CN119281859A - A pipe rolling device for processing corrugated pipes - Google Patents

Abstract

The invention relates to the technical field of pipeline production, and provides a pipe coiling device for corrugated pipe processing, which comprises a conveying frame, a forming frame, a first forming plate, a second forming plate and a sliding arc plate, wherein the conveying frame is provided with a plurality of conveying rollers used for conveying plates, the forming frame is arranged on one side of the conveying frame, the first forming plate is provided with a plurality of first forming grooves and is provided with a plurality of second forming grooves, the second forming plate is arranged on the forming frame, the conveying rollers, the first forming plate and the second forming plate are sequentially arranged at intervals along the conveying direction of the plates, the sliding arc plate is provided with a plurality of groups, each group of sliding arc plates is arranged in one first forming groove in a sliding mode, a forming space is formed between the sliding arc plate and another sliding arc plate or the first forming plate adjacent to the same group, and the forming space is used for forming pipes with different diameters. Through above-mentioned technical scheme, the bellows that has solved among the prior art processing different pipe diameters need be changed the shaping template, influence production efficiency's problem.

Description

Bellows processing is with reelpipe device

Technical Field

The invention relates to the technical field of pipeline production, in particular to a pipe coiling device for corrugated pipe processing.

Background

In modern industrial production, corrugated pipes are widely used in various fields, such as pipeline connection, automobile manufacturing, aerospace and the like, due to the characteristics of good flexibility, sealing performance, corrosion resistance and the like.

When producing, the bellows adopts continuous production generally, guarantees the efficiency in the production process, but in actual production process, faces the production of bellows of different pipe diameters, and current processing equipment needs to change the die of machine-shaping and then can carry out the production of other pipe diameters, and the time that the die was changed spends is very long, and the installation is accomplished and still need carry out many times debugging back and just can carry out actual production moreover, has caused the influence to the efficiency of production.

Disclosure of Invention

The invention provides a pipe coiling device for corrugated pipe processing, which solves the problems that in the prior art, when corrugated pipes are processed, coiled pipes with different diameters are coiled, different molding templates are required to be replaced in the pipe coiling molding operation, the replacement process is time-consuming and labor-consuming, and the production efficiency is low.

The technical scheme of the invention is as follows:

A pipe coiling device for corrugated pipe processing, which is used for processing a plate into a pipe, comprising:

the conveying frame is provided with a plurality of conveying rollers, and the conveying rollers are used for conveying the plates;

The forming frame is arranged at one side of the conveying frame;

The first forming plates are provided with a plurality of first forming grooves and are arranged on the forming frames;

The second forming plates are provided with a plurality of second forming grooves and are arranged on the forming frame, and the conveying rollers, the first forming plates and the second forming plates are sequentially arranged at intervals along the conveying direction of the plates;

The sliding arc plate is provided with a plurality of groups, each group of sliding arc plates are slidably arranged in one first forming groove, forming space is formed between the sliding arc plate and the other adjacent sliding arc plate or the first forming plate in the same group, and a plurality of different forming spaces are formed after the sliding arc plates slide, and different forming spaces are used for forming pipes with different diameters.

As a further technical scheme, the method further comprises:

The guide frames are arranged on a first group of sliding arc plates along the material conveying direction, each guide frame is arranged on one sliding arc plate in a sliding mode, the guide frames are positioned on one side, close to the conveying roller, of the sliding arc plates, and the guide frames are used for receiving plates conveyed by the conveying roller;

the guide rollers are provided with a plurality of guide frames and are rotatably arranged on the guide frames, and the guide rollers are used for guiding the plates.

As a further technical scheme, the method further comprises:

The pinch rollers are provided with a plurality of pinch rollers, are rotatably arranged on the sliding arc plate and the second forming plate, and are used for guiding and pressing the plate.

As a further technical scheme, the method further comprises:

And the limiting plates are arranged on the first forming plates and are used for preventing the sliding arc plates from being separated from the first forming grooves.

