CN117680450A - Inside rust cleaning device of concatenation pipe for hydraulic engineering - Google Patents

Abstract

The invention relates to the technical field of cleaning of the inside of pipelines, in particular to a spliced pipe inside rust removing device for hydraulic engineering, which comprises a base, a second strong magnet, an inner wall cleaning ring and a driven roller, wherein a clamping frame is fixedly arranged on one side of the top of the base; the beneficial effects of the invention are as follows: need not set up longer clearance pole and be used for extending to the inner wall of pipeline and clear up, through the setting of inner wall clearance ring, can clear up the inner wall of pipeline automatically and realize derusting, need not electric power and drive, can realize that the inner wall clearance ring clear up the automatic rotation of pipeline inner wall, the inner wall clearance ring of this device can be applicable to the pipeline of various lengths and different diameters simultaneously and clear up.

Description

Inside rust cleaning device of concatenation pipe for hydraulic engineering

Technical Field

The invention relates to the technical field of cleaning of the inside of pipelines, in particular to a spliced pipe inside rust removing device for hydraulic engineering.

Background

At present, pipelines and pipeline equipment are corroded differently due to corrosion of raw materials and the like, so that a lot of rust and dust impurities are accumulated, normal use of the pipelines can be affected if the pipelines are cleaned irregularly, in the technical field of pipeline cleaning, cleaning of the inner walls of the pipelines is one of important and difficult to perform, and particularly for longer pipelines, a good method is not available for cleaning the inner walls of the pipelines.

Chinese patent (CN 113522898B) discloses a cleaning device for dirt on inner wall of pipeline, which is characterized in that: including the control operation box, the control operation box is connected with fixed pipe, one side fixedly connected with of control operation box is kept away from to fixed pipe seals the dish, the outside cover of fixed pipe is equipped with the screwed pipe, the connected mode of fixed pipe and screwed pipe is threaded connection, the one end of control operation box is located the screwed pipe, be equipped with driving motor in the fixed pipe, driving motor and sealing the dish fixed connection, control operation box fixedly connected with support frame, one side and the driving motor's of support frame output are connected, one side of control operation box is equipped with rotatory regulating spindle, rotatory regulating spindle sets up in the support frame, the one end that control operation box was kept away from to rotatory regulating spindle is connected with the support frame.

Above-mentioned patent is through the inner wall of scraper to the pipeline clearance, does not need the manual scale of scraping, labour saving and time saving, but need set up longer clearance pole when clearing up longer pipeline among the prior art now for the length of clearance pole is generally longer, and very inconvenient when leading to the use, and when clearing up very long pipeline, can't clear up, leads to its inside rust matter to extrude gradually to increase, causes the phenomenon that the pipeline can't be used.

Therefore, there is a need for a spliced tube interior rust removing device for hydraulic engineering to solve the above problems.

Disclosure of Invention

In order to solve the problems, namely to solve the problems that the cleaning can be carried out without being limited by the length of the pipeline, the cleaning of pipelines with different lengths is convenient, and meanwhile, the pipeline with different diameters is self-adaptive, the invention provides a spliced pipe internal rust removing device for hydraulic engineering.

The utility model provides a splice pipe inside rust cleaning device for hydraulic engineering, includes base, second strong magnet, inner wall clearance ring and driven voller, one side fixed mounting at base top has the carriage, install outer wall clearance ring on the lateral wall of carriage, the internally mounted of carriage has first strong magnet, first strong magnet with second strong magnet intersubject, the second strong magnet is installed on the outer wall of inner wall clearance ring, the inner wall clearance ring is located the inside of carriage, one side rotation of inner wall clearance ring is connected with the go-between, the rotation is connected with the drive wheel on the inner wall of inner wall clearance ring, the drive wheel with the go-between drive is connected, install the clearance board on the outer wall of go-between, the go-between is kept away from the one end of inner wall clearance ring is installed the clearance dish, the drive frame is installed to the opposite side at base top, the internally mounted of drive frame have, the drive roller with the driven voller drive connection, the driven voller is supported with the outer wall of pipeline.

The inner part rust removing device of the spliced pipe for the hydraulic engineering comprises a connecting spring, wherein the top of the first strong magnet is fixedly connected with one end of the connecting spring, the other end of the connecting spring is fixedly connected with the inner wall of the clamping frame, the side wall of the first strong magnet is arc-shaped, a fixing plate is fixedly arranged on the inner wall of the inner wall cleaning ring, a first telescopic rod is arranged on the outer wall of the fixing plate, one end of the first telescopic rod is fixedly connected with one end of the second strong magnet, and one end of the second strong magnet is arc-shaped; the axle center department of drive wheel installs the shaft, install first clearance umbrella tooth on the outer wall of shaft, first clearance umbrella tooth is connected with the meshing of second clearance umbrella tooth, the second clearance umbrella tooth is installed on the outer wall at slide shaft top, install the bearing ring on the outer wall of shaft one end, the outer wall of bearing ring and the one end fixed connection of self-adaptation spring, the other end of self-adaptation spring with the outer wall fixed connection of fixed plate, the bottom sliding connection of slide shaft is in the inside of transmission shaft, install spacing on the outer wall of slide shaft, install first transmission umbrella tooth on the outer wall of transmission shaft, first transmission umbrella tooth is connected with the meshing of second transmission umbrella tooth, the second transmission umbrella tooth is installed on the outer wall of connecting shaft one end, the connecting shaft rotates to be connected on the lateral wall of fixed plate.

