CN111744708A

CN111744708A - Anticorrosive spraying mechanism of anticorrosive device in pipeline

Info

Publication number: CN111744708A
Application number: CN202010634304.9A
Authority: CN
Inventors: 隋广林
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-02
Filing date: 2020-07-02
Publication date: 2020-10-09

Abstract

The invention discloses an anticorrosion spraying mechanism of an anticorrosion device in a pipeline, which comprises an automatic spraying mechanism, a rotary driving mechanism, an automatic leveling mechanism and an automatic spraying mechanism, wherein the automatic spraying mechanism comprises a spraying head, the automatic spraying mechanism is arranged on the rotary driving mechanism, the rotary driving mechanism drives the automatic spraying mechanism to rotate, the automatic leveling mechanism is arranged on the rotary driving mechanism, the rotary driving mechanism drives the automatic leveling mechanism to rotate, the automatic leveling mechanism is provided with a detachable leveling scraper and a vibration wheel, and an anticorrosion material on the inner wall of the pipeline can be automatically leveled through the automatic leveling mechanism, so that the leveling efficiency is greatly improved.

Description

Anticorrosive spraying mechanism of anticorrosive device in pipeline

Technical Field

The invention relates to the field of pipeline corrosion prevention, in particular to a corrosion prevention spraying mechanism of a corrosion prevention device in a pipeline.

Background

Corrosion prevention (corrosion prevention of pipes) refers to measures for slowing down or preventing pipes from being eroded and deteriorated under the chemical and electrochemical action of internal and external media or by the metabolic activity of microorganisms. In order to improve the service life of the pipeline, the pipeline is prevented from being corroded by soil, air and conveying media (oil, natural gas and the like). Pipelines for conveying oil and gas are mostly in a complex soil environment, and conveyed media are also corrosive, so that the inner wall and the outer wall of the pipeline can be corroded. Once the pipeline is corroded and perforated, oil and gas are lost, which not only interrupts transportation, but also pollutes the environment and even can cause fire hazard and causes harm.

In the prior art, a coating corrosion prevention method is commonly used, namely, the coating is uniformly and densely coated on the surface of a derusted metal pipeline to isolate the derusted metal pipeline from various corrosive media, and the method is one of the most basic methods for pipeline corrosion prevention. Since the 70 s, more requirements on coating performance have been put forward, such as laying pipelines in severe environments such as polar regions and oceans, increasing the temperature of the pipelines due to heating and conveying oil products, and the like. As a result, pipeline corrosion resistant coatings are increasingly using composite materials or composite structures.

Chinese patent CN201520100663.0 discloses a surface anticorrosion wear-resistant layer spraying device in pipeline, it includes pipeline revolving stage, outer spraying device, interior spraying device respectively with set up the pipeline cooperation on the pipeline revolving stage, the pipeline revolving stage includes main part track, fixed station, mobile station, the fixed station is fixed to be set up in the orbital one end of main part, the mobile station sets up in the orbital other end of main part, and the mobile station passes through supporting roller and can round trip movement on the main part track. When the inner surface of the pipeline is sprayed, a multi-section wall rope row telescopic mechanism is adopted to drive the inner spray head to move along the axial direction of the pipeline, and meanwhile, the spray head is suspended by utilizing a traction iron wire, so that the spray head can be effectively prevented from sagging when the long pipeline is sprayed, and the uniform spraying of the inner wall is ensured; compared with the common spray head pull rod, the multi-section wall rope row telescopic mechanism can greatly save space and reduce cost.

However, in the process of performing protective treatment in the pipeline, although the purpose of corrosion prevention can be achieved, the coating surface has spiral connecting lines and coating missing parts sometimes occur. Once the interior of the spray gun is shut down, the paint is condensed and is not easy to clean, so that the paint needs to be leveled manually, and the manual leveling mode is troublesome and labor-consuming and has low efficiency;

meanwhile, in the process of trowelling the anticorrosive material on the inner wall of the pipeline, the anticorrosive material is solidified on the inner wall of the pipeline, so that the solidified anticorrosive material has the problem of falling off, and the quality of trowelling by manpower is low.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an anticorrosion spraying mechanism of an anticorrosion device in a pipeline, the technical scheme solves the problems of labor and time consumption and low efficiency when an anticorrosion coating coated on the inner wall of the pipeline is manually leveled, and meanwhile, the quality of an anticorrosion material is manually leveled to be low.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides an anticorrosive spraying mechanism of anticorrosive device in pipeline, includes:

an anticorrosion spraying mechanism of an anticorrosion device in a pipeline comprises an automatic spraying mechanism, a rotary driving mechanism and an automatic floating mechanism;

the automatic spraying mechanism comprises a spraying head;

the automatic spraying mechanism is arranged on the rotary driving mechanism, and the rotary driving mechanism drives the automatic spraying mechanism to rotate;

the automatic floating mechanism is arranged on the rotary driving mechanism, and the rotary driving mechanism drives the automatic floating mechanism to rotate;

the automatic floating mechanism is provided with a detachable floating scraper and a vibration wheel.

Preferably, automatic spraying mechanism includes first sleeve, second sleeve and light, first sleeve sets up the lateral part at the transfer box, and with the inside intercommunication of transfer box, first telescopic one end and transfer box connection, the first sleeve other end is equipped with the second sleeve, second sleeve pass through the bearing and rotate with first sleeve and be connected, and the second sleeve sets up to T style of calligraphy, and the one end that first telescopic one end was kept away from to the second sleeve is equipped with the spraying head, be equipped with on the second sleeve the light.

Preferably, the rotation driving mechanism comprises a first rotation assembly, a second rotation assembly and a rotation assembly, the first rotation assembly and the second rotation assembly are arranged on the transfer box body and are close to the first sleeve, and the output ends of the first rotation assembly and the second rotation assembly are in transmission connection with the rotation assembly.

