CN209939615U - Loading equipment for canned materials - Google Patents

Abstract

The utility model discloses a loading device for canned materials, which comprises a loading frame, a plurality of conveying rollers and a stopping mechanism, wherein all the conveying rollers are rotationally connected with the loading frame, and the stopping mechanism is positioned at one end of each conveying roller; the stopping mechanism comprises a stopping plate and a driving structure for driving the stopping plate to be close to one end of all the conveying rollers, and an output shaft of the driving structure is connected with the stopping plate; the conveying roller comprises a roller and roller shafts formed at two ends of the roller, a first anti-slip part and a second anti-slip part are arranged on the outer surface of the roller, and the first anti-slip part and the second anti-slip part are distributed at intervals; the first anti-slip part and the second anti-slip part are elastic anti-slip parts. The utility model discloses can be guaranteed and transport can be stably carried smoothly, and can suspend at any time and carry, the reliability is high.

Description

Loading equipment for canned materials

Technical Field

The utility model belongs to the technical field of can is carried, especially, relate to a canned material's charging equipment.

Background

A canned food is used as a food packaging method. Can be canned beverage, including canned soda water, coffee, fruit juice, frozen milk tea, beer, etc. Can also be canned food, including luncheon meat, and the packaging material is tinplate. The can opener is used in the can opening part or the technology of imitating the pop can is adopted. The used packaging materials are aluminum alloy, most of the can opening modes are pop-top cans nowadays, and the can opening mode is convenient to use.

In the production process of the existing canned materials, cans need to be conveyed to a specified production line through an inclined conveying frame for subsequent operation. However, in the actual conveying process, the cans are liable to fall, and therefore, the conveying rack cannot stably and smoothly convey the cans.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a canned material's charging equipment, can guarantee that the can be carried smoothly steadily, and can suspend the transport at any time, and the reliability is high.

In order to solve the technical problem, the utility model discloses a technical scheme be: a loading device for canned materials comprises a loading frame, a plurality of conveying rollers and a stopping mechanism, wherein all the conveying rollers are rotatably connected with the loading frame, and the stopping mechanism is positioned at one end of each conveying roller;

the stopping mechanism comprises a stopping plate and a driving structure for driving the stopping plate to be close to one end of all the conveying rollers, and an output shaft of the driving structure is connected with the stopping plate;

the conveying roller comprises a roller and roller shafts formed at two ends of the roller, a first anti-slip part and a second anti-slip part are arranged on the outer surface of the roller, and the first anti-slip part and the second anti-slip part are distributed at intervals;

the first anti-slip part is an anti-slip line with a semicircular section, the second anti-slip part is an anti-slip line with a triangular section, and the vertical distance between the highest point of the first anti-slip part and the outer surface of the roller is equal to the vertical distance between the highest point of the second anti-slip part and the outer surface of the roller;

the first anti-slip part and the second anti-slip part are elastic anti-slip parts;

the outer surface of the first anti-skid part and the outer surface of the second anti-skid part are respectively coated with a phenolic resin layer;

the upper end of the feeding frame is a feeding plate which is obliquely arranged.

The utility model discloses a solve the further technical scheme that its technical problem adopted and be:

furthermore, the first anti-slip part and the second anti-slip part are both silica gel anti-slip parts or rubber anti-slip parts.

Further, the distance between the adjacent conveying rollers is 3-4 cm.

Further, the coating thickness of the phenolic resin layer is 2-3 mm.

Further, the roll shaft is connected with the feeding frame through a bearing.

And further, buffer springs are arranged between the two ends of the roller and the feeding frame.

Further, the length of the stopper plate is greater than the length of all the conveying rollers formed side by side.

Furthermore, the number of the driving structures is two, and the two driving structures are symmetrically located at two ends of the stop plate.

Further, the driving structure is a driving cylinder.

Furthermore, universal wheels are installed around the lower end of the feeding frame.

The utility model has the advantages that: when carrying the can, carry from last slope down through last work or material rest, specifically as follows: the conveying roller is rotatably connected with the feeding frame, so that the self rotation of the conveying roller can drive a plurality of cans to be obliquely conveyed from top to bottom, the resistance between the first anti-slip part and the surfaces of the cans can be increased by the first anti-slip part and the second anti-slip part on the surfaces of the rollers, the conveying stability of the cans is improved, the first anti-slip part and the second anti-slip part are elastic anti-slip parts, and the outer surfaces of the first anti-slip part and the second anti-slip part are respectively coated with a phenolic resin layer, so that the abrasion on the surfaces of the rollers can be reduced, and the service life of the conveying roller is prolonged;

in addition, one end of the conveying roller is provided with a stopping mechanism, the stopping mechanism comprises a stopping plate and a driving structure, when the conveying is required to be suspended, the driving structure drives the stopping plate to be close to the conveying roller, the conveying roller is suspended and rotated by friction force, and therefore the conveying of the cans is suspended; when the conveying is restarted, the driving structure drives the stop plate to be far away from the conveying roller, the friction force between the stop plate and the conveying roller disappears, and then the rotation of the conveying roller drives the cans to be conveyed.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the exploded structure of the present invention;

