CN211945212U - Parcel singleton separator - Google Patents

Abstract

The application provides a parcel singleton separator includes: the first linear conveying mechanism and the second linear conveying mechanism are sequentially arranged along the same direction, and the width of the second linear conveying mechanism is larger than that of the first linear conveying mechanism; the third linear conveying mechanism is equal in length to the first linear conveying mechanism and is arranged side by side, and the conveying direction of the third linear conveying mechanism and the conveying direction of the first linear conveying mechanism are arranged in an acute angle; the first inclined plane and the second inclined plane are arranged side by side, one end of the first inclined plane is connected with the third linear conveying mechanism, and one end of the second inclined plane is connected with the second linear conveying mechanism; the horizontal conveying planes of the first inclined plane and the third linear conveying mechanism and the horizontal conveying planes of the second inclined plane and the second linear conveying mechanism are inclined slopes, and the angles of the inclined slopes are consistent. The application automatically realizes the separation of the parcel single piece and the elimination of abnormal articles, reduces the labor cost and improves the work efficiency of parcel sorting.

Description

Parcel singleton separator

Technical Field

The utility model relates to a commodity circulation field especially relates to a parcel stick separator.

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.

The separation of current parcel mainly leans on manual operation to realize, and this kind of manual operation's separation mode not only need drop into a large amount of human costs, and operates intensity of labour big, artifical processing efficiency low, does not match with the automatic sorting machine system of rear end, consequently, how to realize the automatic tallying process of parcel under the prior art condition, improves the conveying efficiency of commodity circulation, is the problem that technical staff in the field awaits a great deal of solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a realize parcel stick automatic separation, for follow-up automatic sorting prepare efficient parcel stick separator.

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

a wrapped single piece separating device comprising:

the first linear conveying mechanism and the second linear conveying mechanism are sequentially arranged along the same direction, and the width of the second linear conveying mechanism is larger than that of the first linear conveying mechanism;

the third linear conveying mechanism is equal in length to the first linear conveying mechanism and is arranged side by side, and the conveying direction of the third linear conveying mechanism and the conveying direction of the first linear conveying mechanism are arranged in an acute angle;

the first inclined plane and the second inclined plane are arranged side by side, one end of the first inclined plane is connected with the third linear transmission mechanism, and one end of the second inclined plane is connected with the second linear transmission mechanism; the first inclined plane and the horizontal conveying plane of the third linear conveying mechanism, the second inclined plane and the horizontal conveying plane of the second linear conveying mechanism are inclined slopes, and the angles of the inclined slopes are consistent.

Preferably, the first linear conveying mechanism and the second linear conveying mechanism are belt conveyors.

Preferably, the height of the conveying surface of the first linear conveying mechanism is consistent with the height of the conveying surface of the second linear conveying mechanism.

Preferably, the conveying direction of the first linear conveyor is the same as the conveying direction of the second linear conveyor.

Preferably, the third linear transfer mechanism is a roller conveyor, comprising:

the device comprises a frame, wherein an inclined roller area and a straight roller area are arranged in the frame; the inclined roller area is positioned at one side close to the first linear conveying mechanism, and the straight roller area is positioned at one side close to the first inclined plane;

the inclined roller area comprises a plurality of rotating first rollers which are arranged side by side, the first rollers are obliquely and parallelly installed and connected with the frame of the frame, the first rollers rotate around the roller shafts of the first rollers, and conveying surfaces for conveying packages are formed on the surfaces of the first rollers;

the straight roller area comprises a plurality of rotating second rollers which are arranged side by side, the second rollers are arranged in the frame in parallel, the second rollers rotate around the roller shafts of the second rollers, and the surfaces of the second rollers form conveying surfaces for conveying packages;

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

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

More preferably, a plurality of the first rollers are arranged in parallel at equal intervals, and a plurality of the second rollers are arranged in parallel at equal intervals.

More preferably, the width of the skewed drum zone is greater than the width of the straight drum zone.