As a further technical scheme, the first forming plate is provided with a through hole, the sliding arc plate is provided with a fixing hole and a locking hole communicated with the fixing hole, and the sliding arc plate further comprises:

The telescopic piece is arranged on the first forming plate, a first telescopic rod is arranged on the telescopic piece, a plurality of matching holes are formed in the first telescopic rod, and the first telescopic rod penetrates through the through hole and enters the fixing hole;

The locking rod is detachably arranged on the sliding arc plate and penetrates through the locking hole and the matching hole, and the locking hole is used for fixing the sliding arc plate and the first telescopic rod.

As a further technical scheme, the locking rod penetrates through the fixing holes in the sliding arc plates.

As a further technical scheme, the second molding plates are arranged on the molding frame in a sliding manner, and each second molding plate is provided with a plurality of different second molding grooves.

As a further technical scheme, the pressing wheel on the second molding plate is positioned on one side above the second molding groove.

As a further technical scheme, the method further comprises:

The shaping pieces are provided with a plurality of shaping grooves and are arranged on the shaping frame in a sliding mode, and the shaping pieces are in butt joint or in a non-butt joint mode after sliding.

As a further technical scheme, the method further comprises:

The welding frame is arranged on the forming frame in a lifting manner and is used for welding the pipe subjected to compression forming.

The working principle and the beneficial effects of the invention are as follows:

according to the invention, the conveying rollers on the conveying frame can continuously and stably convey the plate, so that the plate can be ensured to smoothly advance in the processing process, and the production efficiency is greatly improved. The first forming plate and the second forming plate on the forming frame are matched with each other, and the plates are guided and formed step by step through the first forming groove and the second forming groove respectively, so that the plates can be accurately rolled into the shape of the pipeline. The sliding arc plate is arranged in the first forming groove in a sliding mode, the size of the forming space can be flexibly adjusted after the sliding arc plate slides, the forming requirement of pipes with different diameters is met, and the universality of the device is enhanced. The accurate forming process reduces waste products generated by inaccurate forming and reduces production cost. The device is simple to operate and easy to adjust and maintain.

Drawings

The above features, technical features, advantages and implementation of the present invention will be further described in the following description of preferred embodiments with reference to the accompanying drawings in a clear and easily understood manner.

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

FIG. 2 is a schematic view of another view of the present invention;

FIG. 3 is a schematic view of the first forming plate and related components of the present invention;

FIG. 4 is a schematic view of the structure of a first forming plate and a sliding arc plate of the present invention;

FIG. 5 is a schematic view of the structure of the sliding arc plate and the locking lever according to the present invention;

FIG. 6 is a schematic view of the structure of the telescopic member and the first telescopic rod according to the present invention;

Fig. 7 is a schematic structural view of a first molding plate according to the present invention.

In the figure, 1, a conveying frame, 2, conveying rollers, 3, a forming frame, 4, a first forming plate, 5, a first forming groove, 6, a second forming plate, 7, a second forming groove, 8, a sliding arc plate, 9, a forming space, 10, a guide frame, 11, a guide roller, 12, a pinch roller, 13, a limiting plate, 14, a through hole, 15, a fixing hole, 16, a locking hole, 17, a telescopic piece, 18, a first telescopic rod, 19, a matching hole, 20, a locking rod, 21, a shaping piece, 22 and a welding frame.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will explain the specific embodiments of the present invention with reference to the accompanying drawings. It will be apparent to those skilled in the art that the drawings in the following description are merely examples of the invention, and it is to be understood that a further technical solution may be provided without inventive effort by those skilled in the art, in which some of the components having the same structure or function are shown only one of them schematically or only one of them is shown. Herein, "a" means not only "only this one" but also "more than one", and "a number" includes "two" and "two or more".

