CN112124841A

CN112124841A - Full automatic feeding of industry aluminium alloy flow direction of packaging line

Info

Publication number: CN112124841A
Application number: CN202010999902.6A
Authority: CN
Inventors: 王心华
Original assignee: 王心华
Current assignee: JIANGXI TIAN YI ALUMINUM LTD.
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2020-12-25
Anticipated expiration: 2040-09-22
Also published as: CN112124841B

Abstract

The invention discloses a full-automatic feeding device of an industrial aluminum profile processing assembly line, which is used for conveying aluminum profile processing raw materials by virtue of conveying rollers arranged in the full-automatic feeding device in the process of feeding the aluminum profile processing production line, and the arranged guide rollers and limiting rollers are used for limiting the position of the aluminum profile processing raw materials, namely, the position of the aluminum profile is ensured not to deflect in the conveying process, so that the position of the aluminum profile can be accurately reached when the aluminum profile is conveyed to the next processing site, and no position deviation is generated, thereby not only ensuring the conveying stability of an aluminum profile machined part, but also ensuring the production and processing quality of the aluminum profile and ensuring the economic benefits of processing production; and can all adjust the position of guide roll and spacing roller, and then can adjust according to the aluminium alloy actual size to can guarantee better position direction and spacing work to the aluminium alloy machined part.

Description

Full automatic feeding of industry aluminium alloy flow direction of packaging line

Technical Field

The invention relates to the technical field of aluminum profile production and processing, in particular to a full-automatic feeding device for an industrial aluminum profile processing assembly line.

Background

The aluminum profile is an aluminum bar which is hot-melted and extruded to obtain aluminum materials with different cross-sectional shapes. The production process of the aluminum profile mainly comprises three processes of casting, extruding and coloring; wherein, coloring mainly comprises: oxidation, electrophoretic coating, fluorocarbon spraying, powder spraying, wood grain transfer printing and other processes; the industrial aluminum profile accounts for about 30 percent of the total application amount of the aluminum profile in China, and is mainly applied to the transportation industry (including the automobile manufacturing industry and the rail transportation industry), the equipment and mechanical equipment manufacturing industry, the durable consumer goods industry (including the light industry) and the like; the industrial aluminum profile refers to all aluminum profiles except for aluminum profiles for building doors and windows, curtain walls, indoor and outdoor decorations and building structures.

The invention provides a full-automatic feeding device of an industrial aluminum profile processing assembly line, which is used for solving the problems that the production and processing efficiency is low and the labor force of workers is wasted due to the fact that a feeding device of the industrial aluminum profile processing assembly line is usually pushed manually, the feeding device of the automatic assembly line in the prior art only carries out conveying work through a simply arranged roller, and the whole process is automatic feeding, so that the position precision of materials is inevitably influenced, the next processing work is influenced, further the inconvenience is brought to the aluminum profile processing work, the processing quality of the aluminum profile processing work is reduced, the production work efficiency is influenced, and the production work economic benefit is reduced.

Disclosure of Invention

The invention aims to provide a full-automatic feeding device for an industrial aluminum profile processing production line, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic feeding device of an industrial aluminum profile processing assembly line comprises a workbench, a conveying roller, a guide roller, a limiting roller, a fixed rod, a supporting block, a movable telescopic block and a fixing mechanism;

conveying rollers are arranged on the workbench at equal intervals, guide rollers and limiting rollers are symmetrically arranged on two sides of the workbench, the guide rollers are arranged on the steering movable rod, and the limiting rollers are arranged on the fixed rod;

the other end of the movable rod is integrally provided with a fixed disc, the workbench is provided with positioning circular grooves at equal intervals, the outer side wall of the fixed disc is provided with first connecting threads, and first movable extrusion blocks are symmetrically arranged in the fixed disc;

