CN219899663U - Pipe material surface cleaning device - Google Patents

Abstract

The utility model relates to the field of cold-rolled pipes, in particular to a pipe surface cleaning device which comprises a feeding machine, a cleaning mechanism and a receiving machine, wherein the feeding machine is used for transferring pipe materials to the cleaning mechanism, the cleaning mechanism is arranged at the top end of the feeding machine and used for cleaning the pipe materials and conveying the pipe materials to the receiving machine, and the receiving machine is arranged at the conveying end point of a conveying groove and used for transferring the cleaned pipe materials. According to the utility model, the pipe material is conveyed towards the cleaning support through the cleaning mechanism, and stains on the surface of the pipe material are cleaned through the cleaning support and the cleaning cloth.

Description

Pipe material surface cleaning device

Technical Field

The utility model relates to the field of cold-rolled pipes, in particular to a pipe material surface cleaning device.

Background

With the rapid development of economy, cold pilger mills are widely applied in China, seamless steel pipes are already applied to various fields of national economy nowadays, and the demand for the seamless steel pipes is also increasing; the seamless steel tube produced by cold drawing process is replaced by cold rolling process, and cold pilger mill in the prior art generally comprises a feeding mechanism, a rotation mechanism, a feeding mechanism, a rolling mechanism and a discharging mechanism. The rolling mechanism is the core of the cold pilger mill, and the rolling machine head is driven by the connecting rod to make the rolling machine head reciprocate on the guide rail so as to make the roller roll and roll on the surface of the common pipe to form a precise pipe.

The surface of the common pipe material is provided with stains such as greasy dirt and dust, the prior art is generally not cleaned to directly carry out the next process or put into a feeding mechanism after being cleaned manually, but the stains on the surface of the uncleaned pipe material can influence the quality of a final finished product, the manual cleaning efficiency is low, and the production efficiency is influenced.

Disclosure of Invention

The main object of the present utility model is to overcome the drawbacks of the prior art and to provide a tube surface cleaning device which conveys the tube towards a cleaning support by a cleaning mechanism and cleans stains on the surface of the tube by the cleaning support and a cleaning cloth.

The utility model adopts the following technical scheme:

the utility model provides a pipe material surface cleaning device, includes material loading machine, clean mechanism and material receiving machine, the material loading machine includes feeding slide and feed mechanism, the feeding slide is used for depositing the pipe material, the feed mechanism sets up one side at the feeding slide and is used for transferring the pipe material on the feeding slide to clean mechanism, clean mechanism sets up the top of feed mechanism is used for cleaning the pipe material and conveys to the material receiving machine on, clean mechanism includes conveyer trough, pushing plate, pushing drive, clean support and clean cloth, the conveyer trough sets up at the top of feed mechanism the conveyer trough extends about along the horizontal direction and is used for accepting the pipe material that the feed mechanism shifted, the pushing plate can slide along the conveyer trough and set up on the conveyer trough, the pushing drive is connected and is driven the pushing plate and slide, clean support sets up on the conveyer trough and is located the direction of delivery of pipe material, clean cloth sets up on clean support, and when the pipe material passes through clean support along the direction, clean cloth can contact and clean pipe material surface, the material receiving machine sets up the conveyer trough and is used for accomplishing clean the finishing the end of pipe material that the conveyer trough.

Further, a plurality of cleaning supports are arranged on the conveying groove and are arranged at intervals in parallel along the extending direction of the conveying groove, the cleaning supports are of a gantry structure with an arc-shaped groove, the arc-shaped groove surrounds a cleaning interval of the pipe material in the conveying groove, and the cleaning cloth is coated on the cleaning supports.

Further, the pushing drive is a linear module, the track of the linear module is arranged on one side of the conveying groove and extends along the extending direction of the conveying groove, and the pushing plate is arranged on the sliding block of the linear module.

Further, the material receiving machine comprises a material receiving table, a blowing pipe and a material receiving slideway, wherein the material receiving table is arranged at one end of the conveying groove and is positioned at the end point of the conveying direction of the pipe material, the blowing pipe is arranged on the material receiving table, the air outlet of the blowing pipe faces the material receiving slideway, and the material receiving slideway is connected to the material receiving table.

