CN217650494U - Adjustable active guide device - Google Patents

Abstract

An adjustable active guide device comprises a transmission bracket, a conveying belt is arranged on the transmission bracket, a driving device is arranged on the transmission bracket and drives the conveying belt to rotate, a connecting plate is arranged at one end of the transmission bracket, and a rotary adjusting device is arranged at the lower side of the connecting plate; the conveying plane of the conveying belt is longitudinally arranged to shield the lower part of the transmission bracket, and a channel for the conveying belt to pass through is arranged between the connecting plate and the transmission bracket. The conveying belt is longitudinally arranged on the transmission support, the product is guided to be pushed away from an original running route from the wide conveying table and enters the narrow conveying table, and the position of the product is actively adjusted in the running process of the conveying belt, so that the product moves along the running direction of the conveying belt without collision and extrusion, and the product quality is improved. The lower side of the connecting plate is provided with a rotary adjusting device, so that the transmission bracket can rotate around the rotary adjusting device, and the proper angle can be adjusted according to the requirement.

Description

Adjustable active guide device

Technical Field

The utility model relates to the field of packaging technology, especially, relate to an adjustable initiative guider.

Background

In the process of converting a carton packaging forming production line into a production line, due to the fact that the widths of conveying platforms of different devices are different, products are deviated from the conveying belts during production, and particularly in the process of converting a wide conveying belt into a narrow conveying belt, the problem is most obvious. The common method is that the guide plate is used for oblique transition, but in the production process, the product is hard rubbed with the guide plate and the conveying belt in the turning process, so that the edges and corners of the carton package are abraded and deformed, and the product quality is influenced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the problems in the prior art are solved, and an adjustable active guiding device is provided.

In order to realize the technical characteristics, the purpose of the utility model is realized as follows: an adjustable active guide device comprises a transmission bracket, a conveying belt is arranged on the transmission bracket, a driving device is arranged on the transmission bracket and drives the conveying belt to rotate, a connecting plate is arranged at one end of the transmission bracket, and a rotary adjusting device is arranged at the lower side of the connecting plate; the conveying plane of the conveying belt is longitudinally arranged to shield the lower part of the transmission bracket, and a channel for the conveying belt to pass through is arranged between the connecting plate and the transmission bracket.

The transmission support comprises an upper cross beam and a lower cross beam, an active roller is arranged at one end between the upper cross beam and the lower cross beam, a passive roller is arranged at the other end between the upper cross beam and the lower cross beam, and a support piece is arranged between the active roller and the passive roller and is connected with the upper cross beam and the lower cross beam; the driving device is arranged on the upper side of the upper cross beam, and an output shaft is connected with the driving roller.

The shape section of the lower cross beam is smaller than the inner hollow section of the conveyer belt during working, and the conveyer belt is positioned below the upper cross beam and wraps the lower cross beam.

The connecting plate is installed on one side of a driving roller of the transmission support, the upper cross beam is provided with a boss extending towards the connecting plate, the side face of the bottom of the lower cross beam is also provided with a boss extending towards the connecting plate, two ends of the connecting plate are installed on the bosses extending out of the upper cross beam and the lower cross beam, and a channel for the conveying belt to pass through is formed between the connecting plate and the bosses on the two sides.

The rotary adjusting device comprises a rotary seat connected with the connecting plate, and the rotary seat is provided with a rotary positioning mechanism connected with a lower fixed seat.

The rotary positioning mechanism comprises a rotary disk located below the rotary seat, the rotary disk is installed above the fixed seat, a plurality of adjusting holes are formed in the circular plane of the rotary disk, threaded holes corresponding to the adjusting holes are formed in the fixed seat, and the fastening bolts penetrate through the adjusting holes and are connected with the threaded holes.

The adjusting hole is an arc-shaped waist-shaped hole.

The bottom of the rotating seat is provided with an extension part connected with the rotating disk.

The utility model discloses there is following beneficial effect:

1. the conveying belt is longitudinally arranged on the transmission support, the product is guided to be pushed away from an original running route from the wide conveying table and enters the narrow conveying table, and the position of the product is actively adjusted in the running process of the conveying belt, so that the product moves along the running direction of the conveying belt without collision and extrusion, and the product quality is improved.

2. The conveying plane of the conveying belt is longitudinally arranged to shield the lower part of the transmission bracket, and the conveying belt is closer to the wide conveying table, so that only a tiny gap exists between the conveying belt of the guiding device and the wide conveying table, and the guiding device is suitable for guiding thin paper boards.

3. The shape section of the lower cross beam is smaller than the hollow section of the conveyer belt during working, and the conveyer belt is positioned below the upper cross beam and wraps the lower cross beam. The lower part of the transmission bracket is shielded by the conveying belt, so that the structural strength of the lower cross beam is improved as much as possible while the guide of a small gap is provided.

