CN220165091U - Carton conveyer - Google Patents

Abstract

The utility model discloses a carton conveying device, which comprises a frame, and further comprises a first conveying component, a second conveying component, a third conveying component and a fourth conveying component which are respectively arranged on the frame, wherein the first conveying component is arranged on the frame, the length of the first conveying component extends along the left-right direction, the top surface of the first conveying component is used for driving cartons to be conveyed along the left-right direction, the second conveying component is arranged on the right side of the first conveying component, the second conveying component is positioned at the conveying downstream of the first conveying component, the second conveying component is arranged downwards in an inclined manner from left to right, the third conveying component is arranged at the downstream of the second conveying component, the third conveying component is arranged upwards in an inclined manner from left to right, the third conveying component is used for receiving the cartons on the second conveying component, the fourth conveying component is arranged at the conveying downstream of the third conveying component, and the fourth conveying component extends along the left-right direction.

Description

Carton conveyer

Technical Field

The utility model relates to the field of carrying, in particular to a carton conveying device.

Background

Currently, in the process of transporting the cartons, the cartons inevitably need to be turned over by 90 degrees due to processing defects, production requirements and the like. At present, for the upset of carton, generally adopt a rotatable L type support, when using, transport the carton to the support of L type earlier, then make the support of L type upset 90 to realize overturning to the carton, for example chinese patent publication No. CN217577146U discloses a carton turning device, this document has just adopted above-mentioned carton upset mode. However, after the structure turns over the paper box, the reset motion is needed immediately, otherwise, the continuous production efficiency of the paper box is influenced by the turning beat of the L-shaped support, and the continuous and efficient paper box production is not facilitated.

Disclosure of Invention

The utility model aims to solve the technical problems that: at least one technical problem set forth above is solved.

The utility model solves the technical problems as follows:

the utility model provides a carton conveyer, includes the frame, still including setting up respectively first conveying component, second conveying component, third conveying component and fourth conveying component in the frame, first conveying component sets up in the frame, first conveying component's length extends along controlling the direction, first conveying component top surface is used for driving the carton and transports along controlling the direction, and second conveying component sets up first conveying component's right side, second conveying component is located first conveying component's transport downstream, second conveying component sets up downwards from controlling to controlling the slope, third conveying component sets up the low reaches of second conveying component, third conveying component sets up upwards from controlling to controlling the slope, third conveying component is used for catching the carton on the second conveying component, and fourth conveying component sets up third conveying component's transport downstream, fourth conveying component extends along controlling the direction.

As a further improvement of the technical scheme, the first conveying assembly comprises a front motor, a rear motor, a front conveying chain, a rear conveying chain, a plurality of front conveying rollers and a plurality of rear conveying rollers, wherein the front conveying rollers and the rear conveying rollers are arranged on the frame, the front conveying rollers and the rear conveying rollers can rotate relatively, all the front conveying rollers and the rear conveying rollers extend along the front-rear direction respectively, the rear conveying rollers are arranged behind the front conveying rollers, all the front conveying rollers are connected through money conveying chain transmission, all the rear conveying rollers are connected through rear transmission chain transmission, the front motor is arranged on the frame, the rear motor is arranged on the frame, the front motor drives one of the front conveying rollers to rotate, and the rear motor drives one of the rear conveying rollers to rotate.

As a further improvement of the technical scheme, the second conveying assembly comprises a plurality of second conveying rollers, all the second conveying rollers are arranged on the frame, each second conveying roller can rotate relative to the frame, and all the second conveying rollers are arranged obliquely downwards from left to right.

