CN116475858B - Automatic stainless steel seamless steel pipe polishing equipment - Google Patents

Abstract

The invention discloses automatic stainless steel seamless steel pipe polishing equipment, which relates to the technical field of steel pipe polishing and comprises a bracket, an adjusting mechanism, a fixing mechanism, a polishing mechanism and a filtering mechanism, wherein the bracket is provided with the adjusting mechanism and the filtering mechanism, and the adjusting mechanism is provided with the polishing mechanism and the fixing mechanism; according to the invention, through the cooperation of the adjusting mechanism and the polishing mechanism, the shape of the arc stainless steel seamless steel pipe can be adjusted, so that the pipe is ensured to be uniformly and high-quality processed in the polishing process; according to the invention, one end of the stainless steel seamless steel pipe can be automatically fixed by arranging the fixing mechanism, so that the stainless steel seamless steel pipe can be polished, and the stainless steel seamless steel pipe can be driven to rotate, so that the polished pipe can be cleaned; according to the invention, the filtering mechanism is arranged, so that impurities and cleaning water after polishing the pipe can be effectively separated, environmental pollution and waste of water resources can be avoided, and the pipe polishing device has good environmental protection performance.

Description

Automatic stainless steel seamless steel pipe polishing equipment

Technical Field

The invention relates to the technical field of steel pipe polishing, in particular to automatic stainless steel seamless steel pipe polishing equipment.

Background

In the production process of stainless steel seamless steel pipes, polishing treatment is generally required to be carried out on the pipes so as to improve the surface quality and the smoothness of the pipes. Conventional sanding methods are typically performed by manual operations or using semi-automatic equipment, which have several problems and limitations. Firstly, for arc-shaped pipes, conventional polishing equipment cannot perform effective polishing treatment on the arc-shaped pipes due to the special shape of the arc-shaped pipes. The arc-shaped pipe is difficult to obtain uniform polishing effect in traditional equipment, so that the surface quality of the pipe is poor. Second, the polished tubing typically requires cleaning to remove impurities and residues generated during polishing. However, the conventional cleaning method often cannot effectively separate polishing impurities and cleaning water, so that water quality is polluted, and waste of water resources is caused.

The Chinese patent with publication number CN111185810B discloses a mechanical polishing device for steel pipes, which comprises a box body and a polishing mechanism; the polishing mechanism comprises a polishing block and a polishing brush. The steel pipe is rotationally polished and rotationally cleaned through the polishing block and the polishing brush.

The patent can clear up the tubular product after polishing, but can not polish the arc tubular product, can not adjust according to the shape of arc tubular product yet, ensures that tubular product can obtain even and high-quality processing in polishing process.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the automatic stainless steel seamless steel pipe polishing equipment comprises a bracket, an adjusting mechanism, a fixing mechanism, a polishing mechanism and a filtering mechanism, wherein the adjusting mechanism and the filtering mechanism are arranged on the bracket, and the polishing mechanism and the fixing mechanism are arranged on the adjusting mechanism; the polishing mechanism comprises polishing assemblies and an arc motion assembly, wherein the arc motion assembly is arranged on the adjusting mechanism, the polishing assemblies are provided with two groups, the first group of polishing assemblies are arranged on the adjusting mechanism, and the second group of polishing assemblies are arranged on the arc motion assembly; the polishing assembly comprises driving units, polishing seats and polishing units, wherein the two polishing seats are symmetrically arranged, the three polishing units are arranged on the polishing seats, and the driving units are used for driving the three polishing units to synchronously rotate.

Further, the driving unit include the slider of polishing and the ring gear of polishing, the slider of polishing symmetry be provided with two, be provided with a set of unit of polishing on the first slider of polishing, be provided with two sets of units of polishing on the second slider of polishing, slider slidable mounting of polishing is in the inside of polishing the seat, the slider of polishing on fixed mounting have the ring gear of polishing.

Further, the unit of polishing including the limiting plate of polishing, the gag lever post of polishing, the fixed block of polishing and the wheel of polishing, limiting plate fixed mounting of polishing on the slider of polishing, slidable mounting has the gag lever post of polishing on the limiting plate of polishing, the tip fixed mounting of gag lever post of polishing have the fixed block of polishing, the fixed block of polishing on fixed mounting have the wheel seat of polishing, the wheel seat of polishing on fixed mounting have the wheel of polishing.

