CN113043151B - Steel pipe polishing device for building based on inertia polishing - Google Patents

Abstract

The invention discloses a steel tube polishing device based on inertial polishing for a building, which comprises a sliding rail, wherein the model of a pressure sensor is 85-015G-FC, a second dovetail block is arranged in a second dovetail groove in a fitting and sliding manner, a first spring is arranged in the second dovetail groove, two second limiting rings are positioned on two sides of a transverse plate and are in fit with the surface, a rubber sleeve first transverse rod and a second transverse rod are positioned on the same horizontal straight line, the model of a PLC (programmable logic controller) is CPM1A-10CDR-A-V1, a first barrel and a first barrel are welded in a connecting mode, a second barrel is made of alloy steel materials, the steel tube with different diameters can be clamped, the direct friction force is adjusted according to the lengths of polished steel tubes to meet the use requirement, the steel tubes can be polished fully, the steel tubes are polished fully through rotation of a plurality of the polished brushes is realized through inertia, waste scraps are collected simultaneously, the steel tubes are polished fully, the polished fully, electric appliances are not required to be electrified all the time to perform continuous work, and the use requirement is met.

Description

Steel pipe polishing device for building based on inertia polishing

Technical Field

The invention relates to the technical field of buildings, in particular to a steel tube polishing device based on inertial polishing for a building.

Background

The polishing is to utilize the mechanical action to reduce the surface roughness of the workpiece so as to obtain a bright and smooth surface, the polishing tool and abrasive particles or other polishing media are utilized to carry out finishing processing on the surface of the workpiece, the polishing can not improve the dimensional accuracy or geometric accuracy of the workpiece, the mechanical mirror polishing is to carry out polishing procedures (rough polishing and fine polishing) and polishing procedures on a metal material so as to achieve a smooth and bright mirror-like surface, during processing, polishing paste is coated on a soft elastic polishing wheel or an abrasive belt rotating at a high speed, high temperature is generated by utilizing intense friction, an extremely thin solution layer is formed on the processing surface, namely micro-concave-convex on the processing surface can be filled, the surface polishing is suitable for coating surface modification, the traditional steel tube polishing device has a complex structure and single function, mechanical equipment is always electrified in the steel tube polishing process, resources are wasted, the steel tube polishing process is complex, the steel tube cannot be polished effectively, the polishing is time-consuming and labor-consuming again, and the use requirement cannot be met.

Disclosure of Invention

In order to solve the problems, the invention provides a steel tube polishing device based on inertial polishing for construction.

The invention is realized by the following technical scheme:

