CN211945217U - Device for adjusting conveying direction of packages - Google Patents

Abstract

The application provides a device for adjusting the conveying direction of a package, which comprises at least one transmission unit for adjusting the conveying direction of the package, wherein the transmission unit comprises a frame, and two main beams which are arranged in parallel are arranged on the frame; a plurality of rotating rollers arranged side by side are arranged between the main beams, an included angle is formed between each roller and each main beam, a roller shaft of each roller is fixedly connected with each main beam, each roller rotates around the roller shaft, and conveying surfaces for conveying packages are formed on the surfaces of the rollers; the roller group comprises a plurality of rollers which are arranged side by side at intervals, each roller is arranged in the gap between two adjacent rollers, and the upper end surfaces of the rollers are abutted against the lower end surfaces of the two adjacent rollers; the arrangement direction of the rollers is consistent with that of the rollers; the roller is driven by the driving mechanism to rotate, so that the roller is driven to rotate. This application simple structure need not additionally to increase equipment and manpower, can accomplish turning to of parcel, realizes the equipment butt joint with next process, and has the steady advantage of transmission.

Description

Device for adjusting conveying direction of packages

Technical Field

The utility model relates to a commodity circulation conveying equipment especially relates to an adjustment parcel direction of delivery's device.

Background

With the rapid development of the logistics industry, various packages are rapidly circulated between different places, the requirement on automatic package processing is higher and higher, and the package conveying is particularly important. The parcel conveying disorder can lead to a plurality of parcels to be parallel, the recognition and the sorting of the automatic technical means can not be carried out, the sorting speed is low, the parcels are easy to accumulate to form a conveying line jam, and the operation efficiency is reduced.

Therefore, how to adjust the transportation direction of the parcel as required under the prior art condition, realize the automatic tallying process of the parcel, improve the transportation efficiency of logistics is a problem that the technical staff in the field needs to solve urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure, work efficiency height and transmission are steady, can adjust parcel direction of delivery's device to solve above-mentioned technical problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a device for adjusting the conveying direction of a package, comprising at least one conveying unit for adjusting the conveying direction of the package, the conveying unit for adjusting the conveying direction of the package comprising:

the device comprises a frame, a first connecting piece and a second connecting piece, wherein two main beams arranged in parallel are arranged on the frame;

the inclined roller group is arranged between the two main beams and comprises a plurality of rotating rollers which are arranged side by side, included angles are formed between the rollers and the main beams, roller shafts of the rollers are fixedly connected with the main beams, the rollers rotate around the roller shafts, and conveying surfaces for conveying packages are formed on the surfaces of the rollers;

the roller group comprises a plurality of rollers which are arranged side by side at intervals, each roller is arranged in the gap between two adjacent rollers, and the upper end surfaces of the rollers are abutted against the lower end surfaces of the two adjacent rollers; the arrangement direction of the rollers is consistent with that of the rollers; the roller is driven by the driving mechanism to rotate, so that the roller is driven to rotate.

Preferably, a plurality of the rollers are arranged in parallel at equal intervals.

Preferably, the included angle is a non-right angle (non-90 °), and preferably, the roller and the main beam are arranged at an acute angle, for example, the included angle is 30-80 °.

Preferably, the main beam is provided with a protection plate.

Preferably, the rollers at two ends close to the opposite corners of the frame along the rotation direction of the rollers comprise driving rollers abutted against the upper end faces of the rollers and driven rollers not contacted with the rollers, each driving roller drives at least one driven roller, the driving rollers and the driven rollers driven by the driving rollers form a group, and a transmission belt is connected between the driving rollers and at least one of the driven rollers and between the driven rollers in each group.

More preferably, the driving roller of each group is driven by the roller below the driving roller, and the driving roller drives the driven rollers of the group to rotate together through the transmission belt.

For example, the number of the driving rollers and the driven rollers is 1: 3, namely a driving roller and three driven rollers form a group, the same ends of the driving roller and the driven rollers of each group are mutually connected with a transmission belt, the driving roller is driven by a roller below the driving roller to rotate, and the driving roller drives the three driven rollers to rotate together through the transmission belt.

Preferably, in each group, the driving roller drives the first driven roller to rotate through the first transmission belt, the first driven roller drives the second driven roller to rotate through the second transmission belt, and so on, the N-1 th driven roller drives the N-th driven roller to rotate through the N-th transmission belt, and N is a natural number not less than 2.

