CN223175211U - A kind of automatic feeding equipment for raw aluminum sheet - Google Patents

Abstract

The utility model discloses automatic raw aluminum sheet feeding equipment, which is used for moving raw aluminum sheets from a feeding table to a feeding line, wherein the feeding device comprises a support, a feeding mechanism and a suction mechanism, the feeding mechanism is arranged on the support, the output end of the feeding mechanism is provided with the suction mechanism, the suction mechanism comprises a mounting frame arranged on the feeding mechanism and a plurality of suckers arranged on the mounting frame and used for adsorbing the raw aluminum sheets, and a lifting assembly is arranged at the corner of one side of the mounting frame and used for lifting the corner of the raw aluminum sheets. According to the utility model, the automatic moving and taking of the single raw aluminum thin plates are realized between the feeding table and the feeding line through the material moving device, and the corners of a pair of adjacent raw aluminum thin plates are separated through the lifting assembly, so that a gap is formed between the pair of raw aluminum thin plates, and then air is introduced to eliminate the vacuum adsorption state between the two, thereby ensuring that one raw aluminum thin plate is fed each time, and improving the feeding precision and the feeding efficiency.

Description

Former aluminium sheet metal automatic feeding equipment

Technical Field

The utility model relates to the technical field of an original aluminum grinding auxiliary device, in particular to automatic original aluminum sheet feeding equipment.

Background

Raw aluminum sheet is typically ground on one side thereof due to the subsequent processing requirements. In order to improve the efficiency of raw aluminum sheet feeding to grinding positions, single raw aluminum sheets can be transferred to an automatic feeding line for conveying to corresponding grinding stations, and particularly, stacked raw aluminum sheets can be transferred to a conveying line one by one.

In the prior operation process, if a single raw aluminum sheet is manually conveyed to a conveying line, the raw aluminum sheet is easy to collide in the process, the appearance quality is affected, the manual conveying can cause high labor intensity of operators and low personnel utilization efficiency, as improvement, the problems can be avoided through the form of adsorption conveying, but when the single raw aluminum sheet is adsorbed, air between adjacent raw aluminum sheets can be extruded and discharged to form a state similar to vacuum due to stacking and placing of the raw aluminum sheets, when an adsorption mode is adopted, two or more raw aluminum sheets can be absorbed at one time, the quantity of raw aluminum sheets conveyed each time is inaccurate, and based on the problems, if the adjacent raw aluminum sheets are separated when one raw aluminum sheet is adsorbed through manual operation, the labor is occupied, and the personnel utilization efficiency is indirectly lower.

Disclosure of utility model

The utility model aims to provide automatic raw aluminum sheet feeding equipment, which realizes automatic moving and taking of single raw aluminum sheets between a feeding table and a feeding line through a material moving device, separates corners of a pair of adjacent raw aluminum sheets through a lifting assembly, enables air to enter after a gap is formed between the pair of raw aluminum sheets so as to eliminate a vacuum adsorption state between the two, ensures feeding of one raw aluminum sheet each time, and can improve feeding precision and feeding efficiency.

In order to achieve the purpose, the technical scheme adopted by the utility model is that the automatic feeding equipment for the raw aluminum sheet comprises:

a loading table for carrying a plurality of stacked raw aluminum sheets,

A feed line arranged at the side of the feeding table for conveying single raw aluminum sheets,

The material moving device is used for moving raw aluminum thin plates from a feeding table to a feeding line, the material moving device comprises a support, a material moving mechanism and a material sucking mechanism, the material moving mechanism is arranged on the support, the output end of the material moving mechanism is provided with the material sucking mechanism, the material sucking mechanism comprises a mounting frame arranged on the material moving mechanism and a plurality of suckers arranged on the mounting frame and used for adsorbing the raw aluminum thin plates, and lifting assemblies are arranged at corners of one side of the mounting frame and used for lifting corners of the raw aluminum thin plates.

As a further optimization, the lifting assembly comprises a mounting plate, a translation cylinder and a plugboard, wherein the mounting plate is arranged on the mounting frame, the translation cylinder is arranged at the lower end of the mounting plate, and the plugboard is arranged at the output end of the translation cylinder and extends between a pair of stacked raw aluminum sheets through driving.

