CN210233986U - Winding arrangement wall pipe and manufacturing installation thereof - Google Patents

Abstract

The utility model discloses a winding structure wall pipe and a manufacturing device thereof, which are used for driving a first driving component for driving the pipe matrix to rotate; a first supply assembly for supplying a material tape wound around the tube base; a second supply assembly for supplying the reinforcing rib wound outside the web; a second drive assembly for driving the first feed assembly and the second feed assembly relative to the tubular base along the axial direction thereof; a heating mechanism for heating the tube substrate. And mounting the tube base body on the first driving assembly, then driving the tube base body to rotate, and simultaneously driving the first feeding assembly and the second feeding assembly to slide along the length direction of the tube base body by the second driving assembly. The heating mechanism heats the pipe base body while the pipe base body rotates, and the first supply assembly supplies the material belt to the pipe base body, so that the material belt layer is formed on the pipe base body in a spiral winding mode. And meanwhile, the second supply assembly supplies reinforcing ribs which are spirally wound on the material belt layer along with the rotation of the pipe base body to form the reinforcing ribs, so that the production of the wall pipe is completed.

Description

Winding arrangement wall pipe and manufacturing installation thereof

Technical Field

The utility model relates to a pipeline, concretely relates to winding arrangement wall pipe and manufacturing installation thereof.

Background

The High Density Polyethylene (HDPE) winding structure wall pipe is a structure wall flexible pipe with smooth inner wall and spiral reinforcing rib on the outer wall, which adopts high density polyethylene as raw material. The high-density polyethylene (HDPE) winding structure wall pipe is an environment-friendly, safe and energy-saving product, is light in weight, good in flexibility, stable in chemical property, corrosion-resistant and ageing-resistant, and is an ideal substitute for sewage pipes such as cement pipes and steel pipes. Therefore, it is necessary to provide a method for manufacturing a winding structure wall pipe to solve the above problems.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art existence, the utility model aims to provide a manufacturing installation of winding arrangement wall pipe.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a manufacturing device of a winding structure wall pipe is used for driving a first driving assembly for driving a pipe base body to rotate; a first supply assembly for supplying a material tape wound around the tube base; a second supply assembly for supplying the reinforcing rib wound outside the web; a second drive assembly for driving the first feed assembly and the second feed assembly relative to the tubular base along the axial direction thereof; the heating mechanism, the first supply assembly and the second supply assembly are arranged in sequence along the axial direction of the tube base body, and the heating mechanism, the first supply assembly and the second supply assembly are relatively static along the axial direction of the tube base body.

Through adopting above-mentioned technical scheme, install the pipe base member on first drive assembly, then the drive pipe base member rotation, the second drive assembly drives first supply assembly and second supply assembly and slides along pipe base member length direction simultaneously. The heating mechanism heats the pipe base body while the pipe base body rotates, and the first supply assembly supplies the material belt to the pipe base body, so that the material belt layer is formed on the pipe base body in a spiral winding mode. And meanwhile, the second supply assembly supplies reinforcing ribs which are spirally wound on the material belt layer along with the rotation of the pipe base body to form the reinforcing ribs, so that the production of the wall pipe is completed. Because the heating mechanism heats partial position of the tube base body, the material belts wound on the tube base body can be connected together more stably and tightly.

The utility model discloses a further set up to: the heating mechanism comprises a preheating flame spraying assembly and a heating flame spraying assembly, the heating flame spraying assembly is located between the preheating flame spraying assembly and the first supply assembly, the flame of the preheating flame spraying assembly and the outer wall of the pipe matrix are arranged at intervals, and the flame of the heating flame spraying assembly coats the outer wall of the pipe matrix.

Through adopting above-mentioned technical scheme, after preheating the flame projecting subassembly and preheating for the pipe base member, the heating flame projecting subassembly heats the pipe base member again to can prevent that disposable heating excessively leads to the pipe base member to become the fracture.

The utility model discloses a further set up to: including the frame and along pipe base member sliding connection in the mount pad of frame, heating mechanism, first supply assembly and second supply assembly all install on the mount pad, second drive assembly includes interconnect's cylinder, two five-way solenoid valves, air pump in proper order, two five-way solenoid valves and air pump pass through the connecting pipe and connect, be equipped with the governing valve that is used for controlling the air input on the connecting pipe.

