CN214732781U - Automatic overturning and stacking device for large-amplitude thin aluminum plates - Google Patents

Abstract

The utility model relates to a large-amplitude automatic overturning and stacking device for thin aluminum plates, which belongs to the field of automation equipment and comprises an automatic transmission mechanism, a bracket mechanism and a turnover mechanism; automatic conveying mechanism includes first frame construction, at a plurality of gyro wheels of the automatic pivoted of first frame construction top surface and be used for driving gyro wheel pivoted motor, first frame construction's transportation terminal sets up first baffle, bracket mechanism is located automatic conveying mechanism top, bracket mechanism includes support body and lower support body, turnover mechanism is second frame construction, turnover mechanism is the inclined plane towards one side of automatic conveying mechanism, the bottom on turnover mechanism inclined plane is connected with the pipe of upwards perk. The utility model discloses an automatic device that stacks that overturns of thin aluminum plate by a wide margin, the device degree of automation is high, can effectively avoid the incident emergence in the operation, has improved product quality's stability.

Description

Automatic overturning and stacking device for large-amplitude thin aluminum plates

Technical Field

The utility model relates to a device is stacked in the upset, especially relates to a device is stacked in automatic upset of thin aluminum plate by a wide margin, and it belongs to the automation equipment field.

Background

With the development of industrial automation, the action standardization, quality stabilization, worker convenience and work automation of products in the manufacturing industry gradually replace the traditional manual manufacturing. The existing large-amplitude thin aluminum plate has many problems in production and operation: in the processes of blanking, overturning and stacking of large-amplitude thin aluminum plate products, at least two workers are needed, and the labor cost is high; in the manual construction process, other work cannot be done, the equipment takt cannot be met at the rear end of the high-efficiency stamping equipment, the time waste is large, if the takt of the front-end equipment needs to be kept up, the number of stations and personnel needs to be greatly increased, and the construction efficiency is extremely low; in the manual construction process, the thin aluminum plate has weak strength, large plate width and serious bending deformation, so that quality problems such as folds, scratches, damages and the like often occur, and the product quality stability is poor; the thin aluminum plate has large breadth, large weight, smooth surface and sharp edge, and the palm, the forearm and the face are often cut in the process of lifting up and bending down by workers; because of thin aluminum plate width of plate is big, yielding, not upset among the manual operation process, directly stack, and it is poor to stack the standardization, causes the trouble to next process construction, delays whole operating efficiency.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: overcomes the defects in the prior art and provides a large-amplitude automatic overturning and stacking device for thin aluminum plates.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

an automatic overturning and stacking device for large-amplitude thin aluminum plates comprises an automatic transmission mechanism, a bracket mechanism and a turnover mechanism;

the automatic transmission mechanism comprises a first frame structure, a plurality of rollers and a motor, the rollers automatically rotate on the top surface of the first frame structure, the motor is used for driving the rollers to rotate, and a first baffle is arranged at a transportation terminal of the first frame structure;

the automatic conveying mechanism comprises an automatic conveying mechanism, a bracket mechanism and a conveying mechanism, wherein the bracket mechanism is positioned above the automatic conveying mechanism and comprises an upper bracket body and a lower bracket body, a short plate is connected below the upper bracket body, a guide hole is formed in the short plate, the lower bracket body is connected with the guide hole in a sliding mode, the upper bracket body is hinged to one side of a first frame structure, the upper bracket body can drive the lower bracket body to turn towards one side of the turnover mechanism, second baffles perpendicular to the lower bracket body are arranged at the bottom of the lower bracket body at intervals, and a bearing roller is connected to the hinged side of the upper bracket body and the first frame structure;

the turnover mechanism is of a second frame structure, one side of the turnover mechanism, facing the automatic transmission mechanism, is an inclined plane, and the bottom of the inclined plane of the turnover mechanism is connected with a round pipe which is tilted upwards.

Furthermore, the upper frame body is of a square structure formed by welding a plurality of steel pipes, the upper frame body is tiled and can be embedded in the roller, and the large-amplitude thin aluminum plate can automatically slide onto the roller.

Furthermore, the automatic transmission mechanism is provided with infrared inductive switch on one side near the first baffle, and the infrared inductive switch signals after the thin aluminum plate reaches the assigned position by a wide margin, go up the support body and be provided with touch inductive switch with the articulated side of first frame construction, touch inductive switch signals after the thin aluminum plate upset targets in place by a wide margin.

Furthermore, a weight sensing switch is arranged inside the turnover mechanism and used for achieving automatic transfer of the turnover mechanism.

Furthermore, an air cylinder is connected between the upper frame body and the first frame structure, the fixed end of the air cylinder is hinged to the bottom of the first frame structure, and the telescopic end of the air cylinder is hinged to the lower surface of the upper frame body.

Still further, the bottom of the turnover mechanism is provided with an electric pulley.