the utility model provides a steel pipe polishing device for building based on inertia polishing, includes the slide rail, slide rail top surface laminating is equipped with two first cavitys, a first cavity bottom surface and slide rail top surface fixed connection, slide rail top surface is opened there is first dovetail, first dovetail in-paste sliding is equipped with first dovetail, first dovetail top surface and another first cavity bottom surface fixed connection, first dovetail passes through bolt fixed connection with the slide rail, first cavity inner side wall fixedly connected with supporting shoe, the supporting shoe cross-section is isosceles trapezoid, the cover has the barrel on the supporting shoe, barrel outer wall fixed sleeve has first ring, annular fixed connection has a plurality of guide bars in the first cavity, a plurality of guide bar lengths are different, guide bar one side is equipped with first T slide bar, first T slide bar cross-section is square, first T slide bar passes guide bar and first ring lateral wall fixed connection, first T slide bar and guide bar sliding connection, first cavity inner side wall fixed connection has a pressure sensor, first cylinder side wall and a flat-type FC are equipped with a PLC, the same cylinder side wall fixed connection, a PLC is in the same plane, the same with a cylinder side wall fixed connection, a PLC is in the barrel lateral wall fixed connection, a PLC is in the same plane, the same one end is connected with a PLC lateral wall, a PLC is in the barrel fixed connection, two arc-shaped barrels are symmetrically arranged in the first barrel, an arc-shaped plate is fixedly connected with the inner arc-shaped barrel, a plurality of balls are rotationally embedded in the arc-shaped plate in a fitting manner, a sliding plate is arranged in the arc-shaped barrel in a fitting manner, one end of the sliding plate is fixedly connected with a rubber strip through glue, the rubber strip is attached to the balls, two T-shaped threaded rods are symmetrically arranged on the outer surface of the first barrel, one end of each T-shaped threaded rod penetrates through the first barrel and penetrates into the arc-shaped barrel, the T-shaped threaded rod is in threaded connection with the first barrel, the T-shaped threaded rod is in rotary connection with the arc barrel, two first limiting rings are fixedly sleeved on the T-shaped threaded rod, the two first limiting rings are attached to the two sides of the arc barrel and the surface of the arc barrel, vertical pipes are symmetrically arranged on the two sides of the T-shaped threaded rod, one end of each vertical pipe penetrates through the first barrel and penetrates into the arc barrel, the vertical pipes are in sliding connection with the first barrel, the vertical pipe is fixedly connected with the arc-shaped barrel body, one end of the vertical pipe is provided with a second T-shaped sliding rod, the section of the second T-shaped sliding rod is square, the second T-shaped sliding rod vertical rod penetrates through the vertical pipe into the arc-shaped barrel body to be fixedly connected with the surface of the sliding plate, the second T-shaped sliding rod vertical rod is in sliding connection with the vertical pipe, the second T-shaped sliding rod vertical rod is fixedly connected with the vertical pipe through a bolt, scales are carved on the surface of the second T-shaped sliding rod vertical rod, two first barrel bodies are fixedly sleeved on the first barrel body, the side wall of the first barrel body is hinged with a barrel door through a hinge, the first barrel body is fitted with a second barrel body in a sliding sleeve, both ends of the second barrel body are not closed, the side wall of the second barrel body is fixedly connected with a second circular ring, the second circular ring and the axis of the barrel body are positioned on the same horizontal straight line, the second circular ring is equal to the diameter of the barrel body, the outer wall of the first barrel body is symmetrically provided with two second dovetail grooves, a second dovetail block is arranged in the second dovetail groove in a fitting and sliding way, a first spring is arranged in the second dovetail groove, one end of the first spring is fixedly connected with the side wall of the second dovetail block, the first spring is a compression spring, the surface of the second dovetail block is fixedly connected with the inner wall of the second barrel body, the inner wall of the second barrel body is provided with a third dovetail groove, a third dovetail block is arranged in the third dovetail groove in a fitting and sliding way, a second spring is arranged in the third dovetail groove, the bottom end of the second spring is fixedly connected with the top surface of the third dovetail block, the second spring is a compression spring, the side wall of the third dovetail block is fixedly connected with a first cross rod, the outer wall of the first cross rod is fixedly sleeved with a rubber sleeve through glue, two second barrel bodies are symmetrically arranged in the first barrel body, a plurality of first connecting rods are arranged between the two second barrel bodies, the first connecting rod is fixedly connected with the side walls of the second cylinder bodies, the inner diameters of the two second cylinder bodies are reduced from the center to the two ends, the second cylinder bodies are rotationally sleeved with a second cavity in an attached mode, a fourth dovetail groove is annularly formed in the surface of the second cylinder body, two fourth dovetail blocks are arranged in the fourth dovetail groove in an attached mode in a sliding mode, the surface of each fourth dovetail block is fixedly connected with the inner cambered surface of the second cavity, first sliding grooves are annularly formed in the two side walls of the first cylinder bodies, the cross sections of the first sliding grooves are in a wild goose tail shape, two first sliding blocks are fixedly connected with the side walls of the first sliding blocks in an attached mode, a plurality of blind holes are annularly formed in the side walls of one second cylinder body, a plurality of through grooves are annularly formed in the side walls of the other second cylinder body, a plurality of blind holes correspond to the through grooves one to one, oblique tooth rings are fixedly sleeved on the other second cylinder bodies, another second barrel lateral wall passes through bolt fixedly connected with brush, brush lateral wall annular fixedly connected with a plurality of light brushes of cutting open, cut open the light brush other end and pass through the logical inslot of inserting the blind hole, cut open light brush and second barrel sliding connection, second cavity bottom surface fixedly connected with unloading pipe, the interior bottom surface fixedly connected with collecting box of first barrel, the collecting box lateral wall articulates there is the chamber door, unloading pipe bottom penetrates in the collecting box and rather than fixed intercommunication, the interior lateral wall fixedly connected with second horizontal pole of second barrel, second horizontal pole one end is the cambered surface, second cavity top surface fixedly connected with diaphragm, the diaphragm top surface is equipped with the rotation axis, the diaphragm fixedly connected with helical gear is passed to the rotation axis bottom, helical gear and helical gear ring meshing, rotation axis and diaphragm swivelling joint, fixed cover has two second spacing rings on the diaphragm, two second spacing rings are located the diaphragm both sides and are laminated with the surface, first barrel top surface fixedly connected with U-shaped buckle, U-shaped buckle opening is down, U-shaped buckle setting is in same straight line horizontal pole with the rubber sleeve on the second horizontal pole.

Preferably, the model of the PLC controller is CPM1A-10CDR-A-V1.

