CN210358637U - Equipment for producing hollow aluminum strip by aluminum plate - Google Patents

Abstract

The equipment for producing the hollow aluminum strip by the aluminum plate comprises a machine table, wherein a first workbench, a second workbench, a third workbench, a fourth workbench, a fifth workbench and a sixth workbench are sequentially arranged on the top surface of the machine table; the peripheral surface of a first driven wheel of the first workbench is provided with a first annular groove, and the width of the first annular groove is smaller than that of the aluminum plate; the distance between the side wall of the second annular groove of the second workbench and the side wall of the second driving wheel is equal to the thickness of the aluminum plate; a third annular groove is formed in the peripheral surface of a third driving wheel of the third workbench, and a perforation bulge corresponding to the third annular groove in position is formed in the periphery of a third driven wheel; a fourth annular groove with an isosceles triangle-shaped section is formed in the peripheral surface of a fourth driving wheel of the fourth workbench; the fifth working table is provided with a high-frequency welding head; the sixth workbench comprises a fifth driving wheel, a fifth driven wheel and a sixth driven wheel; the first driving wheel, the second driving wheel, the third driving wheel and the fourth driving wheel are all connected to a transmission device, and the transmission device is connected with a power device.

Description

Equipment for producing hollow aluminum strip by aluminum plate

Technical Field

The utility model belongs to the technical field of processing machinery, especially an equipment by hollow aluminum strip of aluminum plate production.

Background

With the increasing requirement of building energy conservation, the hollow glass becomes the standard matching of doors and windows due to the heat insulation performance of the hollow glass. Hollow aluminum strips need to be placed in the hollow glass, and then the molecular sieves are placed in the aluminum strips to play a role in absorbing water vapor. The aluminum strip is formed by bending thin aluminum plates with the same width, however, the production of the aluminum strip at present is completed through a plurality of different functional devices and a plurality of processes, not only is the occupied space large, but also the processing efficiency is to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an equipment by aluminum plate production cavity aluminium strip, its compact structure, machining efficiency is high, has reduced the manufacturing cost of aluminium strip.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the equipment for producing the hollow aluminum strip by the aluminum plate comprises a machine table, wherein a first workbench, a second workbench, a third workbench, a fourth workbench, a fifth workbench and a sixth workbench are sequentially arranged on the top surface of the machine table;

the first workbench comprises two parallel first fixed plates, a first driving wheel and a first driven wheel are arranged between the two first fixed plates, and the first driving wheel is positioned above the first driven wheel; two sides of the first driving wheel are rotatably connected with the two first fixing plates through a first driving wheel shaft, and two sides of the first driven wheel are rotatably connected with the two first fixing plates through a first driven wheel shaft; the peripheral surface of the first driven wheel is provided with a first annular groove, and the first driving wheel is sunk into the first annular groove; the width of the first annular groove is smaller than that of the aluminum plate;

the second workbench comprises two second fixing plates which are parallel, a second driving wheel and a second driven wheel are arranged between the two second fixing plates, and the second driving wheel is positioned above the second driven wheel; two sides of the second driving wheel are rotatably connected with the two second fixed plates through a second driving wheel shaft, and two sides of the second driven wheel are rotatably connected with the two second fixed plates through a second driven wheel shaft; the peripheral surface of the second driven wheel is provided with a second annular groove, and the second driving wheel is sunk into the second annular groove; the distance between the side wall of the second annular groove and the side wall of the second driving wheel is less than the distance between the side wall of the first annular groove and the side wall of the first driving wheel, and is equal to the thickness of the aluminum plate;

the third workbench comprises two parallel third fixed plates, a third driving wheel and a third driven wheel are arranged between the two third fixed plates, and the third driving wheel is positioned above the third driven wheel; two sides of the third driving wheel are rotatably connected with the two third fixing plates through a third driving wheel shaft, and two sides of the third driven wheel are rotatably connected with the two third fixing plates through a third driven wheel shaft; the peripheral surface of the third driving wheel is provided with a third annular groove, the periphery of the third driven wheel is provided with a perforation bulge corresponding to the third annular groove, and the tip of each perforation bulge extends into the corresponding third annular groove;

