CN115431181B - Outer wall cleaning device for continuously conveying stainless steel pipes - Google Patents

Abstract

The invention relates to the technical field of steel pipe cleaning, in particular to an outer wall cleaning device for continuously conveying stainless steel pipes, which comprises a fixing plate, wherein one end of the fixing plate is fixedly connected with two annular supports, and three fixing devices are fixedly connected in the annular supports.

Description

Outer wall cleaning device for continuously conveying stainless steel pipes

Technical Field

The invention relates to the technical field of steel pipe cleaning, in particular to an outer wall cleaning device for continuously conveying stainless steel pipes.

Background

After the stainless steel pipe is subjected to processes such as cold drawing and acid washing, the stainless steel pipe needs to be cleaned by attaching oxide skin and dirt on the outer wall surface through high-pressure water jet, the outer wall surface of the stainless steel pipe is usually cleaned manually in general enterprises, the efficiency and the cleaning effect of manually cleaning the oxide skin and the dirt on the outer wall surface of the stainless steel pipe often cannot meet the expected requirements, water resources and related energy consumption are wasted, and meanwhile, the volatile water mist in the manual cleaning process can cause health hazards to personnel in the enterprises.

Disclosure of Invention

The invention provides the outer wall cleaning device for continuously conveying the stainless steel pipe, which is reasonable in structural arrangement.

The above object of the present invention is achieved by the following technical solutions:

the outer wall cleaning device for continuously conveying the stainless steel pipes comprises a fixed plate, wherein a stainless steel pipe cleaning mechanism, a stainless steel pipe input mechanism, a stainless steel pipe output mechanism and a stainless steel pipe turnover mechanism are arranged on the fixed plate; the stainless steel pipe input mechanism and the stainless steel pipe output mechanism are respectively arranged at the positions on two sides of the stainless steel pipe cleaning mechanism, the stainless steel pipe turnover mechanism is arranged on the stainless steel pipe input mechanism, the stainless steel pipe is turned over to the stainless steel pipe input mechanism through the stainless steel pipe turnover mechanism, the stainless steel pipe is conveyed to the stainless steel pipe cleaning mechanism through the stainless steel pipe input mechanism, and the cleaned stainless steel pipe is sent out through the stainless steel pipe output mechanism, so that the continuous conveying and cleaning operation of stainless steel is realized.

Further, nonrust steel pipe wiper mechanism is including setting up the ring carrier on the fixed plate, be equipped with the fixer on the ring carrier, be equipped with the spray tube that runs through the fixer both ends in the fixer, spray tube one end external connection has the washing water pump.

Further, nonrust steel pipe input mechanism is including setting up a plurality of supporting seat on the fixed plate, a pair of linking bridge of fixedly connected with on the supporting seat, linking bridge keeps away from fixed plate one end is rotated and is connected with the driven shaft, fixedly connected with running roller on the driven shaft outer peripheral face, the running roller is connected with nonrust steel pipe tilting mechanism transmission to make the pending steel pipe pass through the running roller removes.

Further, nonrust steel pipe tilting mechanism is including setting up the cylinder on the open slot lateral wall on the fixed plate, cylinder one end is connected with the pneumatic column, pneumatic column one end fixedly connected with magnet piece, the magnet piece is connected with the returning face plate electromagnetism, fixedly connected with rigid support on the fixed plate, rigid support keeps away from fixed plate one end fixedly connected with motor, motor one end is connected with the power shaft, rotates on the power shaft outer peripheral face and is connected with the roll-over stand, the end surface that roll-over stand and returning face plate are relative is equipped with the electromagnetism mouth, the returning face plate is close to roll-over stand one end fixedly connected with electro-magnet, the electro-magnet with magnetism is connected between the electromagnetism mouth.

Further, the driven shaft with be equipped with synchronous chain between the power shaft, the supporting seat is kept away from the pneumatic cylinder has been linked firmly in fixed plate terminal surface, pneumatic cylinder one end hydraulic connection has the hydraulic cylinder, hydraulic cylinder one end fixedly connected with axis of rotation, it is connected with the synchronizing wheel to rotate on the axis of rotation outer peripheral face, it is connected with the action wheel to rotate on the driven shaft outer peripheral face, the action wheel with the meshing is connected between the synchronizing wheel.

Further, nonrust steel pipe output mechanism is including setting up a plurality of supporting seats on the fixed plate, a pair of support has been linked firmly on the supporting seat, it is connected with the transmission shaft to rotate between the support, transmission shaft one end is connected with the transportation motor, the transportation motor with power is connected between the transmission shaft, the roller has been linked firmly on the transmission shaft outer peripheral face, the transmission is connected between the roller, and the steel pipe of awaiting treatment passes through the roller is transported.