Further, the arc motion assembly comprises a linear motion unit and an arc motion unit, wherein the linear motion unit is arranged on the arc motion unit and is used for driving the second group of polishing assemblies to reciprocate.

Further, the arc motion unit comprises a gear ring, a sliding seat and a cylindrical gear, wherein the gear ring is provided with the sliding seat in a sliding manner, the cylindrical gear is rotatably arranged on the sliding seat, and the cylindrical gear and the gear ring are arranged in a meshed manner.

Further, the adjusting mechanism comprises an adjusting component and a push rod, and the push rod is arranged on the adjusting component.

Further, fixed establishment include fixed subassembly, rotation subassembly and elastic component, elastic component on be provided with rotation subassembly, rotation subassembly on be provided with fixed subassembly.

Further, the elastic component include fixed plate, connecting rod and rotation fixed plate, the fixed plate on slidable mounting have the connecting rod, the connecting rod on fixed mounting have rotation fixed plate, rotation fixed plate on be provided with rotation subassembly.

Further, filtering mechanism include rose box, scraper blade first, limiting plate, slide bar and scraper blade second, the rose box on rotate and install the clearance axle, clearance epaxial fixed mounting has scraper blade first, the limiting plate on slidable mounting have the slide bar, fixed mounting has scraper blade second on the slide bar, scraper blade second and push rod contact cooperation, scraper blade second is used for striking off the impurity on the scraper blade first.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the invention, through the cooperation of the adjusting mechanism and the polishing mechanism, the shape of the arc stainless steel seamless steel pipe can be adjusted, so that the pipe is ensured to be uniformly and high-quality processed in the polishing process; (2) According to the invention, one end of the stainless steel seamless steel pipe can be automatically fixed by arranging the fixing mechanism, so that the stainless steel seamless steel pipe can be polished, and the stainless steel seamless steel pipe can be driven to rotate, so that the polished pipe can be cleaned conveniently; (3) According to the invention, the filtering mechanism is arranged, so that impurities and cleaning water after polishing the pipe can be effectively separated, environmental pollution and waste of water resources can be avoided, and the pipe polishing device has good environmental protection performance.

Drawings

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

FIG. 2 is a schematic diagram of the overall internal structure of the present invention.

FIG. 3 is a schematic view of the adjusting mechanism of the present invention.

Fig. 4 is a schematic structural view of the fixing mechanism of the present invention.

Fig. 5 is a partial enlarged view at a in fig. 4.

Fig. 6 is a schematic structural view of the polishing mechanism of the present invention.

Fig. 7 is a schematic view of a part of the polishing mechanism according to the present invention.

Fig. 8 is a partial enlarged view at B in fig. 6.

FIG. 9 is a schematic diagram of a filter mechanism according to the present invention.

FIG. 10 is a schematic view of a part of the structure of the filtering mechanism of the present invention.

Reference numerals: 101-a housing; 102-a bracket; 201-a water tank; 202-a water pipe; 203-cleaning a spray head; 301-supporting a plate; 302-adjusting the first slide bar; 303-an adjusting frame; 304-adjusting the first motor; 305-adjusting a screw; 306-adjusting the slide block; 307-adjusting the second motor; 308-double-ended screw rod; 309-adjusting the second slide bar; 310-push rod; 401-a fixed plate; 402-electric cylinder; 403-connecting rods; 404-a rotating motor; 405-turning gear one; 406-rotating gear two; 407-rotating the fixed plate; 408-a worm; 409-worm gear; 410-fixed claws; 411-fixing seat; 501-a gear ring; 502-sliding seat; 503-driving a motor; 504-a cylindrical gear; 505-linear slides; 506-a linear drive motor; 507-linear screw; 508-linear slide bar; 509-a linear slider; 510-a polishing seat; 511-sanding slide; 512-polishing the gear ring; 513-polishing a limiting plate; 514-polishing a limit rod; 515-grinding the spring; 516-grinding the fixed block; 517-grinding wheel seats; 518-grinding wheel; 519-a grinding motor; 520-grinding the gear; 601-a filter box; 602-cleaning a motor; 603-cleaning the shaft; 604-first scraper; 605-a limiting plate; 606-a sliding bar; 607-a return spring; 608-a second scraper; 609-side plates.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Examples: the automatic stainless steel seamless steel pipe polishing device comprises a shell 101, a support 102, an adjusting mechanism, a fixing mechanism, a polishing mechanism, a cleaning mechanism and a filtering mechanism, wherein the shell 101 is fixedly arranged on the support 102, the support 102 is further provided with the adjusting mechanism and the filtering mechanism, the adjusting mechanism is provided with the polishing mechanism and the fixing mechanism, and the cleaning mechanism is arranged on the shell 101.