Above-mentioned inside rust cleaning device of spliced pipe for hydraulic engineering, the inside sliding connection of inner wall clearance ring one end has the sliding ring, the inner wall of sliding ring and the one end fixed connection of first spiral spring, the other end of first spiral spring and the one end fixed connection of energy storage section of thick bamboo, energy storage section of thick bamboo sliding connection is in on the outer wall of connecting axle.

According to the spliced pipe internal rust removing device for the hydraulic engineering, the first bearing disc is arranged on the outer wall of one end of the energy storage barrel, the outer wall of the first bearing disc is fixedly connected with one end of the jacking spring, the other end of the jacking spring is fixedly connected with the side wall of the second bearing disc, the second bearing disc is arranged on the outer wall of the connecting shaft, one end, away from the inner wall cleaning ring, of the connecting shaft abuts against one end of the rotating shaft, the rotating shaft is arranged in the rotating ring, the rotating block is fixedly arranged on the outer wall of the rotating shaft, the supporting rod is arranged in the rotating ring, and one end of the supporting rod abuts against one end face, away from the first bearing disc, of the energy storage barrel; the clamping groove is formed in the inner wall of the energy storage barrel, the annular groove is formed in the energy storage barrel, the clamping groove is communicated with the annular groove, a clamping block is connected to the inner portion of the clamping groove in a sliding mode, and the clamping block is fixedly mounted on the outer wall of the connecting shaft.

Above-mentioned inside rust cleaning device of concatenation pipe for hydraulic engineering, the internally mounted of swivel becket has the clearance pole, the one end of clearance pole with the outer wall fixed connection of clearance board, clearance pole sliding connection is in the inside of shrink section of thick bamboo, fixed mounting has telescopic spring on the interior diapire of shrink section of thick bamboo, telescopic spring's top with the bottom fixed connection of clearance pole.

Above-mentioned inside rust cleaning device of concatenation pipe for hydraulic engineering, the internally mounted of clearance dish has the second telescopic link, the one end of second telescopic link and the outer wall fixed connection of clearance piece, the inside sliding connection of clearance piece has the filling plate, the clearance piece with the quantity of filling plate is a plurality of.

Above-mentioned inside rust cleaning device of spliced pipe for hydraulic engineering, the inside structure of clearance pole with the inside structure of first telescopic link and second telescopic link is the same.

Above-mentioned inside rust cleaning device of spliced pipe for hydraulic engineering, the axle center department of driven voller installs the drive shaft, install the second spiral spring on the outer wall of drive shaft, the other end of second spiral spring with the inner wall fixed connection of base, install first drive umbrella tooth on the outer wall of drive shaft one end, first drive umbrella tooth is connected with the meshing of second drive umbrella tooth, the second drive umbrella tooth is installed on the outer wall of actuating lever.

Above-mentioned inside rust cleaning device of spliced pipe for hydraulic engineering, the other end of drive shaft rotates to be connected on the inner wall of base, telescopic connection has to prop up the post on the outer wall of drive shaft, prop up the post and prop up the outer wall of top ring and prop up, prop up and install the friction pad on the outer wall of top ring.

Above-mentioned inside rust cleaning device of concatenation pipe for hydraulic engineering, install first connection bevel gear on the outer wall at actuating lever top, first connection bevel gear is connected with the second connection bevel gear meshing, the second is connected bevel gear and is installed on the outer wall of driven shaft, install first rotation bevel gear on the outer wall of driven shaft, first rotation bevel gear is connected with the second rotation bevel gear meshing, the second is rotated bevel gear and is installed on the outer wall at first axis of rotation top, install the third on the outer wall of first axis of rotation bottom and rotate bevel gear, the third is rotated bevel gear and is connected with the fourth and rotate bevel gear meshing, the fourth is rotated bevel gear and is installed on the outer wall of regulating spindle, the inside sliding connection of regulating spindle has the second axis of rotation, install first regulation bevel gear on the outer wall of second axis of rotation, first regulation bevel gear is connected with the second regulation bevel gear meshing, the second is installed on the outer wall of third axis of rotation, install the race on the outer wall of third axis of rotation bottom, the race, the race bearing is connected with the inside fixed connection of regulating spring with the actuating lever inner side of the inside is connected with the driving box.

