall within the scope of the present disclosure.

Claims (10)

1. A well drilling sleeve processing device comprises a first working bottom plate, a first elevating column and a real-time control screen, and is characterized by further comprising an oscillating mechanism, a buffering and collecting mechanism, an inner surface layer scrubbing mechanism and an outer surface scrubbing and wiping mechanism; the left side of the top end of the first working bottom plate is welded with the first elevated column; the middle right side of the top end of the first working bottom plate is connected with the oscillating mechanism, and the lower side of the left end of the oscillating mechanism is connected with the first elevated column; the left side of the top end of the first working bottom plate is connected with a buffering and collecting mechanism; the right side and the right end of the top end of the first working bottom plate are both connected with an inner surface layer scrubbing mechanism; the top of the left end of the first elevated column is connected with a real-time control screen; the right end bottom of the inner surface layer brushing mechanism is connected with the outer surface brushing and wiping mechanism.

2. The well casing processing device of claim 1, wherein the oscillating mechanism comprises a first power motor, a first motor plate, a first driving wheel, a second driving wheel, a first bevel gear, a second bevel gear, an oscillating buffer cabin, a spring buffer door, a third bevel gear, a fourth bevel gear, a first oscillating wheel, a first bearing sleeve, a first bearing frame, a second oscillating wheel, a second bearing sleeve, a second bearing frame, a feeding barrel and a barrel sleeve; the bottom end of the first power motor is connected with the first motor plate through a bolt; the middle part of the top end of the first power motor is rotationally connected with the first transmission wheel; the right side of the first driving wheel is in transmission connection with a second driving wheel; the middle part of the bottom end of the second driving wheel is rotationally connected with the first bevel gear; the middle part of the top end of the second transmission wheel is rotationally connected with the second oscillating wheel; the middle part of the rear end of the first bevel gear is meshed with the second bevel gear; the middle part of the rear end of the second bevel gear is connected with the oscillation buffer cabin; the right side of the second bevel gear is in transmission connection with a third bevel gear, and the middle part of the rear end of the third bevel gear is connected with an oscillation buffer cabin; a spring buffer door is arranged in the middle of the right end in the oscillation buffer cabin; the top end of the oscillating buffer cabin is connected with the feeding cylinder; the middle part of the top end of the third bevel gear is meshed with the fourth bevel gear; the middle part of the top end of the fourth bevel gear is rotationally connected with the first oscillating wheel; the bottom end of the outer surface of the first oscillating wheel is sleeved with the first bearing sleeve; the outer surface of the first bearing sleeve is sleeved with the first bearing frame; the lower side of the outer surface of the second oscillating wheel is sleeved with a second bearing sleeve; the outer surface of the second bearing sleeve is sleeved with the second bearing frame; the middle part of the outer surface of the feeding cylinder is sleeved with the cylinder sleeve; the left side of the bottom end of the cylinder sleeve is connected with a first elevated column; the left part of the second bearing frame is connected with the first elevated column; the left end of the first motor plate is connected with the first overhead column; the bottom end of the first bearing frame is connected with the first working bottom plate.

3. The well casing processing device of claim 2, wherein the buffering and collecting mechanism comprises a soil collecting cabin, a portal frame, a top cover screen plate, a first buffering stagnation seat and a second buffering stagnation seat; the top of the left end and the top of the right end of the soil collection cabin are connected with the portal frame through bolts; the top end of the soil collection cabin is sleeved with the top cover mesh plate; the left side of the top end of the portal frame is connected with the first buffering stagnation seat; the right side of the top end of the portal frame is connected with the second buffering stagnation seat; the bottom end of the soil collection cabin is connected with the first working bottom plate.

4. The well casing processing device according to claim 3, wherein the inner surface layer scrubbing mechanism comprises a cleaning liquid blanking mechanism, a first electric slide block, a first electric slide rail, a first slide rail plate, a first electric push rod, a first arc-shaped clamping plate, a third bearing frame, a third bearing sleeve, a first middle shaft column, a first steel wire brush, a first giant gear, a first bearing disc, a second giant gear, a second gear control motor and a second working bottom plate; the right lower part of the cleaning liquid blanking mechanism is connected with a first electric slide block; the rear end of the first electric sliding block is connected with the first electric sliding rail in a sliding manner; the middle part of the right end of the first electric sliding block is inserted into the first electric push rod; the right end of the first electric slide rail is connected with the first slide rail plate; the bottom end of the first sliding rail plate is welded with the third bearing frame, and the left side of the top end of the third bearing frame is connected with the first electric sliding rail; the right end of the first electric push rod is connected with the first arc-shaped clamping plate; the middle part in the third bearing frame is sleeved with a third bearing sleeve; the left side of the bottom end of the third bearing frame is welded with the second working bottom plate; the middle part in the third bearing sleeve is sleeved with the first middle shaft column; the top of the left end of the first middle shaft column is connected with a first steel wire brush; the middle part of the bottom end of the first middle shaft column is rotationally connected with the first huge gear; the middle part of the bottom end of the first giant gear is sleeved with a first bearing disc, and the bottom end of the first bearing disc is connected with a second working bottom plate; the middle part of the right end of the first giant gear is meshed with the second giant gear; the middle part of the bottom end of the second giant gear is connected with a second gear control motor, and the bottom end of the second gear control motor is connected with a second working bottom plate; the left end of the second working bottom plate is connected with the first working bottom plate; the bottom end of the cleaning liquid blanking mechanism is connected with the first working bottom plate.