The adjustment mechanism includes an adjustment assembly fixedly mounted on the bracket 102 and a pushrod 310 disposed on the adjustment assembly.

The adjusting assembly comprises a supporting plate 301, an adjusting slide rod I302, an adjusting frame 303, an adjusting motor I304, an adjusting screw rod 305, an adjusting slide block 306, an adjusting motor II 307, a double-head screw rod 308 and an adjusting slide rod II 309, wherein the supporting plate 301 is fixedly arranged at two ends of the adjusting slide rod I302, the supporting plate 301 is fixedly arranged on the supporting frame 102, the two ends of the double-head screw rod 308 are rotatably arranged on the supporting plate 301, the adjusting motor II 307 is fixedly arranged on the supporting plate 301, an output shaft of the adjusting motor II 307 is fixedly arranged on the double-head screw rod 308, two sections of threads are arranged on the double-head screw rod 308, the directions of the two sections of threads on the double-head screw rod 308 are opposite, the adjusting frame 303 is provided with two adjusting frames 303, the two adjusting frames 303 are respectively and the double-head screw rod 308 are in threaded installation, the adjusting frame 303 is further slidably arranged on the adjusting slide rod I302, the output shaft of the adjusting motor I304 and the adjusting screw rod 305 are fixedly arranged on the adjusting frame 303, the adjusting slide rod 303 is fixedly arranged on the adjusting frame 303, the adjusting slide rod II 309 is fixedly arranged on the adjusting slide rod 306, the adjusting slide rod 306 is in a threaded installation, the adjusting slide rod 306 is slidably arranged on the adjusting slide rod, and the adjusting slide rod 303 are respectively, and the push rod 310 is fixedly arranged on each adjusting slide rod 310.

The fixing mechanism comprises a fixing component, a rotating component and an elastic component, wherein the elastic component is fixedly arranged on the first adjusting slide rod 302, the rotating component is arranged on the elastic component, and the fixing component is arranged on the rotating component.

The elastic component includes fixed plate 401, electric jar 402, connecting rod 403 and rotates fixed plate 407, and fixed plate 401 fixed mounting is on adjusting slide bar one 302, and fixed mounting has electric jar 402 on the fixed plate 401, and the telescopic link and the connecting rod 403 fixed mounting of electric jar 402 are provided with rotation fixed plate 407 on the connecting rod 403, are provided with the rotation component on the rotation fixed plate 407.

The rotating assembly comprises a rotating motor 404, a first rotating gear 405 and a second rotating gear 406, the rotating motor 404 is fixedly arranged on a rotating fixed plate 407, an output shaft of the rotating motor 404 is fixedly arranged on the first rotating gear 405, the first rotating gear 405 and the second rotating gear 406 are in meshed installation, the second rotating gear 406 is rotatably arranged on the rotating fixed plate 407, and a fixing assembly is arranged on the second rotating gear 406.

The fixed subassembly includes fixing base 411, worm 408, worm wheel 409 and fixed jaw 410, and fixing base 411 fixed mounting is on rotating gear two 406, and the inside of fixing base 411 is provided with the motor, and the output shaft and the worm 408 fixed mounting of motor, worm 408 respectively with three worm wheel 409 meshing cooperation, worm wheel 409 and fixed jaw 410 fixed mounting, fixed jaw 410 rotates and installs on fixing base 411.