In this context, unless explicitly stated or limited otherwise, the terms "mounted," "connected," "coupled," and "connected" are to be construed broadly, and may, for example, be fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or communicate between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In addition, in the description of the present application, the terms "first," "second," and the like are used merely to distinguish between descriptions and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-7, a pipe coiling device for corrugated pipe processing is provided, and is used for processing a plate into a pipe, and the pipe coiling device comprises a conveying frame 1, a plurality of conveying rollers 2, a forming frame 3, a plurality of first forming plates 4, a plurality of second forming plates 6, a plurality of second forming grooves 7, a plurality of groups of sliding arc plates 8, a plurality of forming spaces 9 formed between each group of sliding arc plates 8 and another sliding arc plate 8 or the first forming plates 4 adjacent to each other in the same group, wherein the plurality of first forming plates 3 are arranged on the forming frame 3, the plurality of second forming plates 6 are arranged on the forming frame 3, the second forming grooves 7 are formed on the second forming plates 6, the conveying rollers 2, the first forming plates 4 and the second forming plates 6 are sequentially arranged at intervals along the conveying direction of the plate, the sliding arc plates 8 are provided with a plurality of groups, each group of sliding arc plates 8 are slidably arranged in one first forming groove 5, the sliding arc plates 8 form forming spaces 9 with the other sliding arc plates 8 adjacent to each other in the same group, and the first forming plates 4 are slidably arranged, and the different forming spaces 9 are used for forming pipes with different diameters.

In this embodiment, the conveying roller 2 on the conveying frame 1 can continuously and stably convey the plate, so as to ensure that the plate smoothly moves forward in the processing process, and greatly improve the production efficiency. The first forming plate 4 and the second forming plate 6 on the forming frame 3 are matched with each other, the plates are gradually guided and formed through the first forming groove 5 and the second forming groove 7, the plates can be accurately rolled into the shape of a pipeline, the sliding arc plate 8 is arranged in the first forming groove 5 in a sliding mode, the size of the forming space 9 can be flexibly adjusted after the sliding arc plate 8 slides, the forming requirements of pipes with different diameters are met, and the universality of the device is enhanced. The accurate forming process reduces waste products generated by inaccurate forming and reduces production cost. The device is simple to operate and easy to adjust and maintain.

As a further technical scheme, the plate conveying device further comprises a plurality of guide frames 10 which are arranged on the first group of sliding arc plates 8 along the material conveying direction, each guide frame 10 is arranged on one sliding arc plate 8 in a sliding mode, the guide frames 10 are positioned on one side, close to the conveying roller 2, of the sliding arc plates 8, the guide frames 10 are used for receiving plates conveyed by the conveying roller 2, a plurality of guide rollers 11 are arranged on the guide frames 10 in a rotating mode, and the guide rollers 11 are used for guiding the plates.

In this embodiment, because the sliding arc plates 8 slide, the heights of the different forming spaces 9 are different, and the guide frame 10 is disposed on the sliding arc plate 8 sliding on the first forming plate 4 along the material conveying direction, so that the plate conveyed by the conveying roller 2 can be stably received before the plate enters the forming area, the position of the plate is ensured to be accurate when the plate enters the forming process, the problems of deviation and the like are avoided, and the forming precision and quality are improved. The guide rollers 11 arranged on the guide frame 10 are rotated to play a good guide role in the moving process of the plate, so that the plate can enter the forming space 9 more smoothly, the friction resistance between the plate and the device is reduced, and the abrasion risk of the plate is reduced. The rotation characteristic of the guide roller 11 makes the conveying of the plate more efficient, and further improves the production efficiency. The combination of the guide frame 10 and the guide roller 11 enables the pipe coiling device to be better suitable for the processing requirements of plates with different specifications and different materials, and improves the universality and the flexibility of the device. In the key step of the plate entering the forming area, the guide frame 10 and the guide roller 11 act together to provide stable support and guide for the whole processing process, and ensure the reliability and stability of the operation of the device.

As a further technical scheme, the plate pressing machine further comprises a plurality of pressing wheels 12 which are rotatably arranged on the sliding arc plate 8 and the second forming plate 6, wherein the pressing wheels 12 are used for guiding and pressing the plate.