Preferably, the first rotating assembly comprises a first rotating driving motor, a first gear, a second gear, a third gear, a fourth gear and a fifth gear, the first rotating driving motor is eccentrically arranged on the transfer box body, an output shaft of the first rotating driving motor is in transmission connection with the first gear, the second gear is arranged on the side portion of the first gear, the first gear is meshed with the second gear, the second gear is rotatably sleeved on the first sleeve and fixedly connected with the second sleeve, the third gear is arranged on the side portion of the second gear, the third gear is meshed with the second gear, the fourth gear is arranged on the side portion of the third gear far away from the second gear, the fourth gear is meshed with the third gear, the fifth gear is arranged on the side portion of the fourth gear far away from the third gear, the fifth gear is meshed with the fourth gear, the rotating assembly is arranged on the side portion of the fifth gear and is meshed with the rotating assembly, the third gear, the fourth gear and the fifth gear are all rotationally connected with the second rotating assembly.

Preferably, the second rotating assembly comprises a position adjusting driving electric cylinder, a supporting plate and a second rotating driving motor, the position adjusting driving electric cylinder is eccentrically arranged on the transfer box body and is arranged on the side portion of the first rotating driving motor, an output shaft of the position adjusting driving electric cylinder is in transmission connection with the first gear, the third gear, the fourth gear and the fifth gear are all in rotation connection with the first gear, and an output shaft of the second rotating driving motor is in transmission connection with the fifth gear.

Preferably, the rotating assembly comprises a fixed ring, a supporting rod, a rotating outer lining ring, a gear disc and a rotating disc, the fixed ring is sleeved and fixed on the transfer box body, the periphery of the edge of the fixed ring is distributed with a plurality of supporting rods, the side part of the fixed ring is provided with the rotary outer bushing ring, the rotary outer bushing ring is arranged in parallel with the fixed ring and is connected with the supporting rods, the rotary outer bushing ring is rotatably connected with the gear disc, the inner ring of the gear disc is provided with the tooth patterns, the second gear, the third gear, the fourth gear and the fifth gear are all arranged on the inner ring of the gear disc, the second gear is positioned at the circle center of the gear disc, the fifth gear is meshed with the gear disc, one end face of the gear disc, far away from the rotary outer bushing ring, is integrally formed and provided with the rotary disc, the fifth gear is equal to the thickness of the gear disc, the thickness of the gear disc is larger than the thicknesses of the fourth gear and the third.

Preferably, the automatic floating mechanism comprises a lifting driving electric cylinder, a floating support, a floating driving motor, a sixth gear, a seventh gear, a crank connecting rod, a sliding block, a movable rod and a cutter seat, the lifting driving electric cylinder is arranged on the rotating disk, an output shaft of the lifting driving electric cylinder is connected with the floating support in a transmission manner, the floating support is provided with the floating driving motor, the output shaft of the floating driving motor is connected with the sixth gear in a transmission manner, the floating support is rotatably connected with the seventh gear, the seventh gear is arranged on the side part of the sixth gear and is meshed with the sixth gear, the seventh gear is eccentrically hinged with the crank connecting rod, the floating support is provided with a sliding groove, the sliding groove is connected with the sliding block in a sliding manner, one end of the crank connecting rod is hinged with the seventh gear, the other end of the crank connecting rod is hinged with the sliding block, the movable rod is arranged on the sliding block, and penetrates through the floating support and is connected, the movable rod is connected with a connecting rod, the connecting rod is provided with a connecting threaded head, and the movable rod is provided with a threaded hole which is correspondingly meshed and connected with the connecting threaded head;

the cutter seat is arranged on the connecting rod, and the floating scraper is arranged on the cutter seat;

the automatic floating mechanism further comprises a drying and curing fan, and the drying and curing fan is arranged on the floating support.

Preferably, a support frame is arranged on the connecting rod, the support frame is arranged in a U shape, two ends of the support frame are fixedly connected with a support rotating shaft respectively, a support rotating groove is arranged on each support rotating shaft respectively, a rotating ring is arranged in each support rotating groove 6m7 respectively, a plurality of first springs are arranged on each rotating ring respectively, the vibration wheel is sleeved between the two rotating rings and is a straight cylinder, and the first springs are fixedly connected to the rotating rings respectively;

be provided with a pivoted rotating cam between two support pivots, one of them supports and is provided with a private clothes motor in the pivot, be provided with a first pivot on the private clothes motor, another supports and is provided with a supporting shoe in the pivot, the supporting shoe supports first pivot is rotated, it sets up to rotate the cam in the first pivot, be provided with round second spring on the rotating cam, the cover is equipped with a roof pressure ring on the rotating cam, and the roof pressure ring is the ring form setting, through a plurality of second spring fixed connection between roof pressure ring and the rotating cam, the outer lane of roof pressure ring is provided with the roof pressure runner of a plurality of rotations, roof pressure runner roof pressure is in shake on the wheel.

Preferably, the application also comprises an anticorrosion device in the pipeline, and the anticorrosion spraying mechanism comprises the anticorrosion device in the pipeline.

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

the rotary driving mechanism can drive the automatic spraying mechanism and the automatic floating mechanism to rotate, and the rotation of the automatic spraying mechanism can further drive the spraying head to rotate, so that the anticorrosive material can be sprayed on the inner wall of the pipeline through the rotation of the spraying head, the automatic spraying operation can be realized, and the anticorrosive efficiency of the pipeline is greatly improved;

automatic floating mechanism is including a floating scraper and the vibrations wheel that can dismantle, it is rotatory on the pipe inner wall through floating the scraper, thereby can scrape anticorrosive material on the pipe inner wall through floating the scraper and level, thereby improvement that can be great pipeline inner wall anticorrosive material's spraying effect, thereby make the pipe inner wall level and smooth, prevent because the impact that flow force caused bellied anticorrosive material at the oil flow in-process, can realize automatic floating through floating the scraper, great improvement floating efficiency.