More preferably, the first driving mechanism includes a first driving motor and a first synchronous belt connected to the first driving motor and driving the first roller to rotate.

More preferably, the second driving mechanism includes a second driving motor and a second synchronous belt connected to the second driving motor and driving the second roller to rotate.

More preferably, the first drive mechanism and the second drive mechanism each include:

a first synchronizing wheel and a second synchronizing wheel;

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.

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

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

More preferably, the first rollers of the oblique roller zone close to the two ends comprise a driving roller abutted to the upper end face of the first roller and a driven roller not contacted with the first roller, each driving roller drives at least one driven roller, the driving roller and the driven roller driven by the driving roller form a group, and a transmission belt is connected between the driving roller and at least one of the driven rollers and between the driven rollers in each group.

Furthermore, the driving roller of each group in the inclined roller area is driven to rotate by the first roller below the driving roller, and the driving roller drives the driven rollers of the group to rotate together through a transmission belt.

More preferably, the second rollers close to the two ends of the straight roller zone comprise driving rollers abutted to the upper end faces of the second rollers and driven rollers not contacted with the second 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.

Furthermore, each group of driving rollers in the straight roller area is driven to rotate by a second roller below the driving rollers, and the driving rollers drive the driven rollers of the group to rotate together through a transmission belt.

More preferably, the conveying speed of the oblique roller zone is the same as or different from the conveying speed of the straight roller zone.

More preferably, the conveying direction of the plurality of first rollers is a direction in which the conveying direction of the first linear conveyor is inclined to one side of the second inclined surface.

More preferably, a plurality of intermediate fixing seats are arranged between the first rollers and the second rollers, a first fixing seat is arranged on one side, away from the intermediate fixing seat, of the first rollers, a second fixing seat is arranged on one side, away from the intermediate fixing seat, of the second rollers, a plurality of roller shafts of the first rollers are arranged between the first fixing seat and the intermediate fixing seat, and a plurality of roller shafts of the second rollers are arranged between the second fixing seat and the intermediate fixing seat.

Further, the included angle between the first roller and the first fixing seat is a non-right angle (non-90 °), and preferably, the first roller and the first fixing seat are arranged at an acute angle, for example, the included angle is 30-80 °.

Preferably, the angle of the inclination slope of the first inclined plane and the second inclined plane is 20-40 degrees.

Preferably, two sides of the inclined plane formed by the first inclined plane and the second inclined plane are further provided with a protection plate.

Preferably, the wrapped single-piece separating device further comprises a supporting frame for installing the first linear conveying mechanism, the second linear conveying mechanism, the third linear conveying mechanism, the first inclined plane and the second inclined plane.

Preferably, the second straight line transport mechanism is far away from the one end of first straight line transport mechanism, with the junction on second inclined plane is equipped with a connecting plate, the connecting plate includes interconnect's first panel and second panel, first panel is the plane, with second straight line transport mechanism meets, the second panel is the inclined plane, with the second inclined plane meets, and the inclined plane from second straight line transport mechanism's direction of delivery to the second inclined plane slope.

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

the utility model provides a parcel list separator, through setting up first linear transport mechanism, second linear transport mechanism and third transport mechanism, the superimposed parcel with the transport is separated, the parcel that is located on the first linear transport mechanism is carried out forward to second linear transport mechanism's direction, skew first linear transport mechanism's parcel can be carried to first inclined plane or second inclined plane along third linear transport mechanism's transmission direction, carry out subsequent backward flow and handle, thereby become the parcel in batches and arrange the list, the rejection of parcel list separation and unusual article has been realized automatically, the human cost is reduced, the work efficiency of parcel letter sorting has been improved.

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 schematic structural view of a wrapped single piece separating device according to the present invention;

FIG. 2 is a schematic view of the wrapped single piece separating device according to the present invention from another angle;

FIG. 3 is a schematic top view of a third linear transport mechanism;

fig. 4 is a schematic side view of the oblique-roll zone (or straight-roll zone).