By adopting the technical scheme, the air inlet and exhaust directions of the air cylinder can be adjusted through the two-position five-way electromagnetic valve, so that the air cylinder can stretch and retract. Through adjusting the governing valve, adjustable air input to adjust the admission speed, realize the regulation of cylinder piston rod stretching speed, and then adjust the pitch of material area and reinforcing rib winding on the pipe base member. The device is suitable for more occasions.

The utility model discloses a further set up to: the electronic tag device further comprises a feeding mechanism for supplying the electronic tag so that the electronic tag is installed in the wall pipe.

Through adopting above-mentioned technical scheme, can install electronic tags in the wall pipe that makes the production, all information of wall pipe are all types into in electronic tags, when needs maintenance or when detecting the inspection, only need can acquire all information through reading the record in the electronic tags, conveniently maintain it.

The utility model discloses a further set up to: the feeding mechanism comprises a vibrating disk for screening materials and a waiting and taking mechanism which is connected with the vibrating disk and used for temporarily storing the inserts; the feeding mechanism is used for feeding the electronic tags to the material belt or the reinforcing rib, the feeding mechanism comprises a support and a guide rail used for guiding the electronic tag blanking position, the guide rail is obliquely and downwards arranged towards the material belt, one end of the guide rail is in butt joint with the material belt waiting mechanism, the other end of the guide rail is in butt joint with the material belt, and the guide rail is in positioning and rotating connection with the support.

Through adopting above-mentioned technical scheme, electronic tags passes through the vibration dish neatly and arranges on storing the track, then drops in proper order the guided way one by one, drops in the material area along the guided way. And then the electronic tag is stably installed in the wall pipe as the material belt is coated on the pipe base body. Therefore, the electronic tag can be installed in the wall pipe for production, all information of the wall pipe is recorded in the electronic tag, when maintenance is needed or detection and inspection are carried out, all information can be acquired only by reading records in the electronic tag, and maintenance is conveniently carried out on the wall pipe.

The utility model discloses a further set up to: be equipped with the first guiding mechanism who is used for the direction to take the feeding direction on the mount pad, first guiding mechanism is including being used for the direction to take the first guide roll of winding on the pipe base member and being used for connecting the first connecting seat on the mount pad with first guide roll, first guide roll is equipped with two and is located pipe base member lower extreme and pipe base member respectively and is close to first supply assembly one side, is located the first guide roll butt of pipe base member lower extreme in the pipe base member.

By adopting the technical scheme, the first guide roller positioned on one side of the pipe base body close to the first supply assembly supports the left side and the right side of the material belt, so that the material belt can be fed more smoothly; and the first guide roll positioned at the lower end of the tube base body can tightly support the material belt on the tube base body, so that the material belt can be well combined on the tube base body, and the product quality is improved.

The utility model discloses a further set up to: the first connecting seat comprises a sliding rail, a base and a first guide roller, wherein the sliding rail is arranged along the length direction of the material belt, the base is arranged on the sliding rail in a positioning sliding mode, the first guide roller is positioned on one side, close to the first supply assembly, of the pipe base and is rotatably connected to the base, the two sides of the base are rotatably connected with adjusting rods in a positioning mode, and the first guide roller is positioned on the lower end of the pipe base and is rotatably connected to the two adjusting rods.

By adopting the technical scheme, when the pipe base bodies with different diameters need to be processed, the positions of the two first guide rollers can be adjusted, so that the material belt supporting device still has the effects of supporting the material belt and tightly supporting the material belt on the pipe base body, and the applicability of the device is enlarged. Simultaneously when just beginning to install the material area on the pipe base member, can make the first guide roll that is located pipe base member lower extreme keep away from the pipe base member earlier, put into the material area between the two and make the first guide roll butt that is located pipe base member lower extreme in the pipe base member again, made things convenient for the installation of material area.

The utility model discloses a further set up to: the mounting seat is provided with a second guide mechanism used for guiding the feeding direction of the reinforcing rib, and the second guide mechanism comprises second guide rollers arranged on two sides of the reinforcing rib, a second connecting seat used for connecting the two second guide rollers, and a first connecting arm used for connecting the second connecting seat to the mounting seat.

Through adopting above-mentioned technical scheme, the second guide roll can control spacingly to the stiffening rib to make the stable transmission of stiffening rib feed into on the pipe base member.