Preferably, the first cylinder body and the first cylinder body are connected in a welding mode.

Preferably, the second cylinder is made of alloy steel materials.

Compared with the prior art, the invention has the beneficial effects that: this device simple structure, the function is various, the practicality is strong, through setting up first forked tail piece, the supporting shoe, the barrel, first ring, the guide bar, first T shape slide bar, a pressure sensor, a spring, the cylinder, the PLC controller, first barrel, the arc staving, the arc, the ball, the slide plate, the rubber strip, the T shape threaded rod, first spacing ring, standpipe and second T shape slide bar can realize pressing from both sides tight when adjusting direct frictional force according to the steel pipe length of polishing, be convenient for the steel pipe fully cut open the light, and set up first staving, the second ring, the second forked tail piece, first spring, the third forked tail piece, the second spring, first horizontal pole, the rubber sleeve, the second barrel, the head rod, the second cavity, the fourth forked tail piece, first slider, the skewed tooth ring, the brush, the unloading pipe, the collecting box, the second horizontal pole, the diaphragm, the rotation axis, helical gear, spacing ring and U shape are realized through inertia and are cut open the rotation of a plurality of smooth brushes and are carried out the light and are guaranteed to cut open the light, the full demand is carried out to the electric apparatus is cut open, the electricity is continued to the electricity is guaranteed to the electric apparatus is used to the energy is satisfied.

Drawings

FIG. 1 is a block diagram and partial enlarged view thereof of the present invention;

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a partial right side view and partial enlarged view of the structure of the present invention;

FIG. 4 is a partial left side view and partial enlarged view of the structure of the present invention;

FIG. 5 is an enlarged view of a portion of the structure of the present invention;

FIG. 6 is a schematic representation of the operation of the structure of the present invention;

FIG. 7 is a schematic representation of the operation of the structure of the present invention and an enlarged view of a portion thereof;

fig. 8 is a schematic working view and a partial enlarged view of the structure of the present invention.

In the figure: slide rail 1, first cavity 2, first dovetail block 3, supporting block 4, cylinder 5, first circular ring 6, guide bar 7, first T-shaped slide bar 8, pressure sensor 9, spring 10, cylinder 11, PLC controller 12, first cylinder 13, arc-shaped cylinder 14, arc-shaped plate 15, ball 16, slide 17, rubber strip 18, T-shaped threaded rod 19, first spacing ring 20, standpipe 21, second T-shaped slide bar 22, first cylinder 23, second cylinder 24, second circular ring 25, second dovetail block 26, first spring 27, third dovetail block 28, second spring 29, first cross bar 30, rubber sleeve 31, second cylinder 32, first connecting rod 33, second cavity 34, fourth dovetail block 35, first sliding block 36, skewed tooth ring 37, brush 38, polishing brush 39, steel pipe 40, collection box 41, second cross bar 42, cross bar 43, rotating shaft 44, 45, second spacing ring 46, U-shaped buckle 47, bevel gear 48, first dovetail groove 1-1, second dovetail groove 1-23, second dovetail groove 1-3-32, and fourth dovetail groove 1-32.

Detailed Description

The invention is described in further detail below with reference to the attached drawings and detailed description:

as shown in fig. 1-8, the steel tube polishing device based on inertial polishing for construction comprises a slide rail 1, wherein the top surface of the slide rail 1 is provided with two first cavities 2 in an attached mode, the bottom surface of one first cavity 2 is fixedly connected with the top surface of the slide rail 1, the top surface of the slide rail 1 is provided with a first dovetail groove 1-1, the first dovetail groove 1-1 is internally provided with a first dovetail block 3 in an attached sliding mode, the top surface of the first dovetail block 3 is fixedly connected with the bottom surface of the other first cavity 2, the first dovetail block 3 is fixedly connected with the slide rail 1 through bolts, the inner side wall of the first cavity 2 is fixedly connected with a supporting block 4, the section of the supporting block 4 is isosceles trapezoid, a cylinder 5 is sleeved on the supporting block 4, the outer wall of the cylinder 5 is fixedly sleeved with a first circular ring 6, a plurality of guide rods 7 are fixedly connected in a ring shape in the first cavity 2, the lengths of the guide rods 7 are different, a first T-shaped slide bar 8 is arranged on one side of the guide bar 7, the cross section of the first T-shaped slide bar 8 is square, a cross bar of the first T-shaped slide bar 8 penetrates through the guide bar 7 and is fixedly connected with the side wall of the first circular ring 6, the cross bar of the first T-shaped slide bar 8 is in sliding connection with the guide bar 7, a pressure sensor 9 is fixedly embedded into the side wall of the first cavity 2, the model of the pressure sensor 9 is 85-015G-FC, the pressure sensor 9 and the first T-shaped slide bar 8 are positioned on the same horizontal line, a plurality of springs 10 are fixedly connected to the side wall of the cylinder 5, the other end of the spring 10 is fixedly connected with the side wall of the first cavity 2, the other side wall of the cylinder 5 and the side wall of the first cavity 2 are positioned on the same vertical plane, a cylinder 11 is fixedly connected with the side wall of the first cavity 2, a PLC 12 is fixedly connected with the side wall of the first cavity 2, the PLC 12 is electrically connected with the pressure sensor 9 through a circuit, the PLC 12 is electrically connected with the air cylinder 11 through a circuit, a first cylinder body 13 is arranged between two first cavities 2, two arc-shaped cylinder bodies 14 are symmetrically arranged in the first cylinder body 13, an arc-shaped plate 15 is fixedly connected with the inner arc surface of the arc-shaped cylinder body 14, a plurality of balls 16 are rotationally embedded in the inner arc-shaped plate 15 in an attaching manner, a sliding plate 17 is arranged in the arc-shaped cylinder body 14 in an attaching manner in a sliding manner, one end of the sliding plate 17 is fixedly connected with a rubber strip 18 through glue, the rubber strip 18 is attached to the balls 16, two T-shaped threaded rods 19 are symmetrically arranged on the outer surface of the first cylinder body 13, one end of each T-shaped threaded rod 19 penetrates through the first cylinder body 13 and penetrates into the arc-shaped cylinder body 14, each T-shaped threaded rod 19 is in threaded connection with the corresponding first cylinder body 13, each T-shaped threaded rod 19 is in rotary connection with the corresponding arc-shaped cylinder body 14, two first limiting rings 20 are fixedly sleeved on the T-shaped threaded rod 19, the two first limiting rings 20 are attached to two sides of the arc-shaped barrel 14 and are attached to the surfaces of the arc-shaped barrel 14, vertical pipes 21 are symmetrically arranged on two sides of the T-shaped threaded rod 19, one end of each vertical pipe 21 penetrates through the first barrel 13 and penetrates into the arc-shaped barrel 14, each vertical pipe 21 is in sliding connection with the first barrel 13, the vertical pipes 21 are fixedly connected with the arc-shaped barrel 14, one end of each vertical pipe 21 is provided with a second T-shaped slide rod 22, the cross section of each second T-shaped slide rod 22 is square, each vertical rod 22 penetrates through each vertical pipe 21 and penetrates into the arc-shaped barrel 14 to be fixedly connected with the surface of the corresponding sliding plate 17, each second T-shaped slide rod 22 is in sliding connection with each vertical rod 21, each second T-shaped slide rod 22 is fixedly connected with each vertical rod 21 through a bolt, scales are carved on the surface of each vertical rod of each second T-shaped slide rod 22, two first barrels 23 are fixedly sleeved on the first barrel 13, the first barrel 23 is hinged with a barrel door through a hinge, a second barrel 24 is sleeved on the first barrel 23 in a fitting sliding way, two ends of the second barrel 24 are not sealed, the