The beneficial effects of the invention are as follows:

1. according to the invention, through the arrangement of the inner wall cleaning ring, the rotating ring and the cleaning disc, when the device is used for cleaning the inside of a pipeline, a longer cleaning rod is not required to be arranged for cleaning the inner wall extending to the pipeline, rust removal can be automatically realized by cleaning the inner wall of the pipeline through the arrangement of the inner wall cleaning ring, meanwhile, the inner wall cleaning ring of the device does not need to be driven by electric power, so that the automatic rotation cleaning of the inner wall of the pipeline by the inner wall cleaning ring can be realized, meanwhile, the inner wall cleaning ring of the device can be suitable for cleaning pipelines with various lengths and different diameters, the inner wall cleaning ring and the clamping frame are kept in a relatively static state, and the automatic cleaning function of the pipeline is realized.

2. In order to be suitable for the use of pipelines with different diameters, when the driving wheel contacts with the inner wall of the pipeline, the driving wheel can outwards prop against the inner wall of the pipeline through the self-adaptive spring, at the moment, the driving wheel can realize self-adaptive adjustment position, so that the driving wheel can always prop against the inner wall of the pipeline, the driving force during cleaning of the device is realized, after the driving wheel of the device is at the adjustment position, the first transmission bevel gear can always be meshed with the second transmission bevel gear through the arrangement of the sliding shaft and the transmission shaft, no matter how the position of the driving wheel is changed, the driving wheel can always drive the connecting shaft to rotate, and the phenomenon that the driving wheel cannot be driven after the position adjustment is avoided.

3. The rotating ring can automatically rotate, the power generated during pipeline reset is used for driving the rotating ring to rotate, the displacement of the energy storage cylinder of the device can avoid energy loss, the energy storage cylinder cannot drive the rotating ring to rotate in the initial state, the phenomenon that the spiral cleaning is not in place during cleaning is avoided, and integrated cleaning is realized.

4. The first strong magnet and the second strong magnet are arranged on one side of the arc surface, so that the pipeline can be conveniently inserted, the phenomenon that the inner wall cleaning ring and the clamping frame cannot be separated temporarily is avoided, meanwhile, the cleaning plate is provided with the telescopic cleaning rod, so that the cleaning rod can conveniently extend out to abut against the inner wall of the pipeline, and meanwhile, the first strong magnet and the second strong magnet are arranged to be telescopic, so that the first strong magnet and the second strong magnet can be conveniently attracted to each other; after the inside rust cleaning of clearance board to the pipeline, in order to avoid having residual rust matter, the clearance piece carries out the clearance of secondary to the inside of pipeline this moment for when this device rust cleaning, can guarantee the cleanliness of clearance through twice clearance, the clearance piece can be filled automatically to the filling board of this device simultaneously, guarantees the outer wall of clearance dish and pipeline inner wall to the clearance of propping.

5. When the driving shaft is reset and rotated under the action of the second scroll spring, the propping column on the outer wall of the driving shaft is propped against the outer wall of the propping ring, the propping stroke of the propping ring and the propping column only occupies half of the rotation circumference of the driving shaft, so that the rotation of the driving shaft is slower when the driving shaft is reset and the propping ring is propped against, the pause type cleaning of the device is realized, and the cleaning effect is ensured.

6. The driving roller can adaptively adjust the clamping of the pipeline to push the pipeline, can ensure relative extrusion, has the function of pushing the pipeline in a propping way, and avoids the offset effect of the pipeline during resetting displacement.

Drawings

FIG. 1 is a schematic view of a three-dimensional front view of the present invention;

FIG. 2 is a schematic cross-sectional view of a clamping frame according to the present invention;

FIG. 3 is a schematic cross-sectional view of an inner wall cleaning ring of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is a schematic cross-sectional view of a rotating ring according to the present invention;

FIG. 6 is a schematic view of the structure of the energy storage cartridge and the connecting shaft of the present invention;

FIG. 7 is a schematic cross-sectional structural view of an energy storage cartridge of the present invention;

FIG. 8 is a schematic cross-sectional structural view of a retraction barrel according to the present invention;

FIG. 9 is a schematic view of the structure of the interior of the cleaning disc of the present invention;

FIG. 10 is a schematic cross-sectional structural view of a base of the present invention;

FIG. 11 is a schematic view of the structure of the abutment ring according to the present invention;

fig. 12 is a schematic sectional view of a driving frame of the present invention.

