CN220073392U - Cutting device is used in aluminum plate processing - Google Patents

Abstract

The utility model discloses a cutting device for aluminum plate processing, which comprises a fixing frame, a first rotating shaft and a clamping structure, wherein a device shell is transversely arranged above the fixing frame, the first rotating shaft is arranged in the device shell, a connecting column is arranged on the first rotating shaft, the right end of the first rotating shaft is connected with a first motor, the lower part of the connecting column is connected with the cutting mechanism, a moving structure is arranged in the middle of the fixing frame, and the right side of the moving structure is connected with the clamping structure. This cutting device for aluminum plate processing has installed the moving structure, and the clamping structure of its connection, and the clamping structure can replace the manual work when moving required aluminum plate to the cutting machine with the help of moving structure, can also clip the aluminum plate in order to avoid taking place the aluminum plate crookedly, has improved the security greatly to still installed the cleaning brush, just can clear up dust piece etc. when cutting, not only convenient but also ensured the sanitary problem when cutting.

Description

Cutting device is used in aluminum plate processing

Technical Field

The utility model relates to the technical field of cutting devices, in particular to a cutting device for aluminum plate processing.

Background

The aluminum plate is a rectangular plate which is formed by rolling aluminum ingots, the aluminum material with the thickness of more than 0.2mm and less than 500mm, the width of more than 200mm and the length of less than 16m is generally called as an aluminum plate or an aluminum sheet, and the aluminum plate has light weight and good conductivity, so the aluminum plate is widely applied to industries such as buildings, packaging, air-conditioning refrigerators and the like, and can also be applied to power plants, corrosion prevention, heat preservation and the like

The current cutting device for aluminum plate processing is mostly placed on the both sides layer board by aluminum plate, starts driving motor and drives accommodate the lead screw and rotate afterwards, pushes up the both sides to aluminum plate through a plurality of leading wheels, starts hydraulic push rod later and pushes down the pressure strip, and then compresses tightly at aluminum plate's top through a plurality of pinch rollers, starts second hydraulic push rod later and promotes the push pedal and promote aluminum plate forward, and then cuts through the cutting blade of front side.

The cutting device for aluminum plate processing can push the aluminum plate forwards, but can not push the aluminum plate forwards and simultaneously change the cutting position of the cutting blade, and can not clear chips and the like after cutting, so that the cutting device for aluminum plate processing is changed and innovated for the problem of complaint.

Disclosure of Invention

The utility model aims to provide a cutting device for processing an aluminum plate, which solves the problems that the aluminum plate cannot be pushed forward and the cutting position of a cutting blade is changed and chips after cutting cannot be cleaned in the current market in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cutting device is used in aluminum plate processing, includes mount, first rotation axis and clamping structure, the device shell is transversely installed to the top of mount, and has set up first rotation axis in the device shell, install the spliced pole on the first rotation axis, and first motor has been connected to first rotation axis right-hand member to connected cutting mechanism below the spliced pole, the moving structure has been installed to mount intermediate position, and the clamping structure has been connected on the moving structure right side, the cleaning brush has been connected below the clamping structure, and has installed the collection box below the cleaning brush.

Preferably, the fixing frame is vertically installed, 2 groups of fixing frames are installed in bilateral symmetry, the device housing is arranged at the top end horizontal positions of the two groups of fixing frames, the connecting column is installed at the middle position of the first rotating shaft and can move left and right on the first rotating shaft, the first rotating shaft is coaxially connected with the first motor, and the first rotating shaft and the first motor form a moving structure.

Preferably, the connecting column is vertically connected with the cutting mechanism, and the connecting column and the cutting mechanism form a linkage structure, the cutting mechanism is composed of a cutting shell, a cutting piece and a second motor, the bottom of the connecting column is connected to the top of the shell, a groove is formed in the middle of the inside of the shell, the middle position of the inside of the groove is connected to the cutting piece through a bearing, the second motor is connected to the outer side of the shell, the second motor is coaxially connected with the cutting piece, and the second motor and the cutting piece form a rotating structure.

Preferably, the moving structure is composed of a third motor, a second rotating shaft, a first bevel gear, a second bevel gear, a threaded shaft and a connecting sliding block, wherein the third motor is coaxially connected with the second rotating shaft, the third motor and the second rotating shaft form the moving structure, the third motor is vertically connected with the first bevel gear through a bearing, two ends of 2 groups of first bevel gears on the second rotating shaft are symmetrically arranged in the horizontal direction of the first bevel gear, the first bevel gear is transversely meshed with the second bevel gear, the second bevel gear is vertically connected with the threaded shaft, the movable connecting sliding block is arranged in the middle of the threaded shaft, the connecting sliding block is transversely provided with a connecting rod, and the connecting sliding block and the threaded shaft also form a linkage structure.