the fourth worktable comprises two parallel fourth fixed plates, a fourth driving wheel and a fourth driven wheel are arranged between the two fourth fixed plates, and the fourth driving wheel is positioned above the fourth driven wheel; two sides of the fourth driving wheel are rotatably connected with the two fourth fixing plates through a fourth driving wheel shaft, and two sides of the fourth driven wheel are rotatably connected with the two fourth fixing plates through a fourth driven wheel shaft; the peripheral surface of the fourth driving wheel is provided with a fourth annular groove with an isosceles triangle section;

the fifth workbench comprises two parallel fifth fixing plates, and a high-frequency welding joint is arranged between the two fifth fixing plates;

the sixth workbench comprises two parallel sixth fixed plates, a shaping platform is arranged between the two sixth fixed plates and faces the side face of the fifth workbench, the shaping platform is provided with a fifth driving wheel and a fifth driven wheel which can rotate, and the fifth driving wheel is positioned above the fifth driven wheel; two sides of the joint of the fifth driving wheel and the fifth driven wheel are respectively provided with a sixth driven wheel which can rotate in the horizontal plane;

the first driving wheel, the second driving wheel, the third driving wheel and the fourth driving wheel are all connected to a transmission device, and the transmission device is connected with a power device, so that the first driving wheel, the second driving wheel, the third driving wheel and the fourth driving wheel synchronously rotate in a vertical plane.

Furthermore, a seventh workbench for feeding is arranged in front of the first workbench, the seventh workbench comprises two seventh fixing plates which are parallel, a seventh driving wheel and a seventh driven wheel are arranged between the two seventh fixing plates, and the seventh driving wheel is positioned above the seventh driven wheel; two sides of the seventh driving wheel are rotatably connected with the two seventh fixed plates through a seventh driving wheel shaft, and two sides of the seventh driven wheel are rotatably connected with the two seventh fixed plates through a seventh driven wheel shaft; the circumferential surface of the seventh driven wheel is provided with a seventh annular groove, and the width of the seventh annular groove is equal to that of the aluminum plate; two sides of the joint of the seventh driving wheel and the seventh driven wheel are respectively provided with a guide wheel which can rotate in the horizontal plane.

Further, the seventh annular groove is provided with a raised identification portion.

Furthermore, a cooling device is arranged between the two fifth fixing plates and is positioned between the high-frequency welding head and the sixth workbench.

The utility model has the advantages that: the utility model discloses by the equipment of aluminum plate production cavity aluminium strip, its compact structure, machining efficiency is high, has reduced the manufacturing cost of aluminium strip.

Drawings

Fig. 1 is a front view of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 2 is a plan view of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 3 is a schematic diagram of the internal structure of the first workbench of the device for producing hollow aluminum strips from aluminum plates.

Fig. 4 is a side view of the first table of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 5 is a schematic diagram of the internal structure of the second workbench of the device for producing hollow aluminum strips from aluminum plates according to the present invention.

Fig. 6 is a side view of a second table of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 7 is a schematic diagram of the internal structure of the third worktable of the device for producing hollow aluminum strips from aluminum plates.

Fig. 8 is a side view of the third table of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 9 is a schematic diagram of the internal structure of the fourth worktable of the apparatus for producing hollow aluminum strips from aluminum plates according to the present invention.

Fig. 10 is a side view of a fourth table of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 11 is a plan view of a sixth table of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 12 is a front view of a sixth table of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 13 is a front view of another embodiment of the apparatus for producing hollow aluminum strips from aluminum sheet according to the present invention.

Fig. 14 is a top view of another embodiment of the apparatus for producing hollow aluminum strips from aluminum sheet according to the present invention.

Fig. 15 is a plan view of a sixth table of another embodiment of the apparatus for producing hollow aluminum strips from aluminum sheets according to the present invention.