The polishing mechanism comprises polishing components and an arc motion component, wherein the arc motion component is arranged on the adjusting mechanism, the polishing components are provided with two groups, the first group of polishing components are fixedly arranged on an adjusting slide block 306 of the adjusting mechanism, and the second group of polishing components are fixedly arranged on a linear slide block 509 of the arc motion component.

The polishing assembly comprises driving units, polishing seats 510 and polishing units, wherein the polishing seats 510 are symmetrically arranged in two, the polishing units are arranged in three groups, the driving units are arranged on the polishing seats 510, and the driving units are used for driving the three groups of polishing units to synchronously rotate.

The driving unit comprises polishing sliding blocks 511, polishing gear rings 512, polishing motors 519 and polishing gears 520, wherein the polishing motors 519 are fixedly arranged on polishing seats 510, output shafts of the polishing motors 519 are fixedly arranged on the polishing gears 520, the polishing gears 520 are meshed with the polishing gear rings 512, the polishing gear rings 512 are fixedly arranged on the polishing sliding blocks 511, the polishing sliding blocks 511 are symmetrically arranged in two, a group of polishing units are arranged on the first polishing sliding blocks 511, two groups of polishing units are arranged on the second polishing sliding blocks 511, and the polishing sliding blocks 511 are slidably arranged in the polishing seats 510.

The unit of polishing includes limiting plate 513, limiting rod 514, fixed block 516 of polishing, wheel seat 517 and grinding wheel 518 of polishing, limiting plate 513 fixed mounting is on polishing slider 511, slidable mounting has limiting rod 514 of polishing on the limiting plate 513, the cover is equipped with the spring 515 of polishing on the limiting rod 514 of polishing, the first end fixed mounting of spring 515 is on fixed block 516 of polishing, the second end fixed mounting of spring 515 is on limiting plate 513 of polishing, the tip fixed block 516 of polishing limiting rod 514 of fixed mounting has, fixed mounting has wheel seat 517 of polishing on the fixed block 516 of polishing, fixed mounting has the wheel 518 of polishing on the wheel seat 517 of polishing.

The arc motion assembly comprises a linear motion unit and an arc motion unit, wherein the linear motion unit is arranged on the arc motion unit and used for driving the second group of polishing assemblies to reciprocate.

The arc motion unit comprises a gear ring 501, a sliding seat 502, a driving motor 503 and a cylindrical gear 504, wherein the gear ring 501 is fixedly arranged on the adjusting frame 303, the sliding seat 502 is slidably arranged on the gear ring 501, the driving motor 503 is fixedly arranged on the sliding seat 502, an output shaft of the driving motor 503 and the cylindrical gear 504 are fixedly arranged, the cylindrical gear 504 is rotatably arranged on the sliding seat 502, and the cylindrical gear 504 and the gear ring 501 are in meshed installation.

The linear motion unit comprises a linear sliding seat 505, a linear driving motor 506, a linear screw 507, a linear sliding rod 508 and a linear sliding rod 509, wherein the linear sliding seat 505 is fixedly arranged on the sliding seat 502, the linear driving motor 506 is fixedly arranged on the linear sliding seat 505, an output shaft of the linear driving motor 506 and the linear screw 507 are fixedly arranged, two ends of the linear screw 507 are rotatably arranged on the linear sliding seat 505, the linear sliding rod 508 is fixedly arranged on the linear sliding seat 505, the linear sliding rod 509 is slidably arranged on the linear sliding rod 508, the linear sliding rod 509 and the linear screw 507 are in threaded arrangement, and the polishing seat 510 is fixedly arranged on the linear sliding rod 509.

The cleaning mechanism comprises a water tank 201, a water pipe 202 and a cleaning nozzle 203, wherein the water tank 201 is fixedly arranged on the shell 101, the water tank 201 is communicated with the cleaning nozzle 203 through the water pipe 202, and the cleaning nozzle 203 is fixedly arranged inside the shell 101.