The utility model discloses a further set up to: the second guide mechanism further comprises a guide wheel positioned above the reinforcing rib, the guide wheel is connected to the mounting seat through a second connecting arm, contact pins are arranged on the outer wall of the guide wheel, and a plurality of contact pins are arranged along the circumferential direction of the guide wheel.

Through adopting above-mentioned technical scheme, the leading wheel can play the effect of direction to the stiffening rib, cooperates two second guide rolls and second connecting seat to it is all spacing to make the stiffening rib all from top to bottom about, and then makes the steady transmission feeding of stiffening rib to the pipe base member on. The contact foot can reduce the area of contact of leading wheel and stiffening rib, and then reduce the possibility that the stiffening rib warp.

An object of the utility model is to provide a winding arrangement wall pipe can be from taking information record, conveniently maintains the maintenance.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a winding structure wall pipe comprises material belt layers formed by material belts and reinforcing ribs spirally wound and fixedly connected to the material belt layers, wherein electronic tags used for recording the type information of the wall pipe are clamped between the material belts of the material belt layers or between the material belt layers and the reinforcing ribs.

Through adopting above-mentioned technical scheme, all information of wall pipe are all types into in electronic tags, when needs maintenance or when detecting the inspection, only need can acquire all information through the record that reads in the electronic tags, conveniently maintain it.

The utility model has the advantages of it is following: 1. the pipe base body, the material belt layer and the reinforcing ribs are stably connected together, so that the product yield is high; 2. the wall pipe can be provided with information record, so that the maintenance is convenient; 3. the material belt and the reinforcing rib are stably fed, so that the production is smooth; 4. the method is suitable for producing wall pipes with various diameters and various screw pitches, and has wide applicability.

Drawings

FIG. 1 is a schematic structural diagram of a fourth embodiment;

FIG. 2 is a schematic structural diagram of a second driving assembly according to a fourth embodiment;

FIG. 3 is a partial schematic view of a fourth embodiment;

FIG. 4 is a sectional view of the fourth embodiment;

FIG. 5 is a schematic structural view of a first guide mechanism according to a fourth embodiment;

FIG. 6 is a schematic structural view of a second guide mechanism according to a fourth embodiment;

FIG. 7 is a partial schematic view of a guide wheel according to a fourth embodiment;

FIG. 8 is a plan view of the fifth embodiment;

FIG. 9 is a schematic structural view of a feeding mechanism according to a fifth embodiment;

fig. 10 is a schematic position diagram of the storage rail, the guide rail, and the material tape according to the sixth embodiment.

Reference numerals: 1. a tube base; 2. a material belt layer; 3. reinforcing ribs; 4. a first drive assembly; 5. a heating mechanism; 6. a first supply assembly; 7. a second supply assembly; 8. a mounting seat; 9. a second drive assembly; 10. a base plate; 11. a first mounting plate; 12. a second mounting plate; 13. a mounting member; 14. a driven gear; 15. a driving gear; 16. a drive motor; 17. preheating the flame spraying assembly; 18. heating the flaming assembly; 19. a cylinder; 20. a two-position five-way solenoid valve; 21. an air pump; 22. a connecting pipe; 23. adjusting a valve; 24. a first guide mechanism; 25. a first guide roller; 26. a first connecting seat; 27. a slide rail; 28. a support; 29. a slider; 30. a base; 31. adjusting a rod; 32. a connecting bolt; 33. a connecting nut; 34. a rack; 35. a drive gear; 36. a force application member; 37. a second guide mechanism; 38. a second guide roller; 39. a second connecting seat; 40. a first connecting arm; 41. a first arm; 42. a second arm; 43. adjusting the bolt; 44. a first regulating groove; 45. a second regulating groove; 46. adjusting the nut; 47. a guide wheel; 48. a second connecting arm; 49. a contact pin; 50. a third arm; 51. a fourth arm; 52. tightly abutting against the bolt; 53. a feeding mechanism; 54. a vibrating pan; 55. a storage track; 56. a first closing plate; 57. a second closing plate; 58. opening and closing the cylinder; 59. a guide rail; 60. the cylinder is rotated.