Preferably, the driving mechanism comprises a driving motor and a synchronous belt which is connected with the driving motor and drives the roller to rotate.

More preferably, the driving mechanism includes:

the first synchronizing wheel and the second synchronizing wheel are respectively positioned below the roller;

the driving assembly is positioned below the first synchronizing wheel and the second synchronizing wheel and comprises a driving motor, a speed reducer and a driving synchronizing wheel, a rotating shaft of the driving motor is connected with an input shaft of the speed reducer, and an output shaft of the speed reducer is connected with the driving synchronizing wheel;

the first guide wheel is positioned at the downstream of the driving synchronous wheel and the upstream of the first synchronous wheel, the second guide wheel is positioned at the downstream of the second synchronous wheel and the upstream of the third guide wheel, and the third guide wheel is positioned at the upstream of the driving synchronous wheel;

the synchronous belt is wound out of the driving synchronous wheel, sequentially wound through the first synchronous wheel, the first guide wheel, the second synchronous wheel, the second guide wheel and the third guide wheel and then wound back to the driving synchronous wheel.

Further, a motor support frame is arranged at the bottom of the driving motor, and a fixing plate for fixedly mounting the first guide wheel, the second guide wheel and the third guide wheel is arranged on the upper end face of the motor support frame.

More preferably, the driving mechanism further comprises a roller fixing beam, the roller fixing beam is used for fixing the rotating shaft of the roller, and the roller fixing beam is arranged below the frame along the transmission direction of the roller.

More preferably, the driving motor is installed below the frame.

Preferably, the device further comprises a support frame for mounting the frame.

In a preferred embodiment, the device for adjusting the conveying direction of the parcels comprises two conveying units which are symmetrically arranged side by side and used for adjusting the conveying direction of the parcels, wherein the conveying units are a first conveying unit and a second conveying unit respectively, and a roller of the first conveying unit and a roller of the second conveying unit are in a herringbone shape.

More preferably, the rollers of the first transmission unit are arranged in parallel, the rollers of the second transmission unit are arranged in parallel, wherein an included angle between the rollers of the first transmission unit and the rollers of the second transmission unit which are in one-to-one correspondence is an obtuse angle, for example, 150 degrees, the rollers of the first transmission unit and the bottom edge of the herringbone are 15 degrees, and the rollers of the second transmission unit and the bottom edge of the herringbone are 15 degrees.

More preferably, the driving mechanism of the first transmission unit is a first driving mechanism, the driving mechanism of the second transmission unit is a second driving mechanism, and the first driving mechanism and the second driving mechanism both comprise a driving motor and a synchronous belt connected with the driving motor and driving the roller to rotate.

More preferably, the conveying speed of the first conveying unit is the same as or different from the conveying speed of the second conveying unit.

In a preferred embodiment, the device for adjusting the conveying direction of the parcels comprises two conveying units which are arranged side by side and used for adjusting the conveying direction of the parcels, wherein the conveying units are respectively a third conveying unit and a fourth conveying unit, and the conveying directions of rollers of the third conveying unit and the fourth conveying unit are the same.

More preferably, the rollers of the third transmission unit are arranged in parallel, the rollers of the fourth transmission unit are arranged in parallel, and the included angle between the roller of the third transmission unit and the main beam of the third transmission unit is the same as the included angle between the roller of the fourth transmission unit and the main beam of the fourth transmission unit.

More preferably, the driving mechanism of the third transmission unit is a third driving mechanism, the driving mechanism of the fourth transmission unit is a fourth driving mechanism, and the third driving mechanism and the fourth driving mechanism both comprise a driving motor and a synchronous belt connected with the driving motor and driving the roller to rotate.

More preferably, the conveying speed of the third conveying unit is different from the conveying speed of the fourth conveying unit.

Compared with the prior art, the technical scheme of the utility model following beneficial effect has:

the utility model provides an adjustment parcel direction of delivery's device can comprise an adjustment parcel direction of delivery's transmission unit, also can form according to the different modes concatenation by two transmission unit, simple structure, and area is little, need not additionally to increase equipment and manpower, can accomplish turning to of parcel, realizes the equipment butt joint with next process, and has the steady advantage of transmission.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application. In the drawings:

FIG. 1 is a perspective view of a transfer unit for adjusting the direction of travel of a package;

FIG. 2 is a schematic side view of a transfer unit;

FIG. 3 is a schematic top view of a transfer unit;

FIG. 4 is a schematic top view of a "herringbone" placement device for adjusting the direction of travel of packages;

fig. 5 is a schematic top view of a side-by-side arrangement of a device for adjusting the direction of travel of parcels.

