阅读说明：本技术 一种用于铝型材的辊压机 (Roller press for aluminum profiles ) 是由 冯扬明 梁美婵 黎家行 于 2021-08-13 设计创作，主要内容包括：本发明公开了一种用于铝型材的辊压机,包括工作台、辊压装置、用于驱动所述辊压装置升降的升降装置和用于移动管材的移动机构,管材通过所述移动机构在所述工作台上来回穿过所述辊压装置；其中,所述辊压装置包括与所述升降装置连接的主模体、安装于所述主模体内的旋转模芯和用于驱动所述旋转模芯转动的驱动机构；所述旋转模芯内设有多个用于辊压口,所述辊压口内设有用于管材塑形的辊压模具。采用本发明,可自动辊压管材,且可根据所需选择辊压的组合形状。(The invention discloses a roller press for aluminum profiles, which comprises a workbench, a rolling device, a lifting device for driving the rolling device to lift and a moving mechanism for moving a pipe, wherein the pipe passes through the rolling device on the workbench back and forth through the moving mechanism; the rolling device comprises a main die body connected with the lifting device, a rotary die core arranged in the main die body and a driving mechanism for driving the rotary die core to rotate; a plurality of rolling ports are formed in the rotary mold core, and rolling molds for shaping pipes are arranged in the rolling ports. By adopting the invention, the pipe can be automatically rolled, and the rolling combination shape can be selected according to the requirement.)

1. The rolling machine for the aluminum profile is characterized by comprising a workbench, a rolling device, a lifting device for driving the rolling device to lift and a moving mechanism for moving a pipe, wherein the pipe passes through the rolling device on the workbench back and forth through the moving mechanism;

the rolling device comprises a main die body connected with the lifting device, a rotary die core arranged in the main die body and a driving mechanism for driving the rotary die core to rotate;

a plurality of rolling ports are formed in the rotary mold core, and rolling molds for shaping pipes are arranged in the rolling ports.

2. The roller press according to claim 1, characterized in that the rotating mould core is provided with cutting openings for cutting the tube, the roller openings being circumferentially distributed around the cutting openings.

3. The roller press according to claim 1, wherein a driving groove is formed in a side wall of the rotary mold core, the driving mechanism is mounted on the main mold body, a tooth-shaped portion for transmission is provided in the driving groove, and the driving mechanism is provided with a driving gear meshed with the tooth-shaped portion.

4. The roller press according to claim 3, characterized in that a core chamber for accommodating the rotary core is provided in the main mold body, the core chamber being provided with a plurality of support rollers which are in contact with the side walls of the rotary core.

5. The roller press according to claim 2, characterized in that a cutting knife for cutting the tube is arranged in the cutting opening.

6. The roller press according to claim 1, wherein said lifting device comprises a cross beam, columns for supporting said cross beam, and a lifting mechanism connected to a main mold body, said main mold body is installed between two of said columns, said columns are provided with guide grooves adapted to said main mold body, and said main mold body is moved up and down along said guide grooves by said lifting mechanism.

7. The roller press of claim 6, wherein the lifting device further comprises a hold-down mechanism disposed on the cross beam, the hold-down mechanism being connected to a top portion of the main die body to drive the main die body to descend;

the lifting mechanism is connected with the bottom of the main die body.

8. The roller press according to claim 1, characterized in that the top of the table is provided with a set of roller bars for docking transportation with the outside;

along the transportation direction of roller stick group, the left and right sides of roller stick group is equipped with moving mechanism, both sides are equipped with around the roll-in device roller stick group.

9. The roller press according to claim 8, wherein said moving mechanism comprises a moving frame, a driving wheel mounted on said moving frame, a motor for driving said driving wheel to rotate, and a translation mechanism, wherein said driving wheels located on the left and right sides of said rod set are in close contact with the pipe through said translation mechanism.

10. The roller press of claim 1, wherein the roller dies comprise a roller shaft and a roller die mounted on the roller shaft, and the inner wall of the roller die is provided with a transverse rotating shaft mounting hole and a longitudinal rotating shaft mounting hole for mounting the roller shaft.

Technical Field

The invention relates to the technical field of roll forming, in particular to a roll squeezer for aluminum profiles.

Background

In the existing building decoration, for a fence, a railing or a decorative post with a specific artistic shape, a suitable material is generally selected for processing according to the use requirement, the shape and the cost, such as wood carving machine processing (high cost and long processing time), casting (high cost and long processing time), injection molding (only plastic material) or profile.

The process of the opposite section bar cannot process a multi-dimensional solid surface, so other processes such as rolling and molding strip materials are needed, but manual work is needed to repeatedly roll the strip materials in a plurality of rolling dies in sequence, and the labor intensity of workers is high.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a roller press for aluminum profiles, which can automatically roll pipes and can select the rolling combination shape according to the requirement.