Detailed Description

The first embodiment is as follows:

a winding structure wall pipe comprises a pipe base body 1, a material belt layer 2 formed by spirally winding a material belt outside the pipe base body 1, and reinforcing ribs 3 fixedly connected to the material belt layer in a spirally winding mode. The strip of material and the ribs 3 may be made of polyethylene or polypropylene or the like. An electronic label is arranged between the tube base body 1 and the material belt. The material belt width is a, the pitch that the material belt and the reinforcing rib 3 are wound on the pipe base body 1 is b, and the electronic tag is located on the central line of the material belt along the width direction of the material belt. The specific model, material and the like of the pipeline can be known through the electronic tag, and subsequent maintenance is facilitated. For the structural strength of the wall pipe, the outer wall of the material belt layer 2 is spirally wound with a reinforcing rib 3, the reinforcing rib 3 does not cover the electronic tag, and the reinforcing rib 3 is pressed at the gap of the material belt layer 2.

Therefore, the reinforcing ribs can be prevented from influencing the reading of the electronic tags, and the electronic tags can be smoothly read during maintenance.

Example two:

the difference between the second embodiment and the first embodiment is that the electronic tag is located between the web layer 2 and the stiffener 3. Therefore, the probability that the electronic tag is damaged by external force can be reduced.

Example three:

the difference between the third embodiment and the first embodiment is that two electronic tags are respectively installed at two ends of the wall pipe. A recess is seted up to electronic tags accessible polishing or grooved mode on the wall pipe, installs electronic tags in the recess to on installing the electronic tags stable wall pipe. The electronic tag may be mounted to the wall tube by glue bonding. The electronic tag can also be additionally provided with a base, and the base is fixedly arranged on the wall pipe through screws.

The fourth embodiment:

as shown in fig. 1, a manufacturing apparatus of a winding structured wall pipe includes a frame for mounting a pipe base 1; the first driving component 4 is used for driving the tube base body 1 to rotate; a heating mechanism 5 for heating the tube base 1; a first supply unit 6 for supplying a tape wound around the tube base 1; a second supply assembly 7 for supplying the stiffening ribs 3 wound outside the strip; a mounting seat 8 for mounting the heating mechanism 5, the first supply assembly 6 and the second supply assembly 7; a second drive assembly 9 (not shown in fig. 1) for driving the mount 8 in axial movement along the tube base 1 relative to the machine frame. The heating mechanism 5, the first supply unit 6 and the second supply unit 7 are sequentially arranged on the mounting base 8 in the axial direction of the tube base 1.

As shown in fig. 1, the tube base 1 is mounted on the first driving unit 4, and then the tube base 1 is driven to rotate while the second driving unit 9 drives the mount 8 to slide along the length direction of the tube base 1. The heating mechanism 5 heats the tube base 1 while the tube base 1 is rotating, and the tape layer 2 is formed by spirally winding the tube base 1 by supplying the tape to the tube base 1 by the first supply unit 6. And simultaneously, the second supply assembly 7 supplies reinforcing ribs 3, and the reinforcing ribs 3 are spirally wound on the belting layer 2 along with the rotation of the pipe base 1 to form the reinforcing ribs 3. Because the heating mechanism 5 heats the partial position of the tube base body 1, the material belts wound on the tube base body 1 can be connected together more stably and tightly.

As shown in fig. 1, in particular, the frame includes a base plate 10, a first mounting plate 11 fixedly connected to the base plate 10, and a second mounting plate 12 slidably connected to the base plate 10 along a length direction of the pipe base 1. The second mounting plate 12 is provided with a driving cylinder (not shown) on one side for driving the second mounting plate 12 to move relative to the base plate 10, and the driving cylinder may be a hydraulic cylinder, an air cylinder, or the like. First mounting panel 11 all is equipped with the installed part 13 that is used for installing clamping pipe base member 1 towards second mounting panel 12 one side and second mounting panel 12 towards first mounting panel 11 one side, and installed part 13 can be the three-jaw chuck. The mounting member 13 is pivotally connected to the first mounting plate 11 and the second mounting plate 12. The mounting part 13 is fixedly sleeved with a driven gear 14, and a driving gear 15 is meshed with the driven gear 14. The first mounting plate 11 and the second mounting plate 12 are both provided with a driving motor 16 for driving the driving gear 15 to rotate. In operation, the tube base 1 is placed between the first mounting plate 11 and the second mounting plate 12, and the tube base 1 is clamped by the mounting member 13. Then, the driving motor 16 drives the driving gear 15 and the driven gear 14 to drive, so that the mounting part 13 drives the tube matrix 1 to rotate relative to the rack, and the rotation of the tube matrix 1 is realized. After the processing is finished, the mounting piece 13 is enabled to release the pipe base body 1, and then the mounting piece 13 on the second mounting plate 12 is driven to leave the pipe base body 1 through the driving cylinder, so that the material taking of the pipe base body 1 is completed.