one end of the first movable extrusion block is provided with a second movable extrusion block, the second movable extrusion block is connected with the same end of the first movable extrusion block and is provided with a first return spring, the other end of the second movable extrusion block is movably provided with a first movable clamping column, one end of the first movable clamping column is provided with a slope, the other end of the first movable clamping column is provided with a second movable clamping column, and the first movable clamping column is provided with a second return spring at the same end of the second movable clamping column;

the outer side wall of the fixed disc is provided with a lantern ring in a threaded connection mode, the inner side wall of the lantern ring is provided with a second connecting thread, a first arc-shaped extrusion groove is formed in the lantern ring, fixing rods are symmetrically arranged on two sides of the workbench, one end of each fixing rod is provided with a supporting block, the other end of each fixing rod is provided with a fixing plate, a movable telescopic block is movably arranged in each supporting block, and one end of each movable telescopic block is provided with;

the fixing mechanism is connected and arranged on the limiting sliding block.

Preferably, the fixing mechanism comprises a pushing handle, a T-shaped insert block, a first transmission rack, a transmission gear, a second transmission rack, a movable extrusion inclined block, a third movable extrusion block, a fourth movable extrusion block, an extrusion chute, a transmission extrusion rod, a third rack, an arc-shaped transmission rack, a movable round block, a second arc-shaped extrusion groove, a concave movable strip, a positioning insert block and a positioning square groove, wherein the pushing handle is arranged on the limiting slide block, the T-shaped insert block is movably arranged in the pushing handle, third return springs are symmetrically arranged on the T-shaped insert block, the first transmission rack is symmetrically arranged on two sides of the T-shaped insert block, the transmission gear is arranged in a meshed connection manner on the first transmission rack, the second transmission rack is arranged on one side of the movable extrusion inclined block, the third movable extrusion block is arranged on the other side of the movable extrusion inclined block, the other end of the third movable extrusion block is provided with a fourth movable extrusion block, the same end of the fourth movable extrusion block and the third movable extrusion block is connected with a fourth return spring, an extrusion chute is arranged in the fourth movable extrusion block, one end of the transmission extrusion rod is movably arranged in the extrusion chute, and the two sides of the transmission extrusion rod are symmetrically provided with convex blocks which are connected with a fifth return spring, the third rack is arranged on one side of the transmission extrusion rod, and the third rack is engaged and connected with an arc-shaped transmission rack which is arranged at one side of the movable round block, the two ends of the movable round block are symmetrically provided with second arc-shaped extrusion grooves, the concave movable strip is movably arranged in the second arc-shaped extrusion grooves, and one side of the concave movable strip is provided with positioning insertion blocks, and the positioning square grooves are equidistantly arranged on two sides of the supporting block.

Preferably, the first arc-shaped extrusion groove and the first movable extrusion block are arranged at corresponding positions and have the same number of groups, and the thickness of the notch of the first arc-shaped extrusion groove is larger than that of the first movable extrusion block.

Preferably, the second movable clamping column corresponds to the positioning circular groove in arrangement position, and the arrangement diameters of the second movable clamping column and the positioning circular groove are equal.

Preferably, the positioning square groove and the positioning insertion block are arranged at corresponding positions, and the cross section of the notch of the positioning square groove is the same as that of the end part of the positioning insertion block, namely the cross sections of the positioning square groove and the positioning insertion block are equal in length and width.

Compared with the prior art, the invention has the beneficial effects that:

1. in the process of feeding and processing aluminum profile, the conveying operation is carried out through the conveying roller, and the position of the aluminum profile processing raw material is limited by the guide roller and the limiting roller, so that the aluminum profile is prevented from deviating in the conveying process, the position of the aluminum profile can be accurately reached, the position deviation is avoided, the conveying stability of an aluminum profile processing part is guaranteed, the production and processing quality of the aluminum profile is guaranteed, and the economic benefit of processing and production is guaranteed;

2. through being connected the steering movable rod who sets up with the guide roll, be connected the supporting shoe, the flexible piece of activity and the fixed establishment that set up with spacing roller, can all adjust the position of guide roll and spacing roller, and then can adjust according to the aluminium alloy actual size to can guarantee better position direction and spacing work to the aluminium alloy machined part.