The vibrations wheel can compress tightly and rotate on pipe inner wall, through be provided with pivoted roof pressure runner in vibrations wheel, the rotation through the roof pressure cam can further drive the roof pressure runner and compress tightly and rotate on vibrations wheel to can further messenger vibrations wheel vibrations, through the adhesive force of improvement anticorrosive material adhesion on pipe inner wall that its vibrations power can be great, through the interchange of floating scraper and vibrations wheel, can be fit for the operation requirement of different environment, improve the floating quality of anticorrosive material.

Drawings

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

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

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic structural view of a rotating mechanism, an automatic spraying mechanism and an automatic leveling mechanism according to the present invention;

FIG. 6 is a side view of the present invention at the location of the rotating mechanism, the automatic spraying mechanism and the automatic troweling mechanism;

FIG. 7 is a schematic cross-sectional view taken along line B-B of FIG. 6;

FIG. 8 is a schematic view of the structure of the rotating mechanism of the present invention at 1;

FIG. 9 is a schematic view of the structure of the rotating mechanism of the present invention shown in FIG. 2;

FIG. 10 is a schematic view of the structure of the troweling mechanism of the present invention 1;

FIG. 11 is a schematic view of the structure of the troweling mechanism of the present invention 1;

FIG. 12 is a schematic view of the structure of the troweling mechanism of the present invention 2;

FIG. 13 is a schematic view of the overall structure of the vibration wheel of the present invention;

FIG. 14 is a side view of the overall construction of the wheel according to the present invention;

fig. 15 is a schematic view of the overall structure of the top pressure ring according to the present invention.

The reference numbers in the figures are:

1-carrying a trolley;

2-a feeding mechanism; 2 a-a storage cylinder; 2 b-a feed inlet; 2 c-a discharge hole; 2 d-stirring driving motor; 2 e-a stirring shaft; 2 f-stirring paddle;

3-a coating transfer mechanism; 3 a-a support frame; 3 b-a first pump; 3 c-a transfer box body; 3 d-a second pump;

4-automatic spraying mechanism; 4 a-a first sleeve; 4 b-a second sleeve; 4 c-a spray head; 4 d-lighting lamp;

5-a rotation driving mechanism; 5 a-a first rotating assembly; 5a1 — a first rotary drive motor; 5a2 — first gear; 5a3 — second gear; 5a4 — third gear; 5a 5-fourth gear; 5a 6-fifth gear; 5 b-a second rotating assembly; 5b 1-position adjustment driving electric cylinder; 5b 2-support plate; 5b3 — a second rotary drive motor; 5 c-a rotating assembly; 5c 1-retaining ring; 5c 2-support bar; 5c3 — rotating outer liner ring; 5c4 — toothed disc; 5c 5-rotating disk;

6-automatic floating mechanism; 6 a-lifting driving electric cylinder; 6 b-floating the support; 6b 1-chute; 6 c-floating the driving motor; 6 d-sixth gear; 6 e-seventh gear; 6 f-crank link; 6 g-a slide block; 6 h-a movable rod; 6 i-a cutter seat; 6 j-troweling scraper; 6 k-drying and curing the fan; 6 m-connecting rod; 6m 1-connecting threaded rod; 6m 2-support; 6m 3-supporting the rotating shaft; 6m 4-vibration wheel; 6m5 — first spring; 6m 6-rotating ring; 6m 7-supporting rotary trough; 6m 8-private clothes motor; 6m9 — rotating cam; 6m 10-supporting block, 6m 11-first rotating shaft; 6m12 — second spring; 6m 13-top pressure rotating wheel; 6m 14-top compression ring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 15, an apparatus for preventing corrosion in a pipeline includes: the paint spraying device comprises a carrying trolley 1, a feeding mechanism 2, a paint transferring mechanism 3 and an anticorrosive spraying mechanism;

the carrying trolley 1 is used for moving along the axial direction of the pipeline;

can make the organism slide in the pipeline through carrying on the dolly, be provided with feeding mechanism on carrying on the dolly, the stirring paddle leaf that sets up through feeding mechanism rotates, can stir anticorrosive material to make anticorrosive material be in the state that flows, the spraying of being convenient for is on the pipeline, avoids the problem of the unable spraying after anticorrosive material sclerosis.

The feeding mechanism 2 is arranged on the carrying trolley 1, anticorrosive paint is contained in the feeding mechanism 2 and used for supplying the anticorrosive paint and stirring the anticorrosive paint uniformly, an operator can supplement anticorrosive materials in the feeding mechanism 2, the feeding mechanism 2 is used for supplying the anticorrosive paint during spraying, and if the anticorrosive materials need to be proportioned or are composite materials, the anticorrosive paint can be stirred uniformly in the feeding mechanism 2;

the coating transfer mechanism 3 is arranged on the carrying trolley 1 and arranged on the side part of the feeding mechanism 2, and the feeding mechanism 2 is connected with the coating transfer mechanism 3;

the anti-corrosion spraying mechanism comprises an automatic spraying mechanism 4, a rotary driving mechanism 5 and an automatic floating mechanism 6;

the automatic spraying mechanism 4, the said automatic spraying mechanism 4 includes the spray head 4 c;

the automatic spraying mechanism 4 is arranged on the rotary driving mechanism 5, and the rotary driving mechanism 5 drives the automatic spraying mechanism 4 to rotate;

the automatic floating mechanism 6 is arranged on the rotary driving mechanism 5, and the rotary driving mechanism 5 drives the automatic floating mechanism 6 to rotate;

the automatic leveling mechanism 6 is provided with a detachable leveling scraper 6j and a vibration wheel 6m 4;

and the rotary driving mechanism 5 is connected to the coating transfer mechanism 3, and the coating transfer mechanism 4 conveys the coating into the automatic spraying mechanism 4.