side wall of the second barrel 24 is fixedly connected with a second circular ring 25, the second circular ring 25 and the axis of the barrel 5 are positioned on the same horizontal straight line, the diameter of the second circular ring 25 is equal to that of the barrel 5, two second dovetail grooves 23-1 are symmetrically formed in the outer wall of the first barrel 23, a second dovetail block 26 is arranged in the second dovetail groove 23-1 in a fitting sliding way, a first spring 27 is arranged in the second dovetail groove 23-1, one end of the first spring 27 is fixedly connected with the side wall of the second dovetail block 26, the first spring 27 is a compression spring, the surface of the second dovetail block 26 is fixedly connected with the inner wall of the second barrel 24, a third dovetail groove 24-1 is formed in the inner wall of the second barrel 24, the third dovetail groove 24-1 is internally provided with a third dovetail block 28 in an adhering and sliding manner, the third dovetail groove 24-1 is internally provided with a second spring 29, the bottom end of the second spring 29 is fixedly connected with the top surface of the third dovetail block 28, the second spring 29 is a compression spring, the side wall of the third dovetail block 28 is fixedly connected with a first cross rod 30, the outer wall of the first cross rod 30 is fixedly sleeved with a rubber sleeve 31 through glue, the first barrel 23 is internally symmetrically provided with two second barrels 32, a plurality of first connecting rods 33 are arranged between the two second barrels 32, the first connecting rods 33 are fixedly connected with the side wall of the second barrel 32, the inner diameters of the two second barrels 32 are reduced from the center to the two ends, the two second barrels 32 are rotationally sleeved with a second cavity 34 in an adhering and rotating manner, the surface of the second barrel 32 is annularly provided with a fourth dovetail groove 32-1, the fourth dovetail groove 32-1 is internally provided with two fourth dovetail blocks 35 in an attaching and sliding manner, the surfaces of the fourth dovetail blocks 35 are fixedly connected with the inner cambered surface of the second cavity 34, the two side walls of the first cylinder body 13 are annularly provided with first sliding grooves 13-1, the cross section of each first sliding groove 13-1 is in a wild-goose tail shape, the first sliding grooves 13-1 are internally provided with two first sliding blocks 36 in an attaching and sliding manner, the side walls of the first sliding blocks 36 are fixedly connected with the side walls of the second cylinder body 32, the inner side wall of the second cylinder body 32 is annularly provided with a plurality of blind holes 32-3, the side wall of the other second cylinder body 32 is annularly provided with a plurality of through grooves 32-2, the blind holes 32-3 are in one-to-one correspondence with the through grooves 32-2, the other second cylinder body 32 is fixedly sleeved with helical gear rings 37, the side wall of the other second cylinder body 32 is fixedly connected with brushes 38 through bolts, the side walls of the brushes 38 are annularly fixedly connected with a plurality of light-splitting brushes 39, the other end of the light splitting brush 39 is inserted into the blind hole 32-3 through the through groove 32-2, the light splitting brush 39 is in sliding connection with the second cylinder 32, the bottom surface of the second cavity 34 is fixedly communicated with the blanking pipe 40, the inner bottom surface of the first cylinder 23 is fixedly connected with the collecting box 41, the side wall of the collecting box 41 is hinged with a box door, the bottom end of the blanking pipe 40 penetrates into the collecting box 41 and is fixedly communicated with the collecting box 41, the inner side wall of the second cylinder 24 is fixedly connected with the second cross rod 42, one end of the second cross rod 42 is a cambered surface, the top surface of the second cavity 34 is fixedly connected with the cross plate 43, the top surface of the cross plate 43 is provided with a rotating shaft 44, the bottom end of the rotating shaft 44 penetrates through the cross plate 43 and is fixedly connected with a bevel gear 45, the bevel gear 45 is meshed with the bevel gear ring 37, the rotating shaft 44 is in rotating connection with the cross plate 43, the fixed cover has two second spacing rings 46 on the diaphragm 43, and two second spacing rings 46 are located diaphragm 43 both sides and laminate with the surface, the interior top surface fixedly connected with U-shaped buckle 47 of first staving 23, U-shaped buckle 47 opening down, U-shaped buckle 47 sets up in rubber sleeve 31 oblique top, rubber sleeve 31 first horizontal pole 30 is in same horizontal straight line with second horizontal pole 42.