In order to solve the technical problems, the invention provides a roller press for aluminum profiles, which comprises a workbench, a rolling device, a lifting device for driving the rolling device to lift and a moving mechanism for moving a pipe, wherein the pipe passes through the rolling device on the workbench back and forth through the moving mechanism;

the rolling device comprises a main die body connected with the lifting device, a rotary die core arranged in the main die body and a driving mechanism for driving the rotary die core to rotate;

a plurality of rolling ports are formed in the rotary mold core, and rolling molds for shaping pipes are arranged in the rolling ports.

As an improvement of the scheme, the rotary mold core is provided with cutting openings for cutting the pipe, and the rolling openings are circumferentially distributed around the cutting openings.

As an improvement of the above scheme, a driving groove is formed in the side wall of the rotary mold core, the driving mechanism is mounted on the main mold body, a tooth-shaped portion for transmission is arranged in the driving groove, and the driving mechanism is provided with a driving gear meshed with the tooth-shaped portion.

As an improvement of the above scheme, a mold core chamber for mounting the rotary mold core is arranged in the main mold body, the mold core chamber is provided with a plurality of supporting rollers, and the supporting rollers are in contact with the side wall of the rotary mold core.

As an improvement of the scheme, a cutter for cutting the pipe is arranged in the cutting opening.

As an improvement of the above scheme, the lifting device includes a cross beam, columns for supporting the cross beam, and a lifting mechanism connected to the main mold body, the main mold body is installed between the two columns, the columns are provided with guide grooves adapted to the main mold body, and the main mold body moves up and down along the guide grooves through the lifting mechanism.

As an improvement of the above scheme, the lifting device further comprises a pressing mechanism arranged on the cross beam, and the pressing mechanism is connected with the top of the main mold body to drive the main mold body to descend;

the lifting mechanism is connected with the bottom of the main die body.

As an improvement of the scheme, the top of the workbench is provided with a roller bar group for butt-joint transportation with the outside;

along the transportation direction of roller stick group, the left and right sides of roller stick group is equipped with moving mechanism, both sides are equipped with around the roll-in device roller stick group.

As an improvement of the scheme, the moving mechanism comprises a moving frame, a driving wheel arranged on the moving frame, a motor used for driving the driving wheel to rotate and a translation mechanism, and the driving wheels positioned on the left side and the right side of the stick group are tightly attached to the pipe through the translation mechanism.

As an improvement of the scheme, the rolling die comprises a rolling shaft and a rolling die arranged on the rolling shaft, and a transverse rotating shaft mounting hole and a longitudinal rotating shaft mounting hole are formed in the inner wall of the rolling opening and used for mounting the rolling shaft.

The implementation of the invention has the following beneficial effects:

the invention discloses a roller press for aluminum profiles, which comprises a workbench, a rolling device, a lifting device and a moving mechanism, wherein a pipe passes through the rolling device on the workbench back and forth through the moving mechanism so as to be gradually shaped;

the rolling device comprises a main die body connected with the lifting device, a rotary die core arranged in the main die body and a driving mechanism for driving the rotary die core to rotate; the rotary die core is internally provided with a plurality of rolling ports, and the rolling dies for pipe molding are arranged in the rolling ports, so that the rolling dies rolled when the pipe passes through the rolling ports can be changed by controlling the rotation of the rotary die core, and the rolling molding of different rolling dies can be obtained according to requirements when the pipe shuttles back and forth the rolling ports every time, so that the combination of the step-by-step molding and various rolling shapes of new pipes can be realized.

Drawings

FIG. 1 is a schematic view of the construction of the roll press of the present invention;

FIG. 2 is a schematic cross-sectional view of the roll press of the present invention;

fig. 3 is a schematic structural view of the moving mechanism of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, 2 and 3, the invention provides a roller press for aluminum profiles, which comprises a workbench 1, a roller press 2, a lifting device for driving the roller press 2 to lift and a moving mechanism 4 for moving a pipe, wherein the pipe passes through the roller press 2 on the workbench 1 back and forth through the moving mechanism 4;

the rolling device 2 comprises a main die body 21 connected with the lifting device, a rotary die core 22 arranged in the main die body 21 and a driving mechanism 23 for driving the rotary die core 22 to rotate;

a plurality of rolling ports 221 are formed in the rotary mold core 22, and a rolling mold 5 for molding a pipe is arranged in each rolling port 221. The rolling die 5 comprises a rolling shaft 51 and a rolling die 52 mounted on the rolling shaft 51, and a transverse rotating shaft mounting hole 222 and a longitudinal rotating shaft mounting hole 223 are formed in the inner wall of the rolling opening 221 for mounting the rolling shaft 51. Therefore, it is possible to adjust the mounting orientation of the roll dies 52, such as the left and right sides or the upper and lower sides, in accordance with the processing surface of the pipe material by the roll dies 52.