Drawings

FIG. 1 is a schematic view of a connection structure according to the present invention;

FIG. 2 is an exploded view of the connection structure of the work table, the fixed plate and the sleeve ring;

FIG. 3 is an enlarged view of a portion of the connection structure of FIG. 2 according to the present invention;

FIG. 4 is a partial sectional view of the connecting structure of the supporting block, the movable telescopic block and the fixing mechanism of the present invention;

FIG. 5 is an enlarged view of the connection structure of the fixing mechanism shown in FIG. 4 according to the present invention;

FIG. 6 is a schematic view of the connection structure of the movable round blocks in the fixing mechanism of the present invention.

In the figure: the device comprises a workbench 1, a conveying roller 2, a guide roller 3, a limiting roller 4, a steering movable rod 5, a fixed disc 6, a positioning circular groove 7, a first movable extrusion block 8, a second movable extrusion block 9, a first movable clamping column 10, a second movable clamping column 11, a lantern ring 12, a first arc-shaped extrusion groove 13, a fixed rod 14, a supporting block 15, a movable telescopic block 16, a limiting sliding block 17, a fixed mechanism 18, a pushing handle 1801, a T-shaped insertion block 1802, a first transmission rack 1803, a transmission gear 1804, a second transmission rack 1805, a movable extrusion inclined block 1806, a third movable extrusion block 1807, a fourth movable extrusion block 1808, an extrusion chute 1809, a transmission extrusion rod 1810, a third rack 1811, an arc-shaped transmission rack 1812, a movable circular block 1813, a second arc-shaped extrusion groove 1814, a concave movable strip 1815, a positioning insertion block 1816 and a positioning square groove 1817.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: the invention relates to a full-automatic feeding device of an industrial aluminum profile processing assembly line, which comprises a workbench 1, a conveying roller 2, a guide roller 3, a limiting roller 4, a fixed rod 14, a supporting block 15, a movable telescopic block 16 and a fixing mechanism 18, wherein the fixed rod is fixedly connected with the workbench;

conveying rollers 2 are arranged on the workbench 1 at equal intervals, guide rollers 3 and limiting rollers 4 are symmetrically arranged on two sides of the workbench 1, the guide rollers 3 are arranged on the steering movable rod 5, and the limiting rollers 4 are arranged on the fixed rod 14;

the other end of the movable rod 5 is integrally provided with a fixed disc 6, positioning circular grooves 7 are equidistantly arranged on the workbench 1, the outer side wall of the fixed disc 6 is provided with first connecting threads, and first movable extrusion blocks 8 are symmetrically arranged in the fixed disc 6;

one end of the first movable extrusion block 8 is provided with a second movable extrusion block 9, the second movable extrusion block 9 is connected with a first return spring at the same end as the first movable extrusion block 8, the other end of the second movable extrusion block 9 is movably provided with a first movable clamping column 10, one end of the first movable clamping column 10 is provided with a slope, the other end is provided with a second movable clamping column 11, and the first movable clamping column 10 is provided with a second return spring at the same end as the second movable clamping column 11;

the outer side wall of the fixed disc 6 is provided with a lantern ring 12 in a threaded connection mode, the inner side wall of the lantern ring 12 is provided with a second connecting thread, a first arc-shaped extrusion groove 13 is formed in the lantern ring 12, fixed bars 14 are symmetrically arranged on two sides of the workbench 1, one end of each fixed bar 14 is provided with a supporting block 15, the other end of each fixed bar 14 is provided with a fixed plate, a movable telescopic block 16 is movably arranged in each supporting block 15, and one end of each movable telescopic block 16 is provided;

the fixing mechanism 18 is connected and arranged on the limit slide block 17.