The automatic spraying mechanism 4 is arranged on the coating transfer mechanism 3, the output end of the coating transfer mechanism 3 is connected with the input end of the automatic spraying mechanism 4, the coating transfer mechanism 3 conveys the anticorrosive material in the feeding mechanism 2 to the automatic spraying mechanism 4, and the automatic spraying mechanism 4 is used for executing spraying work of the inner wall of the pipeline;

the rotary driving mechanism 5 is arranged on the coating transfer mechanism 3, and the output end of the rotary driving mechanism 5 is in transmission connection with the automatic spraying mechanism 4 and is used for driving the automatic spraying mechanism 4 to rotate and rotate along the central shaft of the pipeline so as to spray anticorrosive materials on the peripheral surface of the pipeline;

the rotary driving mechanism can drive the automatic spraying mechanism and the automatic floating mechanism to rotate, the rotation of the automatic spraying mechanism can further drive the spraying head to rotate, so that the anti-corrosion material can be sprayed on the inner wall of the pipeline through the rotation of the spraying head, automatic spraying operation can be realized, and the anti-corrosion efficiency of the pipeline is greatly improved.

The automatic floating mechanism 6 is arranged on the rotary driving mechanism 5, synchronously rotates with the automatic spraying mechanism 4, and is used for floating the coating sprayed on the inner wall of the pipeline, eliminating spiral connecting lines on the surface of the coating and avoiding the occurrence of coating missing parts;

The vibrations wheel can compress tightly and rotate on pipe inner wall, through be provided with pivoted roof pressure runner in vibrations wheel, the rotation through the roof pressure cam can further drive the roof pressure runner and compress tightly and rotate on vibrations wheel to can further messenger vibrations wheel vibrations, through the improvement anticorrosive material adhesive force of its vibrations power can be great on pipe inner wall, through floating the exchange of scraper and vibrations wheel, can be fit for the operation requirement of different environment.

Please refer to fig. 3 and 4, the feeding mechanism 2 includes a material storage barrel 2a, a material inlet 2b, a material outlet 2c, a stirring driving motor 2d, a stirring shaft 2e and a stirring blade 2f, the material storage barrel 2a is disposed on the carrying trolley 1, the material storage barrel 2a contains an anticorrosive paint, the top end and the bottom end of the material storage barrel 2a are respectively provided with the material inlet 2b and the material outlet 2c communicated with the material storage barrel 2a, the stirring driving motor 2d is disposed at the top end of the material storage barrel 2a, an output shaft of the stirring driving motor 2d is in transmission connection with the stirring shaft 2e, the stirring shaft 2e is disposed inside the material storage barrel 2a and is rotatably connected with the inner wall of the material storage barrel 2a, the stirring blade 2f is disposed on the stirring shaft 2e, and a certain gap is formed between the stirring blade 2f and the inner wall of.

An operator can supplement the anticorrosive material in the material storage barrel 2a from the feed inlet 2b, when the stirring driving motor 2d works, the stirring driving motor 2d drives the stirring shaft 2e and the stirring blades 2f to rotate in the material storage barrel 2a, and if the anticorrosive material needs to be proportioned or is a composite material, the anticorrosive paint is uniformly stirred by the continuous rotation of the stirring shaft 2e and the stirring blades 2 f.

Referring to fig. 4, the coating material transferring mechanism 3 includes a supporting frame 3a, a first pump 3b, a transferring box 3c and a second pump 3d, the supporting frame 3a is erected on the carrying trolley 1, the first pump 3b is arranged at the top end of the supporting frame 3a, the input end of the first pump 3b is connected with the output end of the material storage barrel 2a, the transferring box 3c is arranged at the side portion of the first pump 3b, the input end of the transferring box 3c is connected with the output end of the first pump 3b, and the second pump 3d is arranged on the transferring box 3 c.

The first pump machine 3b transports the anticorrosive material in the feeding mechanism 2 to the transfer box body 3c, the transfer box body 3c is a transfer storage device of the anticorrosive material, and the second pump machine 3d transports the anticorrosive material in the transfer box body 3c to the automatic spraying mechanism 4.

Referring to fig. 5, 6 and 7, the automatic spraying mechanism 4 includes a first sleeve 4a, a second sleeve 4b and a lighting lamp 4d, the first sleeve 4a is disposed on a side portion of the transfer box 3c and is communicated with the interior of the transfer box 3c, one end of the first sleeve 4a is connected to the transfer box 3c, the second sleeve 4b is disposed at the other end of the first sleeve 4a, the second sleeve 4b is rotatably connected to the first sleeve 4a through a bearing, the second sleeve 4b is T-shaped, a spraying head 4c is disposed at one end of the second sleeve 4b, which is far away from the first sleeve 4a, and the lighting lamp 4d is disposed on the second sleeve 4 b.

First sleeve 4a is fixed on transfer box 3c, and second sleeve 4b rotates with first sleeve 4a to be connected, and when 5 drive automatic spraying mechanisms of rotary driving mechanism 4 rotated, second sleeve 4b rotated for first sleeve 4a, and light 4d is fixed on second sleeve 4b, and light 4d is used for spraying anticorrosive material, and light 4d then can provide the illumination under dark operational environment.

Referring to fig. 5, 8 and 9, the rotation driving mechanism 5 includes a first rotation assembly 5a, a second rotation assembly 5b and a rotation assembly 5c, the first rotation assembly 5a and the second rotation assembly 5b are both disposed on the transfer box 3c and are disposed near the first sleeve 4a, and the output ends of the first rotation assembly 5a and the second rotation assembly 5b are connected to the rotation assembly 5c in a transmission manner.