Illustration of the drawings:

1. a frame; 2. a main beam; 3. a roller; 4. a protection plate; 5. a support frame; 6. a drive motor; 7. a driving synchronizing wheel; 8. a first guide wheel; 9. a first synchronizing wheel; 10. a second synchronizing wheel; 11. a second guide wheel; 12. a third guide wheel; 13. a synchronous belt; 14. a roller; 15. wrapping; 16. a first transmission unit; 17. a second transmission unit; 18. a third transmission unit; 19. a fourth transmission unit; 21. a first drive belt; 22. a second belt; 23. a third belt; 31. a drive roll; 32. a first driven roller; 33. a second driven roller; 34. and a third driven roller.

Detailed Description

The utility model provides an adjustment parcel direction of delivery's device, for making the utility model discloses a purpose, technical scheme and effect are clearer, clear and definite, and it is right that the following reference is made to the drawing and the example is lifted the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order, it being understood that the data so used may be interchanged under appropriate circumstances. Furthermore, the terms "comprises" and "comprising," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a system, article, or apparatus that comprises a list of elements is not necessarily limited to those elements explicitly listed, but may include other elements not expressly listed or inherent to such system, article, or apparatus.

The first embodiment is as follows:

a device for adjusting the conveying direction of a package consists of a conveying unit for adjusting the conveying direction of the package. As shown in fig. 1 and 2, the transmission unit includes: the device comprises a frame 1, wherein two strip-shaped main beams 2 arranged in parallel are mounted on the frame 1, an inclined roller set is arranged between the two main beams 2 and comprises a plurality of rotating rollers 3 arranged side by side, an included angle is formed between each roller 3 and the corresponding main beam 2, a roller shaft of each roller 3 is fixedly connected with the corresponding main beam 1, and conveying surfaces for conveying packages are formed on the surfaces of the rollers 3; a roller group is arranged below the rollers 3, the roller group comprises a plurality of rollers 14 which are arranged side by side at intervals, each roller 14 is arranged in the gap between two adjacent rollers 3, and the upper end surfaces of the rollers 14 are abutted against the lower end surfaces of two adjacent rollers 3; the arrangement direction of the rollers 14 is consistent with that of the rollers 3; the roller 14 is driven by the driving mechanism to rotate, and the roller 14 rotates to drive the roller 3 to rotate. Wherein a plurality of rollers 3 are arranged in parallel at equal intervals; the roller 3 and the main beam 2 are arranged in an acute angle, for example, the included angle is 30-80 degrees; the main beam 2 is provided with a protection plate 4 for preventing the packages from falling off from the frame 1 in the transmission process; a support frame 5 for installing the frame 1 is arranged below the transmission unit.