Furthermore, the first arc-shaped extrusion groove 13 and the first movable extrusion block 8 are arranged at corresponding positions and have the same number of groups, and the thickness of the notch of the first arc-shaped extrusion groove 13 is larger than that of the first movable extrusion block 8.

Furthermore, the second movable clamping column 11 and the positioning circular groove 7 are arranged correspondingly, and the diameters of the two arranged parts are equal.

Further, the fixing mechanism 18 comprises a pushing handle 1801, a T-shaped insert block 1802, a first transmission rack 1803, a transmission gear 1804, a second transmission rack 1805, a movable extrusion inclined block 1806, a third movable extrusion block 1807, a fourth movable extrusion block 1808, an extrusion chute 1809, a transmission extrusion rod 1810, a third rack 1811, an arc transmission rack 1812, a movable circular block 1813, a second arc extrusion groove 1814, a concave movable strip 1815, a positioning insert 1816 and a positioning square groove 1817, the pushing handle 1801 is arranged on the limit slider 17, the T-shaped insert block 1802 is movably arranged in the pushing handle 1801, a third return spring is symmetrically arranged on the T-shaped insert block 1802, the first transmission rack 1803 is symmetrically arranged on two sides of the T-shaped insert block 1802, the first transmission rack 1803 is meshed and connected with a transmission gear 1804, the other side of the transmission gear 1804 is meshed and connected with the second rack 1805, the second transmission rack 1805 is arranged on one side of the movable extrusion inclined block 1806, a third movable extrusion block 1807 is arranged at the other side of the movable extrusion sloping block 1806, a fourth movable extrusion block 1808 is arranged at the other end of the third movable extrusion block 1807, a fourth return spring is arranged at the same end of the fourth movable extrusion block 1808 as the third movable extrusion block 1807, an extrusion chute 1809 is arranged in the fourth movable extrusion block 1808, one end of a transmission extrusion rod 1810 is movably arranged in the extrusion chute 1809, bumps are symmetrically arranged at two sides of the transmission extrusion rod 1810, a fifth return spring is arranged in a connecting manner, a third rack 1811 is arranged at one side of the transmission extrusion rod 1810, an arc transmission rack 1812 is arranged in a meshing connection manner with the third rack 1811, the arc transmission rack 1812 is arranged at one side of the movable circular block 1813, second arc extrusion grooves 1814 are symmetrically arranged at two ends of the movable circular block 1813, a concave movable strip 1815 is movably arranged in the second arc extrusion grooves 1814, and a positioning insertion block 1816 is arranged at one side of the concave movable strip 1815, the positioning square grooves 1817 are disposed at equal intervals on both sides of the supporting block 15.

Further, the positioning square groove 1817 and the positioning insertion block 1816 are arranged at corresponding positions, and the sectional shape of the notch of the positioning square groove 1817 is the same as that of the end part of the positioning insertion block 1816, namely, the sectional shapes of the positioning square groove and the end part are equal in length and width.