The first rotating assembly 5a includes a first rotating driving motor 5a1, a first gear 5a2, a second gear 5a3, a third gear 5a4, a fourth gear 5a5 and a fifth gear 5a6, the first rotating driving motor 5a1 is eccentrically disposed on the relay box body 3c, an output shaft of the first rotating driving motor 5a1 is in transmission connection with the first gear 5a2, a side portion of the first gear 5a2 is provided with the second gear 5a3, the first gear 5a2 is engaged with the second gear 5a3, the second gear 5a3 is rotatably sleeved on the first sleeve 4a and is fixedly connected with the second sleeve 4b, a side portion of the second gear 5a3 is provided with the third gear 5a4, the third gear 5a4 is engaged with the second gear 5a3, a side portion of the third gear 5a4 far away from the second gear 5a 7 is provided with the fourth gear 8745 a5, a5 is provided with the fourth gear 5a5, a5 is far away from the side portion of the fourth gear 365 a5, 5a5, the fifth gear 5a6 is engaged with the fourth gear 5a5, the fifth gear 5a6 is provided with a rotating component 5c at the side and engaged with the rotating component 5c, and the third gear 5a4, the fourth gear 5a5 and the fifth gear 5a6 are all rotationally connected with the second rotating component 5 b.

The second rotating assembly 5b includes a position adjustment driving electric cylinder 5b1, a support plate 5b2 and a second rotating driving motor 5b3, the position adjustment driving electric cylinder 5b1 is eccentrically disposed on the transfer case body 3c and is disposed at a side portion of the first rotating driving motor 5a1, an output shaft of the position adjustment driving electric cylinder 5b1 is drivingly connected with a first gear 5a2, the third gear 5a4, the fourth gear 5a5 and a fifth gear 5a6 are rotatably connected with the first gear 5a2, and an output shaft of the second rotating driving motor 5b3 is drivingly connected with a fifth gear 5a 6.

The rotating assembly 5c comprises a fixed ring 5c1, a support rod 5c2, a rotating outer lining ring 5c3, a gear disc 5c4 and a rotating disc 5c5, the fixed ring 5c1 is sleeved and fixed on the transfer case 3c, a plurality of support rods 5c2 are distributed on the periphery of the edge of the fixed ring 5c1, the side of the fixed ring 5c1 is provided with a rotating outer lining ring 5c3, the rotating outer lining ring 5c3 is arranged in parallel with the fixed ring 5c1 and is connected with the support rod 5c2, the rotating outer lining ring 5c3 is rotatably connected with a gear disc 5c4, the inner ring of the gear disc 5c4 is provided with teeth, the second gear 5a4, the third gear 5a4, the fourth gear 5a4 and the fifth gear 5a4 are all arranged on the inner ring of the gear disc 5c4, the second gear 5a4 is arranged at the center of the gear disc 5c4, the fifth gear 5a4 is meshed with the rotating disc 4, one end of the rotating outer lining ring 4 which is far away from the rotating disc 4 is provided with the rotating disc 4, the thickness of the fifth gear 5a6 is equal to that of the gear disc 5c4, the thickness of the gear disc 5c4 is larger than that of the fourth gear 5a5 and the third gear 5a4, and the automatic floating mechanism 6 is arranged on the rotating disc 5c 5.

First rotating assembly 5a and second rotating assembly 5b all can drive rotating assembly 5c and rotate, first rotating assembly 5a during operation, drive automatic spraying mechanism 4 rotates, to the global spraying anticorrosive material of pipeline, automatic floating mechanism 6 rotates along with automatic spraying mechanism 4 simultaneously, the coating after the spraying is floated, eliminate the spiral engaging line on coating surface, avoid appearing the part of neglected coating, second rotating assembly 5b during operation, the automatic floating mechanism 6 of independent drive rotates, carry out the work of once floating more, avoid floating inhomogeneously, and when carrying on dolly 1 and moving too fast, the condition that partial coating is not floated can appear takes place. Specifically, when the first rotary driving motor 5a1 is operated, the position adjustment driving electric cylinder 5b1 drives the supporting plate 5b2, the third gear 5a4, the fourth gear 5a5 and the fifth gear 5a6 to adjust the position, so that the third gear 5a4 is meshed with the second gear 5a3, the fifth gear 5a6 is meshed with the gear plate 5c4, the first rotary driving motor 5a1 drives the first gear 5a2 to rotate, when the first gear 5a2 rotates, the automatic floating mechanism 6 is driven to rotate through the gear set of the second gear 5a3, the third gear 5a4, the fourth gear 5a5 and the fifth gear 5a6, and the automatic floating mechanism 4a rotates together with the automatic floating mechanism 6 because the second gear 5a3 rotates to fit over the first sleeve 4a and is fixedly connected with the second sleeve 4 b. When the automatic floating mechanism 6 needs to be rotated alone, the position adjustment driving electric cylinder 5b1 drives the supporting plate 5b2, the third gear 5a4, the fourth gear 5a5 and the fifth gear 5a6 to adjust the position, so that the fourth gear 5a5 still fits to the gear disc 5c4, but the third gear 5a4 is separated from the second gear 5a3, at this time, when the second rotary driving motor 5b3 works, the second rotary driving motor 5b3 drives the fifth gear 5a6 to rotate, the fifth gear 5a6 drives the gear disc 5c4 and the fourth gear 5a5 to rotate, and the fourth gear 5a5 drives the third gear 5a4 to rotate, but cannot drive the second gear 5a3 and the automatic spraying mechanism 4 to rotate.

Referring to fig. 10, 11 and 12, the automatic floating mechanism 6 includes a lifting driving electric cylinder 6a, a floating support 6b, a floating driving motor 6c, a sixth gear 6d, a seventh gear 6e, a crank link 6f, a slider 6g, a movable rod 6h and a tool seat 6i, the lifting driving electric cylinder 6a is disposed on a rotating disk 5c5, an output shaft of the lifting driving electric cylinder 6a is connected with the floating support 6b in a transmission manner, the floating support 6b is provided with the floating driving motor 6c, an output shaft of the floating driving motor 6c is connected with the sixth gear 6d in a transmission manner, the floating support 6b is connected with the seventh gear 6e in a rotation manner, the seventh gear 6e is disposed at a side portion of the sixth gear 6d and engaged with the sixth gear 6d, the crank link 6f is eccentrically hinged on the seventh gear 6e, the floating support 6b is provided with a chute 6b1, the slider 6g is slidably connected in the chute 6b1, one end of the crank connecting rod 6f is hinged to the seventh gear 6e, the other end of the crank connecting rod 6f is hinged to the sliding block 6g, a movable rod 6h is arranged on the sliding block 6g, the movable rod 6h penetrates through the floating support 6b and is in sliding connection with the sliding groove 6b1, a cutter seat 6i is arranged at the end portion, exposed out of the floating support 6b, of the movable rod 6h, and a floating scraper 6j is arranged on the cutter seat 6 i.