Illustration of the drawings:

1. a first linear transport mechanism; 2. a second linear transport mechanism; 3. a third linear transport mechanism; 4. a first inclined plane; 5. a second inclined plane; 6. a connecting plate; 7. a protection plate; 8. a transmission belt; 13. a first synchronization belt; 15. wrapping; 31. an oblique roller zone; 32. a straight roller zone; 301. a first fixed seat; 302. a second fixed seat; 303. a middle fixed seat; 310. a first roller; 311. a first roller; 312. a driving synchronizing wheel; 313. a first guide wheel; 314. a first synchronizing wheel; 315. a second synchronizing wheel; 316. a second guide wheel; 317. a third guide wheel; 321. a second roller; 3111. a drive roll; 3112. a driven roller.

Detailed Description

The utility model provides a parcel stick separator, for making the utility model discloses a purpose, technical scheme and effect are clearer, make clear and definite, and it is right that the following refers to the drawing and lifts the example 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.

As shown in fig. 1 and 2, a wrapped single-piece separating device comprises: the device comprises a first linear conveying mechanism 1 and a second linear conveying mechanism 2 which are sequentially arranged along the same direction, wherein the width of the second linear conveying mechanism 2 is larger than that of the first linear conveying mechanism 1; the third linear conveying mechanism 3 is equal in length to the first linear conveying mechanism 1 and is arranged side by side, and the conveying direction of the third linear conveying mechanism 3 and the conveying direction of the first linear conveying mechanism 1 are arranged in an acute angle; a first inclined surface 4 and a second inclined surface 5 are arranged side by side, one end of the first inclined surface 4 is connected with the third linear transmission mechanism 3, and one end of the second inclined surface 5 is connected with the second linear transmission mechanism 2; the first inclined plane 4 and the horizontal conveying plane of the third linear conveying mechanism 3, the second inclined plane 5 and the horizontal conveying plane of the second linear conveying mechanism 2 are inclined slopes, and the angles of the inclined slopes are consistent.

The first linear conveying mechanism 1 and the second linear conveying mechanism 2 are sequentially arranged along the same direction, namely the directions of the first linear conveying mechanism 1 and the second linear conveying mechanism 2 extend along the same straight line, on the basis, the conveying direction of the third linear conveying mechanism 3 and the conveying direction of the first linear conveying mechanism 1 are arranged in an acute angle, and the third linear conveying mechanism 3 can deflect the packages which are borne by the third linear conveying mechanism and deviate from the first linear conveying mechanism 1 in the conveying direction of the first linear conveying mechanism 1 towards the edge of the third linear conveying mechanism 3, namely can deflect the packages to one side which is closer to the first inclined surface 4 and the second inclined surface 5, so that only one package is conveyed on the first linear conveying mechanism 1 at each time. In a preferred embodiment, the angles of the inclination slopes of the first inclined plane 4 and the second inclined plane 5 are 20-40 °, so that the separated packages can smoothly slide down from the first inclined plane 4 or the second inclined plane 5 for subsequent reflow treatment.

Wherein, the conveying direction of the first linear conveying mechanism 1 is the same as the conveying direction of the second linear conveying mechanism 2. The first linear transmission mechanism 1 and the second linear transmission mechanism 2 are belt conveyors. The height of the conveying surface of the first linear conveying mechanism 1 is consistent with that of the conveying surface of the second linear conveying mechanism 2, so that packages are stably conveyed, and the packages are prevented from being accumulated at the junction of the first linear conveying mechanism 1 and the second linear conveying mechanism 2.