5. The well casing treatment device of claim 4, wherein the outer surface brushing and wiping mechanism comprises a second electric push rod, a first push rod plate, a third working bottom plate, a second arc-shaped clamping plate, a wiping fiber ball, a second middle shaft column, a cleaning brush plate, a second steel wire brush, a micro cleaning liquid spray head, a fourth bearing frame, a third huge gear, a second bearing disc, a fourth huge gear and a third gear control motor; the left end of the second electric push rod is inserted with the first push rod plate; the right end of the second electric push rod is connected with the second arc-shaped clamping plate; the bottom end of the first push rod plate is welded with the third working bottom plate; a wiping fiber ball is arranged at the right lower part of the second arc-shaped clamping plate; the middle part of the bottom end of the wiping fiber ball is inserted into the second middle shaft column; a cleaning brush plate is arranged on the left side of the wiping fiber ball, and the bottom of the right end of the cleaning brush plate is connected with a second middle shaft column; the bottom end of the outer surface of the second middle shaft column is sleeved with a fourth bearing frame, and the left side of the bottom end of the fourth bearing frame is connected with a third working bottom plate; the bottom end of the second middle shaft column is rotationally connected with the third huge gear; the top of the right end of the cleaning brush plate is connected with a second steel wire brush; a miniature cleaning solution spray head is arranged below the second steel wire brush, and the left end of the miniature cleaning solution spray head is connected with the cleaning brush plate; the bottom end of the third giant gear is sleeved with the second bearing disc, and the bottom end of the second bearing disc is connected with the third working bottom plate; the middle part of the right end of the third huge gear is meshed with the fourth huge gear; the middle part of the bottom end of the fourth giant gear is rotationally connected with a third gear control motor, and the bottom end of the third gear control motor is connected with a third working bottom plate; the connecting left end of the third working bottom plate is connected with the second working bottom plate.

6. The well casing handling device of claim 5, wherein the first oscillating wheel comprises a connecting fixed shaft seat, a rubber linkage bar and a rigid vibrating ball; the middle upper part of the left end of the connecting and fixing shaft seat is connected with the rubber linkage strip; the left end of the rubber linkage strip is connected with the rigid vibration ball; the bottom end of the outer surface of the connecting and fixing shaft seat is connected with the first bearing sleeve; the bottom end of the connecting and fixing shaft seat is connected with a fourth bevel gear.

7. The well casing processing device of claim 6, wherein the first buffer stagnation seat comprises a control telescopic rod, a first gathering plate, a counterweight balance ball, a third arc-shaped bottom clamping plate, a first buffer spring and an embedded fixed seat; controlling the top end of the telescopic rod to be in bolted connection with the first assembling plate; the middle part of the front end of the first gathering plate is connected with a counterweight balance ball; the right end of the first collecting plate is connected with a third arc-shaped bottom clamping plate; the right side of the bottom end of the first gathering plate is connected with a first buffer spring; the bottom end of the first buffer spring is connected with the embedded fixed seat; the bottom end of the embedded fixed seat is connected with the portal frame; the bottom end of the control telescopic rod is connected with the portal frame.

8. The well casing processing device according to claim 7, wherein the cleaning solution discharging mechanism comprises an upright slide rail, a second gathering plate, a first spring rod, a cleaning solution discharging barrel, a discharging long pipe, a lever belt and a fixed pulley; the bottom end of the vertical slide rail is connected with the second gathering plate; the middle lower part of the right end of the vertical slide rail is in sliding connection with the first spring rod; the right end of the first spring rod is rotatably connected with the cleaning liquid discharging barrel, and the middle part of the bottom end of the cleaning liquid discharging barrel is connected with the second collecting plate; the middle upper part of the right end of the cleaning liquid discharging barrel is inserted with the discharging long pipe; the middle lower part of the right end of the cleaning liquid discharging barrel is connected with a lever belt; the middle part of the lever belt is in transmission connection with the fixed pulley, and the middle part of the rear end of the fixed pulley is connected with the second collecting plate; the bottom end of the second collecting plate is connected with the first working bottom plate; the lever belt bottom is connected with first electronic slider.

9. The well casing handling device of claim 8, wherein the first motorized slide, the first slide plate, the first motorized push rod and the first arcuate clamp plate are each provided in two sets, and the second motorized push rod and the second arcuate clamp plate are each provided in two sets.

10. The well casing handling device of claim 9, wherein the top of the left end of the surge tank and the top of the right end of the surge tank are provided with open-ended notches.

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