Further, the material collecting slideway comprises a material collecting plate and two material collecting side plates, wherein the two material collecting side plates are arranged on two sides of the material collecting plate, and a circular arc-shaped guide part is formed on one side, close to the material collecting table, of the material collecting side plates.

Further, a sensor is arranged on the material receiving table, and the sensor is arranged on one side, close to the conveying groove, of the material receiving table.

Further, feed mechanism includes mounting panel, lifter plate, lift drive and charging frame, the mounting panel sets up in feeding slide one side, just the mounting panel is arranged towards feeding slide one side slope and is formed with an contained angle between messenger's mounting panel and the frame, the lifter plate slidable sets up on the mounting panel, lift drive connects and drives the lifter plate and go up and down, the lift groove of lining up the mounting panel from front to back has been seted up on the mounting panel, the charging frame pass the lift groove with lifter plate fixed connection makes the charging frame with the lifter plate is located the both sides of mounting panel respectively just the charging frame can be along with the lifter plate goes up and down, works as the lifter plate reduces to when bottommost, the top of charging frame is less than feeding slide.

Further, the material loading frame includes two year flitch, two carry the flitch along the lift direction extension and two carry the parallel interval arrangement of flitch, two have been seted up correspondingly on the mounting panel the lift groove, have a installation department on the year flitch, the installation department passes lift groove fixed connection lifter plate.

Further, an inclined bearing surface is formed at the top of the material carrying plate, the bearing surface faces one side of the mounting plate, and a material carrying space for supporting the pipe material is formed between the bearing surface and the mounting plate.

Further, the feeding slide way comprises a feeding plate and feeding side plates, wherein the feeding plate is obliquely arranged, the feeding side plates are arranged on two sides of the feeding plate, fixing parts of the vertical side plates are formed on the feeding side plates in an extending mode, the two feeding side plates are arranged on two sides of the feeding plate at intervals in parallel, the fixing parts on the two feeding side plates face the outer side of the feeding slide way, two feeding ports are formed in the feeding plate, which is close to one side of the mounting plate, the feeding ports are in one-to-one correspondence with the material carrying plates, and the mounting plate is connected with the fixing parts through bolts, so that the material carrying plates are located at the positions of the feeding ports.

As can be seen from the above description of the present utility model, compared with the prior art, the present utility model has the following beneficial effects:

first, accept the pipe material that feed mechanism shifted through the conveyer trough to carry the direction of pipe material orientation clean support in the conveyer trough through the flitch, and clean the pipe material surface through the clean cloth on the clean support, clean up the spot on pipe material surface, improve the quality of final cold rolled tube finished product.

Secondly, transferring the cleaned pipe material through a material receiving machine and carrying out the next step of the cold-rolling pipe process, so that the production efficiency is improved, and a circular arc-shaped guide part is formed on a side plate of the material receiving slideway, and the pipe material is guided to accurately fall into the material receiving slideway through the guide part and is transferred to the next step of the cold-rolling pipe process.

Thirdly, set up lifter plate and charging frame through the mounting panel in one side of feeding slide to drive the charging frame through the lifter plate and go up and down the material loading, the mounting panel sets up towards feeding slide one side slope, but when there is the condition that stacks of a plurality of tubings on the charging frame, because the mounting panel inclines towards feeding slide one side, stacks in the change of upper pipe and inclines towards feeding slide one side skew slip, finally falls into in the feeding slide, ensures that the charging frame only carries a root canal material once.

Fourth, go up the work or material rest for two and follow the parallel interval of carrying flitch that the lifting direction extends and constitute, but when going up the work or material rest and transporting the pipe material, the lower half of carrying the flitch can form spacing effect to the pipe material in the feeding slide, avoids the pipe material to slide and influences the transportation, has realized unilateral lift and has transported the pipe material, can reduce the interior material stack situation of feeding slide simultaneously.

Fifthly, the top end of the material carrying plate is provided with an inclined carrying surface, a material carrying space for placing the pipe material is formed between the inclined carrying surface and the mounting plate, and the pipe material at the bottommost layer is prevented from sliding and falling due to the inclination of the mounting plate.

Sixth, adopt cylinder drive lifter plate to go up and down to drive the flitch that carries through going up and down, simple structure, simple to operate, and can improve the durability of device and simplify the maintenance process.