Further, the rollers on the driven shafts on the pair of connecting supports are arranged in a reverse inclined mode, and the rollers on the transmission shafts on the pair of supports are arranged in a reverse inclined mode, so that the stainless steel pipes are driven to axially and spirally move.

The invention has the beneficial effects that: according to the invention, the outer wall surface of the stainless steel pipe is subjected to continuous intermittent annular high-pressure water jet cleaning after the stainless steel pipe is subjected to cold drawing and acid washing processes, so that oxide skin and dirt attached to the outer wall surface of the stainless steel pipe are quickly removed, meanwhile, the cleaning process realizes automatic cleaning, the cleaning efficiency and the cleaning effect of the stainless steel pipe are improved, and the related water resource and energy consumption is reduced, and the health hazard to personnel in an enterprise is also avoided.

Drawings

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

FIG. 2 isbase:Sub>A schematic view of the structure of the plane A-A in FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1;

FIG. 5 is an enlarged schematic view of FIG. 1 at D;

FIG. 6 is a schematic view of the structure of plane E-E in FIG. 3;

FIG. 7 is a schematic view of the structure of the F-F surface of FIG. 3;

FIG. 8 is a schematic view of the structure of the plane G-G in FIG. 4;

FIG. 9 is a schematic view of the roller structure of the present invention;

in the figure: 11. a fixing plate; 12. an annular support; 13. a holder; 14. a nozzle; 15. a steel pipe to be treated; 16. an electromagnet; 17. a supporting seat; 18. a hydraulic cylinder; 19. a roller; 20. a drive shaft; 21. a transport motor; 22. a synchronous chain; 23. a turnover plate; 25. a transmission belt; 26. a support; 27. a driving wheel; 28. a rotating shaft; 29. a roller wheel; 30. a driven shaft; 31. a hydraulic column; 32. a synchronizing wheel; 33. connecting a bracket; 34. a rigid support; 35. a power shaft; 36. an electromagnetic port; 37. a roll-over stand; 38. a motor; 39. a magnet block; 40. a pneumatic column; 41. a cylinder; 42. an open slot.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

The utility model provides an outer wall belt cleaning device of stainless steel pipe of continuous transport, includes fixed plate 11, two ring carrier 12 of 11 one end fixedly connected with of fixed plate, the three fixer 13 of ring carrier 12 interior ring fixedly connected with (be used for the part of fixed spray tube 14), be one hundred twenty degrees ring-shaped distribution between the fixer 13, it has spray tube 14 to run through in the fixer 13, and spray tube 14 keeps away from one end external connection each other and has the washing water pump, and ring carrier 12 keeps away from each other and fixed connection in 11 one end of fixed plate is equipped with a plurality of supporting seat 17, two linking bridge 33 of every supporting seat 17 one end fixedly connected with, and linking bridge 33 keeps away from 11 one end of fixed plate is rotated and is connected with driven shaft 30 (adopt the transmission universal joint to connect between the driven shaft 30, fixedly connected with running roller 29 on the driven shaft 30 outer peripheral face, sliding connection remains to handle steel pipe 15 between the running roller 29 outer peripheral face, and treats that the steel pipe 15 passes through running roller 29 carries out axial spiral removal.

Be equipped with two openings orientations in the fixed plate 11 terminal surface the open slot 42 of ring carrier 12, the open slot 42 is close to fixedly connected with cylinder 41 in the lateral wall each other, and cylinder 41 keeps away from one end each other and pneumatically connects with pneumatic column 40, and pneumatic column 40 keeps away from one end fixedly connected with magnet piece 39 each other (magnet piece 39 is electromagnetic means).

Magnet piece 39 keeps away from one end each other and has linked firmly returning face plate 23 (returning face plate 23 upper surface is equipped with the logical groove that is used for the stainless steel pipe to place), and returning face plate 23 is close to 11 terminal surface sliding connection of fixed plate in 11 terminal surfaces of fixed plate.

Two rigid supports 34 are fixedly connected to the end faces of the fixed plate 11 at the two sides of the supporting seat 17, one end of each rigid support 34 far away from the fixed plate 11 is fixedly connected with a motor 38, and one end of each motor 38 is dynamically connected with a power shaft 35.

The power shaft 35 is connected with a roll-over stand 37 on the peripheral surface in a rotating way, the roll-over stand 37 is provided with electromagnetic ports 36 with opposite openings on the end surfaces close to each other, the end of the roll-over plate 23 close to the rigid support 34 is fixedly connected with an electromagnet 16, and the electromagnet 16 is magnetically connected with the electromagnetic ports 36.