As a further improvement of the technical scheme, the third conveying assembly comprises a third motor, a first transmission shaft, a second transmission shaft, a third chain and two third synchronous belts, wherein the first transmission shaft and the second transmission shaft are respectively arranged on the frame, the first transmission shaft and the second transmission shaft respectively rotate relative to the frame, the third motor drives the first transmission shaft to rotate, the first transmission shaft and the second transmission shaft are in transmission connection through the third chain, the third chain is obliquely upwards arranged from left to right, two belt pulleys are respectively arranged on the first transmission shaft and the second transmission shaft, each third synchronous belt is respectively connected by two belt pulley transmissions, and the third synchronous belts are used for driving the cartons to move upwards.

As a further improvement of the technical scheme, the third conveying assembly further comprises a plurality of limiting blocks, all the limiting blocks are uniformly distributed on the third chain and used for pushing the cartons.

As a further improvement of the above technical solution, the carton conveying device further comprises a lifting mechanism and a fifth conveying assembly, wherein the lifting mechanism is arranged above the second conveying assembly and the third conveying assembly, the fifth conveying assembly is arranged above the second conveying assembly and the third conveying assembly, the lifting mechanism drives the fifth conveying assembly to move up and down, and when the fifth conveying assembly moves downwards to the end, the fifth conveying assembly can catch the carton on the first conveying assembly and convey the carton to the fourth conveying assembly.

As a further improvement of the above technical solution, the fifth conveying assembly includes a lifting frame disposed on the lifting mechanism, a plurality of fifth conveying rollers disposed on the lifting frame, a fifth conveying chain linking all the fifth conveying rollers, and a fifth motor disposed on the lifting frame, where the fifth motor drives one of the fifth conveying rollers to rotate, and all the fifth conveying rollers are arranged along the left-right direction.

As a further improvement of the technical scheme, the lifting mechanism comprises a lifting cylinder and a guide rail, the guide rail is fixed on the frame, the lifting frame is connected with the guide rail in a sliding fit manner, the fixing part of the lifting cylinder is arranged on the frame, and the movable part of the lifting cylinder drives the lifting frame to slide along the guide rail.

The beneficial effects of the utility model are as follows: when the carton conveying device is used, the carton to be conveyed is placed on the first conveying component, the first conveying component drives the carton to be conveyed from left to right, the second conveying component is obliquely downwards arranged from left to right, an included angle exists between the first conveying component and the second conveying component, when the first conveying component drives the carton to move to the second conveying component, the second conveying component and the first conveying component form an included angle, the carton moves downwards along the extending direction of the second conveying component, the third conveying component is located at the conveying downstream of the second conveying component, the third conveying component is obliquely upwards arranged from left to right, when the carton is conveyed from the second conveying component to the third conveying component, the right side face of the carton firstly contacts the third conveying component, and the right side face of the carton on the second conveying component is used as the bottom face of the carton on the third conveying component to be conveyed to the right, and the carton is conveyed from the third conveying component to the fourth conveying component, so that the carton is turned over, and the continuous overturning of the carton is achieved in sequence.

Drawings

FIG. 1 is a schematic side view of the carton carrying structure of the present utility model with the lifting mechanism in a lowered condition;

fig. 2 is a schematic side view of the carton carrying structure of the present utility model with the lifting mechanism in a raised condition;

FIG. 3 is a top view of the first conveyor assembly of the present utility model;

FIG. 4 is a schematic top view of the front motor, rear motor, front conveyor chain, rear conveyor chain, front conveyor rollers, rear conveyor rollers in the first conveyor assembly of the present utility model;

FIG. 5 is a schematic top view of a third conveyor assembly of the present utility model;

FIG. 6 is a schematic side view of a third chain and stopper of the present utility model;

FIG. 7 is an isometric schematic drawing of a fifth conveyor assembly of the present utility model, the fifth motor not being illustrated;

FIG. 8 is a schematic cross-sectional view of a stopper according to the present utility model.