Drawings

FIG. 1 is a schematic overall structure of a specific embodiment of the present utility model;

FIG. 2 is a schematic view of a portion of the structure of a specific embodiment of the present utility model showing the structure of the loader and the cleaning structure;

FIG. 3 is a side view of a portion of the structure of an embodiment of the present utility model showing the mounting between the loading mechanism and the feed chute;

FIG. 4 is a schematic illustration of the construction of the present feed chute using a novel form;

FIG. 5 is a schematic view of the structure of the feeding mechanism and the cleaning mechanism of the present utility model;

FIG. 6 is a schematic view of the structure of the lift plate and the carrier plate of the present utility model;

fig. 7 is a schematic structural view of the receiving machine of the present utility model.

In the figure: 1. the feeding machine comprises a feeding machine body 10, a machine frame 11, a feeding slideway 110, a feeding plate 111, a feeding side plate 112, a fixing part 113, a feeding port 12, a feeding mechanism 120, a mounting plate 1200, a lifting groove 1201, a lifting sliding rail 121, a lifting plate 1210, a lifting sliding block 122, a lifting cylinder 123, a feeding frame 1230, a carrying plate 1231 and a carrying surface.

2. The cleaning mechanism, 20, a conveying groove, 21, a pushing plate, 22, a pushing drive and 23, a cleaning bracket;

3. a material receiving machine, 30, a material receiving table, 31, a blowing pipe, 32, a material receiving slideway, 320, a material receiving plate 321, a material collecting side plate, 322, a guide part, 323, a limiting plate, 324, a second sensor and 33;

4. and (5) pipe material.

Detailed Description

The utility model is further described below by means of specific embodiments.

Referring to fig. 1 to 7, the pipe surface cleaning device of the utility model comprises a feeding machine 1, a cleaning mechanism 2 and a collecting machine 3, wherein the feeding machine 1 comprises a feeding slideway 10 and a feeding mechanism 11, the feeding slideway 10 is used for storing the pipe 4, the feeding mechanism 11 is arranged on one side of the feeding slideway 10 and is used for transferring the pipe 4 on the feeding slideway 10 to the cleaning mechanism 2, the cleaning mechanism 2 is arranged at the top end of the feeding mechanism 11 and is used for cleaning and conveying the pipe 4 to the collecting machine 3, the cleaning mechanism 2 comprises a conveying groove 20, a pushing plate 21, a pushing driving 22, a cleaning support 23 and a cleaning cloth, the conveying groove 20 is arranged at the top of the feeding mechanism 11, the conveying groove 20 extends horizontally and is used for receiving the pipe 4 transferred by the feeding mechanism 11, the pushing plate 21 can be arranged on the conveying groove 20 in a sliding manner, the pushing driving 22 is connected with and drives the pushing plate 21 to slide, the cleaning support 23 is arranged on the conveying groove 20 and is positioned on the conveying cloth 4 in the conveying groove 23 and is used for cleaning the pipe 4 to be contacted with the cleaning support 4 in the conveying direction when the cleaning support 23 is arranged on the conveying groove 4 and the collecting machine 3.

The feeding machine 1 comprises a frame 10, a feeding slideway 11 and a feeding mechanism 12, wherein the feeding slideway 11 is arranged on the frame 10, the feeding mechanism 12 is arranged on one side of the feeding slideway 11, the feeding mechanism 12 comprises a mounting plate 120, a lifting plate 121, a lifting cylinder 122 and a feeding frame 123, the mounting plate 120 is arranged on one side of the feeding slideway 11, the mounting plate 120 is obliquely arranged towards one side of the feeding slideway 11 to form an included angle between the mounting plate 120 and the frame 1, the lifting plate 121 is slidably arranged on the mounting plate 120, the lifting cylinder 122 is connected with and drives the lifting plate 121 to lift, a lifting groove 1200 penetrating through the mounting plate from front to back is formed in the mounting plate 120, the feeding frame 123 penetrates through the lifting groove 1200 and is fixedly connected with the lifting plate 121, so that the feeding frame 123 and the lifting plate 121 are respectively arranged on two sides of the mounting plate 120 and can lift along with the lifting plate 121, and when the lifting plate 121 is lowered to the bottommost part, the top of the feeding frame 123 is lower than the feeding slideway 11.