The third linear conveying mechanism 3 is a roller conveyor. As shown in fig. 3, in a preferred embodiment, the third linear transport mechanism 3 includes: the device comprises a frame, wherein an inclined roller area 31 and a straight roller area 32 are arranged in the frame, and the width of the inclined roller area 31 is larger than that of the straight roller area 32; the inclined roller area 31 is positioned at one side close to the first linear conveying mechanism 1, and the straight roller area 32 is positioned at one side close to the first inclined plane 4; the inclined roller zone 31 comprises a plurality of rotating first rollers 311 which are arranged side by side, the first rollers 311 are arranged in parallel at equal intervals, the first rollers 311 are obliquely installed and connected with the frame of the frame, the first rollers 311 rotate around the roller shafts of the first rollers, and the surfaces of the first rollers 311 form a conveying surface for conveying packages; the straight roller area 32 comprises a plurality of rotating second rollers 321 arranged side by side, the second rollers 321 are arranged in the frame in parallel at equal intervals, the second rollers rotate around the roller shafts 321, and the surfaces of the second rollers 321 form a conveying surface for conveying the packages.

A middle fixing seat 303 is arranged between the first rollers 311 and the second rollers 321, a plurality of first fixing seats 301 are arranged on one sides, away from the middle fixing seat 303, of the first rollers 311, a plurality of second fixing seats 302 are arranged on one sides, away from the middle fixing seat 303, of the second rollers 321, a plurality of roller shafts of the first rollers 311 are arranged between the first fixing seats 301 and the middle fixing seat 303, and a plurality of roller shafts of the second rollers 321 are arranged between the second fixing seats 302 and the middle fixing seat 303. Wherein, the contained angle between first roller 311 with first fixing base 301 is non-right angle (non-90 °), and preferably, be acute angle setting between first roller 311 and the first fixing base 301, for example the contained angle is 30 ~ 80, adopt this angle setting, if two or more parcels appear and advance side by side, whole or partial parcel through oblique roller district 31, through the slant transport, can make the parcel produce a certain amount of skew to the edge to slide down from the transmission line through first inclined plane 4, thereby with the parcel separation of first straight line transport mechanism 1.

The straight roller zone 32 is arranged to cushion the drive of the oblique roller zone 31 against slipping off the first oblique surface 4 too quickly, for example, a package that is narrower than the straight roller zone 32 is transported through the straight roller zone 32 and slips off the second oblique surface 5.

In addition, by reducing the width of the first linear conveying mechanism 1, overlarge packages are driven by the inclined roller area 31 to be larger, and can directly enter the inclined roller area 31 to be separated from a conveying line, so that the purpose of screening the large packages is achieved.

A plurality of first rollers (not shown in the figure) arranged side by side at intervals are arranged below the first rollers 311, each first roller is arranged in a gap between two adjacent first rollers 311, and the upper end surfaces of the first rollers are abutted to the lower end surfaces of two adjacent first rollers 311; the arrangement direction of the first rollers is consistent with that of the first rollers 311; the first roller is driven by a first driving mechanism (not shown in the figure) below the first roller to rotate, so that the first roller 311 is driven to rotate; the first driving mechanism comprises a first driving motor and a first synchronous belt which is connected with the first driving motor and drives the first roller to rotate. A plurality of second rollers (not shown in the figure) arranged side by side at intervals are arranged below the second rollers 321, each second roller is arranged in a gap between two adjacent second rollers 321, and the upper end surfaces of the second rollers are abutted to the lower end surfaces of two adjacent second rollers 321; the arrangement direction of the second rollers is consistent with that of the second roller barrel 321; the second roller is driven by a second driving mechanism (not shown in the figure) below the second roller to rotate, so as to drive the second roller 321 to rotate, and the second driving mechanism comprises a second driving motor and a second synchronous belt connected with the second driving motor and driving the second roller to rotate.