As shown in fig. 1, the heating mechanism 5 includes a preheating flame projecting assembly 17 and a heating flame projecting assembly 18, the heating flame projecting assembly 18 is located between the preheating flame projecting assembly 17 and the first supply assembly 6, the flame of the preheating flame projecting assembly 17 is spaced from the outer wall of the tube base 1, and the flame of the heating flame projecting assembly 18 coats the outer wall of the tube base 1. After preheating the pipe matrix 1 through preheating the flame projecting subassembly 17, the heating flame projecting subassembly 18 heats pipe matrix 1 again to can prevent that once only heating excessively leads to pipe matrix 1 deformation fracture. The heating mechanism 5 may also be infrared electromagnetic heating or electric heating.

As shown in fig. 2, the second driving assembly 9 includes a cylinder 19, a two-position five-way solenoid valve 20, and an air pump 21, which are connected to each other in sequence, wherein a piston rod of the cylinder 19 is fixedly connected to the mounting base 8, and a cylinder body is fixedly connected to the bottom plate 10. The two-position five-way electromagnetic valve 20 is connected with the air pump 21 through a connecting pipe 22, and an adjusting valve 23 for controlling air inflow is arranged on the connecting pipe 22. The direction of air intake and exhaust of the air cylinder 19 can be adjusted through the two-position five-way electromagnetic valve 20, so that the expansion and contraction of the air cylinder 19 are realized. By adjusting the adjusting valve 23, the air inflow can be adjusted, so that the air inlet speed is adjusted, the expansion speed of the piston rod of the air cylinder 19 is adjusted, and the thread pitch of the material belt and the reinforcing rib 3 wound on the pipe base body 1 is adjusted.

As shown in fig. 1, in order to make the first supply unit 6 and the second supply unit 7 more stably supply materials, the mounting base 8 is provided with a first guide mechanism 24 for guiding the feeding direction of the material tape. As shown in fig. 3 and 4, the first guide mechanism 24 includes a first guide roller 25 for guiding the tape wound on the tube base 1 and a first connecting seat 26 for connecting the first guide roller 25 to the mounting seat 8. The first guide rollers 25 are provided in two and are respectively located at the lower end of the tube base 1 and at the side of the tube base 1 close to the first supply unit 6, and the first guide rollers 25 located at the lower end of the tube base 1 abut against the tube base 1.

As shown in fig. 3, the first connecting seat 26 includes a slide rail 27 disposed along the length direction of the material tape, a slide block 29 positioned and slidably connected to the slide rail 27, and a base 30 mounted on the slide block 29. The first guide roller 25 on the side of the tube base 1 adjacent to the first supply unit 6 is rotatably connected to the base 30. As shown in fig. 3 and 5, the base 30 is provided with adjustment bars 31 at both sides thereof, and the first guide roller 25 positioned at the lower end of the tube base 1 is rotatably coupled to the two adjustment bars 31. As shown in fig. 5, in order to facilitate the adjustment of the position of the first guide roller 25, the first guide roller 25 preferably abuts against the pipe base 1, a connecting bolt 32 is inserted into the adjusting rod 31, and the connecting bolt 32 penetrates through the two adjusting rods 31 and the base 30, so that the adjusting rod 31 is connected to the base 30. The connecting bolt 32 is rotatably connected to the base 30. A coupling nut 33 for fixedly coupling the coupling bolt 32 to the base 30 is threadedly coupled to one end of the coupling bolt 32. When the coupling nut 33 is tightened, the coupling bolt 32 and the coupling nut 33 clamp the base 30, thereby fixing the adjustment lever 31 with respect to the base 30. The adjustment of the position of the first guide roller 25 can be achieved by rotating the adjustment lever 31 with respect to the base 30, and the adjustment lever is brought into contact with the tube base 1.

As shown in fig. 3, in order to adjust the position of the first guide roller 25 according to the radius of the tube base 1, so that the first guide roller 25 positioned on the side of the tube base 1 close to the first supply unit 6 can better guide the tape, the slide block 29 is provided with a rack 34 along the length direction thereof, the rack 34 is engaged with a driving gear 35, the driving gear 35 is rotatably connected to the slide rail 27, and the driving gear 35 is provided with a force application member 36 for conveniently applying force thereto. The force application member 36 applies force to the driving gear 35, so that the driving gear 35 rotates to drive the sliding block 29 to slide on the sliding rail 27, and further drive the base 30 to move, thereby realizing the adjustment of the position of the first guide roller 25 on the side of the tube base body 1 close to the first supply component 6.