The working principle is as follows: when feeding is carried out on aluminum profile processing production, the aluminum profile is conveyed through the arranged conveying rollers 2, then the positions of the guide rollers 3 and the limiting rollers 4 are adjusted according to the actual size of an aluminum profile machined part, in the process, the positions of the guide rollers 3 are adjusted, the steering movable rod 5 is rotated according to the actual size of the aluminum profile machined part until the guide rollers 3 reach proper positions, the guide rollers 3 symmetrically arranged on two sides of the workbench 1 form a V shape, then the lantern ring 12 is rotated, the first arc-shaped extrusion groove 13 arranged in the lantern ring 12 extrudes the first movable extrusion block 8, the first movable extrusion block 8 pushes the second movable extrusion block 9 to extrude the first movable clamping column 10, and then the first movable clamping column 10 pushes the second movable clamping column 11 to be clamped in the positioning circular groove 7 on the workbench 1, namely the steering movable rod 5 is fixed in position, then, the distance between the limiting rollers 4 symmetrically arranged on two sides of the workbench 1 is adjusted through the supporting block 15, the movable telescopic block 16 and the fixing mechanism 18, in the process, the distance between the limiting rollers 4 is adjusted according to the adjustment of the front guide roller 3, the adjustment is realized through the movable telescopic of the movable telescopic block 16 in the supporting block 15, the position of the limiting roller 4 is fixed, in the process, the pushing handle 1801 is held by hands, the T-shaped inserting block 1802 is pressed, the first transmission rack 1803 arranged on two sides of the T-shaped inserting block 1802 drives the transmission gear 1804 and the transmission function of the second transmission rack 1805, then the movable extrusion inclined block 1806 extrudes the third movable extrusion block 1807, the third movable extrusion block 1807 pushes the fourth movable extrusion block 1808, the extrusion chute 1809 arranged in the fourth movable extrusion block 1808 extrudes the transmission extrusion rod, the third rack 1811 arranged at the other end of the transmission extrusion rod 1810 is in meshing transmission with the arc-shaped transmission rack 1812 to drive the movable round block 1813 to move, finally the positioning insertion block 1816 is separated from the positioning square groove 1817 on the supporting block 15 under the action of the second arc-shaped extrusion groove 1814, namely, the position of the limiting roller 4 can be adjusted through the positioning square groove 1817, then the pushing handle 1801 is loosened to stop pressing the T-shaped insertion block 1802, so that the positioning insertion block 1816 is clamped in the positioning square groove 1817 to further fix the position of the limiting roller 4, therefore, the invention mainly carries out conveying work through the arranged conveying roller 2, the arranged guide roller 3 and the limiting roller 4 carry out position limitation on the aluminum profile processing raw material, namely, the position of the aluminum profile is ensured not to be deflected in the conveying process, thereby ensuring that the position of the aluminum profile can be accurately reached when the aluminum profile is conveyed to the next processing site, the position deviation can not be generated, so that the conveying stability of the aluminum profile machined part is ensured, the production and processing quality of the aluminum profile can be ensured, and the economic benefit of processing and production is ensured; through being connected the steering movable rod 5 that sets up with guide roll 3, be connected the supporting shoe 15, the flexible piece 16 of activity and the fixed establishment 18 that set up with spacing roller 4, can all adjust guide roll 3 and spacing roller 4's position, and then can adjust according to aluminium alloy actual size to can guarantee better position direction and spacing work to the aluminium alloy machined part.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a full automatic feeding of industry aluminium alloy flow direction of packaging line which characterized in that: comprises a workbench (1), a conveying roller (2), a guide roller (3), a limiting roller (4), a fixed rod (14), a supporting block (15), a movable telescopic block (16) and a fixing mechanism (18);

conveying rollers (2) are equidistantly arranged on the workbench (1), guide rollers (3) and limiting rollers (4) are symmetrically arranged on two sides of the workbench (1), the guide rollers (3) are arranged on the steering movable rod (5), and the limiting rollers (4) are arranged on the fixed rod (14);

the other end of the movable rod (5) is integrally provided with a fixed disc (6), the workbench (1) is equidistantly provided with positioning circular grooves (7), the outer side wall of the fixed disc (6) is provided with first connecting threads, and first movable extrusion blocks (8) are symmetrically arranged in the fixed disc (6);

one end of the first movable extrusion block (8) is provided with a second movable extrusion block (9), the second movable extrusion block (9) is connected with a first reset spring at the same end of the first movable extrusion block (8), the other end of the second movable extrusion block (9) is movably provided with a first movable clamping column (10), one end of the first movable clamping column (10) is provided with a slope, the other end of the first movable clamping column is provided with a second movable clamping column (11), and the first movable clamping column (10) is provided with a second reset spring at the same end of the second movable clamping column (11);

a lantern ring (12) is arranged on the outer side wall of the fixed disc (6) in a threaded connection mode, second connecting threads are arranged on the inner side wall of the lantern ring (12), a first arc-shaped extrusion groove (13) is formed in the lantern ring (12), fixed rods (14) are symmetrically arranged on two sides of the workbench (1), one end of each fixed rod (14) is provided with a supporting block (15), the other end of each fixed rod is provided with a fixed plate, a movable telescopic block (16) is movably arranged in each supporting block (15), and one end of each movable telescopic block (16) is provided with a limiting sliding;

the fixing mechanism (18) is connected and arranged on the limiting slide block (17).