In the figure:

1. a base; 2. a clamping frame; 3. a first strong magnet; 4. a second strong magnet; 5. an inner wall cleaning ring; 6. a driving wheel; 7. a rotating ring; 8. a cleaning plate; 9. cleaning the disc; 10. a drive rack; 11. driven roller; 12. a driving roller; 13. an outer wall cleaning ring; 14. a fixing plate; 15. a connecting spring; 16. a wheel axle; 17. a first cleaning bevel gear; 18. a second cleaning umbrella tooth; 19. a slide shaft; 20. a bearing ring; 21. a first drive bevel gear; 22. a second drive bevel gear; 23. a connecting shaft; 24. a first telescopic rod; 25. a slip ring; 26. a first scroll spring; 27. an energy storage cylinder; 28. a first bearing plate; 29. a top extension spring; 30. a second bearing plate; 31. along with the rotating shaft; 32. a push rod; 33. rotating the block along with the rotation; 34. a clamping groove; 35. a ring groove; 36. a clamping block; 37. cleaning a rod; 38. a shrink cylinder; 39. a telescopic spring; 40. a second telescopic rod; 41. cleaning the block; 42. a filler plate; 43. a drive shaft; 44. a second scroll spring; 45. a first drive bevel gear; 46. a second drive bevel gear; 47. a driving rod; 48. a supporting column; 49. a pushing ring; 50. a first connecting bevel gear; 51. the second connecting umbrella teeth; 52. a driven shaft; 53. a first rotary bevel gear; 54. a second rotary bevel gear; 55. a first rotation shaft; 56. a third rotary bevel gear; 57. fourth rotating umbrella teeth; 58. an adjusting shaft; 59. a second rotation shaft; 60. a first adjustment bevel gear; 61. a second adjustment bevel gear; 62. a third rotation shaft; 63. a bearing ring; 64. an adjusting spring; 65. a transmission case; 66. an adaptive spring; 67. and a transmission shaft.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

As shown in fig. 1-2, the embodiment of the invention discloses a spliced pipe inside rust removing device for hydraulic engineering, which comprises a base 1, a second strong magnet 4, an inner wall cleaning ring 5 and a driven roller 11, wherein a clamping frame 2 is fixedly arranged on one side of the top of the base 1, an outer wall cleaning ring 13 is arranged on the side wall of the clamping frame 2, a first strong magnet 3 is arranged in the clamping frame 2, the first strong magnet 3 and the second strong magnet 4 are mutually attracted, the second strong magnet 4 is arranged on the outer wall of the inner wall cleaning ring 5, the inner wall cleaning ring 5 is positioned in the clamping frame 2, as shown in fig. 3-5, one side of the inner wall cleaning ring 5 is rotationally connected with a rotating ring 7, the inner wall of the inner wall cleaning ring 5 is rotationally connected with a driving wheel 6, the driving wheel 6 is in driving connection with the rotating ring 7, a cleaning plate 8 is arranged on the outer wall of the rotating ring 7, a cleaning disc 9 is arranged on one end of the rotating ring 7, a driving frame 10 is arranged on the other side of the top of the base 1, a driving roller 12 is arranged in the driving frame 10, the driving roller 12 is in driving connection with the driven roller 11, and the driven roller 11 abuts against the outer wall of a pipeline; this device is through setting up of inner wall clearance ring 5 and swivel becket 7 and clearance dish 9, can make this device when the inside clearance of pipeline, need not set up longer clearance pole and be used for extending to the inner wall of pipeline and clear up, through the setting of inner wall clearance ring 5, can clear up the inner wall of pipeline automatically and realize derusting, the inner wall clearance ring 5 of this device does not need electric power to drive simultaneously, can realize the automatic rotation clearance of inner wall clearance ring 5 to pipeline inner wall, the inner wall clearance ring 5 of this device can be applicable to the pipeline of various lengths and different diameters simultaneously and clear up, inner wall clearance ring 5 and holder 2 remain relatively static state, the function of automatic clearance is realized to the pipeline.

