CN211052662U - Aluminum alloy template processing panel conveyor - Google Patents

Abstract

A plate conveying device for processing an aluminum alloy template comprises a frame, wherein a rotatable roller is mounted on the frame, and one side of the roller is driven by a chain transmission mechanism and a first motor; the positioning mechanisms are arranged on the left and the right of the frame and comprise cross rods, one sides of the cross rods are driven by first cylinders, and paired rollers are mounted on the cross rods; the plate supporting and lifting mechanism comprises lifting mechanisms arranged on the left and right sides of the frame and clamping mechanisms arranged at the front and rear ends of the frame; the lifting mechanism comprises a supporting plate, and the supporting plate is driven by a second cylinder; the clamping mechanism comprises a clamping plate, and the clamping plate is driven by a third air cylinder; the plate lowering and lifting mechanism comprises a supporting rod, the supporting rod is located between the rollers, one end of the supporting rod is connected with the lifting support, the two ends of the lifting support are arranged in the sliding groove in a sliding mode through walking wheels, and the middle of the lifting support is connected with the fourth cylinder. The utility model relates to an aluminum alloy template processing panel conveyor can reduce workman's intensity of labour, improves the operating efficiency.

Description

Aluminum alloy template processing panel conveyor

Technical Field

The utility model relates to a conveyor, especially an aluminum alloy template processing panel conveyor.

Background

The cross section of the aluminum alloy template is of a notched square structure, and when the structure is processed, a plate with the length of 5-10 meters needs to be cut into plate sections with the specified length according to the requirement. When the existing plate is cut, the stacked aluminum alloy plate is placed on the support and is manually carried to large-scale hydraulic shearing equipment to move section by section, and cutting is completed. Because a plate is heavy, the labor intensity is very high, and the plate is easily scratched by the edge of the plate when being carried.

Disclosure of Invention

The utility model aims to solve the technical problem that an aluminum alloy template processing panel conveyor is provided, automatic unloading, feed can be carried out, intensity of labour is saved.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

a conveying device for processing plates of aluminum alloy templates comprises a plate conveying mechanism, wherein a positioning mechanism, a plate supporting and lifting mechanism and a plate lowering and lifting mechanism are mounted on the plate conveying mechanism;

the plate conveying mechanism comprises a frame, a rotatable roller is mounted on the frame, and one side of the roller is driven by a chain transmission mechanism and a first motor; one end of the frame, which is close to the cutting machine, is provided with a rotating pressing wheel which drives the aluminum alloy plate on the roller to move forwards;

the positioning mechanism is arranged on the left and right sides of the frame and comprises a cross rod, one side of the cross rod is driven by a first air cylinder, and the cross rod is provided with paired rollers which are opposite to the aluminum alloy plates on the roller;

the plate supporting and lifting mechanism comprises lifting mechanisms arranged on the left and right sides of the frame and clamping mechanisms arranged at the front and rear ends of the frame; the lifting mechanism comprises a supporting plate, and the supporting plate is driven by a second cylinder; the clamping mechanism comprises a clamping plate, and the clamping plate is driven by a third air cylinder;

the plate lowering and lifting mechanism comprises a supporting rod, the supporting rod is located between the rollers, one end of the supporting rod is connected with the lifting support, the two ends of the lifting support are arranged in the sliding groove in a sliding mode through walking wheels, and the middle of the lifting support is connected with the fourth cylinder.

The splint are L templates, and the splint include the double-deck board, connect through the spliced pole between the double-deck board.

The end face of the clamping plate is provided with wear-resistant rubber.

The plate conveying devices are arranged on one side of the cutting mechanism in parallel.

The utility model relates to an aluminum alloy template processing panel conveyor has following technological effect:

1) through setting up corresponding cylinder transmission line and rotation pinch roller, can drive the panel of whereabouts like this and convey forward, can compress tightly after taking one's place and cut.

2) Through setting up photoelectric sensor and positioning mechanism, can be according to the position of detecting adjustment panel, make panel can not incline in transportation process, improve the accuracy nature of position, avoid the miscut.

3) Through setting up lifting mechanism, fixture and panel and transferring lifting mechanism, can transfer panel one by one, reduce the intensity of labour of artifical transport.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the conveying roller of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Fig. 4 is a schematic diagram of the state of the present invention when lifting the board.

Fig. 5 is a schematic structural diagram of the present invention on one side of a large hydraulic cutter.

In the figure: the plate conveying device comprises a plate conveying mechanism 1, a positioning mechanism 2, a plate supporting and lifting mechanism 3, a plate lowering and lifting mechanism 4, a frame 1-1, a roller 1-2, a chain transmission mechanism 1-3, a first motor 1-4, a rotating pressure wheel 1-5, a second motor 1-6, a cross rod 2-1, a first air cylinder 2-2, a roller 2-3, a lifting mechanism 3-1, a clamping mechanism 3-2, a supporting plate 3-3, a second air cylinder 3-4, a clamping plate 3-5, a third air cylinder 3-6, a supporting rod 4-1, a lifting support 4-2, a sliding groove 4-3 and a fourth air cylinder 4-4.