In this embodiment, the pinch rollers 12 rotatably disposed on the sliding arc plate 8 and the second forming plate 6 can accurately guide the plate in the process of entering the forming space 9 and subsequent forming. The plate is ensured to move along a preset path, and the plate is prevented from shifting or misplacing in the forming process, so that the forming precision and quality of the corrugated pipe are improved. The guiding function of the pinch roller 12 enables the transition of the plate among different components to be smoother, reduces production interruption and adjustment time caused by plate deviation, and improves production efficiency. Pinch roller 12 also compresses the sheet while guiding the sheet. The pressing is favorable for enabling the plate to be better attached to the shape of the forming space 9, ensuring the uniformity and consistency of the shape of the pipe, enhancing the stability of the plate, reducing the deformation and rebound of the plate in the forming process, and improving the structural strength and the dimensional stability of the corrugated pipe.

As a further technical solution, the sliding arc plate 8 is prevented from being separated from the first forming groove 5 by limiting plates 13, which are arranged on the first forming plate 4.

In the present embodiment, the plurality of restricting plates 13 are provided on the first molding plate 4, so that the sliding arc plate 8 can be effectively prevented from coming out of the first molding groove 5. In the running process of the device, the sliding arc plate 8 is ensured to move on a given track all the time, and equipment faults and production interruption caused by accidental detachment of the sliding arc plate 8 are avoided. The stable running state is beneficial to improving the molding quality and the production efficiency of the corrugated pipe, and reducing the maintenance cost and the time waste caused by equipment failure. The presence of the limiting plate 13 ensures an accurate relative position between the sliding arc plate 8 and the first forming plate 4, thus ensuring the stability of the forming space 9. This enables the sheet material to be curled in accordance with a predetermined shape and size during the forming process, improving the forming accuracy of the corrugated tube. The addition of the limiting plate 13 enhances the overall reliability of the roller tube arrangement. It provides a reliable constraint for the movement of the sliding arc plate 8, reducing potential safety hazards that may be caused by the runaway of the sliding arc plate 8. The limiting plate 13 may play a role in positioning and protection when maintenance or adjustment of the sliding arc plate 8 is required. The operator can perform the operation more conveniently without worrying about the accidental falling off of the sliding arc plate 8.

As a further technical scheme, the sliding arc plate 8 is provided with a through hole 14, the sliding arc plate 8 is provided with a fixing hole 15 and a locking hole 16 communicated with the fixing hole 15, the sliding arc plate further comprises a telescopic piece 17 arranged on the first forming plate 4, the telescopic piece 17 is provided with a first telescopic rod 18, the first telescopic rod 18 is provided with a plurality of matching holes 19, the first telescopic rod 18 penetrates through the through hole 14 and enters the fixing hole 15, the locking rod 20 is detachably arranged on the sliding arc plate 8, the locking rod 20 penetrates through the locking hole 16 and the matching holes 19, and the locking hole 16 is used for fixing the sliding arc plate 8 and the first telescopic rod 18.

In this embodiment, the through hole 14 on the first molding plate 4 is matched with the fixing hole 15 and the locking hole 16 on the sliding arc plate 8, and the telescopic member 17 is arranged, so that the position of the sliding arc plate 8 can be flexibly changed by adjusting the position of the first telescopic rod 18 in the fixing hole 15. Therefore, the size of the forming space 9 can be quickly and accurately adjusted according to the pipe requirements of different diameters, and the universality and the adaptability of the device are improved. The lock lever 20 penetrates the lock hole 16 and the mating hole 19, and can firmly fix the slide arc plate 8 and the first telescopic rod 18. In the running process of the device, the sliding arc plate 8 is ensured not to displace due to external force or vibration, and the stability and consistency of the forming space 9 are ensured. The adjustable structural design ensures that complicated mechanical adjustment or die replacement is not needed when the corrugated pipes with different diameters are replaced and produced, thereby greatly saving adjustment time and improving production efficiency. The combination of the telescoping member 17 and the locking lever 20 provides reliable support and securement for the sliding arc plate 8, enhancing the overall reliability of the device. In the long-term production process, the device can bear larger pressure and friction force, and ensures the stable operation of the device.