Preferably, the clamping structure comprises clamping bin, extrusion spring, flexible splint and fixed splint, and the extrusion spring has been installed to the inside intermediate position in clamping bin, and has connected flexible splint above the extrusion spring, extrusion spring and flexible splint constitute the extending structure, fixed splint has been installed below the clamping bin, flexible splint is upwards 45 degrees arc structures, and fixed splint is downwards 45 degrees arc structures.

Preferably, the brush hairs are arranged on the cleaning brush in an equal-interval mode, the cleaning brush and the clamping structure form a linkage structure, a recovery box is arranged below the cleaning brush, and the length of the recovery box is equal to that of the cleaning brush.

Compared with the prior art, the utility model has the beneficial effects that: the cutting device for processing the aluminum plate;

1. install revolution mechanic on cutting mechanism, can make cutting mechanism can adjust cutting position when using, avoid when the aluminum plate of cutting different positions, still manual adjustment cutting blade, not only unsafe still reduced production efficiency, the clamping structure has been installed in place of placing aluminum plate, and telescopic splint set up to upwards 45 degrees structures, need not very troublesome when more conveniently placing aluminum plate like this with aluminum plate with clamping structure accurately align, only need with aluminum plate gently push to by telescopic splint in the 45 degrees structure mouths, can be cliied aluminum plate by the inertia on the telescopic splint, by the moving structure who is connected with clamping structure to cutting structure removal again, accomplish the cutting to aluminum plate.

2. The cleaning brush is installed under the clamping structure, and the cleaning brush moves together with the clamping structure, so that when the aluminum plate moves along with the clamping structure for cutting, the cleaning brush under the clamping structure simultaneously cleans debris residues and the like left during cutting into the recovery box, the aluminum plate cutting cannot be affected, and the cleaning brush is convenient to use, does not need manual cleaning again, and is time-saving and labor-saving.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A in accordance with the present utility model;

FIG. 3 is a schematic side view of the clamping mechanism of the present utility model;

FIG. 4 is a schematic top view of a mobile structure according to the present utility model;

fig. 5 is a schematic enlarged view of the structure at B in fig. 4 according to the present utility model.

In the figure: 1. a fixing frame; 2. a device housing; 3. a first rotation shaft; 4. a connecting column; 5. a first motor; 6. a cutting mechanism; 6-1, cutting the shell; 6-2, cutting the sheet; 6-3, a second motor; 7. a moving structure; 7-1, a third motor; 7-2, a second rotation axis; 7-3, a first bevel gear; 7-4, a second bevel gear; 7-5, a threaded shaft; 7-6, connecting a sliding block; 8. a connecting rod; 9. a clamping structure; 9-1, clamping bins; 9-2, extruding a spring; 9-3, a telescopic clamping plate; 9-4, fixing the clamping plate; 10. a cleaning brush; 11. and (5) a recovery box.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a cutting device is used in aluminum plate processing, including mount 1, first rotation axis 3 and clamping structure 9, device shell 2 has transversely been installed to the top of mount 1, and set up first rotation axis 3 in the device shell 2, install spliced pole 4 on the first rotation axis 3, and first motor 5 has been connected to the first rotation axis 3 right-hand member, and cutting mechanism 6 has been connected below the spliced pole 4, moving structure 7 has been installed to mount 1 intermediate position, and moving structure 7 right side has connected clamping structure 9, cleaning brush 10 has been connected below the clamping structure 9, and recovery tank 11 has been installed below the cleaning brush 10.

The mount 1 is vertical installation, and bilateral symmetry installs 2 sets of mounts 1, and device housing 2 has installed spliced pole 4 in two sets of mount 1 top horizontal position, and spliced pole 4 can be left and right sides on first rotation axis 3 to first rotation axis 3 and first motor 5 are coaxial coupling, and first rotation axis 3 and first motor 5 constitute the moving structure, and first motor 5 can drive first rotation axis 3 rotation.