The driving mechanism comprises a driving motor and a synchronous belt which is connected with the driving motor and drives the roller to rotate, and the synchronous belt is arranged below the frame 1, so that the conveying space of the whole roller 3 is saved, and the structure of the roller is more compact. In a preferred embodiment, the drive mechanism comprises: hold-in range 13, hold-in range 13's outer wall and the contact of gyro wheel 14 to drive gyro wheel 14 and rotate, form a frictional force between the upper surface of hold-in range 13 and the lower surface of gyro wheel 14, when hold-in range 13 rotated, drive gyro wheel 14 through frictional force and rotate. A first synchronous wheel 9 and a second synchronous wheel 10 are arranged on two sides of the synchronous belt 13; a driving assembly is arranged in the middle of the synchronous belt 13, the driving assembly comprises a driving motor 6, a speed reducer and a driving synchronous wheel 7, a rotating shaft of the driving motor 6 is connected with an input shaft of the speed reducer, and an output shaft of the speed reducer is connected with the driving synchronous wheel 7; the outside of the synchronous belt 13 is provided with a first guide wheel 8 and a second guide wheel 11 for tensioning the synchronous belt 13, and the third guide wheel 12 is arranged on the inside of the synchronous belt 13. Wherein the first guide wheel 8 is located downstream of the driving synchronizing wheel 7 and upstream of the first synchronizing wheel 9, the second guide wheel 11 is located downstream of the second synchronizing wheel 10 and upstream of the third guide wheel 12, and the third guide wheel 12 is located upstream of the driving synchronizing wheel 7. That is, the timing belt 13 is wound out of the driving timing wheel 7, sequentially passes through the inner side of the first guide wheel 8, the outer side of the first timing wheel 9, the outer side of the second timing wheel 10, the inner side of the second guide wheel 11, and the outer side of the third guide wheel 12, and is then wound back to the driving timing wheel 7. The driving motor 6 drives the synchronous belt 13 through the driving synchronous wheel 7, the first guide wheel 8, the first synchronous wheel 9, the second synchronous wheel 10, the second guide wheel 11 and the third guide wheel 12 move, the roller 14 which is tightly attached to the synchronous belt 13 and located above the synchronous belt 13 is driven to rotate, the roller 14 rotates to drive the roller 3 above the roller 3 to rotate, and the roller 3 rotates to drive the package 15 of the conveying surface to move, so that the effect of conveying the package 15 is achieved. The rollers 3 arranged obliquely can enable the conveying direction of the packages 15 to form a certain angle with the main beam 1, so that the conveying direction of the packages 15 is adjusted. The driving mechanism transmits power to the rollers 3 through a synchronous belt 13 and rollers 14, and the rotation speed synchronization of the rollers 3 is realized.

Wherein, the driving mechanism further comprises a roller fixing beam (not shown in the figure), the roller fixing beam is used for fixing the rotating shaft of the roller 14, and the roller fixing beam is arranged below the frame 1 along the transmission direction of the roller 3. The bottom of the driving motor 6 is further provided with a motor support frame (not shown in the figure), and the upper end surface of the motor support frame is provided with a fixing plate (not shown in the figure) for fixedly mounting the first guide wheel 8, the second guide wheel 11 and the third guide wheel 12.

Although the roller 14 can drive the roller 3 to rotate, the roller fixing beam below the roller 3 is more difficult to cover the roller 3 closer to the two ends of the diagonal of the frame, that is, the roller 14 cannot be installed or the installation cost is too high under the roller 3 at a part of the corner. For this purpose, as shown in fig. 3, the rollers 3 at two opposite ends of the frame 1 along the rotation direction of the rollers 3 include a driving roller and a driven roller, the driving roller is driven by the rollers 14, and each driving roller drives at least one driven roller. For example, the number of the driving rollers and the driven rollers is 1: 3, namely one driving roller and three driven rollers form a group, and the same ends of the driving roller and the driven rollers of the group are mutually connected with a transmission belt. In the figure, the driving roller 31, the first driven roller 32, the second driven roller 33 and the third driven roller 34 form a group, the first transmission belt 21 is connected between the driving roller 31 and the same end of the adjacent first driven roller 32, the second transmission belt 22 is connected between the first driven roller 32 and the same end of the adjacent second driven roller 33, and the third transmission belt 23 is connected between the second driven roller 33 and the same end of the adjacent third driven roller 34. The driving roller 31 is driven by the roller 14 below the driving roller to rotate, the driving roller 31 drives the first driven roller 32 to rotate through the first transmission belt 21, the first driven roller 32 drives the second driven roller 33 to rotate through the second transmission belt 22, the second driven roller 33 drives the third driven roller 34 to rotate through the third transmission belt 23, and thus, one driving roller drives the three driven rollers to rotate together through the transmission belts.

Example two:

referring to fig. 4, the device for adjusting the conveying direction of the parcels in this embodiment includes two conveying units, namely a first conveying unit 16 and a second conveying unit 17, symmetrically disposed side by side, and the rollers of the first conveying unit 16 and the rollers of the second conveying unit 17 are in a herringbone shape. The placing mode can realize automatic concentration of packages conveyed in different directions.

The rollers of the first transmission unit 16 are arranged in parallel, the rollers of the second transmission unit 17 are arranged in parallel, wherein an included angle between the rollers of the first transmission unit 16 and the rollers of the second transmission unit 17 which are in one-to-one correspondence is an obtuse angle, for example, 150 degrees, the rollers of the first transmission unit 16 and the bottom edge of the herringbone shape are 15 degrees, and the rollers of the second transmission unit 17 and the bottom edge of the herringbone shape are 15 degrees.