Furthermore, the surfaces of the bracket mechanism and the turnover mechanism are coated with hard protective plastics.

Compared with the prior art, the beneficial effects of the utility model are that: by arranging the automatic transmission mechanism, the large-amplitude thin aluminum plate can be automatically transported to a designated position to be turned and stacked, so that the damage to a human body during manual operation is avoided; by arranging the infrared induction switch, when the large-size thin aluminum plate reaches a designated position, the infrared induction switch sends a signal, and the bracket mechanism starts to automatically turn over; by arranging the touch sensing switch, when the large-amplitude thin aluminum plate is turned in place, the touch sensing switch sends a signal, the upper bracket is not turned, and the lower bracket drives the large-amplitude thin aluminum plate to start stretching and move downwards, so that the large-amplitude thin aluminum plate is stacked; by arranging the weight sensing switches, when the stacked large-size thin aluminum plates reach the specified number, the weight sensing switches send signals, the turnover mechanism starts to automatically transfer without manual transfer; this automatic upset stacks device, degree of automation is high, and whole device all has the protection with work piece direct contact position, and the bending deformation that thin aluminum plate appears by a wide margin in having avoided manual operation, quality problems such as fold damage have improved product quality's stability, and the artifical incident of avoiding manual operation to bring takes place, and this automatic upset stacks device, and production efficiency is high, can be according to preceding process and back process beat adjustment, and the matching nature is strong, nimble operation.

Drawings

Fig. 1 is a schematic structural diagram (one) of the present invention;

fig. 2 is a schematic structural diagram (ii) of the present invention;

fig. 3 is a schematic structural diagram (three) of the present invention;

fig. 4 is a schematic structural diagram (iv) of the present invention;

fig. 5 is a schematic structural diagram (v) of the present invention.

In the figure, 1, an automatic transfer mechanism; 101. a first frame structure; 102. a roller; 103. a motor; 104. a first baffle plate; 105. a cylinder; 2. a carriage mechanism; 201. an upper frame body; 202. a lower frame body; 203. a short plate; 204. a guide hole; 205. a second baffle; 206. supporting the roller; 3. a turnover mechanism; 301. a circular tube; 302. an electric pulley; 4. a substantially thin aluminum plate.

Detailed Description

The principles and features of the present invention will be described with reference to the accompanying fig. 1 to 5, wherein the examples are provided only for explaining the present invention and are not intended to limit the scope of the present invention.

An automatic overturning and stacking device for large-amplitude thin aluminum plates comprises an automatic transmission mechanism 1, a bracket mechanism 2 and a turnover mechanism 3;

the automatic transmission mechanism 1 comprises a first frame structure 101, a plurality of rollers 102 which automatically rotate on the top surface of the first frame structure 101 and a motor 103 for driving the rollers 102 to rotate, wherein a first baffle plate 104 is arranged at the transportation terminal of the first frame structure 101;

the bracket mechanism 2 is positioned above the automatic conveying mechanism 1, the bracket mechanism 2 comprises an upper bracket body 201 and a lower bracket body 202, a short plate 203 is connected below the upper bracket body 201, a guide hole 204 is formed in the short plate 203, the lower bracket body 202 is connected with the guide hole 204 in a sliding manner, the upper bracket body 201 is hinged with one side of the first frame structure 101, the upper bracket body 201 can drive the lower bracket body 202 to turn towards one side of the turnover mechanism 3, second baffles 205 perpendicular to the lower bracket body 202 are arranged at the bottom of the lower bracket body 202 at intervals, and a bearing roller 206 is connected with the hinged side of the upper bracket body 201 and the first frame structure 101;

turnover mechanism 3 is second frame construction, turnover mechanism 3 is the inclined plane towards one side of automatic conveying mechanism 1, the bottom on turnover mechanism 3 inclined plane is connected with the pipe 301 of upwards perk.

The upper frame body 201 is of a square structure formed by welding a plurality of steel pipes, the upper frame body 201 is tiled and can be embedded in the roller 102, and the large-amplitude thin aluminum plate 4 can automatically slide onto the roller 102.

Automatic transmission device 1 is provided with infrared induction switch near first baffle 104 one side, and infrared induction switch signals after large-amplitude thin aluminum plate 4 reachs the assigned position, it is provided with touch induction switch with the articulated side of first frame construction 101 to go up support body 201, and thin aluminum plate 4 overturns the back touch induction switch signals that targets in place by a wide margin.

The turnover mechanism 3 is internally provided with a weight induction switch for realizing automatic transfer of the turnover mechanism 3.

Go up and be connected with cylinder 105 between support body 201 and the first frame construction 101, the stiff end of cylinder 105 is articulated with first frame construction 101 bottom, and its flexible end is articulated with the lower surface of last support body 201.