The loading frame 123 includes two loading plates 1230, two loading plates 1230 extend along the lifting direction and two loading plates 1230 are arranged at intervals in parallel, two lifting grooves 1200 are correspondingly formed in the mounting plate 120, and a mounting portion is formed on the loading plates 1230 and penetrates through the lifting grooves 1200 to be fixedly connected with the lifting plates 121. The top of the loading plate 1230 is formed with an inclined loading surface 1231, the loading surface 1231 faces to the side of the mounting plate 120, and a loading space for supporting the pipe 4 is formed between the loading surface 1231 and the mounting plate 120.

The feeding slideway 11 comprises a feeding plate 110 and feeding side plates 111 arranged at two sides of the feeding plate 110 in an inclined manner, fixing portions 112 perpendicular to the feeding side plates 111 are formed on the feeding side plates 111 in an extending manner, the two feeding side plates 111 are arranged at two sides of the feeding plate 110 at intervals in parallel, the fixing portions 112 on the two feeding side plates 111 face the outer side of the feeding slideway 11, two feeding ports 113 are formed on one side, close to the mounting plate 120, of the feeding plate 110, the feeding ports 113 are in one-to-one correspondence with the carrying plates 1230, and the mounting plate 120 is connected with the fixing portions 112 through bolts, so that the carrying plates 1230 are located at the positions of the feeding ports 113.

The mounting plate 120 is provided with two lifting slide rails 1201, the two lifting slide rails 1201 are arranged in parallel at intervals, the two lifting slide rails 1201 are respectively located at two sides of the lifting groove 1200, the lifting plate 121 is correspondingly provided with two lifting slide blocks 1210, and the two lifting slide blocks 1210 are respectively arranged on the two lifting slide rails 1201 in a lifting manner, so that the lifting plate 121 can lift along the lifting slide rails 1201. The lifting plate 121 is provided with a screw hole, and the piston of the lifting cylinder 122 is in threaded connection with the lifting plate 121 through a bolt and the screw hole.

The conveying groove 20 is provided with a plurality of cleaning supports 23, the cleaning supports 23 are arranged at intervals in parallel along the extending direction of the conveying groove 20, the cleaning supports 23 are of a gantry structure with an arc-shaped groove, the arc-shaped groove and the conveying groove 20 enclose a cleaning interval of the pipe material 4, and the cleaning cloth is coated on the cleaning supports 23. The pushing drive 22 is a linear module, the track of the linear module is disposed on one side of the conveying groove 20 and extends along the extending direction of the conveying groove 20, and the pushing plate 21 is disposed on the slider of the linear module.

The material receiving machine 3 comprises a material receiving table 30, a blowing pipe 31 and a material receiving slide way 32, wherein the material receiving table 30 is arranged at one end of the conveying groove 20 and is positioned at the end point of the conveying direction of the pipe material 4, the blowing pipe 31 is arranged on the material receiving table 30, the air outlet of the blowing pipe 31 faces the material receiving slide way 32, and the material receiving slide way 32 is connected with the material receiving table 30. The material receiving slideway 32 comprises a material receiving plate 320 and two material receiving side plates 321, the two material receiving side plates 321 are arranged on two sides of the material receiving plate 320, and a circular arc-shaped guiding part 322 is formed on one side of the material receiving side plate 321, which is close to the material receiving table 30. The material receiving table 30 is provided with a sensor 33, and the sensor 33 is arranged at one side of the material receiving table 30, which is close to the conveying groove 20. The limiting plate 323 is arranged above the material receiving slide 32, and the limiting plate 323 is used for limiting the position of the pipe material 4 in the material receiving slide 32 and preventing the pipe material 4 from stacking in the material receiving slide 32 or falling out of the material receiving slide 32. The second sensor 324 is disposed at a position on the limiting plate 323 near one side of the material receiving platform 30, the second sensor 324 is used for detecting a material level in the material receiving slide 32, and when the material receiving slide 32 is full of the material 4, the second sensor 324 can send out a signal to avoid the escape of the material 4 caused by the full load of the material receiving slide 32.