The filter mechanism comprises a filter tank 601, a cleaning motor 602, a cleaning shaft 603, a first scraper 604, a limiting plate 605, a sliding rod 606, a reset spring 607, a second scraper 608 and a side plate 609, wherein the filter tank 601 is fixedly arranged on a support 102, the side plates 609 are fixedly arranged at the two ends of the filter tank 601, the cleaning motor 602 is fixedly arranged on the filter tank 601, an output shaft of the cleaning motor 602 and the cleaning shaft 603 are fixedly arranged, the cleaning shaft 603 is rotatably arranged on the filter tank 601, the first scraper 604 is fixedly arranged on the cleaning shaft 603, the first scraper 604 is attached to the inner wall of the filter tank 601, the second scraper 608 is in contact fit with the push rod 310, a plurality of sliding rods 606 are fixedly arranged on the second scraper 608, the sliding rods 606 are slidably arranged on the limiting plate 605, the limiting plate 605 is fixedly arranged on the support 102, the reset spring 607 is sleeved on the sliding rods 606, the first end of the reset spring 607 is fixedly arranged on the limiting plate 605, the second end of the reset spring 607 is fixedly arranged on the second scraper 608, and the second scraper 608 is used for scraping impurities on the first scraper 604.

The working principle of the invention is as follows: when the steel tube cleaning device is used, firstly, the U-shaped steel tube is moved to the fixing mechanism, the electric cylinder 402 drives the connecting rod 403 to move, the position of the rotary fixing plate 407 can be adjusted, the rotary motor 404 drives the rotary gear I405 to rotate, the rotary gear I405 drives the rotary gear II 406 to rotate, and the rotary gear II 406 drives the fixing assembly to rotate, so that the steel tube can be rotated, and the steel tube can be cleaned conveniently; the worm 408 drives the worm wheel 409 to rotate, and the worm wheel 409 drives the fixed jaw 410 to rotate, so that the inner wall of the steel pipe can be fixed.

The second adjusting motor 307 drives the double-headed screw 308 to rotate, the double-headed screw 308 drives the two adjusting frames 303 to approach each other, and the adjusting frames 303 slide on the first adjusting slide rod 302, so that the two polishing seats 510 approach each other until the two polishing seats 510 are contacted; the first adjusting motor 304 drives the adjusting screw rod 305 to rotate, the adjusting screw rod 305 drives the adjusting slide block 306 to slide on the second adjusting slide rod 309, and the adjusting slide block 306 drives the first group of polishing components to move so as to polish the straight line section of the steel pipe; the driving motor 503 drives the cylindrical gear 504 to rotate, and the cylindrical gear 504 drives the sliding seat 502 to slide on the gear ring 501, so that the second group of polishing components can polish the bent part of the steel pipe; the linear driving motor 506 drives the linear screw rod 507 to rotate, the linear screw rod 507 drives the linear sliding block 509 to slide on the linear sliding rod 508, and the linear sliding block 509 drives the second group of polishing components to move, so that steel pipes with different radians can be polished.

During polishing, the polishing motor 519 drives the polishing gear 520 to rotate, the polishing gear 520 drives the polishing gear ring 512 and the polishing sliding block 511 to rotate, the polishing sliding block 511 rotates in the polishing seat 510, the polishing limiting plate 513 on the polishing sliding block 511 drives the polishing limiting rod 514, the polishing fixing block 516, the polishing wheel seat 517 and the polishing wheel 518 to do circular motion, and the outer wall of the steel pipe can be polished, and the steel pipes with different pipe diameters can be polished by arranging the polishing spring 515.

After polishing, water in the water tank 201 enters the cleaning nozzle 203 through the water pipe 202, and the steel pipe is cleaned through the cleaning nozzle 203.