Driven shaft 30 with it rotates to be equipped with synchronous chain 22 between the power shaft 35 and is connected, supporting seat 17 keeps away from fixed plate 11 an terminal surface has linked firmly pneumatic cylinder 18, and pneumatic cylinder 18 one end hydraulic connection has hydraulic pressure post 31, and hydraulic pressure post 31 one end fixedly connected with axis of rotation 28 rotates on the axis of rotation 28 outer peripheral face and is connected with synchronizing wheel 32.

The peripheral surface of the driven shaft 30 is rotatably connected with a driving wheel 27, and the driving wheel 27 is meshed with the synchronous wheel 32. In this embodiment, the synchronizing wheel 32 and the driving wheel 27 are friction wheels, and the synchronizing wheel 32 and the driving wheel 27 are in friction transmission.

Keep away from annular support 12 one side 17 one end of supporting seat has linked firmly two supports 26, is equipped with transmission shaft 20 (transmission shaft 20 adopts the universal joint connecting axle) between the support 26, and transmission shaft 20 is close to annular support 12 one end is rotated and is connected with transportation motor 21, transportation motor 21 with power connection between the transmission shaft 20 has linked firmly roller 19 on the 20 outer peripheral faces of transmission shaft, and pending steel pipe 15 passes through roller 19 transports, is equipped with drive belt 25 between the roller 19, rotates between the drive belt 25 and connects.

For the roller 29 and the roller 19, the roller 29 on the driven shaft 30 on the pair of connecting brackets 33 is arranged in a reverse inclined manner, the roller 19 on the transmission shaft 20 on the pair of brackets 26 is arranged in a reverse inclined manner, and the roller 29 and the roller 19 are in transmission connection through a friction wheel and a friction transmission belt, so that the stainless steel pipe is driven to axially and spirally move.

The following will explain in detail the use steps of the apparatus for cleaning the outer wall of a continuously transporting stainless steel pipe according to the present invention with reference to fig. 1 to 9:

at the beginning, the hydraulic cylinder 18, the transportation motor 21, the motor 38 and the cylinder 41 are in a closed state, the turnover plate 23 is in a mutually-away position, the synchronizing wheel 32 and the driving wheel 27 are in a disengaged state, the electromagnet 16 and the electromagnet port 36 are in a disengaged state, and no high-pressure water jet enters the spray pipe 14.

When the device is used, the steel pipe 15 to be treated is placed in the turnover plate 23, the air cylinder 41 is started at the moment, the pneumatic columns 40 are driven to move close to each other, the turnover plate 23 is driven to move close to each other, the motor 38 is started at the moment, the turnover frame 37 is driven to rotate close to each other, the electromagnet 16 is magnetically connected with the electromagnet port 36, the electromagnetic connection between the magnet block 39 and the turnover plate 23 is in a separation state at the moment, the steel pipe 15 to be treated is turned over to the outer peripheral surface of the roller 29 by the turnover plate 23, the turnover plate 23 is reset under the action of the motor 38, the electromagnet 16 is electromagnetically connected with the electromagnet port 36 to be in a separation state, the magnet block 39 is magnetically connected with the turnover plate 23 at the moment, the air cylinder 41 is started to drive the pneumatic columns 40 to be away from each other, and the turnover plate 23 is driven to be away from each other.

The hydraulic cylinder 18 is started, so that the hydraulic column 31 is driven to move close to the annular bracket 12, the synchronizing wheel 32 and the rotating shaft 28 are driven to move close to the annular bracket 12, the synchronizing wheel 32 and the driving wheel 27 are meshed and connected at the moment, the motor 38 drives the power shaft 35 and the synchronous chain 22 to rotate at the moment, so that the roller 29 is driven to rotate, and the roller 29 rotates to drive the steel pipe to be treated 15 to move close to the annular bracket 12.

When the steel pipe 15 to be treated enters the annular bracket 12, the external water pump is started to flush high-pressure water into the fixer 13 and the spray pipe 14, and the high-pressure water jet sprayed out from the spray pipe 14 quickly cleans oxide skin and dirt on the outer wall surface of the steel pipe 15 to be treated on the roller 29.

After the outer wall surface of the steel pipe 15 to be treated entering the annular support 12 is cleaned, the steel pipe 15 to be treated is continuously transported to a position far away from the annular support 12 through the roller 29, the steel pipe 15 to be treated after cleaning contacts the roller 19 on the other side, the transportation motor 21 is started at the moment, the transmission belt 25, the transmission shaft 20 and the roller 19 are further driven to rotate, and the steel pipe 15 to be treated after cleaning is further transported to a drying area through the rotation of the roller 19 to be stored.