With continued reference to fig. 1 to 7, in the use of the present utility model, when the pipe material 4 slides to the bottom of the feed chute 11 along the feed chute 11, the lifting cylinder 122 is started, the lifting cylinder 122 drives the lifting plate 121 to lift along the lifting slide rail 1201, the carrying plate 1230 passes through the lifting groove 1200 and is fixedly connected with the lifting plate 121 to lift along with the lifting plate 121, when the carrying plate 1230 passes through the feeding port 113 on the feeding plate 110, the pipe material 4 located at the position of the feeding port 113 enters the carrying space formed between the carrying plate 1230 and the mounting plate 120, the carrying surface 1231 supports the pipe material 4 to lift, the rest of the pipe material 4 on the feed chute 11 is blocked by the carrying plate 1230 and cannot slide to the position of the feeding port 113, after the carrying plate 1230 supports the pipe material 4 to lift and transfer, the lifting cylinder 122 drives the carrying plate 1230 to descend to the lowest point, the blocking of the pipe material 4 is not removed from the position of the carrying plate 1230, and the lifting cylinder 122 drives the carrying plate 1230 to lift again until all the pipe material 4 transfer is completed.

When the carrier 1230 carries a plurality of stacked tubes 4, because the mounting plate 120 is inclined toward the feeding chute 11, and the tubes 4 are cylindrical, the stacked state between the tubes 4 and 4 is unstable, and the inclined angle becomes larger as the carrier 1230 rises, the stacked tubes 4 slide and finally fall into the feeding chute 11, so that the loading frame 123 is ensured to transfer only one tube 4 at a time. Because the loading plate 1230 extends along the lifting direction, when the loading plate 1230 ascends, the lower part of the loading plate 1230 forms a limiting effect on the pipe 4 in the feeding chute 11, so that the pipe 4 in the feeding chute 11 cannot slide to the position of the feeding port 113, when the loading plate 1230 descends to the lowest position, the top end of the loading plate 1230 is lower than the feeding chute 11, the pipe 4 in the feeding chute 11 loses the blocking of the loading plate 1230 and slides to the position of the feeding port 113, the conveying process is prevented from being influenced by the pipe 4, and meanwhile, the stacking condition of the pipe 4 at the position of the feeding port 113 in the feeding chute 11 can be reduced.

The carrying plate 1230 transfers the pipe material 4 into the conveying groove 20, the linear module drives the pushing plate 21 to slide along the conveying groove 20, the pushing plate 21 pushes the pipe material 4 to move along the conveying groove 20 towards one side of the cleaning support 23, when the pipe material 4 passes through the cleaning support 23, cleaning cloth on the cleaning support 23 cleans the surface of the pipe material 4, the pipe material 4 is continuously pushed by the pushing plate 21, the cleaning cloth continuously cleans the pipe material 4 until the whole pipe material 4 is sent to the material receiving table 30 through the cleaning support 23, and the cleaning of the pipe material 4 is completed.

After the pipe material 4 enters the material receiving table 30, the linear module drives the material pushing plate 21 to reset, the sensor 33 detects that the pipe material 4 enters the material receiving table 30 and controls the blowing pipe 31 to blow, the blowing pipe 31 blows the pipe material 4 on the material receiving table 30 towards the direction of the material receiving slide 32, the pipe material 4 rolls towards the material receiving slide 32 and falls into the material receiving slide 32, circular arc-shaped guide parts 322 are formed on two material receiving side plates 321 of the material receiving slide 32, the pipe material 4 can be guided to accurately fall into the material receiving slide 32, the limiting plate 323 above the material receiving slide 32 limits the position of the pipe material 4, and the pipe material 4 is prevented from forming a stacking state in the material receiving slide 32 or the pipe material 4 slides out of the material receiving slide 32.

The foregoing is merely one specific embodiment of the present utility model, but the design concept of the present utility model is not limited thereto, and any insubstantial modification of the present utility model by using the concept shall belong to the behavior of infringement of the protection scope of the present utility model.

Claims (10)

1. A tube surface cleaning device, characterized in that: including material loading machine, clean mechanism and material receiving machine, the material loading machine includes feeding slide and feed mechanism, the feeding slide is used for depositing the pipe material, the feed mechanism sets up one side at the feeding slide and is used for transferring the pipe material on the feeding slide to clean mechanism, clean mechanism sets up the top of feed mechanism is used for cleaning and conveying the pipe material to the material receiving machine on, clean mechanism includes conveyer trough, pushing plate, pushing drive, clean support and clean cloth, the conveyer trough sets up at the top of feed mechanism the conveyer trough extends about along the horizontal direction and is used for bearing the pipe material that the feed mechanism shifted, the pushing plate can slide along the conveyer trough and set up on the conveyer trough, pushing drive is connected and is driven the pushing plate and slide, clean support sets up on the conveyer trough and is located the direction of delivery of pipe material, clean cloth sets up on clean support, when the pipe material passes through clean support along the direction of delivery, clean cloth contactable and clean pipe material surface, the material receiving machine sets up the conveyer trough along the horizontal direction about the pipe material conveying that is used for accomplishing the clean finishing of pipe material that shifts.