4. The transmission support can rotate around the rotation adjusting device, and the appropriate angle can be adjusted according to the requirement. Meanwhile, the guiding device has better universality, and the guiding device with the same size and specification can be suitable for guiding the conveying platform of the whole factory.

5. The adjusting hole is an arc-shaped waist-shaped hole. The angle of the transmission bracket can be adjusted only by unscrewing the fastening bolt, so that the device is more convenient and simpler.

Drawings

Fig. 1 is the structure schematic diagram of the utility model installed in the assembly line.

Fig. 2 is a schematic view of the three-dimensional structure of the present invention.

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

Fig. 4 is a schematic diagram of the structure of the conveyer belt of the present invention.

Fig. 5 is a schematic structural view of the rotation adjusting device of the present invention.

In the figure, a wide conveying platform 10, a narrow conveying platform 20, a guide device 30, a transmission bracket 31, an upper cross beam 311, a lower cross beam 312, a supporting member 313, a driving roller 314, a driven roller 315, a conveying belt 32, a hollow section 321, a driving device 33, a connecting plate 34, a rotary adjusting device 35, a rotary seat 351, an extending part 352, a rotary disk 353, a fixed seat 354, an adjusting hole 355 and a fastening bolt 356.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1-5, an adjustable active guiding device comprises a transmission bracket 31, a conveying belt 32 is mounted on the transmission bracket 31, a driving device 33 is mounted on the transmission bracket 31 and drives the conveying belt 32 to rotate, a connecting plate 34 is mounted at one end of the transmission bracket 31, and a rotary adjusting device 35 is arranged at the lower side of the connecting plate 34; the conveying plane of the conveying belt 32 is longitudinally arranged to shield the lower part of the transmission bracket 31, and a passage for the conveying belt 32 to pass through is arranged between the connecting plate 34 and the transmission bracket 31. The transmission support 31 is longitudinally provided with the conveying belt 32, so that the product is guided to be pushed away from the original running route from the wide conveying table 10 and enters the narrow conveying table 20, and the conveying belt 32 actively adjusts the position of the product in the running process, so that the product moves along the running direction of the conveying belt 32, collision and extrusion are avoided, and the product quality is improved. A rotation adjusting device 35 is provided at the lower side of the connecting plate 34, so that the transmission bracket 31 can rotate around the rotation adjusting device 35, and an appropriate angle can be adjusted as required. The conveying plane of the conveying belt 32 is longitudinally arranged to shield the lower part of the transmission bracket 31, and the conveying belt 32 is closer to the wide conveying platform 10, so that only a tiny gap exists between the conveying belt 32 of the guiding device 30 and the wide conveying platform 10, and the guiding device is suitable for guiding thinner paper boards.

In a preferred scheme, referring to fig. 3, the transmission bracket 31 includes an upper beam 311 and a lower beam 312, an active roller 314 is installed at one end between the upper beam 311 and the lower beam 312, a passive roller 315 is installed at the other end, and a support 313 is arranged between the active roller 314 and the passive roller 315 to connect the upper beam 311 and the lower beam 312; the driving device 33 is installed on the upper side of the upper beam 311, and the output shaft is connected with the driving roller 314. Simple structure and convenient manufacture. The driving device 33 is preferably a stepping motor and a servo motor, so as to facilitate speed regulation control.

Further, referring to fig. 3 and 4, the outer section of the lower cross beam 312 is smaller than the inner hollow section 321 of the conveyor belt 32 during operation, and the conveyor belt 32 is located below the upper cross beam 311 and wraps the lower cross beam 312. The structural strength of the lower cross beam 312 is improved as much as possible while the conveyor belt 32 covers the lower portion of the transmission bracket 31 and provides a very small gap guide.

In a preferred embodiment, referring to fig. 2, the connecting plate 34 is mounted on one side of the driving roller 314 of the transmission bracket 31, the upper cross beam 311 is provided with a boss extending towards the connecting plate 34, the bottom side of the lower cross beam 312 is also provided with a boss extending towards the connecting plate 34, two ends of the connecting plate 34 are mounted on the bosses extending from the upper cross beam 311 and the lower cross beam 312, and a channel for the conveyor belt 32 to pass through is formed between the connecting plate 34 and the bosses on the two sides. The conveyor belt 32 can still run smoothly after shielding the lower cross beam 312 of the transmission bracket 31.

In a preferred embodiment, referring to fig. 5, the rotation adjusting device 35 comprises a rotating seat 351 connected to the connecting plate 34, and the rotating seat 351 is provided with a rotation positioning mechanism connected to a lower fixed seat 354. The transmission bracket 31 can rotate around the rotation adjusting device 35, and can be adjusted to a proper angle according to requirements. And meanwhile, the guiding device 30 has better universality, and the guiding device 30 with the same size and specification can be suitable for guiding the conveying platform of the whole factory.