The connecting column 4 is vertically connected with the cutting mechanism 6, the connecting column 4 and the cutting mechanism 6 form a linkage structure, the cutting mechanism 6 consists of a cutting shell 6-1, a cutting piece 6-2 and a second motor 6-3, the bottom of the connecting column 4 is connected to the top of the shell 6-1, a groove is formed in the middle of the inside of the shell 6-1, the middle position of the inside of the groove is connected to the cutting piece 6-2 through a bearing, the second motor 6-3 is connected to the outer side of the shell 6-1, the second motor 6-3 is coaxially connected with the cutting piece 6-2, the second motor 6-3 and the cutting piece 6-2 form a rotating structure, and the cutting structure 6 is connected through the connecting column 4, so that the cutting structure 6 can be driven to move when the connecting column 4 moves, and the effect of adjusting the cutting position is achieved.

The moving structure 7 consists of a third motor 7-1, a second rotating shaft 7-2, a first bevel gear 7-3, a second bevel gear 7-4, a threaded shaft 7-5 and a connecting sliding block 7-6, wherein the third motor 7-1 is coaxially connected with the second rotating shaft 7-2, the third motor 7-1 and the second rotating shaft 7-2 form the moving structure, the third motor 7-1 is vertically connected with the first bevel gear 7-3 through a bearing, the first bevel gear 7-3 is symmetrically arranged at two ends of the second rotating shaft 7-2 in the horizontal direction, the first bevel gear 7-3 is transversely meshed with the second bevel gear 7-4, the second bevel gear 7-4 is vertically connected with the threaded shaft 7-5, the movable connecting sliding block 7-6 is arranged in the middle of the threaded shaft 7-5, the connecting sliding block 7-6 is transversely provided with a connecting rod 8, the connecting sliding block 7-6 and the threaded shaft 7-5 also form the moving structure, and the third motor 7-1 rotates to drive the second rotating shaft 7-2, so that the first bevel gear 7-3 is driven to be transversely meshed with the threaded shaft 7-5, and the first bevel gear 7-3 is transversely meshed with the threaded shaft 7-5, and the threaded shaft 7-5 is in the front of the threaded shaft 7-5.

The clamping structure 9 comprises a clamping bin 9-1, an extrusion spring 9-2, a telescopic clamping plate 9-3 and a fixed clamping plate 9-4, wherein the extrusion spring 9-2 is arranged in the middle of the inside of the clamping bin 9-1, the telescopic clamping plate 9-3 is connected above the extrusion spring 9-2, the extrusion spring 9-2 and the telescopic clamping plate 9-3 form a telescopic structure, the fixed clamping plate 9-4 is arranged below the clamping bin 9-1, the telescopic clamping plate 9-3 is of an upward 45-degree arc structure, the fixed clamping plate 9-4 is of a downward 45-degree arc structure, and the telescopic clamping plate 9-3 is of an upward 45-degree arc structure, so that an aluminum plate can be clamped and clamped conveniently, and falling is prevented.

Bristles are arranged on the cleaning brush 10 in an equally-spaced mode, the cleaning brush 10 and the clamping structure 9 form a linkage structure, the recovery box 11 is arranged below the cleaning brush 10, the recovery box 11 is equal to the cleaning brush 10 in length, and the cleaning brush 10 and the clamping structure move simultaneously, so that chips during cutting can be cleaned conveniently and rapidly.

Working principle: when the aluminum plate processing device is used, firstly, an aluminum plate is placed at a position flush with the clamping structure 9 by manpower, then the aluminum plate is slightly pushed, the aluminum plate slides into the telescopic clamping plate 9-3 and the fixed clamping plate 9-4 from a 45-degree opening arranged on the telescopic clamping plate 9-3 by means of inertia force, therefore, the extrusion spring 9-2 below the telescopic clamping plate 9-3 is pressed to tighten the telescopic clamping plate 9-3 to fix the aluminum plate, both sides of the aluminum plate are fixed by the clamping structure 9, then a third motor 7-1 on the moving structure 7 is started, the third motor 7-1 rotates to drive a second rotating shaft 7-2, so that the first bevel gear 7-3 and the second bevel gear 7-4 are driven to be meshed to enable the threaded shaft 7-5 to rotate, and a connecting sliding block 7-6 connected to the threaded shaft 7-5 moves back and forth on the threaded shaft 7-5, and because the connecting sliding block 7-6 is connected to the clamping structure 9 by a connecting rod 8, when the connecting sliding block 7-6 moves back and forth, the clamping structure 9 with the aluminum plate is simultaneously driven to move back and forth, the aluminum plate is completed, and when the motor is started, the motor 7-1 is started to rotate to drive the first motor 7-6 to rotate, the first bevel gear 7-3 and the second bevel gear 7-4 is driven to rotate, and the cutting structure is driven to rotate on the first rotating shaft 6 to be connected to the cutting structure 6, and the cutting structure 4 is driven to rotate, and the cutting structure is driven to rotate by the first rotating shaft 6 and the cutting structure 4 to rotate, and the cutting structure 4 is driven to rotate, and the cutting structure 4.