FIG. 3 is a schematic view of the conveying roller of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

the parts in the drawings are marked as follows:

the feeding frame 1, the feeding plate 11, the conveying roller 2, the first anti-slip part 21, the second anti-slip part 22, the stopping mechanism 3, the stopping plate 31, the driving structure 32, the bearing 4 and the buffer spring 5.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Example (b): a loading device for canned materials is shown in figures 1-4 and comprises a loading frame 1, a plurality of conveying rollers 2 and a stopping mechanism 3, wherein all the conveying rollers are rotatably connected with the loading frame, and the stopping mechanism is positioned at one end of each conveying roller;

the stopping mechanism comprises a stopping plate 31 and a driving structure 32 for driving the stopping plate to be close to one end of all the conveying rollers, and an output shaft of the driving structure is connected with the stopping plate;

the conveying roller comprises a roller and roller shafts formed at two ends of the roller, a first anti-slip part 21 and a second anti-slip part 22 are arranged on the outer surface of the roller, and the first anti-slip part and the second anti-slip part are distributed at intervals;

the first anti-slip part is an anti-slip line with a semicircular section, the second anti-slip part is an anti-slip line with a triangular section, and the vertical distance between the highest point of the first anti-slip part and the outer surface of the roller is equal to the vertical distance between the highest point of the second anti-slip part and the outer surface of the roller; the first anti-slip part can reduce the resistance between the second anti-slip part and the surface of the can;

the first anti-slip part and the second anti-slip part are elastic anti-slip parts;

the outer surface of the first anti-skid part and the outer surface of the second anti-skid part are respectively coated with a phenolic resin layer;

the upper end of the feeding frame is a feeding plate 11 which is obliquely arranged.

First antiskid portion with second antiskid portion all is silica gel material antiskid portion or rubber material antiskid portion.

The distance between the adjacent conveying rollers is 3-4 cm.

The coating thickness of the phenolic resin layer is 2-3 mm.

The roll shaft is connected with the feeding frame through a bearing 4.

And a buffer spring 5 is arranged between the two ends of the roller and the feeding frame. Avoid the conveying roller to bump with last work or material rest when rotating, reduce the noise value that produces when equipment operation.

The length of the stop plate is larger than the length formed by all the conveying rollers side by side.

The two driving structures are symmetrically arranged at two ends of the stop plate.

The driving structure is a driving cylinder.

Universal wheels (not shown) are arranged around the lower end of the feeding frame.

The working principle of the utility model is as follows:

when carrying the can, carry from last slope down through last work or material rest, specifically as follows: the conveying roller is rotatably connected with the feeding frame, so that the self rotation of the conveying roller can drive a plurality of cans to be obliquely conveyed from top to bottom, the resistance between the first anti-slip part and the surfaces of the cans can be increased by the first anti-slip part and the second anti-slip part on the surfaces of the rollers, the conveying stability of the cans is improved, the first anti-slip part and the second anti-slip part are elastic anti-slip parts, and the outer surfaces of the first anti-slip part and the second anti-slip part are respectively coated with a phenolic resin layer, so that the abrasion on the surfaces of the rollers can be reduced, and the service life of the conveying roller is prolonged;

in addition, one end of the conveying roller is provided with a stopping mechanism, the stopping mechanism comprises a stopping plate and a driving structure, when the conveying is required to be suspended, the driving structure drives the stopping plate to be close to the conveying roller, the conveying roller is suspended and rotated by friction force, and therefore the conveying of the cans is suspended; when the conveying is restarted, the driving structure drives the stop plate to be far away from the conveying roller, the friction force between the stop plate and the conveying roller disappears, and then the rotation of the conveying roller drives the cans to be conveyed.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the same principle as the present invention.

Claims (10)

1. The utility model provides a canned material's charging equipment which characterized in that: the automatic feeding device comprises a feeding frame (1), a plurality of conveying rollers (2) and a stopping mechanism (3), wherein all the conveying rollers are rotatably connected with the feeding frame, and the stopping mechanism is positioned at one end of each conveying roller;

the stopping mechanism comprises a stopping plate (31) and a driving structure (32) for driving the stopping plate to be close to one end of all the conveying rollers, and an output shaft of the driving structure is connected with the stopping plate;

the conveying roller comprises a roller and roller shafts formed at two ends of the roller, a first anti-slip part (21) and a second anti-slip part (22) are arranged on the outer surface of the roller, and the first anti-slip part and the second anti-slip part are distributed at intervals;

the first anti-slip part is an anti-slip line with a semicircular section, the second anti-slip part is an anti-slip line with a triangular section, and the vertical distance between the highest point of the first anti-slip part and the outer surface of the roller is equal to the vertical distance between the highest point of the second anti-slip part and the outer surface of the roller;

the first anti-slip part and the second anti-slip part are elastic anti-slip parts;

the outer surface of the first anti-skid part and the outer surface of the second anti-skid part are respectively coated with a phenolic resin layer;

the upper end of the feeding frame is provided with an inclined feeding plate (11).

2. The loading device of canned materials according to claim 1, characterized in that: first antiskid portion with second antiskid portion all is silica gel material antiskid portion or rubber material antiskid portion.

3. The loading device of canned materials according to claim 1, characterized in that: the distance between the adjacent conveying rollers is 3-4 cm.

4. The loading device of canned materials according to claim 1, characterized in that: the coating thickness of the phenolic resin layer is 2-3 mm.

5. The loading device of canned materials according to claim 1, characterized in that: the roll shaft is connected with the feeding frame through a bearing (4).

6. The loading device of canned materials according to claim 1, characterized in that: and a buffer spring (5) is arranged between the two ends of the roller and the feeding frame.

7. The loading device of canned materials according to claim 1, characterized in that: the length of the stop plate is larger than the length formed by all the conveying rollers side by side.

8. The apparatus for loading canned materials according to claim 7, characterized in that: the two driving structures are symmetrically arranged at two ends of the stop plate.

9. The loading device of canned materials according to claim 1, characterized in that: the driving structure is a driving cylinder.

10. The loading device of canned materials according to claim 1, characterized in that: universal wheels are installed around the lower end of the feeding frame.

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