As further optimization, the front end of the plugboard is provided with an inclined guide surface, so that the plugboard can extend into the space between the pair of original aluminum sheets.

As further optimization, the plugboard is made of wood or hard plastic, so that damage to the original aluminum sheet can be avoided.

As further optimization, the mounting plate is of an L-shaped structure, a waist-shaped hole is formed in the vertical plate of the mounting plate, a plurality of locking holes are formed in the mounting frame, the mounting plate is fixed on the mounting frame through bolts penetrating through the waist-shaped hole and extending into the locking holes, and the position of the inserting plate can be adjusted in the vertical direction and the horizontal direction so as to be suitable for raw aluminum sheets of different specifications.

As a further optimization, the lifting assembly comprises a vertical cylinder and a suction head, the vertical cylinder is arranged on the mounting frame, and the suction head is arranged at the output end of the vertical cylinder and is used for driving the corner of the raw aluminum sheet to be adsorbed and lifted.

As a further optimization, the suction head is a sponge suction head, so that the adsorption imprinting of the suction head can be reduced.

As further optimization, the feeding table is a scissor type hydraulic lifting table.

As further optimization, the material moving mechanism comprises a translation module and a lifting module, the translation module and the lifting module are servo modules, and the material sucking mechanism can be driven to respectively perform accurate horizontal movement and lifting movement.

As further optimization, the feeding line comprises a bracket and a translation roller line arranged on the bracket, guide roller lines are arranged on the bracket and positioned on two sides of the translation roller line, and the movable raw aluminum sheet can be rotatably supported.

Compared with the prior art, the utility model has the following beneficial effects:

1. the automatic transfer of the single raw aluminum thin plate between the feeding table and the feeding line is realized through the transfer device, so that the feeding efficiency and the feeding precision can be improved;

2. The lifting assembly can separate the corners of a pair of adjacent original aluminum sheets, so that air is introduced after a gap is formed between the pair of original aluminum sheets to eliminate the vacuum adsorption state between the pair of original aluminum sheets, one original aluminum sheet is fed each time, and the feeding precision can be improved.

Drawings

Fig. 1 is a structural diagram of the present utility model.

Fig. 2 is a structural view of an embodiment of a suction mechanism of the present utility model.

Fig. 3 is a structural view of another embodiment of the suction mechanism of the present utility model.

FIG. 4 is a schematic diagram of a feed line of the present utility model.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 to 2, an automatic raw aluminum sheet feeding device comprises a feeding table 10, a feeding line 20 and a material moving device 30, wherein the feeding table 10 is used for carrying a plurality of stacked raw aluminum sheets 100, the feeding line 20 is arranged at the side of the feeding table 10 and used for conveying single raw aluminum sheets 100 which are moved from the feeding table 10 by the material moving device 30, the material moving device 30 comprises a support 31, a material moving mechanism 32 and a material sucking mechanism 33, the material moving mechanism 32 is arranged on the support 31, the output end is provided with the material sucking mechanism 33, the material sucking mechanism 33 comprises a mounting frame 331 arranged on the material moving mechanism 32 and a plurality of sucking discs 332 arranged on the mounting frame 331 and used for sucking the raw aluminum sheets 100, and a lifting component 333 is arranged at a corner of one side of the mounting frame 331 and used for lifting corners of the raw aluminum sheets 100. In the process of grinding one surface of the raw aluminum sheet 100, when a single raw aluminum sheet 100 needs to be moved from the loading table 10 to the feeding line 20 and fed to the grinding position, the material moving mechanism 32 drives the material sucking mechanism 33 to move above the loading table 10, and drives the material sucking mechanism 33 to move downwards so that the suction cups 332 abut against the raw aluminum sheet 100 and adsorb the raw aluminum sheet, before the material moving mechanism 32 drives the suction cups 332 and the raw aluminum sheet 100 to lift, the lifting assembly 333 stretches into the lower end of the raw aluminum sheet acting with the suction cups 332 and is positioned at the upper end of the next raw aluminum sheet, the raw aluminum sheet 100 is partially lifted to form a gap at least at the corners of the pair of raw aluminum sheets, air can enter between the pair of raw aluminum sheets to avoid the suction cups 332 from sucking two or more raw aluminum sheets to the feeding line 20 in a state similar to vacuum adsorption state, after the movement of the suction cups 332 is completed, after the movement mechanism 32 drives the suction cups 332 and the raw aluminum sheet to lift, the assembly 333 is reset to separate from the suction cups 332 and the raw aluminum sheet 100 to lift the raw aluminum sheet, and the raw aluminum sheet 332 can only lift the raw aluminum sheet 20 to the feeding line 20 accurately each time.