In the accompanying drawings: the device comprises a 1-frame, a 2-first conveying component, a 21-front motor, a 22-rear motor, a 23-front conveying chain, a 24-rear conveying chain, a 25-front conveying roller, a 26-rear conveying roller, a 31-second conveying roller, a 4-third conveying component, a 42-first transmission shaft, a 43-second transmission shaft, a 44-third chain, a 45-third synchronous belt, a 46-limiting block, a 47-belt wheel, a 5-fourth conveying component, a 6-fifth conveying component, a 61-lifting frame, a 62-fifth conveying roller, a 7-lifting mechanism, a 71-lifting cylinder and a 72-guide rail.

Detailed Description

In order to more clearly illustrate the technical solution in the embodiments of the present utility model, the above description of the embodiments refers to the accompanying drawings. It is evident that the drawings described are only some embodiments of the utility model, but not all embodiments, and that other designs and drawings can be obtained from these drawings by a person skilled in the art without inventive effort.

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present utility model. It is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present utility model based on the embodiments of the present utility model. In addition, all coupling/connection relationships mentioned herein do not refer to direct connection of the components, but rather, refer to the fact that a more optimal coupling structure may be formed by adding or subtracting coupling aids depending on the particular implementation. The technical features of the utility model can be interactively combined on the premise of no contradiction and conflict.

Referring to fig. 1 to 8, a carton transporting device comprises a frame 1, and further comprises a first transporting component 2, a second transporting component, a third transporting component 4 and a fourth transporting component 5 which are respectively arranged on the frame 1, wherein the first transporting component 2 is arranged on the frame 1, the length of the first transporting component 2 extends along the left-right direction, the top surface of the first transporting component 2 is used for driving cartons to be transported along the left-right direction, the second transporting component is arranged on the right side of the first transporting component 2, the second transporting component is positioned at the transport downstream of the first transporting component 2, the second transporting component is arranged downwards from left to right in an inclined manner, the third transporting component 4 is arranged at the downstream of the second transporting component, the third transporting component 4 is arranged upwards from left to right in an inclined manner, the third transporting component 4 is used for receiving cartons on the second transporting component, the fourth transporting component 5 is arranged at the transport downstream of the third transporting component 4, and the fourth transporting component 5 extends along the left-right direction.

When the carton overturning device is used, the cartons to be conveyed are placed on the first conveying assembly 2, the first conveying assembly 2 drives the cartons to be conveyed from left to right, the second conveying assembly is obliquely downwards arranged from left to right, an included angle exists between the first conveying assembly 2 and the second conveying assembly, when the first conveying assembly 2 drives the cartons to move to the second conveying assembly, the cartons are enabled to obliquely downwards move along the extending direction of the second conveying assembly due to the included angle between the second conveying assembly and the first conveying assembly 2, the third conveying assembly 4 is located at the conveying downstream of the second conveying assembly, the third conveying assembly 4 is obliquely upwards arranged from left to right, when the cartons are conveyed to the third conveying assembly 4 from the second conveying assembly, the right side face of each carton firstly contacts the third conveying assembly 4, and the right side face of each carton is used as the bottom face of each carton on the third conveying assembly 4 to be conveyed to the right, and the cartons are conveyed to the fourth conveying assembly 5 from the third conveying assembly 4, the cartons are overturned, and the structure is simple, and continuous overturning of the cartons can be achieved.