2. The full-automatic feeding device of an industrial aluminum profile processing assembly line according to claim 1, characterized in that: the fixing mechanism (18) comprises a pushing handle (1801), a T-shaped insert block (1802), a first transmission rack (1803), a transmission gear (1804), a second transmission rack (1805), a movable extrusion inclined block (1806), a third movable extrusion block (1807), a fourth movable extrusion block (1808), an extrusion inclined groove (1809), a transmission extrusion rod (1810), a third rack (1811), an arc-shaped transmission rack (1812), a movable round block (1813), a second arc-shaped extrusion groove (1814), a concave movable strip (1815), a positioning insert block (1816) and a positioning square groove (1817), wherein the pushing handle (1801) is arranged on a limiting sliding block (17), the T-shaped insert block (1802) is movably arranged in the pushing handle (1801), third return springs are symmetrically arranged on the T-shaped insert block (1802), and first transmission racks (1803) are symmetrically arranged on two sides of the T-shaped insert block (1802), the utility model discloses a novel extrusion device, including first transmission rack (1803), transmission gear (1804) is connected in the meshing and sets up, and the opposite side meshing and connecting of transmission gear (1804) sets up second transmission rack (1805), second transmission rack (1805) set up the one side at activity extrusion sloping block (1806), and the opposite side of activity extrusion sloping block (1806) is provided with third activity extrusion block (1807), the other end of third activity extrusion block (1807) is provided with fourth activity extrusion block (1808), and fourth activity extrusion block (1808) are connected with the same end of third activity extrusion block (1807) and are provided with fourth reset spring, be provided with extrusion chute (1809) in fourth activity extrusion block (1808), the one end activity of transmission extrusion pole (1810) sets up in extrusion chute (1809) to the bilateral symmetry of transmission extrusion pole (1810) is provided with the lug, and the lug connection is provided with fifth reset spring, the third rack (1811) is arranged on one side of the transmission extrusion rod (1810), the third rack (1811) is meshed and connected with an arc-shaped transmission rack (1812), the arc-shaped transmission rack (1812) is arranged on one side of the movable round block (1813), second arc-shaped extrusion grooves (1814) are symmetrically formed in two ends of the movable round block (1813), the concave movable strip (1815) is movably arranged in the second arc-shaped extrusion groove (1814), the positioning inserting blocks (1816) are arranged on one side of the concave movable strip (1815), and the positioning square grooves (1817) are equidistantly arranged on two sides of the supporting block (15).

3. The full-automatic feeding device of an industrial aluminum profile processing assembly line according to claim 1, characterized in that: the first arc-shaped extrusion groove (13) and the first movable extrusion block (8) are arranged at corresponding positions and have the same number of groups, and the thickness of the notch of the first arc-shaped extrusion groove (13) is larger than that of the first movable extrusion block (8).

4. The full-automatic feeding device of an industrial aluminum profile processing assembly line according to claim 1, characterized in that: the second movable clamping column (11) corresponds to the positioning circular groove (7) in arrangement position, and the diameters of the second movable clamping column and the positioning circular groove are equal.

5. The full-automatic feeding device of the industrial aluminum profile processing assembly line according to claim 2, characterized in that: the positioning square groove (1817) and the positioning insertion block (1816) are arranged at corresponding positions, and the cross section shape of the notch of the positioning square groove (1817) is the same as that of the end part of the positioning insertion block (1816), namely the cross sections of the positioning square groove and the positioning insertion block are equal in length and width.