In a preferred scheme, the rotary positioning mechanism comprises a rotary disk 353 located below a rotary seat 351, the rotary disk 353 is installed above a fixed seat 354, a plurality of adjusting holes 355 are formed in a circular plane of the rotary disk 353, threaded holes corresponding to the adjusting holes 355 are formed in the fixed seat 354, and a fastening bolt 356 passes through the adjusting holes 355 and is connected with the threaded holes. Simple structure and convenient adjustment. The adjustment holes 355 may be a plurality of circular holes along an annular array, and the swing angle of the driving bracket 31 may be adjusted by inserting fastening bolts 356 into different circular holes.

Further, the adjusting hole 355 is an arc-shaped kidney-shaped hole. The angle of the transmission bracket 31 can be adjusted only by unscrewing the fastening bolt 356, which is more convenient and simpler.

Further, an extension portion 352 is disposed at the bottom of the rotating base 351 and connected to the rotating disc 353. The mounted fastening bolt 356 is prevented from interfering with the rotating base 351, and the rotating base 351 cannot be adjusted in a rotating manner.

The utility model discloses a working process and principle:

referring to fig. 1, the fixing base 354 of the guide 30 is mounted on the narrow conveying table 20, and the driving bracket 31 extends toward the wide conveying table 10 while ensuring that the conveying belt 32 is close to the conveying belt of the wide conveying table 10. The fastening bolts 356 are adjusted so that the conveyor belt 32 extends from the edge of the narrow table 20 to the edge of the wide table 10. During production, the driving device 33 is started, the conveyer belt 32 rotates clockwise, and the product is pushed away from the original running route from the wide conveying table 10 and enters the narrow conveying table 20.

Claims (8)

1. An adjustable active guiding device, characterized in that: the device comprises a transmission bracket (31), a conveying belt (32) is arranged on the transmission bracket (31), a driving device (33) is arranged on the transmission bracket (31) and drives the conveying belt (32) to rotate, a connecting plate (34) is arranged at one end of the transmission bracket (31), and a rotary adjusting device (35) is arranged at the lower side of the connecting plate (34); the conveying plane of the conveying belt (32) is longitudinally arranged to shield the lower part of the transmission bracket (31), and a channel for the conveying belt (32) to pass through is arranged between the connecting plate (34) and the transmission bracket (31).

2. The adjustable active guide of claim 1, wherein: the transmission support (31) comprises an upper cross beam (311) and a lower cross beam (312), one end between the upper cross beam (311) and the lower cross beam (312) is provided with an active roller (314), the other end is provided with a passive roller (315), and a support (313) is arranged between the active roller (314) and the passive roller (315) and is connected with the upper cross beam (311) and the lower cross beam (312); the driving device (33) is arranged on the upper side of the upper cross beam (311), and an output shaft is connected with the driving roller (314).

3. The adjustable active guide of claim 2, wherein: the shape section of the lower cross beam (312) is smaller than the inner hollow section (321) of the conveyer belt (32) during working, and the conveyer belt (32) is positioned below the upper cross beam (311) and wraps the lower cross beam (312).

4. The adjustable active guide of claim 1, wherein: the connecting plate (34) is installed on one side of a driving roller (314) of the transmission support (31), a boss extending towards the connecting plate (34) is arranged on the upper cross beam (311), a boss extending towards the connecting plate (34) is also arranged on the side face of the bottom of the lower cross beam (312), two ends of the connecting plate (34) are installed on the bosses extending towards the upper cross beam (311) and the lower cross beam (312), and a channel for the conveying belt (32) to pass through is formed between the connecting plate (34) and the bosses on the two sides.

5. The adjustable active guide of claim 1, wherein: the rotary adjusting device (35) comprises a rotary seat (351) connected with the connecting plate (34), and the rotary seat (351) is provided with a rotary positioning mechanism connected with a lower fixed seat (354).

6. The adjustable active guide of claim 5, wherein: the rotary positioning mechanism comprises a rotary disk (353) located below a rotary seat (351), the rotary disk (353) is installed above a fixed seat (354), a plurality of adjusting holes (355) are formed in the circular plane of the rotary disk (353), threaded holes corresponding to the adjusting holes (355) are formed in the fixed seat (354), and a fastening bolt (356) penetrates through the adjusting holes (355) to be connected with the threaded holes.

7. The adjustable active guide of claim 6, wherein: the adjusting holes (355) are arc-shaped waist-shaped holes.

8. The adjustable active guide of claim 5, wherein: an extension part (352) is arranged at the bottom of the rotating seat (351) and connected with the rotating disk (353).

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