In practical use, the cartons may need to be turned in different directions, so that the orientation of the cartons may be adjusted before the cartons are turned, so that the four-prism cartons may be turned from different directions, for this purpose, in some embodiments, the first conveying assembly 2 includes a front motor 21, a rear motor 22, a front conveying chain 23, a rear conveying chain 24, a plurality of front conveying rollers 25 and a plurality of rear conveying rollers 26, the front conveying rollers 25 and the rear conveying rollers 26 are all disposed on the frame 1, the front conveying rollers 25 and the rear conveying rollers 26 are respectively rotatable relative to the frame 1, all the front conveying rollers 25 and the rear conveying rollers 26 are respectively extended in the front-rear direction, all the front conveying rollers 25 are connected by a money conveying chain, all the rear conveying rollers 26 are connected by a rear driving chain, the front motor 21 is disposed on the frame 1, the rear motor 22 is disposed on the frame 1, one of the front conveying rollers 21 is driven by the front motor 21 to rotate one of the front conveying rollers 25 and one of the rear conveying rollers 26 is driven by the rear conveying rollers 26. When in use, all front conveying rollers 25 are in transmission connection through the front conveying chain 23, one of the front conveying rollers 25 is driven to rotate through the front motor 21, and all the front conveying rollers 25 simultaneously rotate under the transmission action of the front conveying chain 23. Similarly, all the rear conveying rollers 26 are in transmission connection through the rear conveying chain 24, and one of the rear conveying rollers 26 is driven to rotate through the rear motor 22, so that synchronous rotation of all the rear conveying rollers 26 is realized. If the carton needs to be rotated, for example, when the carton rotates around a vertical rotation axis, the front motor 21 and the rear motor 22 can be adjusted to rotate at a differential speed, and the carton is placed on the front conveying roller 25 and the rear conveying roller 26, preferably, the middle line of the carton extending along the left-right direction is positioned between the front conveying roller 25 and the rear conveying roller 26, so that the carton can be rotated around the vertical rotation axis, and the speed of the carton is faster when the differential speed of the front motor 21 and the rear motor 22 is greater. Of course, when the cartons are conveyed only in the left-right direction, and rotation of the cartons about the vertical axis is not required, the front motor 21 and the rear motor 22 are rotated in synchronization.

Preferably, the front motor 21 rotates the leftmost front conveying roller 25. The rear motor 22 rotates the leftmost rear conveying roller 26.

The second conveying assembly is used for driving the cartons to move downwards in a tilting manner from left to right. In some embodiments, the second conveying assembly includes a plurality of second conveying rollers 31, all the second conveying rollers 31 are disposed on the frame 1, each second conveying roller 31 and the frame 1 can rotate relatively, and all the second conveying rollers 31 are disposed in a downward inclined manner from left to right.

The third conveying assembly 4 is configured to drive the carton to move obliquely upward from left to right so as to implement overturning of the carton, in some embodiments, the third conveying assembly 4 includes a third motor (not illustrated in the drawing), a first transmission shaft 42, a second transmission shaft 43, a third chain 44, and two third synchronous belts 45, the first transmission shaft 42 and the second transmission shaft 43 are respectively disposed on the frame 1, the first transmission shaft 42 and the second transmission shaft 43 are respectively rotatable relative to the frame 1, the third motor drives the first transmission shaft 42 to rotate, the first transmission shaft 42 and the second transmission shaft 43 are in transmission connection with each other through the third chain 44, the third chain 44 is disposed obliquely upward from left to right, two pulleys 47 are respectively disposed on the first transmission shaft 42 and the second transmission shaft 43, each third synchronous belt 45 is respectively connected by two pulleys 47, and the third synchronous belt 45 is configured to drive the carton to move upward. When the carton is used, the two third synchronous belts 45 are used for contacting the cartons, and the friction force between the cartons and the third synchronous belts 45 is utilized to drive the cartons to move upwards.

In use, the first drive shaft 42 is disposed below and to the left of the first drive shaft 42.

In actual use, the first transmission shaft 42 and the second transmission shaft 43 are respectively provided with a sprocket, the sprocket on the first transmission shaft 42 is coaxially driven with the first transmission shaft 42, and the sprocket on the second transmission shaft 43 is coaxially driven with the second transmission shaft 43. The sprocket on the first drive shaft 42 and the sprocket on the second drive shaft 43 are drivingly connected by a third chain 44.