As shown in fig. 3-4, the top of the first strong magnet 3 is fixedly connected with one end of a connecting spring 15, the other end of the connecting spring 15 is fixedly connected with the inner wall of the clamping frame 2, the side wall of the first strong magnet 3 is arc-shaped, a fixed plate 14 is fixedly arranged on the inner wall of the inner wall cleaning ring 5, a first telescopic rod 24 is arranged on the outer wall of the fixed plate 14, one end of the first telescopic rod 24 is fixedly connected with one end of the second strong magnet 4, and one end of the second strong magnet 4 is arc-shaped; the axle 16 is arranged at the axle center of the driving wheel 6, the first cleaning umbrella teeth 17 are arranged on the outer wall of the axle 16, the first cleaning umbrella teeth 17 are connected with the second cleaning umbrella teeth 18 in a meshed manner, the second cleaning umbrella teeth 18 are arranged on the outer wall of the top of the sliding shaft 19, a bearing ring 20 is arranged on the outer wall of one end of the axle 16, the outer wall of the bearing ring 20 is fixedly connected with one end of the self-adapting spring 66, the other end of the self-adapting spring 66 is fixedly connected with the outer wall of the fixed plate 14, the bottom of the sliding shaft 19 is slidably connected in the transmission shaft 67, a limiting strip is arranged on the outer wall of the sliding shaft 19, a first transmission umbrella teeth 21 are arranged on the outer wall of the transmission shaft 67, the first transmission umbrella teeth 21 are connected with the second transmission umbrella teeth 22 in a meshed manner, the second transmission umbrella teeth 22 are arranged on the outer wall of one end of the connecting shaft 23, and the connecting shaft 23 is rotatably connected on the side wall of the fixed plate 14; when the device is used, firstly, a pipeline is inserted into the clamping frame 2, at the moment, the first strong magnet 3 and the second strong magnet 4 are separated, at the moment, the first strong magnet 3 is positioned on the outer wall of the pipeline, the inner wall cleaning ring 5 is positioned in the pipeline, at the moment, the first strong magnet 3 and the second strong magnet 4 are opposite, after the pipeline is inserted, the pipeline is slid, at the moment, the inner wall of the pipeline is propped against the outer wall of the driving wheel 6, the driving wheel 6 is propped against the inner wall of the pipeline upwards under the action of the self-adaptive spring 66, at the moment, the driving wheel 6 is propped against the inner wall of the pipeline, the driving wheel 6 rotates under the action of the pipeline, the sliding shaft 19 is driven to rotate through the first cleaning bevel gear 17 and the second cleaning bevel gear 18, the sliding shaft 19 slides in the transmission shaft 67 through a limiting bar, when the sliding shaft 19 moves up and down, the transmission shaft 67 can be driven to rotate, and when the driving wheel 6 rotates, the driving shaft 23 can be driven to rotate through the first transmission bevel gear 21 on the outer wall of the transmission shaft 67 and the second transmission bevel gear 22 on the outer wall of the connecting shaft 23, so that the driving wheel 6 can drive the connecting shaft 23 to rotate, and realize the operation of the device; in order to be suitable for the use of various different diameter pipelines, when the drive wheel 6 will be through the outside butt of self-adaptation spring 66 when contacting with the inner wall of pipeline, this moment drive wheel 6 can realize self-adaptation adjustment position for drive wheel 6 can be all the time with the inner wall of pipeline, realize the driving force when this device clearance, through the setting of slide shaft 19 and transmission shaft 67, can make the drive wheel 6 of this device behind the adjustment position, make first transmission umbrella tooth 21 can be connected with the meshing of second transmission umbrella tooth 22 all the time, no matter how the position of drive wheel 6 changes, drive wheel 6 can drive connecting axle 23 all the time and rotate, avoid appearing the phenomenon that can't drive behind the adjustment of drive wheel 6 position.

As shown in fig. 5-6, the inside of one end of the inner wall cleaning ring 5 is slidably connected with a slip ring 25, the inner wall of the slip ring 25 is fixedly connected with one end of a first scroll spring 26, the other end of the first scroll spring 26 is fixedly connected with one end of an energy storage barrel 27, and the energy storage barrel 27 is slidably connected on the outer wall of the connecting shaft 23.

As shown in fig. 5 to 7, a first bearing disc 28 is installed on the outer wall of one end of the energy storage barrel 27, the outer wall of the first bearing disc 28 is fixedly connected with one end of a push-extension spring 29, the other end of the push-extension spring 29 is fixedly connected with the side wall of a second bearing disc 30, the second bearing disc 30 is installed on the outer wall of a connecting shaft 23, one end of the connecting shaft 23 far away from the inner wall cleaning ring 5 abuts against one end of a follow-up rotating shaft 31, the follow-up rotating shaft 31 is installed inside the rotating ring 7, a follow-up rotating block 33 is fixedly installed on the outer wall of the follow-up rotating shaft 31, a push-up supporting rod 32 is installed inside the rotating ring 7, and one end of the push-up supporting rod 32 abuts against one end surface of the energy storage barrel 27 far away from the first bearing disc 28; the inner wall of the energy storage barrel 27 is provided with a clamping groove 34, the inside of the energy storage barrel 27 is provided with a ring groove 35, the clamping groove 34 is communicated with the ring groove 35, the inside of the clamping groove 34 is connected with a clamping block 36 in a sliding manner, and the clamping block 36 is fixedly arranged on the outer wall of the connecting shaft 23; in the initial state, under the action of the jacking spring 29, the annular groove 35 in the energy storage barrel 27 is opposite to the clamping block 36, the connecting shaft 23 does not drive the energy storage barrel 27 to rotate, the clamping groove 34 is clamped with the rotating block 33 on the outer wall of the rotating shaft 31, when a pipeline is inserted into the clamping frame 2, the jacking rod 32 is firstly abutted against the inner wall of the pipeline by adjusting the length of the jacking rod 32, when the pipeline is reset and displaced, the jacking rod 32 is temporarily inclined against the side wall of the energy storage barrel 27 when the jacking rod 32 is subjected to the jacking force, the clamping groove 34 on the inner wall of the energy storage barrel 27 is separated from the rotating shaft 31, the clamping groove 34 is clamped with the clamping block 36, meanwhile, the driving of the driving wheel 6 is driven by the connecting shaft 23, the connecting shaft 23 drives the energy storage barrel 27 to rotate for energy storage, the first scroll spring 26 is compressed, when the pipeline displacement is reduced, the clamping groove 34 is clamped with the rotating block 33 at the same time, the moment, the energy stored by the first scroll spring 26 is released, when the pipeline is not separated from the jacking spring 29, the outer wall of the driving wheel 6 is not separated from the rotating ring 31, and the inner wall of the pipeline can not be cleaned, and the inner wall of the traction plate 7 can not be rotated along with the rotating shaft 7; the rotation of the rotating ring 7 of this device can realize automatic rotation, and the power of production when restoring to the throne through the pipeline for the rotation of drive rotating ring 7, the loss of energy can be avoided in the displacement of this device energy storage section of thick bamboo 27, can not drive rotating ring 7 under the energy storage section of thick bamboo 27 initial condition simultaneously and rotate, spiral clearance when avoiding appearing the clearance, and the phenomenon that the clearance that leads to is not in place realizes the integration clearance.