When the steel pipe 15 to be treated needs to be automatically cleaned, the air cylinders 41 and the motors 38 on the two sides are started in batches, so that the outer wall surface of the steel pipe 15 to be treated is continuously and intermittently cleaned. Besides, the air cylinders 41 and the motors 38 on both sides can be used as one unit.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the technical solutions of the present invention, so long as the technical solutions can be realized on the basis of the above embodiments without creative efforts, and should be considered to fall within the protection scope of the patent claims of the present invention.

Claims (4)

1. The outer wall cleaning device for continuously conveying the stainless steel pipes comprises a fixing plate (11), and is characterized in that a stainless steel pipe cleaning mechanism, a stainless steel pipe input mechanism, a stainless steel pipe output mechanism and a stainless steel pipe turnover mechanism are arranged on the fixing plate (11); the stainless steel pipe input mechanism and the stainless steel pipe output mechanism are respectively arranged at the two sides of the stainless steel pipe cleaning mechanism, the stainless steel pipe turnover mechanism is arranged on the stainless steel pipe input mechanism, a stainless steel pipe is turned over to the stainless steel pipe input mechanism through the stainless steel pipe turnover mechanism, the stainless steel pipe is conveyed to the stainless steel pipe cleaning mechanism through the stainless steel pipe input mechanism, and the cleaned stainless steel pipe is sent out through the stainless steel pipe output mechanism, so that the continuous conveying and cleaning operation of stainless steel is realized; the stainless steel pipe input mechanism comprises a plurality of supporting seats (17) arranged on a fixed plate (11), a pair of connecting supports (33) is fixedly connected to the supporting seats (17), one ends, far away from the fixed plate (11), of the connecting supports (33) are rotatably connected with a driven shaft (30), rollers (29) are fixedly connected to the outer peripheral surface of the driven shaft (30), and the rollers (29) are in transmission connection with a stainless steel pipe turnover mechanism, so that a steel pipe (15) to be treated can move through the rollers (29); the stainless steel tube turnover mechanism comprises a cylinder (41) arranged on the side wall of an open slot (42) on a fixed plate (11), one end of the cylinder (41) is connected with a pneumatic column (40), one end of the pneumatic column (40) is fixedly connected with a magnet block (39), the magnet block (39) is electromagnetically connected with a turnover plate (23), the fixed plate (11) is fixedly connected with a rigid support (34), one end, far away from the fixed plate (11), of the rigid support (34) is fixedly connected with a motor (38), one end of the motor (38) is connected with a power shaft (35), the outer peripheral surface of the power shaft (35) is rotatably connected with a turnover frame (37), the end surface, opposite to the turnover plate (23), of the turnover frame (37) is provided with an electromagnetic port (36), one end, close to the turnover plate (23), of the turnover frame (37) is fixedly connected with an electromagnet (16), and the electromagnet (16) is magnetically connected with the electromagnetic port (36); driven shaft (30) with be equipped with synchronous chain (22) between power shaft (35), keep away from supporting seat (17) fixed plate (11) a terminal surface has linked firmly pneumatic cylinder (18), pneumatic cylinder (18) one end hydraulic connection has hydraulic cylinder (31), hydraulic cylinder (31) one end fixedly connected with axis of rotation (28), it is connected with synchronizing wheel (32) to rotate on axis of rotation (28) outer peripheral face, it is connected with action wheel (27) to rotate on driven shaft (30) outer peripheral face, action wheel (27) with the transmission is connected between synchronizing wheel (32).

2. The outer wall cleaning device for the continuous conveying stainless steel tubes according to claim 1, wherein the cleaning mechanism for the stainless steel tubes comprises an annular support (12) arranged on a fixing plate (11), a fixer (13) is arranged on the annular support (12), a spray pipe (14) penetrating through two ends of the fixer (13) is arranged in the fixer (13), and one end of the spray pipe (14) is externally connected with a cleaning water pump.

3. The outer wall cleaning device for the continuously conveying stainless steel pipe as claimed in claim 1, wherein the stainless steel pipe output mechanism comprises a plurality of supporting seats (17) arranged on a fixing plate (11), a pair of supports (26) is fixedly connected to the supporting seats (17), a transmission shaft (20) is arranged between the supports (26), one end of the transmission shaft (20) is connected with a conveying motor (21), the conveying motor (21) is in power connection with the transmission shaft (20), rollers (19) are fixedly connected to the outer peripheral surface of the transmission shaft (20), the rollers (19) are connected through the transmission shaft (20), and the steel pipe (15) to be treated is conveyed through the rollers (19).

4. The apparatus for cleaning the outer wall of a continuously feeding stainless steel tube as claimed in claim 3, wherein the rollers (29) of the driven shaft (30) of the pair of connecting brackets (33) are disposed to be inclined in opposite directions, and the rollers (19) of the driving shaft (20) of the pair of brackets (26) are disposed to be inclined in opposite directions, thereby driving the stainless steel tube to perform an axial screw-type movement.

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