The model of the PLC 12 is CPM1A-10CDR-A-V1.

The first cylinder 13 and the first cylinder 23 are connected by welding.

The second cylinder 32 is made of alloy steel material.

Working principle: when the steel pipe needs to be cut, one end of the steel pipe needing to be cut is inserted into a supporting block 4, then a first cylinder 13 is sleeved on the steel pipe, then a bolt fixed between a sliding rail 1 and a first dovetail block 3 is unscrewed, a first cavity 2 is pushed, the first cavity 2 drives the supporting block 4 to move and insert into the steel pipe, then the bolt fixed between the sliding rail 1 and the first dovetail block 3 is screwed, as shown in figure 1, then the first cylinder 13 is slid to one side, then a T-shaped threaded rod 19 is screwed, the T-shaped threaded rod 19 is rotationally moved, the T-shaped threaded rod 19 drives a first limiting ring 20 to move, the first limiting ring 20 drives an arc-shaped barrel 14 to move, the arc-shaped barrel 14 drives an arc-shaped plate 15 to move, the arc-shaped plate 15 drives a ball 16 to clamp the steel pipe, then a second T-shaped sliding rod 22 is adjusted according to the length of the cut steel pipe, the bolt fixed between a vertical pipe 21 and the second T-shaped sliding rod 22 is unscrewed, then sliding a second T-shaped slide bar 22, observing the scale of the side wall of the second T-shaped slide bar 22, driving a slide plate 17 to move by the second T-shaped slide bar 22, driving a rubber strip 18 to move and squeeze a ball 16 by the slide plate 17, changing the friction force between the rubber strip 18 and the ball 16, when the second T-shaped slide bar 22 moves to a required scale, screwing a bolt fixed between a vertical pipe 21 and the second T-shaped slide bar 22 to meet the requirements of steel pipes with different lengths, then operating a PLC 12 to enable an air cylinder 11 close to one end of a first cylinder 13 to work, instantly pushing the output end of the air cylinder 11 to move a second cylinder 24, driving a second dovetail block 26 to move and squeeze a first spring 27 by the second cylinder 24, driving a first cylinder 23 to move by the first spring 27, driving a first cylinder 13 to move by the first cylinder 13, driving a T-shaped threaded rod 19 to move by the T-shaped threaded rod 19, driving an arc-shaped cylinder 14 to move, the arc-shaped barrel 14 drives the arc-shaped plate 15 to move, the arc-shaped plate 15 drives the ball 16 to roll on the steel pipe, the second barrel 24 drives the third dovetail block 28 to move, the third dovetail block 28 drives the first cross rod 30 to move, the first cross rod 30 drives the rubber sleeve 31 to move and gradually attach to the side end of the second cross rod 42, as shown in fig. 7, the first cross rod 30 drives the rubber sleeve 31 to move and gradually contact with the surface of the rotating shaft 44 and push the rotating shaft 44 to rotate, the rotating shaft 44 drives the bevel gear 45 to rotate, the bevel gear 45 drives the bevel gear ring 37 to rotate, the bevel gear ring 37 drives the second barrel 32 to rotate, the second barrel 32 drives the other second barrel 32 to rotate through the first connecting rod 33, the other second barrel 32 drives the first sliding block 36 to slide in the first sliding groove 13-1, the second barrel 32 drives the brush 38 to rotate, the first cross rod 30 drives the rubber sleeve 31 to move and gradually attach to the side end of the second cross rod 42, the second cross rod 42 pushes the rubber sleeve 31 to gradually move upwards, the rubber sleeve 31 drives the first cross rod 30 to move upwards, the first cross rod 30 drives the third dovetail block 28 to move and squeeze the second spring 29, the rubber sleeve 31 gradually moves and separates from the surface of the rotating shaft 44, the rubber sleeve 31 gradually moves and is clamped into the U-shaped buckle 47, as shown in fig. 8, at the moment, the rotating shaft 44 continues to rotate due to inertia, the rotating shaft 44 continues to indirectly drive the brush 38 to rotate, the brush 38 drives the polishing brush 39 to polish the steel tube, so that the polishing of the steel tube surface is realized, the scraps under the polishing of the steel tube surface are cleaned by the brush 38, the scraps flow into the second cavity 34 through the second cylinder 32 and then enter the collecting box 41 along the blanking pipe 40, the polishing of the steel tube is facilitated, the extruded first spring 27 pushes the second dovetail block 26 to move at the moment, the second dovetail block 26 drives the second barrel 24 to move, the second barrel 24 moves the third dovetail block 28 to move, the third dovetail block 28 drives the first cross rod 30 to move, the first cross rod 30 drives the rubber sleeve 31 to move and gradually slide out of the U-shaped buckle 47, when the rubber sleeve 31 slides out of the U-shaped buckle 47, the second spring 29 extruded pushes the third dovetail block 28 to move, the third dovetail block 28 indirectly drives the rubber sleeve 31 to move and reset, as shown in figure 1, the first barrel 13 gradually slides from one end of the first cavity 2 to the other first cavity 2, the first barrel 13 indirectly drives the second ring 25 to move close to one side barrel 5 and then continuously pushes the barrel 5 to move and squeeze the spring 10, the barrel 5 drives the first ring 6 to move, the first ring 6 drives the first T-shaped slide rod 8 to slide on the guide rod 7, the side wall of the first ring 6 is gradually attached to the side wall of the guide rod 7, when the side wall of the first circular ring 6 is gradually attached to