After cleaning the steel pipe, the water with the impurity of polishing falls into the rose box 601, be provided with the filter screen on the rose box 601, thereby realize impurity and water separation, drive the clearance axle 603 through clearance motor 602 and rotate, the scraper blade 604 on the clearance axle 603 scrapes the impurity on the filter screen, scraper blade 604 stops one side at the rose box 601, and be in same horizontal plane with curb plate 609, drive push rod 310 through adjustment mechanism and move, push rod 310 drives scraper blade two 608 motion, scraper blade two scrapes the impurity on the scraper blade 604, the outside to curb plate 609 is pushed out, can clear up the impurity, reset spring 607 is used for making scraper blade two 608 reset.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (5)

1. The utility model provides an automatic equipment of polishing of seamless steel pipe of stainless steel, includes support (102), adjustment mechanism, fixed establishment, grinding machanism and filtering mechanism, its characterized in that: the support (102) is provided with an adjusting mechanism and a filtering mechanism, and the adjusting mechanism is provided with a polishing mechanism and a fixing mechanism; the polishing mechanism comprises polishing assemblies and an arc motion assembly, wherein the arc motion assembly is arranged on the adjusting mechanism, the polishing assemblies are provided with two groups, the first group of polishing assemblies are arranged on the adjusting mechanism, and the second group of polishing assemblies are arranged on the arc motion assembly; the polishing assembly comprises driving units, polishing seats (510) and polishing units, wherein two polishing seats (510) are symmetrically arranged, three groups of polishing units are arranged, the driving units are arranged on the polishing seats (510), and the driving units are used for driving the three groups of polishing units to synchronously rotate;

the adjusting mechanism comprises an adjusting component and a push rod (310), and the push rod (310) is arranged on the adjusting component;

the fixing mechanism comprises a fixing component, a rotating component and an elastic component, wherein the rotating component is arranged on the elastic component, and the fixing component is arranged on the rotating component;

the elastic component comprises a fixed plate (401), a connecting rod (403) and a rotating fixed plate (407), wherein the connecting rod (403) is slidably arranged on the fixed plate (401), the rotating fixed plate (407) is fixedly arranged on the connecting rod (403), and the rotating component is arranged on the rotating fixed plate (407);

the filtering mechanism comprises a filtering box (601), a first scraping plate (604), a limiting plate (605), a sliding rod (606) and a second scraping plate (608), wherein a cleaning shaft (603) is rotatably arranged on the filtering box (601), the first scraping plate (604) is fixedly arranged on the cleaning shaft (603), the sliding rod (606) is slidably arranged on the limiting plate (605), the second scraping plate (608) is fixedly arranged on the sliding rod (606), the second scraping plate (608) is in contact fit with the push rod (310), and the second scraping plate (608) is used for scraping impurities on the first scraping plate (604).

2. An automatic stainless steel seamless steel pipe polishing apparatus according to claim 1, wherein: the driving unit comprises polishing sliding blocks (511) and polishing gear rings (512), the polishing sliding blocks (511) are symmetrically arranged in two, a group of polishing units are arranged on the first polishing sliding block (511), two groups of polishing units are arranged on the second polishing sliding block (511), the polishing sliding blocks (511) are slidably mounted in the polishing seat (510), and the polishing gear rings (512) are fixedly mounted on the polishing sliding blocks (511).

3. An automatic stainless steel seamless steel pipe polishing apparatus according to claim 2, wherein: the polishing unit comprises a polishing limiting plate (513), a polishing limiting rod (514), a polishing fixed block (516) and polishing wheels (518), wherein the polishing limiting plate (513) is fixedly installed on the polishing sliding block (511), the polishing limiting rod (514) is slidably installed on the polishing limiting plate (513), the polishing fixed block (516) is fixedly installed at the end part of the polishing limiting rod (514), the polishing wheel seat (517) is fixedly installed on the polishing fixed block (516), and the polishing wheels (518) are fixedly installed on the polishing wheel seat (517).

4. An automatic stainless steel seamless steel pipe polishing apparatus according to claim 3, wherein: the arc motion assembly comprises a linear motion unit and an arc motion unit, wherein the linear motion unit is arranged on the arc motion unit and is used for driving the second group of polishing assemblies to reciprocate.

5. An automatic stainless steel seamless steel pipe polishing apparatus according to claim 4, wherein: the arc motion unit comprises a gear ring (501), a sliding seat (502) and a cylindrical gear (504), wherein the gear ring (501) is provided with the sliding seat (502) in a sliding mode, the cylindrical gear (504) is rotatably arranged on the sliding seat (502), and the cylindrical gear (504) and the gear ring (501) are arranged in a meshed mode.