As shown in fig. 1, the mounting base 8 is provided with a second guiding mechanism 37 for guiding the feeding direction of the reinforcing rib 3, and as shown in fig. 3, the second guiding mechanism 37 includes second guiding rollers 38 disposed at both sides of the reinforcing rib 3, a second connecting base 39 for connecting the two second guiding rollers 38, and a first connecting arm 40 for connecting the second connecting base 39 to the mounting base 8. The second guide roller 38 is rotatably coupled to the second coupling seat 39. The second guide roller 38 can guide the discharge reinforcing rib 3, so that the reinforcing rib 3 is stably fed toward the tube base 1.

As shown in fig. 3 and 6, in order to allow the second guide roller 38 to better guide the reinforcing rib 3, the first connecting arm 40 includes a first arm 41 fixedly connected to the mounting seat 8, a second arm 42 fixedly connected to the second connecting seat 39, and an adjusting bolt 43. As shown in fig. 6, the first arm 41 is provided with a first adjusting groove 44 along the length direction thereof, the second arm 42 is provided with a second adjusting groove 45 along the length direction thereof, the adjusting bolt 43 passes through the first adjusting groove 44 and the second adjusting groove 45, and one end of the adjusting bolt 43 is in threaded connection with an adjusting nut 46 for abutting against the second arm 42. When the adjustment nut 46 is loosened, the relative positions of the first arm 41 and the second arm 42 can be adjusted, thereby adjusting the height of the second guide roller 38 and the position relative to the tube base 1. When the adjustment nut 46 is tightened, the second guide roller 38 can be stably maintained in the position adjusted by the person.

As shown in fig. 3, the second guiding mechanism 37 further comprises a guiding wheel 47 located above the reinforcing rib 3, the guiding wheel 47 is connected to the mounting base 8 through a second connecting arm 48, and the guiding wheel 47 is rotatably connected to the second connecting arm 48. As shown in fig. 7, the outer wall of the guide wheel 47 is provided with a plurality of contact pins 49, and the contact pins 49 are arranged along the circumferential direction of the guide wheel 47. In order to allow the guide wheel 47 to better guide the reinforcing rib 3, the second connecting arm 48 comprises a third arm 50 connected to the guide wheel 47 and a fourth arm 51 fixedly connected to the mounting 8. The third arm 50 is provided with a rotating shaft at an end thereof remote from the guide wheel 47, and the rotating shaft is rotatably connected to the fourth arm 51. The fourth arm 51 is screwed with a fastening bolt 52, and the fastening bolt 52 is fastened to the rotating shaft. Thereby fixing the third arm 50 relative to the fourth arm 51. When the position of the guide wheel 47 needs to be adjusted, the fastening bolt 52 can be loosened, so that the third arm 50 can rotate relative to the fourth arm 51 until the guide wheel 47 is adjusted to the required position, and then the fastening bolt 52 is tightened.

The working principle of the device is as follows:

1. placing the pipe base body 1 between a first mounting plate 11 and a second mounting plate 12, and clamping the pipe base body 1 through a mounting piece 13; the tube substrate 1 is driven to rotate by the first driving assembly 4;

2. after the preheating flame-throwing component 17 preheats the tube matrix 1, the heating flame-throwing component 18 heats the tube matrix 1;

3. the first supply assembly 6 supplies the material belt to the pipe base body 1, and meanwhile, the second drive assembly 9 drives the mounting seat 8 to move along the axial direction of the pipe base body 1, so that the material belt is spirally wound on the pipe base body 1 to form a material belt layer 2;

4. the second supply assembly 7 supplies the reinforcing ribs 3 to the tube base 1, and simultaneously the second drive assembly 9 drives the mounting seat 8 to move axially along the tube base 1, so that the reinforcing ribs 3 are spirally wound on the material belt layer 2; completing the production of the wall pipe;

5. if the pitch of the material belt and the reinforcing rib 3 is required to be adjusted during winding, the adjusting valve 23 can be adjusted to adjust the air inlet speed, so that the expansion and contraction speed of the piston rod of the air cylinder 19 can be adjusted, and the pitch of the material belt and the reinforcing rib 3 wound on the pipe base body 1 can be adjusted;