According to the difference of the inner diameter of the pipeline, the lifting driving electric cylinder 6a is controlled to work, and when a piston rod of the lifting driving electric cylinder 6a stretches or retracts, the range of the knife seat 6i and the floating scraper 6j during floating work can be adjusted. When the floating driving motor 6c works, the floating driving motor 6c drives the sixth gear 6d to rotate, the sixth gear 6d is meshed with the seventh gear 6e, so that the seventh gear 6e makes a rotating motion, and the seventh gear 6e, the crank connecting rod 6f, the sliding block 6g and the movable rod 6h form a crank connecting rod mechanism, so that the sliding block 6g and the movable rod 6h make a position change in the sliding groove 6b1 to make a reciprocating motion, and the floating work is executed.

The automatic floating mechanism 6 further comprises a drying and curing fan 6k, the drying and curing fan 6k is arranged on the floating support 6b, and the drying and curing fan 6k blows hot air to the coating to dry the coating and accelerate the curing of the anticorrosive coating.

As shown in fig. 13 to 15, be provided with a support frame 6m2 on connecting rod 6m, support frame 6m2 is the setting of U type, support pivot 6m3 is supported at support frame 6m 2's both ends difference fixedly connected with, be provided with a support rotary trough 6m7 on the support pivot 6m3 respectively, be provided with a pivoted swivel 6m6 in the support rotary trough 6m7 respectively, be provided with a plurality of first spring 6m5 on the swivel 6m6 respectively, vibrations wheel 6m4 suit is between two swivel 6m6, vibrations wheel 6m6 is a straight section of thick bamboo, first spring 6m5 is fixed connection respectively on swivel 6m 6.

The rotating ring 6m6 rotates in the supporting rotating groove 6m7, a circle of first springs 6m5 are respectively arranged on the rotating ring 6m6, and the vibration wheel 6m4 can be supported through the first springs 6m5, so that the vibration wheel 6m4 can have certain elasticity.

A rotating cam 6m9 is arranged between the two supporting rotating shafts 6m3, one supporting rotating shaft 6m3 is provided with a service motor 6m8, the privacy service motor 6m8 is provided with a first rotating shaft 6m11, the other supporting rotating shaft 6m3 is provided with a supporting block 6m10, the support block 6m10 supports the first rotation shaft 6m11 to rotate, the rotation cam 6m9 is provided on the first rotation shaft 6m11, a circle of second springs 6m12 are arranged on the rotating cam 6m9, a top pressing ring 6m14 is sleeved on the rotating cam 6m9, the top pressing ring 6m14 is arranged in a circular ring shape, the top pressing ring 6m14 and the rotating cam 6m9 are fixedly connected through a plurality of second springs 6m12, the outer ring of the jacking ring 6m14 is provided with a plurality of jacking rotating wheels 6m13 which rotate, and the jacking rotating wheels 6m13 are jacked on the vibration wheel 6m 6.

Can be easy to assemble through connecting threaded rod 6m1, be provided with a private clothes motor 6m8 in shaking wheel 6m4, the rotation that can drive first pivot 6m11 through private clothes motor 6m8, thereby can drive the rotation of rotating cam, be provided with round second spring 6m12 on the rotating cam 6m9, can carry out the roof pressure to roof pressure clamping ring 6m14 through second spring 6m12, be provided with the roof pressure runner 6m13 of round rotation on roof pressure clamping ring 6m14, after roof pressure on shaking wheel 6m4 through roof pressure runner 6m13, can make shaking wheel 6m4 shake, can great improvement antiseptic adhesion effect at the pipeline inner wall through the vibrations power of shaking wheel 6m 4.

The working principle of the invention is as follows: operating personnel control carries on dolly 1 and removes along the axial of pipeline, make automatic spraying mechanism 4 and the 6 during operations of automatic floating mechanism can carry out anticorrosive material's spraying and floating work to the inner wall of pipeline, operating personnel can follow feed inlet 2b department and carry out anticorrosive material's in the storage cylinder 2a replenishment, when stirring driving motor 2d during operation, stirring driving motor 2d drives (mixing) shaft 2e and stirring paddle leaf 2f at storage cylinder 2a internal rotation, if anticorrosive material needs to carry out the ratio, or combined material, the continuous rotation of (mixing) shaft 2e and stirring paddle leaf 2f carries out even stirring to anticorrosive paint.