In the utility model, the automatic moving and taking of the single raw aluminum thin plate 100 is realized between the feeding table 10 and the feeding line 20 through the moving device 30, so that the feeding efficiency and the feeding precision can be improved, and at least a pair of adjacent raw aluminum thin plates can be separated at the corners through the lifting assembly 333, so that a gap is formed between the pair of raw aluminum thin plates, then the raw aluminum thin plates enter air to eliminate the vacuum adsorption state between the two, one raw aluminum thin plate is fed each time, and the feeding precision is improved.

As further shown in fig. 2, the structure of the lifting assembly 333 includes a mounting plate 3331, a translation cylinder 3332 and a plugboard 3333, the mounting plate 3331 is disposed on the mounting frame 331, the translation cylinder 3332 is disposed at the lower end of the mounting plate, the plugboard 3333 is disposed at the output end of the translation cylinder 3332 and is driven to extend between a pair of stacked aluminum sheets, and since the plugboard 3333 is driven by the translation cylinder 3332 to move in a horizontal plane, the acting surface of the plugboard 3333 should be slightly lower than the acting surface of the suction cup 332 to ensure that the plugboard 3333 can be driven to move to the lower end of the aluminum sheet 100 when the suction cup 332 abuts against the aluminum sheet 100.

Further, the front end of the insert plate 3333 is provided with an inclined guide surface, i.e., the front end thereof has a thinner active surface, by which it can smoothly extend between a pair of adjacent raw aluminum sheets and the gap between the pair of raw aluminum sheets is increased by the thickness of the rear end.

To avoid damage to the original aluminum sheets when the insert plate 3333 is inserted between a pair of original aluminum sheets, the insert plate 3333 may be selected to be made of wood or hard plastic.

In order to realize the position adjustment of the plugboard 3333 so as to be suitable for original aluminum thin plates with different specifications (mainly thickness and width), the mounting plate 3331 is of an L-shaped structure, a through waist-shaped hole 3330 is arranged on a vertical plate of a mounting plate 3331 body, a plurality of locking holes 3310 are arranged on the mounting frame 331, and the mounting plate 3331 is fixed on the mounting frame 331 through bolts 3334 penetrating through the waist-shaped hole 3330 and extending into the locking holes 3310, so that the position adjustment of the mounting frame 3331 in the vertical direction and the horizontal direction can be realized.

In another embodiment of the present utility model, as shown in fig. 3, the lifting assembly 333 comprises a vertical cylinder 3335 and a suction head 3336, the vertical cylinder 3335 is disposed on the mounting frame 331, the suction head 3336 is disposed at the output end of the vertical cylinder 3335 and is driven to adsorb and lift the corner of the raw aluminum sheet 100, so that before the material moving mechanism 32 drives the suction cup 332 and the raw aluminum sheet 100 to lift, the vertical cylinder 3335 drives the suction head 3336 to move downwards to abut against and adsorb the corner of the raw aluminum sheet, and then drives the suction head 3336 to lift the corner of the raw aluminum sheet to form a gap to enter air, and after the material moving mechanism 32 drives the suction cup 332 and the raw aluminum sheet to lift, the suction head 3336 is desorbed and reset.

Preferably, the suction head 3336 is a sponge suction head, that is, a vacuum suction tube acts on the raw aluminum sheet through a sponge (a gap of a sponge body), so that more adsorption marks can be avoided.