6. after the processing is finished, the mounting piece 13 is loosened from the pipe base body 1, and then the mounting piece 13 on the second mounting plate 12 is driven to leave the pipe base body 1 through the driving cylinder, so that the material taking of the pipe base body 1 is finished;

7. when the pipe base body 1 with different diameters needs to be processed, the positions of the first guide roller 25 and the second guide roller 38 can be adjusted, so that the first guide mechanism 24 and the second guide mechanism 37 can play a good role in guiding the material belt and the reinforcing ribs 3, and the device is suitable for more scenes.

Example five:

the difference between the fifth embodiment and the fourth embodiment is that, as shown in fig. 8, a feeding mechanism 53 for supplying the electronic tag is further included. As shown in fig. 9, the feeding mechanism 53 includes a vibrating tray 54 for sieving the material, and a waiting mechanism connected to the vibrating tray 54 for temporarily storing the insert; and the feeding mechanism is used for feeding the electronic tags to the upper part of the material belt. The waiting mechanism includes a storage rail 55 provided in communication with the vibration plate 54 in an inclined downward direction, a first closing plate 56 slidably coupled to the storage rail 55, and a second closing plate 57 slidably coupled to the storage rail 55. The first closing plate 56 and the second closing plate 57 are both driven by the opening and closing cylinder 58, thereby closing and opening the storage rail 55. The opening and closing cylinder 58 may be a hydraulic cylinder or an air cylinder.

The feeding mechanism comprises a guide rail 59 used for guiding the blanking position of the electronic tag, the guide rail 59 is obliquely and downwards arranged towards the material belt, and one end of the guide rail 59 is butted at the discharge end of the storage rail 55 while the other end is butted above the material belt.

In the initial state, the first closing plate 56 and the second closing plate 57 both close the storage rail 55. The electronic labels are arranged in alignment on the storage track 55 by means of a vibrating tray 54. The first closing plate 56 opens the storage track 55, an electronic tag is pushed in between the first closing plate 56 and the second closing plate 57, then the first closing plate 56 closes the storage track 55 again, the second closing plate 57 opens the storage track 55, and the electronic tag drops into the guide rail 59 and then drops into the tape along the guide rail 59. And then, as the material belt is coated on the tube base body 1, the electronic tag is stably installed in the wall tube.

Example six:

the difference between the sixth embodiment and the fifth embodiment is that the feeding mechanism further comprises a support 28 connected to the mounting 8, as shown in fig. 10. The guide rail 59 is pivotally connected to the support 28. A rotating cylinder 60 for driving the guide rail 59 to rotate relative to the support 28 is arranged below the guide rail 59, and the rotating cylinder 60 can be a hydraulic cylinder or an air cylinder. The two ends of the rotating cylinder 60 are respectively connected to the guide rail 59 and the mounting base 8 in a rotating manner.

When the tape width changes, the rotatable cylinder 60 drives the guide rail 59 to move relative to the storage track 55, so that the electronic tag falls on the desired tape position.

Example seven:

the seventh embodiment differs from the fifth embodiment in that one end of the guide rail 59 corresponds to the reinforcing rib 3. Not shown in the drawings. So that an electronic tag can be fitted between the stiffener 3 and the layer of material 2 after the stiffener 3 has been wound around the wall tube.

Example eight:

the difference between the eighth embodiment and the seventh embodiment is that the feeding mechanism 53 is a manual operation, and the electronic tag is manually placed on the reinforcing rib 3. So that the electronic tag can be mounted on the wall pipe after the reinforcing rib 3 is wound on the wall pipe.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A manufacturing device of a winding structure wall pipe is characterized in that: comprises a first driving component (4) for driving the tube base body (1) to rotate; a first supply assembly (6) for supplying a strip of wrapping material wound around the tubular base body (1); a second supply assembly (7) for supplying the stiffening ribs (3) wound outside the strip; a second driving assembly (9) for driving the first feeding assembly (6) and the second feeding assembly (7) to move relative to the pipe base body (1) along the axial direction thereof; the heating device comprises a heating mechanism (5) used for heating a pipe base body (1), wherein the heating mechanism (5), a first supply assembly (6) and a second supply assembly (7) are sequentially arranged along the axial direction of the pipe base body (1), and the heating mechanism (5), the first supply assembly (6) and the second supply assembly (7) are relatively static along the axial direction of the pipe base body (1).