Specifically, due to actual design production requirements or actual production errors, different rolling dies 5 have different rolling reference heights, and thus the heights of the rolling dies need to be adjusted. The lifting device comprises a cross beam 31, upright columns 32 for supporting the cross beam 31 and a lifting mechanism 33 connected with a main mold body, the main mold body 21 is installed between the two upright columns 32, the upright columns 32 are provided with guide grooves 321 matched with the main mold body 21, and the main mold body 21 moves up and down along the guide grooves 321 through the lifting mechanism 33, so that the rolling reference height of the rolling mold 5 in the main mold body 21 is adjusted. Meanwhile, the guide groove 321 can counteract the radial acting force of the pipe on the main die body 21 in the rolling process.

Preferably, a tension spring 6 for balancing the weight of the main mold body 21 is arranged on the cross beam 31, one end of the tension spring is connected with the cross beam, and the other end of the tension spring is connected with the main mold body 21. To reduce the load of the lifting mechanism 33.

In order to improve the production efficiency, the rotary die core 22 is provided with cutting openings 224 for cutting the pipes, the cutting openings 224 are located at the center of the rotary die core 22, and the roller openings 221 are circumferentially distributed around the cutting openings 224. A cutting knife 225 for cutting the pipe is arranged in the cutting opening 224. With such arrangement, after the pipe is rolled and shaped, the lifting mechanism 33 drives the main die body 21 to move downwards slowly, and meanwhile, the driving mechanism 23 drives the rotary die core 22 to rotate so as to cut the pipe through the cutter 225, so that the pipe shaping processing and cutting of the pipe can be integrally completed.

Further, the lifting device further comprises a pressing mechanism 34 arranged on the cross beam 31, and the pressing mechanism 34 is connected with the top of the main die body 21 to drive the main die body 21 to descend so as to assist in cutting the pipe; the lifting mechanism 33 is connected with the bottom of the main mold body 21. Preferably, the lifting mechanism 33 and the pressing mechanism 34 are an electric push rod, a screw rod lifter, a pneumatic telescopic rod device, or the like.

In terms of the rotation driving of the rotary mold core 22, the rotary mold core is cylindrical, a driving groove 226 is formed in a side wall of the rotary mold core 22, the driving mechanism 23 is installed on the main mold body 21, a tooth-shaped portion for transmission is provided in the driving groove 226, and the driving mechanism 23 is provided with a driving gear 231 engaged with the tooth-shaped portion. Therefore, the rotation of the rotary mold core 22 can be controlled by the driving mechanism 23, so that the rolling ports 221 in the rotary mold core 22 sequentially rotate to the rolling stations corresponding to the workbench according to the preset processing sequence. The driving mechanism 23 is preferably a servo motor connected to the driving gear 231.

In detail, a core chamber 211 for mounting the rotary core 22 is disposed in the main mold body 21, the core chamber 211 is provided with a plurality of support rollers 212, and the support rollers 212 are in contact with the side walls of the rotary core 22. Preferably, the supporting roller 212 is provided with a limiting groove 2121 matched with the rotary mold core 22, and the rotary mold core 22 is supported in the limiting groove 2121 to avoid the contact friction between the rotary mold core 22 and the inner wall of the mold core chamber 211. The top of the workbench 1 is provided with a roller bar group 11 for butt-joint transportation with the outside;

along the transportation direction of the roller bar group 11, the moving mechanisms 4 are arranged on the left side and the right side of the roller bar group 11, and the roller bar groups 11 are arranged on the front side and the rear side of the rolling device 2. The moving mechanism 4 comprises a moving frame 41, a driving wheel 42 mounted on the moving frame 41, a motor 43 and a translation mechanism 44 for driving the driving wheel 42 to rotate, the driving wheels 42 located on the left and right sides of the stick set 11 are closely attached to the pipe through the translation mechanism 44. Therefore, after the tube is fed onto the roller bar set 11, the driving wheels 42 on both sides gradually clamp the tube under the driving of the respective translation mechanisms 44, so that the tube gradually moves to the position corresponding to the roller nip 221 while being gradually clamped, and is fed into the roller mold 5 in the roller nip 221 under the transfer of the driving wheels 42, so as to perform the roller process.

The roll rod groups 11 are arranged on the front side and the rear side of the rolling devices 2 on the two sides, and the moving mechanisms 4 are arranged on the left side and the right side of the roll rod groups 11, so that the pipe can integrally shuttle back and forth to form a roll opening, and the whole body of the pipe can be rolled and shaped.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.