Fig. 16 is a side view of a sixth table of another embodiment of the apparatus for producing hollow aluminum strips from aluminum sheet according to the present invention.

Detailed Description

The invention is further illustrated by the following figures and examples.

As shown in fig. 1-12, the present invention provides an apparatus for producing hollow aluminum strips from aluminum plates, which are generally long. The equipment comprises a machine A, wherein a first workbench 1, a second workbench 2, a third workbench 3, a fourth workbench 4, a fifth workbench 5 and a sixth workbench 6 are sequentially arranged on the top surface of the machine A.

The first worktable 1 comprises two parallel first fixing plates 10, a first driving wheel 11 and a first driven wheel 12 are arranged between the two first fixing plates 10, and the first driving wheel 11 is located above the first driven wheel 12. Two sides of the first driving wheel 11 are rotatably connected with the two first fixed plates 10 through a first driving wheel shaft 13, and two sides of the first driven wheel 12 are rotatably connected with the two first fixed plates 10 through a first driven wheel shaft 14. The first driven wheel 12 has a first annular groove 121 formed on a peripheral surface thereof, and the first driving wheel 11 is recessed into the first annular groove 121. The width of the first annular groove 121 is smaller than that of the aluminum plate, and the first workbench 1 mainly functions to bend the aluminum plate on two sides primarily, but the bending angle is smaller than 90 degrees.

The second worktable 2 comprises two parallel second fixed plates 20, a second driving wheel 21 and a second driven wheel 22 are arranged between the two second fixed plates 20, and the second driving wheel 21 is located above the second driven wheel 22. The second driving wheel 21 is rotatably connected at both sides thereof to the two second fixed plates 20 by a second driving wheel shaft 23, and the second driven wheel 22 is rotatably connected at both sides thereof to the two second fixed plates 20 by a second driven wheel shaft 24. The second driven wheel 22 has a second annular groove 221 on the peripheral surface thereof, and the second driving wheel 21 is recessed in the second annular groove 221. The distance between the sidewall of the second annular groove 221 and the sidewall of the second driving wheel 21 is less than the distance between the sidewall of the first annular groove 121 and the sidewall of the first driving wheel 11, and is equal to the thickness of the aluminum plate. The second workbench 2 mainly functions to further bend the aluminum plate at two sides, and the bending angle is 90 degrees.

The third worktable 3 comprises two parallel third fixing plates 30, a third driving wheel 31 and a third driven wheel 32 are arranged between the two third fixing plates 30, and the third driving wheel 31 is located above the third driven wheel 32. The third driving wheel 31 is rotatably connected at both sides thereof to the two third fixed plates 30 by a third driving wheel shaft 33, and the third driven wheel 32 is rotatably connected at both sides thereof to the two third fixed plates 30 by a third driven wheel shaft 34. The peripheral surface of the third driving wheel 31 is provided with a third annular groove 311, the periphery of the third driven wheel 32 is provided with a perforated protrusion 321 corresponding to the third annular groove 311, and the tip of each perforated protrusion 321 extends into the corresponding third annular groove 311. The third working table 3 is mainly used for punching holes on the bottom surface of the aluminum plate.

The fourth table 4 includes two parallel fourth fixing plates 40, a fourth driving wheel 41 and a fourth driven wheel 42 are disposed between the two fourth fixing plates 40, and the fourth driving wheel 41 is located above the fourth driven wheel 42. Both sides of the fourth driving wheel 41 are rotatably connected to the two fourth fixed plates 40 through a fourth driving wheel shaft 43, and both sides of the fourth driven wheel 42 are rotatably connected to the two fourth fixed plates 40 through a fourth driven wheel shaft 44. The peripheral surface of the fourth driving wheel 41 is provided with a fourth annular groove 411 with an isosceles triangle cross section, so that the tops of the bent aluminum plates conveyed can be butted. The fourth worktable 4 is mainly used for butting two sides of the top of the bent aluminum plate to perform the next welding.