2. The apparatus of claim 1 for manufacturing a wound structural wall pipe, wherein: heating mechanism (5) are including preheating flame projecting subassembly (17) and heating flame projecting subassembly (18), heating flame projecting subassembly (18) are located and preheat between flame projecting subassembly (17) and first supply assembly (6), the flame of preheating flame projecting subassembly (17) is the interval setting with pipe base member (1) outer wall, the flame cladding pipe base member (1) outer wall of heating flame projecting subassembly (18).

3. The apparatus of claim 2 for manufacturing a wound structural wall pipe, wherein: including the frame and along pipe base member (1) sliding connection in mount pad (8) of frame, heating mechanism (5), first supply with subassembly (6) and second supply with subassembly (7) and all install on mount pad (8), second drive assembly (9) are including interconnect's cylinder (19), two five-way solenoid valve (20), air pump (21) in proper order, two five-way solenoid valve (20) and air pump (21) are connected through connecting pipe (22), be equipped with governing valve (23) that are used for controlling the air input on connecting pipe (22).

4. A winding structured wall pipe manufacturing apparatus as claimed in claim 3, wherein: and a feeding mechanism (53) for supplying the electronic tag so that the electronic tag is installed in the wall pipe.

5. The manufacturing device of the winding structure wall pipe according to the claim 4, wherein the feeding mechanism (53) comprises a vibrating disk (54) for screening materials and a waiting mechanism connected with the vibrating disk (54) for temporarily storing the inserts; the feeding mechanism is used for feeding the electronic tags to the upper portion of the material belt and comprises a support (28) and a guide rail (59) used for guiding the blanking position of the electronic tags, the guide rail (59) is obliquely and downwards arranged towards the material belt, one end of the guide rail (59) is butted above the waiting and taking mechanism and the other end of the guide rail is butted with the material belt or the reinforcing rib (3), and the guide rail (59) is connected to the support (28) in a positioning and rotating mode.

6. The apparatus of claim 5 for manufacturing a wound structural wall pipe, wherein: be equipped with on mount pad (8) and be used for the first guiding mechanism (24) of direction material area feed direction, first guiding mechanism (24) are including being used for direction material area winding first guide roll (25) on pipe base member (1) and being used for connecting first guide roll (25) first connecting seat (26) on mount pad (8), first guide roll (25) are equipped with two and are located pipe base member (1) lower extreme and pipe base member (1) respectively and are close to first supply assembly (6) one side, are located first guide roll (25) butt in pipe base member (1) lower extreme.

7. The apparatus of claim 6, wherein: first connecting seat (26) are including slide rail (27), the location sliding connection that sets up along material area length direction in slide rail (27) slider (29) and install base (30) on slider (29), are located that pipe base member (1) is close to first guide roll (25) of supplying component (6) one side and rotate and connect in base (30), base (30) both sides location is rotated and is connected with regulation pole (31), is located that first guide roll (25) of pipe base member (1) lower extreme rotate and connects in two regulation poles (31).

8. The apparatus of claim 7 for manufacturing a wound structural wall pipe, wherein: the installation seat (8) is provided with a second guide mechanism (37) used for guiding the feeding direction of the reinforcing rib (3), and the second guide mechanism (37) comprises second guide rollers (38) arranged on two sides of the reinforcing rib (3), a second connecting seat (39) used for connecting the two second guide rollers (38), and a first connecting arm (40) used for connecting the second connecting seat (39) to the installation seat (8).

9. The apparatus of claim 8 for manufacturing a wound structural wall pipe, wherein: second guiding mechanism (37) still includes leading wheel (47) that are located stiffening rib (3) top, leading wheel (47) are connected in mount pad (8) through second linking arm (48), and leading wheel (47) outer wall is equipped with contact foot (49), contact foot (49) are equipped with a plurality of roots along leading wheel (47) circumference.

10. A wound structural wall pipe made using the apparatus of claim 4, wherein: the wall tube type information recording device comprises a material belt layer (2) formed by material belts and reinforcing ribs (3) which are spirally wound and fixedly connected to the material belt layer (2), wherein electronic tags used for recording wall tube type information are clamped between the material belts of the material belt layer (2) or between the material belt layer (2) and the reinforcing ribs (3).

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