As shown in fig. 8, a cleaning rod 37 is installed in the rotating ring 7, one end of the cleaning rod 37 is fixedly connected with the outer wall of the cleaning plate 8, the cleaning rod 37 is slidably connected in a contraction cylinder 38, a telescopic spring 39 is fixedly installed on the inner bottom wall of the contraction cylinder 38, and the top of the telescopic spring 39 is fixedly connected with the bottom of the cleaning rod 37; one side of the first strong magnet 3 and the second strong magnet 4 of this device all sets up to the cambered surface, can be convenient for the insertion of pipeline, avoids appearing the phenomenon that inner wall clearance ring 5 and holder 2 temporarily can't separate, and clearance board 8 sets up flexible clearance pole 37 simultaneously, is convenient for stretch out and support with the inner wall of pipeline, and simultaneously the first strong magnet 3 and the second strong magnet 4 set up to the concertina type, and the first strong magnet 3 of being convenient for and the second strong magnet 4 looks at each other.

As shown in fig. 9, a second telescopic rod 40 is installed in the cleaning disc 9, one end of the second telescopic rod 40 is fixedly connected with the outer wall of a cleaning block 41, a filling plate 42 is slidably connected in the cleaning block 41, and the number of the cleaning block 41 and the number of the filling plate 42 are multiple; after the inside rust cleaning of clearance board 8 pipeline, in order to avoid having residual rust matter, clearance piece 41 carries out the clearance of secondary to the inside of pipeline this moment for when this device rust cleaning, can guarantee the cleanliness of clearance through twice clearance, the clearance piece can be filled automatically to the filling board 42 of this device simultaneously, guarantees the outer wall of clearance dish 9 and pipeline inner wall to the clearance of supporting.

As shown in fig. 9, the structure inside the purge rod 37 is the same as the structure inside the first telescopic rod 24 and the second telescopic rod 40.

As shown in fig. 10, a driving shaft 43 is installed at the axial center of the driven roller 11, a second spiral spring 44 is installed on the outer wall of the driving shaft 43, the other end of the second spiral spring 44 is fixedly connected with the inner wall of the base 1, a first driving bevel gear 45 is installed on the outer wall of one end of the driving shaft 43, the first driving bevel gear 45 is meshed with the second driving bevel gear 46, and the second driving bevel gear 46 is installed on the outer wall of the driving rod 47.

As shown in fig. 11, the other end of the driving shaft 43 is rotatably connected to the inner wall of the base 1, the outer wall of the driving shaft 43 is telescopically connected with a propping column 48, the propping column 48 is propped against the outer wall of a propping ring 49, and a friction pad is arranged on the outer wall of the propping ring 49; when the driving shaft 43 is reset to rotate under the action of the second scroll spring 44, the propping column 48 on the outer wall of the driving shaft 43 is propped against the outer wall of the propping ring 49, the propping stroke of the propping ring 49 and the propping column 48 only occupies half of the rotation circumference of the driving shaft 43, so that the device can rotate slowly when the driving shaft 43 is reset to rotate and the propping ring 49 is propped against, and the device can clean in a pause mode, and the cleaning effect is guaranteed.