The bottom of the turnover mechanism 3 is provided with an electric pulley 302, the surfaces of the bracket mechanism 2 and the turnover mechanism 3 are coated with hard protective plastics, so that the quality problems of bending deformation, fold damage and the like of the thin aluminum plate 4 in the overturning and stacking process are avoided.

A process based on an automatic overturning and stacking device for large-amplitude thin aluminum plates comprises the following steps:

the method comprises the following steps: the large-amplitude thin aluminum plate 4 enters the automatic transmission mechanism 1, slides to one end through the roller 102 to be in contact with the first baffle 104, triggers the infrared induction switch, and the bracket mechanism 2 starts to automatically turn over;

step two: after the bracket mechanism 2 is turned over to a certain angle, the touch induction switch is triggered, the upper bracket body 201 stops turning over, and the lower bracket body 202 starts to slide relative to the upper bracket body 201;

step three: when the bottom of the large-amplitude thin aluminum plate 4 reaches the circular tube 301 at the bottom of the turnover mechanism 3, the touch sensing switch is triggered, the lower frame body 202 contracts rapidly, the large-amplitude thin aluminum plate 4 is completely separated from the upper frame body 201, the air cylinder 105 drives the upper frame body 201 to begin to be recovered into the automatic transmission mechanism 1, and in the turnover recovery process of the upper frame body 201, the bearing roller 206 pushes the large-amplitude thin aluminum plate 4 to lean against the inclined surface of the turnover mechanism 3, so that the stacking work is completed;

step four: repeating the above actions, triggering the weight induction switch after the large-amplitude thin aluminum plates 4 on the turnover mechanism 3 reach the designated number, automatically transferring the turnover mechanism 3, and enabling the next turnover mechanism 3 to enter the designated area.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The utility model provides an automatic device that stacks that overturns of thin aluminum plate by a wide margin which characterized in that: comprises an automatic transmission mechanism (1), a bracket mechanism (2) and a turnover mechanism (3);

the automatic conveying mechanism (1) comprises a first frame structure (101), a plurality of rollers (102) which automatically rotate on the top surface of the first frame structure (101) and a motor (103) for driving the rollers (102) to rotate, wherein a first baffle (104) is arranged at the conveying terminal of the first frame structure (101);

the automatic conveying mechanism is characterized in that the bracket mechanism (2) is located above the automatic conveying mechanism (1), the bracket mechanism (2) comprises an upper bracket body (201) and a lower bracket body (202), a short plate (203) is connected to the lower portion of the upper bracket body (201), a guide hole (204) is formed in the short plate (203), the lower bracket body (202) is connected with the guide hole (204) in a sliding mode, the upper bracket body (201) is hinged to one side of the first frame structure (101), the upper bracket body (201) can drive the lower bracket body (202) to turn towards one side of the turnover mechanism (3), second baffle plates (205) perpendicular to the lower bracket body (202) are arranged at the bottom of the lower bracket body (202) at intervals, and the hinged side of the upper bracket body (201) and the first frame structure (101) is connected with bearing rollers (206);

turnover mechanism (3) are second frame construction, turnover mechanism (3) are the inclined plane towards one side of automatic conveying mechanism (1), the bottom on turnover mechanism (3) inclined plane is connected with pipe (301) of perk upwards.

2. The automatic overturning and stacking device for the large-width thin aluminum plates as claimed in claim 1, wherein: go up support body (201) and be the square structure that forms by a plurality of steel pipe welding, go up support body (201) tiling and can inlay in gyro wheel (102) inside, thin aluminum plate (4) can slide to gyro wheel (102) on by a wide margin automatically.

3. The automatic overturning and stacking device for the large-width thin aluminum plates as claimed in claim 1, wherein: automatic transmission device (1) is provided with infrared induction switch near first baffle (104) one side, and by a wide margin thin aluminum plate (4) reachs the infrared induction switch signals after the assigned position, go up support body (201) and first frame construction (101) articulated side and be provided with touch induction switch, touch induction switch signals after big width thin aluminum plate (4) upset targets in place.

4. The automatic overturning and stacking device for the large-width thin aluminum plates as claimed in claim 3, wherein: the turnover mechanism (3) is internally provided with a weight induction switch for realizing automatic transfer of the turnover mechanism (3).

5. The automatic overturning and stacking device for the large-width thin aluminum plates as claimed in claim 1, wherein: go up and be connected with cylinder (105) between support body (201) and first frame construction (101), the stiff end of cylinder (105) is articulated with first frame construction (101) bottom, and its flexible end is articulated with the lower surface of last support body (201).

6. The automatic overturning and stacking device for the large-width thin aluminum plates as claimed in claim 1, wherein: an electric pulley (302) is arranged at the bottom of the turnover mechanism (3).

7. The automatic overturning and stacking device for the large-width thin aluminum plates as claimed in claim 1, wherein: the surfaces of the bracket mechanism (2) and the turnover mechanism (3) are coated with hard protective plastics.

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