2. A tubing surface cleaning apparatus according to claim 1, wherein: the cleaning device comprises a conveying groove, wherein a plurality of cleaning supports are arranged on the conveying groove, the cleaning supports are arranged at intervals in parallel along the extending direction of the conveying groove, the cleaning supports are of a gantry structure with an arc-shaped groove, the arc-shaped groove surrounds a cleaning interval of a pipe material in the conveying groove, and cleaning cloth is coated on the cleaning supports.

3. A tubing surface cleaning apparatus according to claim 2, wherein: the pushing drive is a linear module, a track of the linear module is arranged on one side of the conveying groove and extends along the extending direction of the conveying groove, and the pushing plate is arranged on a sliding block of the linear module.

4. A tubing surface cleaning apparatus according to claim 1, wherein: the material collecting machine comprises a material collecting table, a blowing pipe and a material collecting slide way, wherein the material collecting table is arranged at one end of the conveying groove and is positioned at the end point of the conveying direction of the pipe material, the blowing pipe is arranged on the material collecting table, the air outlet of the blowing pipe faces the material collecting slide way, and the material collecting slide way is connected to the material collecting table.

5. A tubing surface cleaning apparatus according to claim 4, wherein: the material collecting slideway comprises a material collecting plate and two material collecting side plates, wherein the two material collecting side plates are arranged on two sides of the material collecting plate, and a circular arc-shaped guide part is formed on one side, close to the material collecting table, of the material collecting side plates.

6. A tubing surface cleaning apparatus according to claim 4, wherein: the material receiving table is provided with a sensor, and the sensor is arranged on one side of the material receiving table, which is close to the conveying groove.

7. A tubing surface cleaning apparatus according to claim 1, wherein: the feeding mechanism comprises a mounting plate, a lifting plate, lifting driving and a feeding frame, wherein the mounting plate is arranged on one side of a feeding slide way, the mounting plate is obliquely arranged towards one side of the feeding slide way to form an included angle between the mounting plate and the frame, the lifting plate is slidably arranged on the mounting plate, the lifting driving is connected with and drives the lifting plate to lift, lifting grooves penetrating through the mounting plate from front to back are formed in the mounting plate, the feeding frame penetrates through the lifting grooves and is fixedly connected with the lifting plate, the feeding frame and the lifting plate are respectively located on two sides of the mounting plate and can lift along with the lifting plate, and when the lifting plate is lowered to the bottommost part, the top of the feeding frame is lower than the feeding slide way.

8. A tubing surface cleaning apparatus according to claim 7, wherein: the feeding frame comprises two material carrying plates, the two material carrying plates extend along the lifting direction and are arranged at intervals in parallel, the mounting plate is correspondingly provided with two lifting grooves, the material carrying plates are provided with a mounting part, and the mounting part penetrates through the lifting grooves to be fixedly connected with the lifting plates.

9. A tubing surface cleaning apparatus according to claim 8, wherein: the top of carrying the flitch is formed with a slope loading surface, the loading surface is towards mounting panel one side, form the load space that is used for bearing the pipe material between loading surface and the mounting panel.

10. A tubing surface cleaning apparatus according to claim 8, wherein: the feeding slide comprises a feeding plate and feeding side plates, wherein the feeding plate is obliquely arranged, the feeding side plates are arranged on two sides of the feeding plate, fixing portions of the vertical side plates are formed on the feeding side plates in an extending mode, the feeding side plates are arranged on two sides of the feeding plate at intervals in parallel, the fixing portions on the two feeding side plates face the outer side of the feeding slide, two feeding ports are formed in one side, close to the mounting plate, of the feeding plate, the feeding ports are in one-to-one correspondence with the loading plates, and the mounting plate is connected with the fixing portions through bolts so that the loading plates are located at the positions of the feeding ports.