The driving mechanism of the first transmission unit 16 is a first driving mechanism, the driving mechanism of the second transmission unit 17 is a second driving mechanism, and the first driving mechanism and the second driving mechanism both comprise a driving motor and a synchronous belt connected with the driving motor and driving the roller to rotate. The specific structure is the same as that of the first embodiment, and will not be described herein. The conveying speed of the first conveying unit 16 and the conveying speed of the second conveying unit 17 are the same or different by setting the rotating speed of the driving components of each driving mechanism. The driving mechanism transmits power to the rollers through the synchronous belt and the rollers, so that the synchronous rotating speed of each roller is realized, the packages from the conveying line in different directions can be stably and orderly gathered, and the conveying line is compact in structure and easy to install and debug.

Example three:

referring to fig. 5, the device for adjusting the conveying direction of the parcels in this embodiment includes two conveying units, namely a third conveying unit 18 and a fourth conveying unit 19, disposed side by side, where the conveying directions of the rollers of the third conveying unit 18 and the fourth conveying unit 19 are the same. The placing mode can realize automatic tallying of parcels conveyed in the same direction, and the parcels are prevented from being stacked to form conveyor line congestion.

The rollers of the third transmission unit 18 are arranged in parallel, the rollers of the fourth transmission unit 19 are arranged in parallel, and the included angle between the roller of the third transmission unit 18 and the main beam of the third transmission unit is the same as the included angle between the roller of the fourth transmission unit 19 and the main beam of the fourth transmission unit.

The driving mechanism of the third transmission unit 18 is a third driving mechanism, the driving mechanism of the fourth transmission unit 19 is a fourth driving mechanism, and the third driving mechanism and the fourth driving mechanism both comprise a driving motor and a synchronous belt connected with the driving motor and driving the roller to rotate. The specific structure is the same as that of the first embodiment, and will not be described herein.

The third transfer unit 18 and the fourth transfer unit 19 are set to have different transfer speeds by setting the rotational speeds of the drive units of the respective drive mechanisms. For example, the third transfer unit 18 is a high-speed roller zone, the rollers of which are driven by a high-speed drive assembly, the zone delivering a speed of 1.2 m/s; the fourth transfer unit 19 is a low speed drum zone, the drum of which is driven by a low speed drive assembly, which delivers a speed of 0.8 m/s. The plurality of parcels are divided into a high-speed roller area and a low-speed roller area, and due to the speed difference, the distance between the adjacent parcels is pulled, so that the parcels of the third transmission unit 18 and the fourth transmission unit 19 can be mutually inserted into the gap between the parcels. Specifically, the packages in the third conveying unit 18 (high-speed roller zone) continuously advance and approach the fourth conveying unit 19 (low-speed roller zone), and when there is a gap between the packages in the fourth conveying unit 19, the packages in the third conveying unit 18 are automatically queued and enter the fourth conveying unit 19, so that a plurality of packages are finally arranged to the frame of the fourth conveying unit 19 in sequence, and queue-type automatic cargo handling is completed in a single queue queuing manner.

The present invention has been described in detail with reference to the specific embodiments, but the present invention is only by way of example and is not limited to the specific embodiments described above. Any equivalent modifications and substitutions to those skilled in the art are intended to be within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (12)

1. The device for adjusting the conveying direction of the parcels is characterized by comprising at least two conveying units for adjusting the conveying direction of the parcels, wherein the conveying units for adjusting the conveying direction of the parcels are arranged side by side, the conveying directions of the conveying units are the same or different, and the conveying speeds of the conveying units are the same or different; wherein, the transmission unit of adjustment parcel direction of delivery includes:

the device comprises a frame, a first connecting piece and a second connecting piece, wherein two main beams arranged in parallel are arranged on the frame;

the inclined roller group is arranged between the two main beams and comprises a plurality of rotating rollers which are arranged side by side, included angles are formed between the rollers and the main beams, roller shafts of the rollers are fixedly connected with the main beams, the rollers rotate around the roller shafts, and conveying surfaces for conveying packages are formed on the surfaces of the rollers;

the roller group comprises a plurality of rollers which are arranged side by side at intervals, each roller is arranged in the gap between two adjacent rollers, and the upper end surfaces of the rollers are abutted against the lower end surfaces of the two adjacent rollers; the arrangement direction of the rollers is consistent with that of the rollers; the roller is driven by the driving mechanism to rotate, so that the roller is driven to rotate.