In order to ensure that the cartons can be transported obliquely upwards from left to right by the third conveying assembly 4, in some embodiments, the third conveying assembly 4 further includes a plurality of stoppers 46, all the stoppers 46 are uniformly distributed on the third chain 44, and when the stoppers 46 are used for pushing the cartons, if a certain degree of slip occurs between the third synchronous belt 45 and the cartons, the stoppers 46 push the cartons from the left side of the cartons to drive the cartons to move upwards. In this embodiment, the third chain 44 is a roller chain. In actual use, the stop block 46 is optionally secured to a pin of a link of the third chain 44. Specifically, the stopper 46 is provided in a U-shaped block shape, and both ends of the U-shaped block shape are fixed to both ends of the pin shaft of the link of the third chain 44, respectively.

To meet the requirement of conveying some cartons which have been turned or do not need to be turned, in some embodiments, the carton conveyor further comprises a lifting mechanism 7 and a fifth conveying assembly 6, wherein the lifting mechanism 7 is arranged above the second conveying assembly and the third conveying assembly 4, the fifth conveying assembly 6 is arranged above the second conveying assembly and the third conveying assembly 4, the lifting mechanism 7 drives the fifth conveying assembly 6 to move up and down, and when the fifth conveying assembly 6 moves down to the end, the fifth conveying assembly 6 can catch the cartons on the first conveying assembly 2 and convey the cartons onto the fourth conveying assembly 5. When the carton does not need to be overturned, the lifting mechanism 7 drives the fifth conveying assembly 6 to move downwards, so that the fifth conveying assembly 6 is connected with the first conveying assembly 2 and the fourth conveying assembly 5, the carton moves from the first conveying assembly 2 to the fifth conveying assembly 6 and then moves from the fifth conveying assembly 6 to the fourth conveying assembly 5, and therefore the carton does not need to be overturned.

In some embodiments, the fifth conveying assembly 6 includes a lifting frame 61 provided on the lifting mechanism 7, a plurality of fifth conveying rollers 62 provided on the lifting frame 61, a fifth conveying chain linking all the fifth conveying rollers 62, and a fifth motor provided on the lifting frame 61, wherein the fifth motor drives one of the fifth conveying rollers 62 to rotate, and all the fifth conveying rollers 62 are arranged along the left-right direction. When in use, one of the fifth conveying rollers 62 is driven to rotate by the fifth motor, and the rest of the fifth conveying rollers 62 synchronously rotate under the transmission of the fifth conveying chain. The structure is simple and the setting is convenient. By the arrangement of the structure, the carton can be driven to slide on the fifth conveying assembly 6 along the left-right direction.

In some embodiments, the lifting mechanism 7 includes a lifting cylinder 71 and a guide rail 72, the guide rail 72 is fixed on the frame 1, the lifting frame 61 is connected with the guide rail 72 in a sliding fit manner, a fixed part of the lifting cylinder 71 is arranged on the frame 1, and a movable part of the lifting cylinder 71 drives the lifting frame 61 to slide along the guide rail 72. In actual use, the lifting cylinder 71 is a rodless cylinder. The guide rail 72 is used to guide the lift 61 to ensure that the lift 61 slides in the up-down direction.

While the preferred embodiment of the present utility model has been described in detail, the present utility model is not limited to the embodiments described above, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the present utility model, and these equivalent modifications and substitutions are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (8)

1. The utility model provides a carton conveyer, includes frame (1), its characterized in that still includes setting up respectively first conveying component (2), second conveying component, third conveying component (4) and fourth conveying component (5) on frame (1), first conveying component (2) set up on frame (1), the length of first conveying component (2) extends along left and right directions, first conveying component (2) top surface is used for driving the carton and transports along left and right directions, and second conveying component sets up the right side of first conveying component (2), second conveying component is located the transport downstream of first conveying component (2), second conveying component is from left to right slope downward set up, third conveying component (4) set up the downstream of second conveying component, third conveying component (4) are from left to right slope upward set up, third conveying component (4) are used for receiving the carton on the second conveying component, fourth conveying component (5) set up in the downstream of third conveying component (4), along the left and right directions of fourth conveying component (5).