Because the cleaning brush 10 is below the holding structure 9 and is also connected to the moving structure 7, when the moving structure 7 drives the holding structure 9 with the aluminum plate to move forward, the cutting structure 6 cuts the aluminum plate immediately, and at the same time, the cleaning brush 10 cleans dust and debris scattered on the equipment during cutting into the recovery box 11, so that the aluminum plate cutting is completed.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. Cutting device is used in aluminum plate processing, including mount (1), first rotation axis (3) and clamping structure (9), its characterized in that: device shell (2) are transversely installed to the top of mount (1), and have set up first rotation axis (3) in device shell (2), install spliced pole (4) on first rotation axis (3), and first motor (5) have been connected to first rotation axis (3) right-hand member to cutting mechanism (6) have been connected below spliced pole (4), moving structure (7) have been installed to mount (1) intermediate position, and moving structure (7) right side has connected clamp structure (9), cleaning brush (10) have been connected below clamp structure (9), and recovery tank (11) have been installed below cleaning brush (10).

2. The cutting device for aluminum plate processing as recited in claim 1, wherein: the fixing frame (1) is vertically installed, 2 groups of fixing frames (1) are installed in bilateral symmetry, the device housing (2) is arranged at the top end horizontal positions of the two groups of fixing frames (1), the connecting column (4) is installed at the middle position of the first rotating shaft (3), the connecting column (4) can move left and right on the first rotating shaft (3), the first rotating shaft (3) is coaxially connected with the first motor (5), and the first rotating shaft (3) and the first motor (5) form a moving structure.

3. The cutting device for aluminum plate processing as recited in claim 1, wherein: the utility model discloses a cutting mechanism, including cutting mechanism (6), connecting column (4), cutting mechanism (6) are connected in vertical, and connecting column (4) and cutting mechanism (6) constitute linkage structure, cutting mechanism (6) comprise cutting shell (6-1), cutting piece (6-2) and second motor (6-3), and connecting column (4) bottom is connected in the top of shell (6-1), be equipped with the recess in the middle of shell (6-1), and the intermediate position is connected in cutting piece (6-2) by the bearing in the recess, second motor (6-3) have been connected in the shell (6-1) outside, and second motor (6-3) and cutting piece (6-2) are coaxial coupling to second motor (6-3) and cutting piece (6-2) constitute revolution mechanic.

4. The cutting device for aluminum plate processing as recited in claim 1, wherein: the movable structure (7) is composed of a third motor (7-1), a second rotating shaft (7-2), a first bevel gear (7-3), a second bevel gear (7-4), a threaded shaft (7-5) and a connecting sliding block (7-6), wherein the third motor (7-1) is coaxially connected to the second rotating shaft (7-2), the third motor (7-1) and the second rotating shaft (7-2) form the movable structure, the third motor (7-1) is vertically connected to the first bevel gear (7-3) through a bearing, the two ends of 2 groups of first bevel gears (7-3) on the second rotating shaft (7-2) are symmetrically arranged in the horizontal direction of the first bevel gear (7-3), the first bevel gear (7-3) is transversely meshed with the second bevel gear (7-4), the second bevel gear (7-4) is vertically connected with the threaded shaft (7-5), the movable connecting sliding block (7-6) is arranged in the middle of the threaded shaft (7-5), and the connecting sliding block (7-6) is also transversely connected with the connecting shaft (7-5), and the connecting rod (7-5) forms the threaded structure.

5. The cutting device for aluminum plate processing as recited in claim 1, wherein: the clamping structure (9) is composed of a clamping bin (9-1), an extrusion spring (9-2), a telescopic clamping plate (9-3) and a fixed clamping plate (9-4), wherein the extrusion spring (9-2) is arranged at the middle position inside the clamping bin (9-1), the telescopic clamping plate (9-3) is connected above the extrusion spring (9-2), the extrusion spring (9-2) and the telescopic clamping plate (9-3) form a telescopic structure, the fixed clamping plate (9-4) is arranged below the clamping bin (9-1), the telescopic clamping plate (9-3) is of an upward 45-degree arc structure, and the fixed clamping plate (9-4) is of a downward 45-degree arc structure.

6. The cutting device for aluminum plate processing as recited in claim 1, wherein: the brush hairs are arranged on the cleaning brush (10) in an equal-interval mode, the cleaning brush (10) and the clamping structure (9) form a linkage structure, and the length of the recovery box (11) is equal to that of the cleaning brush (10).