The first sleeve 4a is fixed on the transfer box body 3c, the second sleeve 4b is rotationally connected with the first sleeve 4a, when the automatic spraying mechanism 4 is driven to rotate by the rotary driving mechanism 5, the second sleeve 4b rotates relative to the first sleeve 4a, the illuminating lamp 4d is fixed on the second sleeve 4b, the illuminating lamp 4d is used for spraying anticorrosive materials, the illuminating lamp 4d can provide illumination under a dark working environment, the first rotary component 5a and the second rotary component 5b can both drive the rotary component 5c to rotate, when the first rotary component 5a works, the automatic spraying mechanism 4 is driven to rotate, the anticorrosive materials are sprayed on the peripheral surface of the pipeline, meanwhile, the automatic leveling mechanism 6 synchronously rotates along with the automatic spraying mechanism 4, the sprayed coating is leveled, spiral connecting lines on the surface of the coating are eliminated, and coating missing parts are avoided, when the second rotating assembly 5b works, the automatic leveling mechanism 6 is driven to rotate independently, and one leveling work is carried out, so that the condition that the leveling is not uniform and part of the coating is not leveled when the carrying trolley 1 moves too fast is avoided;

the trowelling mechanism is provided with a connecting rod 6m, the trowelling scraper 6j and the vibration wheel 6m4 can be exchanged, and different leveling devices can be replaced under different working environments and requirements, so that the spraying effect of the preservative on the inner wall of the pipeline is greatly improved;

When the inner wall of the pipeline is sprayed by the anti-corrosion device, the carrying trolley 1 is adopted to drive the automatic spraying mechanism 4 to move along the axial direction of the pipeline, and meanwhile, the coating transfer mechanism 3 is utilized to support the automatic spraying mechanism 4, so that the inner wall is sprayed uniformly; compare with ordinary shower nozzle pull rod, can greatly save space, reduce cost, after 4 works of automatic spraying mechanism trowel the coating with automatic trowel mechanism 6 immediately, the even coating of coating is at the pipeline inner wall, and no spiral connects the line, avoids the neglected coating, can adjust automatic trowel mechanism 6 position and rotation rate by oneself as required simultaneously, adaptation operating mode.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides an anticorrosive spraying mechanism of anticorrosive device in pipeline which characterized in that: the anti-corrosion spraying mechanism comprises an automatic spraying mechanism (4), a rotary driving mechanism (5) and an automatic floating mechanism (6);

the automatic spraying mechanism (4), the said automatic spraying mechanism (4) includes the spray head (4 c);

the automatic spraying mechanism (4) is arranged on the rotary driving mechanism (5), and the rotary driving mechanism (5) drives the automatic spraying mechanism (4) to rotate;

the automatic floating mechanism (6) is arranged on the rotary driving mechanism (5), and the rotary driving mechanism (5) drives the automatic floating mechanism (6) to rotate;

the automatic leveling mechanism (6) is provided with a detachable leveling scraper (6 j) and a vibration wheel (6 m 4).

2. The anti-corrosion spraying mechanism of the anti-corrosion device in the pipeline according to claim 1, the automatic spraying mechanism (4) comprises a first sleeve (4 a), a second sleeve (4 b) and a lighting lamp (4 d), the first sleeve (4 a) is arranged on the side part of the transfer box body (3 c), and with the inside intercommunication of transfer box (3 c), the one end and the transfer box (3 c) of first sleeve (4 a) are connected, and first sleeve (4 a) other end is equipped with second sleeve (4 b), second sleeve (4 b) are passed through the bearing and are connected with first sleeve (4 a) rotation, and second sleeve (4 b) set up to T style of calligraphy, and the one end of first sleeve (4 a) is kept away from in second sleeve (4 b) is equipped with spraying head (4 c), are equipped with on second sleeve (4 b) light (4 d).

3. The anticorrosion spraying mechanism of the anticorrosion device in the pipeline is characterized in that the rotary driving mechanism (5) comprises a first rotary component (5 a), a second rotary component (5 b) and a rotary component (5 c), the first rotary component (5 a) and the second rotary component (5 b) are both arranged on the transfer box body (3 c) and are close to the first sleeve (4 a), and the output ends of the first rotary component (5 a) and the second rotary component (5 b) are in transmission connection with the rotary component (5 c).

4. The mechanism of claim 3, wherein the first rotating assembly (5 a) comprises a first rotating driving motor (5 a 1), a first gear (5 a 2), a second gear (5 a 3), a third gear (5 a 4), a fourth gear (5 a 5) and a fifth gear (5 a 6), the first rotating driving motor (5 a 1) is eccentrically arranged on the transfer box body (3 c), the output shaft of the first rotating driving motor (5 a 1) is in transmission connection with the first gear (5 a 2), the side of the first gear (5 a 2) is provided with the second gear (5 a 3), the first gear (5 a 2) is meshed with the second gear (5 a 3), the second gear (5 a 3) is rotatably sleeved on the first sleeve (4 a) and is fixedly connected with the second sleeve (4 b), and the side of the second gear (5 a 3) is provided with the third gear (4 a) of the second gear 3), the third gear (5 a 4) is meshed with the second gear (5 a 3), the side of the third gear (5 a 4) far away from the second gear (5 a 3) is provided with the fourth gear (5 a 5), the fourth gear (5 a 5) is meshed with the third gear (5 a 4), the side of the fourth gear (5 a 5) far away from the third gear (5 a 4) is provided with the fifth gear (5 a 6), the fifth gear (5 a 6) is meshed with the fourth gear (5 a 5), the side of the fifth gear (5 a 6) is provided with a rotating assembly (5 c) and is meshed with the rotating assembly (5 c), and the third gear (5 a 4), the fourth gear (5 a 5) and the fifth gear (5 a 6) are all rotatably connected with the second rotating assembly (5 b).

5. The anticorrosion spraying mechanism of the anticorrosion device in the pipeline as recited in claim 3, wherein the second rotating assembly (5 b) comprises a position adjustment driving electric cylinder (5 b 1), a supporting plate (5 b 2) and a second rotating driving motor (5 b 3), the position adjustment driving electric cylinder (5 b 1) is eccentrically arranged on the transfer box body (3 c) and is arranged at the side part of the first rotating driving motor (5 a 1), an output shaft of the position adjustment driving electric cylinder (5 b 1) is in transmission connection with the first gear (5 a 2), the third gear (5 a 4), the fourth gear (5 a 5) and the fifth gear (5 a 6) are all in rotation connection with the first gear (5 a 2), and an output shaft of the second rotating driving motor (5 b 3) is in transmission connection with the fifth gear (5 a 6).