The fifth table 5 includes two parallel fifth fixing plates 50, and a high frequency welding head 51 is disposed between the two fifth fixing plates 50. The fifth working table 5 mainly serves to weld the aluminum plates with the butted tops to form a hollow aluminum strip, however, the shape of the hollow aluminum strip at the moment is similar to a pentagon, the tops of the hollow aluminum strips are provided with tips, and further shaping is needed. Preferably, a cooling device 52 is provided between the two fifth fixing plates 50, and the cooling device 52 is located between the high-frequency welding head 51 and the sixth table 6 and cools the top of the aluminum plate after welding.

The sixth worktable 6 comprises two parallel sixth fixed plates 60, a shaping platform 61 is disposed between the two sides of the sixth fixed plates 60 facing the fifth worktable 5, the shaping platform 61 is provided with a fifth driving wheel 62 and a fifth driven wheel 63 capable of rotating, and the fifth driving wheel 62 is located above the fifth driven wheel 63. And a sixth driven wheel 64 capable of rotating in a horizontal plane is arranged on each side of the joint of the fifth driving wheel 62 and the fifth driven wheel 63. The sixth workbench 6 mainly functions to shape the aluminum plate welded at the top to form a cuboid hollow aluminum strip.

The first driving wheel 11, the second driving wheel 21, the third driving wheel 31 and the fourth driving wheel 41 are all connected to a transmission device B, and the transmission device B is connected to a power device C, so that the first driving wheel 11, the second driving wheel 21, the third driving wheel 31 and the fourth driving wheel 41 synchronously rotate in a vertical plane.

In order to optimize the feeding angle, as shown in fig. 13-16, a seventh table 7 for feeding is arranged in front of the first table 1, the seventh table 7 includes two seventh parallel fixed plates 70, a seventh driving wheel 71 and a seventh driven wheel 72 are arranged between the two seventh fixed plates 70, and the seventh driving wheel 71 is located above the seventh driven wheel 72. Both sides of the seventh driving wheel 71 are rotatably connected to the two seventh fixed plates 70 through a seventh driving wheel shaft 73, and both sides of the seventh driven wheel 72 are rotatably connected to the two seventh fixed plates 70 through a seventh driven wheel shaft 74. The seventh driven wheel 72 is provided with a seventh annular groove 721 on the peripheral surface, and the width of the seventh annular groove 721 is equal to the width of the aluminum plate. Two sides of the joint of the seventh driving wheel 71 and the seventh driven wheel 72 are respectively provided with a guide wheel 75 which can rotate in a horizontal plane. The seventh driving wheel 71, the seventh driven wheel 72 and the two guide wheels 75 can ensure that the feeding angle of the aluminum plate is optimal. Preferably, the seventh annular groove 721 is provided with a raised identification part 722, such as a letter, a pattern, etc., which can be identified on the bottom surface of the aluminum plate.

The utility model discloses an equipment by aluminum plate production cavity aluminium strip, its compact structure, machining efficiency is high, has reduced the manufacturing cost of aluminium strip, can the continuous ejection of compact, and the ejection of compact is the finished product, can directly pack the transportation, has reduced the artifical figure of nurse different mechanical equipment, has improved production efficiency, has brought huge economic benefits for the enterprise.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. The present invention can be modified in many ways without departing from the spirit and scope of the present invention, and those skilled in the art can modify or change the above embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (4)

1. The equipment for producing the hollow aluminum strip by the aluminum plate is characterized by comprising a machine table, wherein the top surface of the machine table is sequentially provided with a first workbench, a second workbench, a third workbench, a fourth workbench, a fifth workbench and a sixth workbench;

the first workbench comprises two parallel first fixed plates, a first driving wheel and a first driven wheel are arranged between the two first fixed plates, and the first driving wheel is positioned above the first driven wheel; two sides of the first driving wheel are rotatably connected with the two first fixing plates through a first driving wheel shaft, and two sides of the first driven wheel are rotatably connected with the two first fixing plates through a first driven wheel shaft; the peripheral surface of the first driven wheel is provided with a first annular groove, and the first driving wheel is sunk into the first annular groove; the width of the first annular groove is smaller than that of the aluminum plate;