As shown in fig. 12, a first connection bevel gear 50 is installed on the outer wall of the top of the driving rod 47, the first connection bevel gear 50 is connected with a second connection bevel gear 51 in a meshed manner, the second connection bevel gear 51 is installed on the outer wall of the driven shaft 52, a first rotating bevel gear 53 is installed on the outer wall of the driven shaft 52, the first rotating bevel gear 53 is connected with a second rotating bevel gear 54 in a meshed manner, the second rotating bevel gear 54 is installed on the outer wall of the top of the first rotating shaft 55, a third rotating bevel gear 56 is installed on the outer wall of the bottom of the first rotating shaft 55, the third rotating bevel gear 56 is connected with a fourth rotating bevel gear 57 in a meshed manner, the fourth rotating bevel gear 57 is installed on the outer wall of the adjusting shaft 58, a second rotating shaft 59 is connected in a sliding manner inside the adjusting shaft 58, a first adjusting bevel gear 60 is installed on the outer wall of the second rotating shaft 59, the first adjusting bevel gear 60 is connected with a second adjusting bevel gear 61 in a meshed manner, the second adjusting bevel gear 61 is installed on the outer wall of the third rotating bevel gear 54, a ring 63 is installed on the outer wall of the bottom of the third rotating shaft 62, one end 63 of the bearing ring is fixedly connected with the inner side wall 65 of the driving rod 10, and the other end 64 of the inner side of the driving rod is fixedly connected with the inner side 65 of the driving rod 10; in the initial state of the driving shaft 43 of the device, the manual rotation energy storage can be performed, when the second scroll spring 44 is reset to rotate, the driving shaft 43 can drive the driving rod 47 to rotate, at the moment, the driving rod 47 drives the driving roller 12 to rotate through the first rotating shaft 55 and the third rotating shaft 62, and at the moment, the driving roller 12 drives the pipeline to reset; the clamping of drive roller 12 and pipeline of this device can be self-adaptation regulation, realizes the propelling movement to the pipeline, and the drive roller 12 of this device can guarantee relative extrusion, plays the effect of pushing against the push to the pipeline, avoids the pipeline to appear the effect of skew when the displacement that resets.

It should be noted that, in the description of the present invention, terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, which indicate directions or positional relationships, are based on the directions or positional relationships shown in the drawings, are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, 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.

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

The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, article, or apparatus/means that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, article, or apparatus/means.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will fall within the scope of the present invention.

Claims (10)

1. The utility model provides a splice pipe inside rust cleaning device for hydraulic engineering, its characterized in that, including base (1), second strong magnet (4), inner wall clearance ring (5) and driven voller (11), one side fixed mounting at base (1) top has clamping frame (2), install outer wall clearance ring (13) on the lateral wall of clamping frame (2), the internally mounted of clamping frame (2) has first strong magnet (3), first strong magnet (3) with second strong magnet (4) attracts each other, second strong magnet (4) are installed on the outer wall of inner wall clearance ring (5), inner wall clearance ring (5) are located the inside of clamping frame (2), one side rotation of inner wall clearance ring (5) is connected with rotation ring (7), rotation is connected with drive wheel (6) on the inner wall of inner wall clearance ring (5), drive wheel (6) with rotation ring (7) drive connection, install rotation plate (8) on the outer wall of rotation ring (7), rotation ring (7) are installed on the outer wall of inner wall clearance ring (5) outer wall, inner wall clearance ring (5) one side rotation ring (5) are rotated one side (10) and are connected with drive wheel (10), the driving roller (12) is in driving connection with the driven roller (11), and the driven roller (11) abuts against the outer wall of the pipeline.

2. The spliced pipe interior rust removing device for hydraulic engineering according to claim 1, wherein the top of the first strong magnet (3) is fixedly connected with one end of a connecting spring (15), the other end of the connecting spring (15) is fixedly connected with the inner wall of the clamping frame (2), the side wall of the first strong magnet (3) is arc-shaped, a fixing plate (14) is fixedly arranged on the inner wall of the inner wall cleaning ring (5), a first telescopic rod (24) is arranged on the outer wall of the fixing plate (14), one end of the first telescopic rod (24) is fixedly connected with one end of a second strong magnet (4), and one end of the second strong magnet (4) is arc-shaped;

the axle center department of drive wheel (6) installs shaft (16), install first clearance umbrella tooth (17) on the outer wall of shaft (16), first clearance umbrella tooth (17) are connected with second clearance umbrella tooth (18) meshing, install on the outer wall at slide shaft (19) top second clearance umbrella tooth (18), install bearing ring (20) on the outer wall of shaft (16) one end, the outer wall of bearing ring (20) and the one end fixed connection of self-adaptation spring (66), the other end of self-adaptation spring (66) with the outer wall fixed connection of fixed plate (14), the bottom sliding connection of slide shaft (19) is in the inside of transmission shaft (67), install spacing on the outer wall of slide shaft (19), install first transmission umbrella tooth (21) on the outer wall of transmission shaft (67), first transmission umbrella tooth (21) are connected with second transmission umbrella tooth (22) meshing, second transmission umbrella tooth (22) are installed on the outer wall (23) connecting plate (23), the lateral wall of connecting plate (23) is in the fixed connection.

3. The spliced pipe internal rust removing device for hydraulic engineering according to claim 2, wherein a slip ring (25) is slidably connected to the inside of one end of the inner wall cleaning ring (5), the inner wall of the slip ring (25) is fixedly connected with one end of a first scroll spring (26), the other end of the first scroll spring (26) is fixedly connected with one end of an energy storage barrel (27), and the energy storage barrel (27) is slidably connected to the outer wall of the connecting shaft (23).