the side wall of the guide rod 7, at the moment, a first T-shaped sliding rod 8 is just attached to the side wall of the pressure sensor 9 and presses the pressure sensor 9, as shown in fig. 6, the pressed pressure sensor 9 transmits an electric signal to the PLC 12, the PLC 12 enables the air cylinder 11 to work, the output end of the air cylinder 11 instantly pushes the second barrel 24 to move, the second barrel 24 indirectly drives the light splitting brush 39 to split a steel pipe, the two air cylinders 11 alternately work to knock the two second barrels 24, the second barrel 24 drives the light splitting brush 39 to rotate to split the steel pipe, after the light splitting of the steel pipe is finished, the PLC 12 is operated to enable the air cylinder 11 to stop working, then the T-shaped threaded rod 19 is screwed, the T-shaped threaded rod 19 indirectly drives the ball 16 to move to separate from the steel pipe, then the bolt fixed between the sliding rail 1 and the first dovetail block 3 is unscrewed, pushing the first cavity 2, the first cavity 2 drives the supporting block 4 to move and gradually separate from the steel pipe, then taking down the cut steel pipe, cutting the steel pipe according to the operation, separating the device from a power supply after finishing cutting the steel pipe, intermittently opening a barrel door hinged to the side wall of the first barrel body 23 by a worker, opening a box door hinged to the side wall of the collecting box 41, cleaning scraps inside the collecting box 41, after cleaning the scraps, sequentially closing the box door hinged to the side wall of the collecting box 41 and the barrel door hinged to the side wall of the first barrel body 23, manually unscrewing a bolt fixed between the second barrel body 32 and the hairbrush 38 by a spanner when the cutting brush 39 needs to be replaced, then pulling brush 38, brush 38 drives dissecting brush 39 and slides out from second barrel 32 gradually, then changes dissecting brush 39, will dissect the one end of brush 39 and pass through groove 32-2 and penetrate in blind hole 32-3, then the rethread bolt is fixed second barrel 32 and brush 38, the setting of standpipe 21 plays effectual guide effect, guarantee that arc staving 14 normally slides, the setting of spring 10, first spring 27 and second spring 29 plays effectual reset action, the setting of first spacing ring 20 and second spacing ring 46 plays the spacing effect, guarantee that the device normally works, the setting of U-shaped buckle 47 plays the spacing effect to rubber sleeve 31.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. Steel pipe that cuts open for building based on inertia cuts open light device, including slide rail (1), its characterized in that: the utility model discloses a pressure sensor, including slide rail (1), support piece, barrel (5) are gone up to a first cavity (2) bottom surface and slide rail (1) top surface fixed connection, slide rail (1) top surface is opened there is first dovetail (1-1) top surface, the laminating slides in first dovetail (1-1) and is equipped with first forked tail piece (3), first forked tail piece (3) top surface and another first cavity (2) bottom surface fixed connection, first forked tail piece (3) and slide rail (1) pass through bolt fixed connection, first cavity (2) inside wall fixedly connected with supporting shoe (4), supporting shoe (4) cross-section is isosceles trapezoid, the cover has barrel (5) on supporting shoe (4), barrel (5) outer wall fixed cover has first ring (6), a plurality of guide bars (7) length of guide bar (7) are gone up to annular fixedly connected with in first cavity (2), guide bar (7) one side is equipped with first T shape slide bar (8), first T shape slide bar (8) are respectively with first guide bar (7) and first lateral wall (8) and first lateral wall (7) are connected with square guide bar (7) and are respectively, the model of the pressure sensor (9) is 85-015G-FC, the pressure sensor (9) is in the same horizontal straight line with a first T-shaped slide bar (8), a plurality of springs (10) are fixedly connected to the side wall of the cylinder body (5), the other end of the springs (10) is fixedly connected with the inner side wall of the first cavity (2), the other side wall of the cylinder body (5) is in the same vertical plane with the side wall of the first cavity (2), a cylinder (11) is fixedly connected to the side wall of the first cavity (2), a PLC (12) is fixedly connected to the side wall of the first cavity (2), the PLC (12) is electrically connected with the pressure sensor (9) through a circuit, a first cylinder body (13) is arranged between the two first cavities (2), two arc-shaped cylinder bodies (14) are symmetrically arranged in the first cylinder body (13), an arc-shaped cylinder body (14) is fixedly connected with a cylinder (15), a plurality of rolling balls (16) are fixedly connected to one end of the rolling balls (17) of the rolling contact plates (18) in the rolling plates (16), the utility model discloses a novel vertical rod type electric water heater, including first barrel (13) surface symmetry is equipped with two T shape threaded rods (19), T shape threaded rod (19) one end passes first barrel (13) and penetrates in arc staving (14), T shape threaded rod (19) and first barrel (13) threaded connection, T shape threaded rod (19) and arc staving (14) swivelling joint, fixed cover has two first spacing rings (20) on T shape threaded rod (19), two first spacing rings (20) are with arc staving (14) both sides and rather than the laminating of surface, T shape threaded rod (19) bilateral symmetry is equipped with standpipe (21), standpipe (21) one end passes first barrel (13) and penetrates in arc staving (14), standpipe (21) and first barrel (13) sliding connection, standpipe (21) and arc staving (14) fixed connection, one end is equipped with square second T shape slide bar (22), second T shape standpipe (22) cross-section is, second T shape slide bar (21) and montant (21) are fixed connection and second montant (21) and arc slide bar (22) through the fixed connection of montant T (21) and montant (14), the surface of the vertical rod of the second T-shaped sliding rod (22) is carved with scales, two first barrel bodies (23) are fixedly sleeved on the first barrel body (13), barrel doors are hinged to the side walls of the first barrel bodies (23) through hinges, second barrel bodies (24) are sleeved on the first barrel bodies (23) in a fitting sliding mode, two ends of each second barrel body (24) are not sealed, a second circular ring (25) is fixedly connected to the side walls of the second barrel bodies (24), the second circular ring (25) and the axis of the barrel body (5) are positioned on the same horizontal straight line, the diameters of the second circular ring (25) and the barrel body (5) are equal, two second dovetail grooves (23-1) are symmetrically formed in the outer walls of the first barrel bodies (23), a second dovetail block (26) is arranged in the second dovetail grooves (23-1) in a fitting sliding mode, a first spring (27) is arranged in each second dovetail groove, one end of each first spring (27) is fixedly connected with the second dovetail block (26), the first dovetail block (24) is fixedly connected with the second dovetail block (24), the inner wall (24) is fixedly connected with the inner wall of the second dovetail block (24-1), the second dovetail block (24) is fixedly connected with the inner wall of the third dovetail block (24), the utility model discloses a novel dovetail sliding block, which is characterized in that a second spring (29) is arranged in a third dovetail groove (24-1), the bottom end of the second spring (29) is fixedly connected with the top surface of a third dovetail block (28), the second spring (29) is a compression spring, a first cross rod (30) is fixedly connected with the side wall of the third dovetail block (28), a rubber sleeve (31) is fixedly sleeved on the outer wall of the first cross rod (30) through glue, two second cylinders (32) are symmetrically arranged in a first barrel body (23), a plurality of first connecting rods (33) are arranged between the two second cylinders (32), the inner diameters of the two second cylinders (32) are reduced from the center to the two ends, a second cavity (34) is formed by jointing and rotating the two second cylinders (32), a fourth dovetail groove (32-1) is annularly formed in the surface of the second barrel body, two fourth dovetail blocks (35) are arranged in a sliding manner in a jointing manner in the fourth groove (32-1), a first sliding groove (13) is formed in the surface of the second barrel body (35), two sliding grooves (13) are formed in the shape of a sliding groove (13-13), two sliding grooves (13) are formed in the inner surfaces of the first barrel body (13-1), the utility model discloses a cross bar, including first slider (36) lateral wall and a second barrel (32) lateral wall fixed connection, a second barrel (32) inside wall annular is opened there are a plurality of blind holes (32-3), a plurality of logical groove (32-2) are opened to another second barrel (32) lateral wall annular, a plurality of blind holes (32-3) and a plurality of logical groove (32-2) one-to-one, fixed cover has helical tooth ring (37) on another second barrel (32), another second barrel (32) lateral wall is through bolt fixedly connected with brush (38), brush (38) lateral wall annular fixedly connected with a plurality of light brush (39), the light brush (39) other end passes logical groove (32-2) and inserts in blind hole (32-3), light brush (39) and second barrel (32) sliding connection, second cavity (34) bottom surface fixed communication has unloading pipe (40), first barrel (23) inner bottom surface fixed connection has collection box (41), collection box (41) lateral wall articulated have down pipe (40), bottom surface (40) and second cambered surface (42) are fixed connection, second cambered surface (42) are fixed with the top surface (42) and are fixed top surface (42), the utility model provides a cross bar, including diaphragm (43) top surface, rotation axis (44) bottom pass diaphragm (43) fixedly connected with helical gear (45), helical gear (45) and helical gear ring (37) meshing, rotation axis (44) and diaphragm (43) swivelling joint, fixed cover has two second spacing rings (46) on diaphragm (43), and two second spacing rings (46) are located diaphragm (43) both sides and laminating with the surface, top surface fixedly connected with U-shaped buckle (47) in first staving (23), U-shaped buckle (47) opening down, U-shaped buckle (47) set up in rubber sleeve (31) inclined upper side, rubber sleeve (31) first horizontal pole (30) are in same horizontal straight line with second horizontal pole (42).

2. The steel pipe polishing device for building based on inertial polishing according to claim 1, wherein: the model of the PLC (12) is CPM1A-10CDR-A-V1.

3. The steel pipe polishing device for building based on inertial polishing according to claim 1, wherein: the first cylinder body (13) and the first cylinder body (23) are connected in a welding mode.

4. The steel pipe polishing device for building based on inertial polishing according to claim 1, wherein: the second cylinder (32) is made of alloy steel materials.