2. The apparatus for adjusting a conveying direction of a package according to claim 1, wherein: the rollers at two ends close to the opposite corners of the frame along the rotation direction of the rollers all comprise driving rollers abutted against the upper end faces of the rollers and driven rollers not contacted with the rollers, each driving roller drives at least one driven roller, the driving rollers and the driven rollers driven by the driving rollers form a group, and in each group, a transmission belt is connected between the driving rollers and at least one of the driven rollers and between the driven rollers.

3. The apparatus for adjusting a conveying direction of a package according to claim 1, wherein: the driving mechanism comprises a driving motor and a synchronous belt which is connected with the driving motor and drives the roller to rotate.

4. The apparatus for adjusting a conveying direction of a package according to claim 3, wherein the driving mechanism comprises:

the first synchronizing wheel and the second synchronizing wheel are respectively positioned below the roller;

the driving assembly is positioned below the first synchronizing wheel and the second synchronizing wheel and comprises a driving motor, a speed reducer and a driving synchronizing wheel, a rotating shaft of the driving motor is connected with an input shaft of the speed reducer, and an output shaft of the speed reducer is connected with the driving synchronizing wheel;

the first guide wheel is positioned at the downstream of the driving synchronous wheel and the upstream of the first synchronous wheel, the second guide wheel is positioned at the downstream of the second synchronous wheel and the upstream of the third guide wheel, and the third guide wheel is positioned at the upstream of the driving synchronous wheel;

the synchronous belt is wound out of the driving synchronous wheel, sequentially wound through the first synchronous wheel, the first guide wheel, the second synchronous wheel, the second guide wheel and the third guide wheel and then wound back to the driving synchronous wheel.

5. A device for adjusting the direction of travel of parcels according to claim 3, wherein: the driving mechanism further comprises a roller fixing beam, the roller fixing beam is used for fixing a rotating shaft of the roller, and the roller fixing beam is arranged below the frame along the transmission direction of the roller.

6. The apparatus for adjusting a conveying direction of a package according to claim 1, wherein: the automatic parcel conveying device comprises two conveying units which are symmetrically arranged side by side and used for adjusting the conveying direction of parcels, wherein the conveying units are a first conveying unit and a second conveying unit respectively, and a roller of the first conveying unit and a roller of the second conveying unit are in a herringbone shape.

7. The apparatus for adjusting a conveying direction of a package according to claim 6, wherein: the rollers of the first transmission unit are arranged in parallel, the rollers of the second transmission unit are arranged in parallel, and the included angle between the rollers of the first transmission unit and the rollers of the second transmission unit which are in one-to-one correspondence is an obtuse angle.

8. The apparatus for adjusting a conveying direction of a package according to claim 6, wherein: the driving mechanism of the first transmission unit is a first driving mechanism, the driving mechanism of the second transmission unit is a second driving mechanism, and the first driving mechanism and the second driving mechanism respectively comprise a driving motor and a synchronous belt which is connected with the driving motor and drives the roller to rotate; the conveying speed of the first conveying unit is the same as or different from the conveying speed of the second conveying unit.

9. The apparatus for adjusting a conveying direction of a package according to claim 1, wherein: the conveying device comprises two conveying units which are arranged side by side and used for adjusting the conveying direction of the packages, and a third conveying unit and a fourth conveying unit are respectively arranged, wherein the conveying direction of a roller of the third conveying unit is the same as that of a roller of the fourth conveying unit.

10. The apparatus for adjusting a conveying direction of a package according to claim 9, wherein: the rollers of the third transmission unit are arranged in parallel, the rollers of the fourth transmission unit are arranged in parallel, and the included angle between the roller of the third transmission unit and the main beam of the third transmission unit is the same as the included angle between the roller of the fourth transmission unit and the main beam of the fourth transmission unit.

11. The apparatus for adjusting a conveying direction of a package according to claim 9, wherein: the driving mechanism of the third transmission unit is a third driving mechanism, the driving mechanism of the fourth transmission unit is a fourth driving mechanism, and the third driving mechanism and the fourth driving mechanism respectively comprise a driving motor and a synchronous belt which is connected with the driving motor and drives the roller to rotate.

12. The apparatus for adjusting a conveying direction of a package according to claim 9, wherein: the conveying speed of the third conveying unit is different from the conveying speed of the fourth conveying unit.

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