Detailed Description

As shown in figure 5, the conveying device for the aluminum alloy template processing plates is arranged on one side of a large hydraulic cutting machine, and the conveying device can be arranged in two groups side by side due to the wide width of the large hydraulic cutting machine, so that the operation efficiency is improved.

As shown in fig. 1, the conveying device for the aluminum alloy template processing plate comprises a plate conveying mechanism 1, wherein a positioning mechanism 2, a plate supporting and lifting mechanism 3 and a plate lowering and lifting mechanism 4 are installed on the plate conveying mechanism 1.

Specifically, as shown in fig. 1-2, the plate conveying mechanism 1 includes a frame 1-1, a rotatable roller 1-2 is mounted on the frame 1-1 through a bearing, a double chain wheel (not shown in fig. 1) is coaxially mounted on one side of the roller 1-2, chains are wound on the adjacent double chain wheels, a first motor 1-4 is coaxially mounted on one roller 1-2, and the first motor 1-4 is a speed reduction motor. All the rollers 1-2 can be driven to rotate in the same direction by the first motor 1-4, so that the plates falling onto the rollers 1-2 can be driven to move forwards. In addition, one end of the frame 1-1, which is close to the cutting machine, is provided with a rotating pinch roller 1-5, the rotating pinch roller 1-5 is arranged on a pinch roller shaft, and two ends of the pinch roller shaft are arranged on the frame 1-1 through bearing components. The pinch roller shaft is driven by a second motor 1-6. The distance from the edge of the lowermost end of the rotary pressing wheel 1-5 to the edge of the uppermost end of the roller 1-2 is the thickness of an aluminum alloy plate, namely when the aluminum alloy plate passes through the rotary pressing wheel 1-5, the rotary pressing wheel 1-5 plays a role in compressing and can drive the aluminum alloy plate to be conveyed forwards. In addition, a photoelectric sensor can be arranged at the positioning position of the large hydraulic cutting machine, and when the aluminum alloy plate is in place, the second motor 1-6 can be controlled to stop.

As shown in fig. 3, the positioning mechanisms 2 are arranged on the left and right of the frame 1-1, and at least two sets of the left and right positioning mechanisms 2 are arranged in front and back. Multiple sets may also be provided.

The positioning mechanism 2 comprises a cross rod 2-1, one side of the cross rod 2-1 is driven by a first air cylinder 2-2, paired rollers 2-3 are mounted on the cross rod 2-1, and the rollers 2-2 are opposite to the aluminum alloy plate on the roller 1-2; when the aluminum alloy plate is positioned on the roller 1-2, the left first cylinder 2-2 and the right first cylinder 2-2 extend out simultaneously, and the position of the aluminum alloy plate is adjusted as required, so that the aluminum alloy plate is centered as much as possible and is conveyed in a state of being vertical to the cutting machine. Because the roller 2-2 is arranged, the roller 2-2 and the running aluminum alloy plate have rolling friction, so that the abrasion can be reduced.

As shown in fig. 3, the plate supporting and lifting mechanism 3 includes a lifting mechanism 3-1 disposed on the left and right of the frame 1-1, and a clamping mechanism 3-2 disposed on the front and rear ends of the frame 1-1. The lifting mechanisms 3-1 are arranged at the left and right sides and are respectively provided with at least two groups; the clamping mechanisms 3-2 are arranged in front and back, and the width between the two clamping mechanisms 3-2 is larger than the length of the plate.

The lifting mechanism 3-1 comprises a supporting plate 3-3, the supporting plate 3-3 is an L-shaped plate, the horizontal part of a L-shaped plate is mainly used for lifting, the vertical part of a L-shaped plate is mainly used for aligning the side parts of stacked plates, and the supporting plate 3-3 is driven by a second air cylinder 3-4.

The clamping mechanism 3-2 comprises a clamping plate 3-5, the clamping plate 3-5 comprises double plates, and the double plates are connected through a connecting column, so that enough strength is kept, and the end, in contact with the plate, is uniformly stressed. The end faces of the clamping plates 3-5 are provided with wear-resistant rubber, so that the friction force is increased. The clamping plate 3-5 is driven by a third cylinder 3-6.

When the supporting plate 3-3 lifts the plate, the lowest end of the clamping plate 3-5 is flush with the lowest end of the plate.

As shown in fig. 3, the plate material lowering and lifting mechanism 4 is arranged at one side of the frame 1-1 in front and back. The plate lowering and lifting mechanism 4 comprises two support rods 4-1, wherein the two support rods 4-1 are positioned between the rollers 1-2 and are positioned below the rollers 1-2 when not in work. One end of each of the two support rods 4-1 is connected with the lifting support 4-2, the two ends of the lifting support 4-2 are provided with walking wheels, and the middle of the lifting support is provided with a connecting plate. The traveling wheels are arranged in the sliding grooves 4-3 in a sliding mode, the connecting plate is connected with the fourth air cylinder 4-4, and the fourth air cylinder 4-4 is fixed on the frame 1-1.