Based on the above arrangement, in still another embodiment of the present utility model, the two structures of the lifting assembly can be combined, that is, the insert plate 3333 and the suction head 3336 are simultaneously arranged on the mounting frame 331, specifically, the mounting plate 3331, the translation cylinder 3332 and the vertical cylinder 3335 are arranged at a corner of the mounting frame 331 in a staggered manner, all the components do not interfere with each other, before the material moving mechanism 32 drives the suction cup 332 and the raw aluminum sheet 100 to lift, the suction head 3336 is driven by the vertical cylinder 3335 to adsorb the corner of the raw aluminum sheet to form an initial gap, then the insert plate 3333 is driven by the translation cylinder 3332 to extend into the initial gap and extend deeper by the insert plate 3333, so that the gap can be further enlarged, the vacuum adsorption state of a pair of raw aluminum sheets can be eliminated by entering the air in the gap more easily and quickly, the accuracy of movement of the insert plate 3333 can be ensured by extending into the formed initial gap, and damage to the insert plate 3333 and the side wall collision of the raw aluminum sheet can be avoided. The embodiment simulates the action process of an operator, namely the operator lifts one corner of the original aluminum sheet first and then plugs in the cushion block, and the structure replaces manual operation.

The material loading platform 10 is cut fork hydraulic lifting platform, and the material shifting mechanism 32 includes translation module and lifting module, and both are servo module, can guarantee through the cooperation of material loading platform 10 and lifting module that the mechanism 33 carries out accurate location absorption to the former aluminium sheet on the material loading platform 10.

In addition, as shown in fig. 4, the feeding line 20 includes a support 21 and a translation roller line 22 disposed on the support 21, where the raw aluminum sheet 100 is transported to a grinding place on the translation roller line 22, and guide roller lines 23 are disposed on two sides of the translation roller line 22 on the support 21, where the guide roller lines 23 are composed of a plurality of rotatable guide posts, so that the side wall of the raw aluminum sheet 100 in the feeding process can be supported in a rolling manner.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (7)

1. Automatic raw aluminum sheet feeding equipment, characterized by, include:

a loading table for carrying a plurality of stacked raw aluminum sheets,

A feed line arranged at the side of the feeding table for conveying single raw aluminum sheets,

The material moving device is used for moving the raw aluminum thin plate from the feeding table to the feeding line and comprises a support, a material moving mechanism and a material sucking mechanism, wherein the material moving mechanism is arranged on the support, the output end of the material moving mechanism is provided with the material sucking mechanism, the material sucking mechanism comprises a mounting frame arranged on the material moving mechanism and a plurality of suckers arranged on the mounting frame and used for adsorbing the raw aluminum thin plate, and a lifting assembly is arranged at the corner of one side of the mounting frame and used for lifting the corner of the raw aluminum thin plate;

The lifting assembly comprises a mounting plate, a translation cylinder and a plugboard, wherein the mounting plate is arranged on the mounting frame, the translation cylinder is arranged at the lower end of the mounting plate, the plugboard is arranged at the output end of the translation cylinder and driven to extend between a pair of stacked raw aluminum sheets, and an inclined guide surface is arranged at the front end of the plugboard;

the lifting assembly comprises a vertical cylinder and a suction head, the vertical cylinder is arranged on the mounting frame, and the suction head is arranged at the output end of the vertical cylinder and is used for driving the corner of the original aluminum sheet to be adsorbed and lifted.

2. The automatic raw aluminum sheet feeding apparatus as recited in claim 1, wherein the insert plate is made of wood or hard plastic.

3. The automatic original aluminum sheet feeding device according to claim 1, wherein the mounting plate is of an L-shaped structure, waist-shaped holes are formed in the vertical plates of the mounting plate, a plurality of locking holes are formed in the mounting frame, and the mounting plate is fixed to the mounting frame through bolts penetrating through the waist-shaped holes and extending into the locking holes.

4. The automated raw aluminum sheet feeding apparatus as recited in claim 1 wherein the suction head is a sponge suction head.

5. The automatic raw aluminum sheet feeding apparatus as recited in claim 1 wherein the feeding table is a scissor hydraulic lift table.

6. The automatic raw aluminum sheet feeding apparatus as recited in claim 1 or 5, wherein the material moving mechanism comprises a translation module and a lifting module, both of which are servo modules.

7. The automatic raw aluminum sheet feeding device according to claim 1, wherein the feeding line comprises a bracket and translation roller lines arranged on the bracket, and guide roller lines are arranged on two sides of the translation roller lines on the bracket.