the second workbench comprises two second fixing plates which are parallel, a second driving wheel and a second driven wheel are arranged between the two second fixing plates, and the second driving wheel is positioned above the second driven wheel; two sides of the second driving wheel are rotatably connected with the two second fixed plates through a second driving wheel shaft, and two sides of the second driven wheel are rotatably connected with the two second fixed plates through a second driven wheel shaft; the peripheral surface of the second driven wheel is provided with a second annular groove, and the second driving wheel is sunk into the second annular groove; the distance between the side wall of the second annular groove and the side wall of the second driving wheel is less than the distance between the side wall of the first annular groove and the side wall of the first driving wheel, and is equal to the thickness of the aluminum plate;

the third workbench comprises two parallel third fixed plates, a third driving wheel and a third driven wheel are arranged between the two third fixed plates, and the third driving wheel is positioned above the third driven wheel; two sides of the third driving wheel are rotatably connected with the two third fixing plates through a third driving wheel shaft, and two sides of the third driven wheel are rotatably connected with the two third fixing plates through a third driven wheel shaft; the peripheral surface of the third driving wheel is provided with a third annular groove, the periphery of the third driven wheel is provided with a perforation bulge corresponding to the third annular groove, and the tip of each perforation bulge extends into the corresponding third annular groove;

the fourth worktable comprises two parallel fourth fixed plates, a fourth driving wheel and a fourth driven wheel are arranged between the two fourth fixed plates, and the fourth driving wheel is positioned above the fourth driven wheel; two sides of the fourth driving wheel are rotatably connected with the two fourth fixing plates through a fourth driving wheel shaft, and two sides of the fourth driven wheel are rotatably connected with the two fourth fixing plates through a fourth driven wheel shaft; the peripheral surface of the fourth driving wheel is provided with a fourth annular groove with an isosceles triangle section;

the fifth workbench comprises two parallel fifth fixing plates, and a high-frequency welding joint is arranged between the two fifth fixing plates;

the sixth workbench comprises two parallel sixth fixed plates, a shaping platform is arranged between the two sixth fixed plates and faces the side face of the fifth workbench, the shaping platform is provided with a fifth driving wheel and a fifth driven wheel which can rotate, and the fifth driving wheel is positioned above the fifth driven wheel; two sides of the joint of the fifth driving wheel and the fifth driven wheel are respectively provided with a sixth driven wheel which can rotate in the horizontal plane;

the first driving wheel, the second driving wheel, the third driving wheel and the fourth driving wheel are all connected to a transmission device, and the transmission device is connected with a power device, so that the first driving wheel, the second driving wheel, the third driving wheel and the fourth driving wheel synchronously rotate in a vertical plane.

2. The apparatus of claim 1 for producing hollow aluminum bars from aluminum panels, wherein: a seventh workbench for feeding is arranged in front of the first workbench and comprises two seventh fixing plates which are parallel, a seventh driving wheel and a seventh driven wheel are arranged between the two seventh fixing plates, and the seventh driving wheel is positioned above the seventh driven wheel; two sides of the seventh driving wheel are rotatably connected with the two seventh fixed plates through a seventh driving wheel shaft, and two sides of the seventh driven wheel are rotatably connected with the two seventh fixed plates through a seventh driven wheel shaft; the circumferential surface of the seventh driven wheel is provided with a seventh annular groove, and the width of the seventh annular groove is equal to that of the aluminum plate; two sides of the joint of the seventh driving wheel and the seventh driven wheel are respectively provided with a guide wheel which can rotate in the horizontal plane.

3. The apparatus for producing hollow aluminum strips from aluminum sheets as claimed in claim 2, wherein: the seventh annular groove is provided with a raised identification portion.

4. The apparatus of claim 1 for producing hollow aluminum bars from aluminum panels, wherein: and a cooling device is arranged between the two fifth fixing plates and is positioned between the high-frequency welding head and the sixth workbench.

Images