4. A spliced pipe internal rust removing device for hydraulic engineering according to claim 3, wherein a first bearing disc (28) is mounted on the outer wall of one end of the energy storage barrel (27), the outer wall of the first bearing disc (28) is fixedly connected with one end of a jacking spring (29), the other end of the jacking spring (29) is fixedly connected with the side wall of a second bearing disc (30), the second bearing disc (30) is mounted on the outer wall of the connecting shaft (23), one end of the connecting shaft (23) far away from the inner wall cleaning ring (5) is abutted with one end of a follow-up shaft (31), the follow-up shaft (31) is mounted in the rotating ring (7), a follow-up block (33) is fixedly mounted on the outer wall of the follow-up shaft (31), an abutting rod (32) is mounted in the rotating ring (7), and one end of the abutting rod (32) abuts against one end face of the energy storage barrel (27) far away from the first bearing disc (28);

the inner wall of the energy storage barrel (27) is provided with a clamping groove (34), the inside of the energy storage barrel (27) is provided with a ring groove (35), the clamping groove (34) is communicated with the ring groove (35), a clamping block (36) is connected to the inside of the clamping groove (34) in a sliding mode, and the clamping block (36) is fixedly installed on the outer wall of the connecting shaft (23).

5. The spliced pipe inside rust removing device for hydraulic engineering according to claim 4, wherein a cleaning rod (37) is installed in the rotating ring (7), one end of the cleaning rod (37) is fixedly connected with the outer wall of the cleaning plate (8), the cleaning rod (37) is slidably connected in a shrinkage cylinder (38), a telescopic spring (39) is fixedly installed on the inner bottom wall of the shrinkage cylinder (38), and the top of the telescopic spring (39) is fixedly connected with the bottom of the cleaning rod (37).

6. The spliced pipe internal rust removing device for hydraulic engineering according to claim 5, wherein a second telescopic rod (40) is installed in the cleaning disc (9), one end of the second telescopic rod (40) is fixedly connected with the outer wall of the cleaning block (41), a filling plate (42) is slidably connected in the cleaning block (41), and the number of the cleaning block (41) and the number of the filling plates (42) are multiple.

7. The spliced tube interior rust removing device for hydraulic engineering according to claim 6, wherein the structure of the interior of the cleaning rod (37) is the same as the structures of the interiors of the first telescopic rod (24) and the second telescopic rod (40).

8. The spliced pipe interior rust removing device for hydraulic engineering according to claim 1, wherein a driving shaft (43) is installed at the axle center of the driven roller (11), a second scroll spring (44) is installed on the outer wall of the driving shaft (43), the other end of the second scroll spring (44) is fixedly connected with the inner wall of the base (1), a first driving bevel gear (45) is installed on the outer wall of one end of the driving shaft (43), the first driving bevel gear (45) is meshed with a second driving bevel gear (46), and the second driving bevel gear (46) is installed on the outer wall of the driving rod (47).

9. The spliced pipe interior rust removing device for hydraulic engineering according to claim 8, wherein the other end of the driving shaft (43) is rotatably connected to the inner wall of the base (1), a propping column (48) is telescopically connected to the outer wall of the driving shaft (43), the propping column (48) is propped against the outer wall of a propping ring (49), and a friction pad is mounted on the outer wall of the propping ring (49).

10. The spliced pipe internal rust removing device for hydraulic engineering according to claim 9, wherein a first connecting bevel gear (50) is installed on the outer wall of the top of the driving rod (47), the first connecting bevel gear (50) is in meshed connection with a second connecting bevel gear (51), the second connecting bevel gear (51) is installed on the outer wall of the driven shaft (52), a first rotating bevel gear (53) is installed on the outer wall of the driven shaft (52), the first rotating bevel gear (53) is in meshed connection with a second rotating bevel gear (54), the second rotating bevel gear (54) is installed on the outer wall of the top of the first rotating shaft (55), a third rotating bevel gear (56) is installed on the outer wall of the bottom of the first rotating shaft (55), the third rotating bevel gear (56) is in meshed connection with a fourth rotating bevel gear (57), the fourth rotating bevel gear (57) is installed on the outer wall of the adjusting shaft (58), a second rotating shaft (53) is installed on the outer wall of the adjusting shaft (58), a second rotating shaft (59) is installed on the outer wall of the adjusting shaft (60), a third rotating bevel gear (62) is installed on the outer wall of the adjusting shaft (60), the outer wall of the bearing ring (63) is fixedly connected with one end of an adjusting spring (64), the other end of the adjusting spring (64) is fixedly connected with the inner side wall of the driving frame (10), and the driving rod (47) is rotatably connected to the transmission box (65).