In addition, pressure sensors can be arranged on the two support rods 4-1, the support plates 3-3 and the clamping plates 3-5 and used for detecting that the parts are in contact with the plates in place, so that the controller can conveniently control the corresponding cylinders to start and stop.

A photoelectric sensor is arranged at a proper position on the frame 1-1, and the photoelectric sensor can be used for detecting the position of a plate and is matched with the positioning mechanism 2, so that the positioning is convenient.

The working principle and the process are as follows: 1) and when not in operation, each cylinder is kept in a contracted state. The stacked aluminum alloy sheets are placed on the drum 1-2 by a spreader. And then the fourth cylinder 4-4 extends out, the aluminum alloy plate is supported by the support rod 4-1, and when the lowest end of the aluminum alloy plate is higher than the support plate 3-3, the fourth cylinder 4-4 stops. The second cylinder 3-4 is extended so that the horizontal portion of the pallet 3-3 is located below the aluminum alloy plate. The fourth cylinder 4-4 contracts to drive the support rod 4-1 to fall. Thus, the aluminum alloy sheet falls on the pallet 3-3. The third cylinder 3-6 extends out, and the position of each aluminum alloy plate is correspondingly adjusted through the clamping plates 3-5, so that two ends of each aluminum alloy plate are aligned. Thereby completing the positioning of the sheet.

2) When the cutting is needed, the fourth cylinder 4-4 drives the support rod 4-1 to move upwards, and when the fourth cylinder is in contact with the plate, the fourth cylinder 4-4 stops moving. At this time, the second cylinder 3-4 and the third cylinder 3-6 contract. The fourth cylinder 4-4 contracts to drive the plate to move downwards integrally by one plate thickness, at the moment, the third cylinder 3-6 extends out, the front and rear splints 3-5 clamp the plate (except for the plate at the lowest end), and the fourth cylinder 4-4 continuously contracts to drive the plate at the lowest end to fall onto the roller 1-2 and convey forwards; when the plate at the lowest end falls, the second cylinder 3-4 extends out, and the supporting plate 3-3 lifts the plate. And repeating the step 2) until all the plates are completely lowered.

3) When the plate reaches the front end, the plate is clamped by rotating the pressing wheel 1-5 and is continuously conveyed forwards, and when the plate reaches the positioning position of the cutting machine, the second motor 1-6 can stop through the control of the photoelectric sensor, so that the rotating pressing wheel 1-5 plays a role in compressing, and the cutting machine is convenient to cut; after cutting, the second motor 1-6 is continuously started, the plate is driven to continuously convey forwards by rotating the pinch roller 1-5, and the process is repeated until the plate is cut.

Claims (4)

1. The utility model provides an aluminum alloy template processing panel conveyor which characterized in that: the plate conveying device comprises a plate conveying mechanism (1), wherein a positioning mechanism (2), a plate supporting and lifting mechanism (3) and a plate lowering and lifting mechanism (4) are arranged on the plate conveying mechanism (1);

the plate conveying mechanism (1) comprises a frame (1-1), a rotatable roller (1-2) is mounted on the frame (1-1), and one side of the roller (1-2) is driven by a chain transmission mechanism (1-3) and a first motor (1-4); one end of the frame (1-1), which is close to the cutting machine, is provided with a rotary pressing wheel (1-5), and the rotary pressing wheel (1-5) drives the aluminum alloy plate on the roller (1-2) to move forwards;

the positioning mechanism (2) is arranged on the left and right sides of the frame (1-1), the positioning mechanism (2) comprises a cross rod (2-1), one side of the cross rod (2-1) is driven by a first air cylinder (2-2), paired rollers (2-3) are mounted on the cross rod (2-1), and the rollers (2-3) are opposite to aluminum alloy plates on the roller (1-2);

the plate supporting and lifting mechanism (3) comprises lifting mechanisms (3-1) arranged on the left and right sides of the frame (1-1) and clamping mechanisms (3-2) arranged at the front and rear ends of the frame (1-1); the lifting mechanism (3-1) comprises a supporting plate (3-3), and the supporting plate (3-3) is driven by a second cylinder (3-4); the clamping mechanism (3-2) comprises a clamping plate (3-5), and the clamping plate (3-5) is driven by a third cylinder (3-6);

the plate lowering and lifting mechanism (4) comprises a supporting rod (4-1), the supporting rod (4-1) is located between the rollers (1-2), one end of the supporting rod (4-1) is connected with the lifting support (4-2), two ends of the lifting support (4-2) are arranged in the sliding groove (4-3) in a sliding mode through walking wheels, and the middle of the lifting support (4-2) is connected with the fourth cylinder (4-4).

2. The aluminum alloy template processing plate conveying device as claimed in claim 1, wherein the supporting plates (3-3) are L-shaped plates, the clamping plates (3-5) comprise double-layer plates, and the double-layer plates are connected through connecting columns.

3. The aluminum alloy template processing plate conveying device as claimed in claim 1, wherein: the end faces of the clamping plates (3-5) are provided with wear-resistant rubber.

4. The aluminum alloy template processing plate conveying device as claimed in claim 1, wherein: the plate conveying devices are arranged on one side of the cutting mechanism in parallel.

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