2. The carton transportation device according to claim 1, wherein the first transportation assembly (2) comprises a front motor (21), a rear motor (22), a front transportation chain (23), a rear transportation chain (24), a plurality of front transportation rollers (25) and a plurality of rear transportation rollers (26), wherein the front transportation rollers (25) and the rear transportation rollers (26) are arranged on the frame (1), the front transportation rollers (25) and the rear transportation rollers (26) are respectively rotatable relative to the frame (1), all the front transportation rollers (25) and the rear transportation rollers (26) respectively extend along the front-rear direction, the rear transportation rollers (26) are arranged behind the front transportation rollers (25), all the front transportation rollers (25) are in transmission connection through the front transportation chain, all the rear transportation rollers (26) are in transmission connection through the rear transmission chain, the front motor (21) is arranged on the frame (1), the rear motor (22) is arranged on the frame (1), and the front motor (21) drives one of the front transportation rollers (22) to rotate.

3. The carton transportation device according to claim 1, wherein the second transportation assembly comprises a plurality of second transportation rollers (31), all the second transportation rollers (31) are arranged on the frame (1), each second transportation roller (31) and the frame (1) can rotate relatively, and all the second transportation rollers (31) are arranged obliquely downwards from left to right.

4. The carton transportation device according to claim 1, wherein the third transportation assembly (4) comprises a third motor, a first transmission shaft (42), a second transmission shaft (43), a third chain (44) and two third synchronous belts (45), the first transmission shaft (42) and the second transmission shaft (43) are respectively arranged on the frame (1), the first transmission shaft (42) and the second transmission shaft (43) are respectively rotatable relative to the frame (1), the third motor drives the first transmission shaft (42) to rotate, the first transmission shaft (42) and the second transmission shaft (43) are in transmission connection through the third chain (44), the third chain (44) is obliquely upwards arranged from left to right, two belt pulleys (47) are respectively arranged on the first transmission shaft (42) and the second transmission shaft (43), each third synchronous belt (45) is respectively connected by the two belt pulleys (47), and the third synchronous belts (45) are used for driving the carton to move upwards.

5. The carton transportation device according to claim 4, wherein the third transportation assembly (4) further comprises a plurality of stoppers (46), all of the stoppers (46) are uniformly distributed on the third chain (44), and the stoppers (46) are used for pushing the cartons.

6. The carton transportation device according to claim 1, further comprising a lifting mechanism (7) and a fifth transportation assembly (6), wherein the lifting mechanism (7) is arranged above the second transportation assembly and the third transportation assembly (4), the fifth transportation assembly (6) is arranged above the second transportation assembly and the third transportation assembly (4), the lifting mechanism (7) drives the fifth transportation assembly (6) to move up and down, and when the fifth transportation assembly (6) moves down to the end, the fifth transportation assembly (6) can be used for receiving the cartons on the first transportation assembly (2) and transporting the cartons onto the fourth transportation assembly (5).

7. The carton transportation device according to claim 6, wherein the fifth transportation assembly (6) comprises a lifting frame (61) arranged on the lifting mechanism (7), a plurality of fifth transportation rollers (62) arranged on the lifting frame (61), a fifth transportation chain linking all the fifth transportation rollers (62), and a fifth motor arranged on the lifting frame (61), wherein the fifth motor drives one of the fifth transportation rollers (62) to rotate, and all the fifth transportation rollers (62) are arranged along the left-right direction.

8. The carton transportation device according to claim 7, wherein the lifting mechanism (7) comprises a lifting cylinder (71) and a guide rail (72), the guide rail (72) is fixed on the frame (1), the lifting frame (61) is connected with the guide rail (72) in a sliding fit manner, a fixed part of the lifting cylinder (71) is arranged on the frame (1), and a movable part of the lifting cylinder (71) drives the lifting frame (61) to slide along the guide rail (72).