As a further technical solution, the locking rod 20 penetrates through the fixing holes 15 on the sliding arc plates 8.

In this embodiment, the locking rod 20 penetrates through the fixing holes 15 on the sliding arc plates 8, so that a plurality of sliding arc plates 8 can be fixed at the same time, and the sliding arc plates 8 can be ensured to maintain a relatively stable positional relationship in the working process. This helps to improve the consistency and stability of the forming space 9 and thus ensures the quality of the forming of the bellows.

As a further solution, the second forming plates 6 are slidably arranged on the forming frame 3, each second forming plate 6 having a number of different second forming grooves 7.

In this embodiment, the second forming plate 6 is slidably disposed on the forming frame 3, so as to adapt to the processing requirements of the first forming plate 4 with different diameters, and the position of the second forming plate 6 can be adjusted to better adapt to the processing requirements of the plates with different specifications, so that the universality of the device is improved. Each second forming plate 6 is provided with a plurality of different second forming grooves 7, so that the adaptability of the device is further improved, and diversified production requirements are met. When the bellows of different specifications need be changed and produced, the second molding plate 6 that slides and set up can adjust the position fast, need not to carry out complicated dismantlement and installation operation, has saved adjustment time, has improved production efficiency. The reasonable sliding structure design can ensure that the second forming plate 6 stably runs in the working process and does not shake or deviate. This helps to improve the stability of the overall device, ensuring the quality of the bellows formation.

As a further technical scheme, the pinch roller 12 on the second molding plate 6 is positioned on one side above the second molding groove 7.

In this embodiment, the first forming plate 4 is mainly pressed against the radian of the lower half of the pipe, and the second forming plate 6 is directed against the radian of the upper half of the pipe, so that the pressing wheel 12 located above can not only guide the plate, but also ensure that the upper half is formed, and the pressing wheel 12 can apply appropriate pressure to the plate on one side above the second forming groove 7, thereby facilitating the plate to better fit the shape of the forming groove.

As a further technical scheme, the forming device further comprises a plurality of forming pieces 21 which are arranged on the forming frame 3 in a sliding manner, wherein the forming pieces 21 are in butt joint or out of butt joint with the second forming grooves 7 after sliding.

In this embodiment, the plurality of shaping members 21 are slidably disposed on the forming frame 3, so that further precise shaping can be performed after the corrugated tube is formed. The shape and the size of the corrugated pipe are ensured to be more stable and accurate, and the product quality is improved. The shaping piece 21 can be abutted or not abutted after sliding, and the shaping degree and position can be flexibly adjusted according to production requirements to adapt to the processing requirements of corrugated pipes with different specifications. The slidable shaping member 21 enables quick adjustment of the shaping position during production without complicated disassembly and assembly operations. The adjusting time is saved, and the production efficiency is improved.

As a further technical scheme, the welding frame 22 is arranged on the forming frame 3 in a lifting manner, and the welding frame 22 is used for welding the pipe which is formed by pressing.

In this embodiment, the welding frame 22 is arranged on the forming frame 3 in a lifting manner, so that the pipe coiling device has a welding function, and the integrated processing from plate coiling to pipe welding is realized. The transportation and equipment switching of the intermediate links are reduced, and the production efficiency is improved. The lifting function of the welding frame 22 can be flexibly adjusted according to the position and the size of the pipe, so that the welding position is ensured to be accurate. The welding precision and quality are improved, and the welding defects are reduced. When different types of welding operations are required, the welding equipment can be replaced or the structure of the welding frame 22 can be adjusted conveniently, so that different welding process requirements can be met.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. A pipe coiling device for corrugated pipe processing, which is used for processing a plate into a pipe, and is characterized by comprising:

The conveying device comprises a conveying frame (1), wherein a plurality of conveying rollers (2) are arranged on the conveying frame (1), and the conveying rollers (2) are used for conveying plates;

The forming frame (3) is arranged at one side of the conveying frame (1);

the first forming plates (4) are arranged on the forming frame (3), and the first forming plates (4) are provided with first forming grooves (5);

the second forming plates (6) are arranged on the forming frame (3), second forming grooves (7) are formed in the second forming plates (6), and the conveying rollers (2), the first forming plates (4) and the second forming plates (6) are sequentially arranged at intervals along the conveying direction of the plates;

The sliding arc plates (8) are provided with a plurality of groups, each group of sliding arc plates (8) are all arranged in one first forming groove (5) in a sliding mode, forming spaces (9) between the sliding arc plates (8) and the adjacent sliding arc plates (8) or the first forming plates (4) in the same group, and forming a plurality of different forming spaces (9) after the sliding arc plates (8) slide, wherein the forming spaces (9) are different and are used for forming pipes with different diameters.

2. A coiled tube apparatus for corrugated tube processing as set forth in claim 1, further comprising:

The guide frames (10) are arranged on a first group of sliding arc plates (8) along the material conveying direction, each guide frame (10) is arranged on one sliding arc plate (8) in a sliding mode, each guide frame (10) is positioned on one side, close to the conveying roller (2), of each sliding arc plate (8), and each guide frame (10) is used for receiving a plate conveyed by the conveying roller (2);

The guide rollers (11) are provided with a plurality of guide frames (10) rotatably, and the guide rollers (11) are used for guiding the plate.

3. A coiled tube apparatus for corrugated tube processing as set forth in claim 1, further comprising:

the pinch rollers (12) are provided with a plurality of rotating plates, are arranged on the sliding arc plate (8) and the second forming plate (6), and the pinch rollers (12) are used for guiding and pressing the plates.

4. A coiled tube apparatus for corrugated tube processing as set forth in claim 1, further comprising:

and a plurality of limiting plates (13) which are arranged on the first forming plate (4), wherein the limiting plates (13) are used for preventing the sliding arc plate (8) from being separated from the first forming groove (5).

5. A coiled pipe device for corrugated pipe processing according to claim 1, wherein the first forming plate (4) is provided with a through hole (14), the sliding arc plate (8) is provided with a fixing hole (15) and a locking hole (16) communicated with the fixing hole (15), and the coiled pipe device further comprises:

The telescopic piece (17) is arranged on the first forming plate (4), a first telescopic rod (18) is arranged on the telescopic piece (17), a plurality of matching holes (19) are formed in the first telescopic rod (18), and the first telescopic rod (18) penetrates through the through hole (14) and enters the fixing hole (15);

the locking rod (20) can be detachably arranged on the sliding arc plate (8), the locking rod (20) penetrates through the locking hole (16) and the matching hole (19), and the locking hole (16) is used for fixing the sliding arc plate (8) and the first telescopic rod (18).

6. A bellows processing roller tube apparatus according to claim 5, wherein the locking rod (20) penetrates the fixing holes (15) of the sliding arc plates (8).

7. A bellows processing coil arrangement according to claim 1, characterized in that the second forming plates (6) are slidably arranged on the forming frame (3), each second forming plate (6) having a number of different second forming grooves (7).

8. A bellows processing coil apparatus according to claim 3, wherein the pinch roller (12) of the second molding plate (6) is located on a side above the second molding groove (7).

9. A coiled tube apparatus for corrugated tube processing as set forth in claim 1, further comprising:

the shaping pieces (21) are provided with a plurality of sliding parts and are arranged on the shaping frame (3), and the shaping pieces (21) are in butt joint or are out of butt joint after sliding the shaping pieces, and the second shaping grooves (7) are formed.

10. A coiled tube apparatus for corrugated tube processing as set forth in claim 1, further comprising:

and the welding frame (22) is arranged on the forming frame (3) in a lifting manner, and the welding frame (22) is used for welding the pipe subjected to compression forming.