6. The anti-corrosion spraying mechanism of the anti-corrosion device in the pipeline as claimed in claim 3, wherein the rotating assembly (5 c) comprises a fixing ring (5 c 1), a support rod (5 c 2), a rotating outer lining ring (5 c 3), a gear disc (5 c 4) and a rotating disc (5 c 5), the fixing ring (5 c 1) is sleeved and fixed on the transfer box body (3 c), a plurality of support rods (5 c 2) are distributed on the periphery of the fixing ring (5 c 1), the rotating outer lining ring (5 c 3) is arranged on the side portion of the fixing ring (5 c 1), the rotating outer lining ring (5 c 3) and the fixing ring (5 c 1) are arranged in parallel and connected through the support rod (5 c 2), the gear disc (5 c 4) is rotatably connected to the rotating outer lining ring (5 c 3), the inner ring of the gear disc (5 c 4) is provided with insections, and the second gear (5 a 3), the third gear (5 a 4) and the gear (5 a 4), The fourth gear (5 a 5) and the fifth gear (5 a 6) are arranged at the inner ring of a gear disc (5 c 4), the second gear (5 a 3) is located at the circle center of the gear disc (5 c 4), the fifth gear (5 a 6) is meshed with the gear disc (5 c 4), one end face, far away from the rotating outer backing ring (5 c 3), of the gear disc (5 c 4) is integrally provided with the rotating disc (5 c 5), the thickness of the fifth gear (5 a 6) is equal to that of the gear disc (5 c 4), the thickness of the gear disc (5 c 4) is larger than that of the fourth gear (5 a 5) and the third gear (5 a 4), and the automatic floating mechanism (6) is arranged on the rotating disc (5 c 5).

7. The anti-corrosion spraying mechanism of the anti-corrosion device in the pipeline according to claim 1, wherein the automatic leveling mechanism (6) comprises a lifting driving electric cylinder (6 a), a leveling support (6 b), a leveling driving motor (6 c), a sixth gear (6 d), a seventh gear (6 e), a crank connecting rod (6 f), a sliding block (6 g), a movable rod (6 h) and a cutter seat (6 i), the lifting driving electric cylinder (6 a) is arranged on a rotating disc (5 c 5), an output shaft of the lifting driving electric cylinder (6 a) is in transmission connection with the leveling support (6 b), the leveling support (6 b) is provided with the leveling driving motor (6 c), an output shaft of the leveling driving motor (6 c) is in transmission connection with the sixth gear (6 d), and the leveling support (6 b) is in transmission connection with the seventh gear (6 e), the seventh gear (6 e) is arranged at the side part of the sixth gear (6 d) and is meshed with the sixth gear (6 d), the seventh gear (6 e) is eccentrically hinged with the crank connecting rod (6 f), the floating bracket (6 b) is provided with a sliding chute (6 b 1), the sliding block (6 g) is connected in the sliding groove (6 b 1) in a sliding manner, one end of a crank connecting rod (6 f) is hinged with the seventh gear (6 e), the other end of the crank connecting rod (6 f) is hinged with the sliding block (6 g), the sliding block (6 g) is provided with the movable rod (6 h), the movable rod (6 h) penetrates through the floating support (6 b) and is connected with the sliding groove (6 b 1) in a sliding manner, the movable rod (6 h) is connected with a connecting rod (6 m), a connecting threaded head (6 m 1) is arranged on the connecting rod (6 m), and a threaded hole which is correspondingly engaged and connected with the connecting threaded head (6 m 1) is arranged on the movable rod 6 h;

the cutter seat (6 i) is arranged on the connecting rod (6 m), and the floating scraper (6 j) is arranged on the cutter seat (6 i);

the automatic floating mechanism (6) further comprises a drying and curing fan (6 k), and the drying and curing fan (6 k) is arranged on the floating support (6 b).

8. The anticorrosion spraying mechanism of an anticorrosion device in a pipeline according to claim 7, wherein: the shock-absorbing device is characterized in that a support frame (6 m 2) is arranged on the connecting rod (6 m), the support frame (6 m 2) is arranged in a U shape, two ends of the support frame (6 m 2) are fixedly connected with a support rotating shaft (6 m 3) respectively, a support rotating groove (6 m 7) is arranged on the support rotating shaft (6 m 3) respectively, a rotating ring (6 m 6) is arranged in the support rotating groove (6 m 7) respectively, a plurality of first springs (6 m 5) are arranged on the rotating ring (6 m 6) respectively, a shock-absorbing wheel (6 m 4) is sleeved between the two rotating rings (6 m 6), the shock-absorbing wheel (6 m 6) is a straight cylinder, and the first springs (6 m 5) are fixedly connected to the rotating rings (6 m 6) respectively;

a rotating cam (6 m 9) is arranged between two supporting rotating shafts (6 m 3), one of the supporting rotating shafts (6 m 3) is provided with a clothes-private motor (6 m 8), the clothes-private motor (6 m 8) is provided with a first rotating shaft (6 m 11), the other supporting rotating shaft (6 m 3) is provided with a supporting block (6 m 10), the supporting block (6 m 10) supports the first rotating shaft (6 m 11) to rotate, the rotating cam (6 m 9) is arranged on the first rotating shaft (6 m 11), the rotating cam (6 m 9) is provided with a circle of second springs (6 m 12), the rotating cam 6m9 is sleeved with a top pressing ring (6 m 14), the top pressing ring (6 m 14) is arranged in a circular ring shape, the top pressing ring (6 m 14) and the rotating cam (6 m 9) are fixedly connected through a plurality of second springs (6 m 5), and the outer ring (13) of the top pressing ring (14) is provided with a plurality of top pressing wheels (573) and a plurality of self-pressing rings, the jacking rotating wheel (6 m 13) is jacked on the shaking wheel (6 m 6).

9. An anticorrosion device in a pipeline, characterized by comprising an anticorrosion spraying mechanism of the anticorrosion device in a pipeline according to any one of claims 1 to 8.