The first driving mechanism and the second driving mechanism are both arranged below the frame, so that the conveying space of the whole third linear conveying mechanism 3 is saved, and the structure is more compact. The first driving mechanism and the second driving mechanism have the same structure. Taking a first driving mechanism as an example, the first driving mechanism includes: the outer wall of the first synchronous belt 13 contacts with the first roller 310 and drives the first roller 310 to rotate, a friction force is formed between the upper surface of the first synchronous belt 13 and the lower surface of the first roller 310, and when the first synchronous belt 13 rotates, the first roller 310 is driven to rotate by the friction force. A first synchronizing wheel 314 and a second synchronizing wheel 315 are arranged on two sides of the first synchronizing belt 13; a driving assembly is arranged in the middle of the first synchronous belt 13, the driving assembly comprises a first driving motor, a speed reducer and a driving synchronous wheel 312, a rotating shaft of the first 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 synchronous wheel 312; a first guide pulley 313 and a second guide pulley 316 for tensioning the first timing belt 13 are provided on the outer side of the first timing belt 13, and a third guide pulley 317 is provided on the inner side of the first timing belt 13. Wherein the first guide wheel 313 is located downstream of the driving synchronizing wheel 312 and upstream of the first synchronizing wheel 314, the second guide wheel 316 is located downstream of the second synchronizing wheel 315 and upstream of the third guide wheel 317, and the third guide wheel 317 is located upstream of the driving synchronizing wheel 312. That is, the first timing belt 13 is wound off the driving timing pulley 312, passes through the inner side of the first guide pulley 313, the outer side of the first timing pulley 314, the outer side of the second timing pulley 315, the inner side of the second guide pulley 316, and the outer side of the third guide pulley 317 in this order, and is then wound back to the driving timing pulley 312. The first driving motor drives the first synchronous belt 13, the first guide wheel 313, the first synchronous wheel 314, the second synchronous wheel 315, the second guide wheel 316 and the third guide wheel 317 to move through the driving synchronous wheel 312, so as to drive the first roller 310 tightly attached to the first synchronous belt 13 and positioned above the first synchronous belt 13 to rotate, the first roller 310 rotates to drive the first roller 311 above the first roller 310 to rotate, and the first roller 311 rotates to drive the packages 15 on the conveying surface to move, so that the effect of conveying the packages 15 is achieved. The first driving mechanism transmits power to the first rollers 311 through the first synchronous belt 13 and the first rollers 310, so that the rotation speed synchronization of the first rollers 311 is realized.

The first driving mechanism further includes a first roller fixing beam (not shown in the figure) for fixing the rotating shaft of the first roller 310, and the first roller fixing beam is disposed below the oblique roller zone 31 along the transmission direction of the first roller 311. Similarly, the second driving mechanism further includes a second roller fixing beam, the second roller fixing beam is used for fixing the rotating shaft of the second roller, and the second roller fixing beam is disposed below the straight roller area 32 along the transmission direction of the second roller 321.

The first roller 311 arranged obliquely can enable the conveying direction of the package on the third linear conveying mechanism 3 to form a certain angle with the first fixed seat 301, so that the conveying direction of the package is adjusted, and the conveying direction of the package is the direction inclined from the conveying direction of the first linear conveying mechanism 1 to one side of the second inclined plane 5. The second rollers 321 arranged in parallel are arranged on one side of the first rollers 311 facing the first inclined plane 4, so that the packages continue to move towards the conveying direction of the first linear conveying mechanism 1, and the packages needing to be separated incline towards the direction of the second inclined plane 5 after moving along one section of the conveying direction of the first linear conveying mechanism 1 as much as possible by matching with the inclination angle of the first rollers 311, namely, most of the packages to be separated can be guaranteed to smoothly slide towards the second inclined plane 5 and smoothly slide down from the second inclined plane 5.

Although the first roller 310 can drive the first roller 311 to rotate, the closer to the first rollers 311 at both ends of the oblique roller zone 31, the more difficult the first roller fixing beam below the first rollers is to cover, i.e. a part of the first rollers 311 may have a problem that the first roller 310 cannot be installed or the installation cost is too high. For this purpose, as shown in fig. 3, the first rollers 311 near the two ends of the oblique roller zone 31 of the present application each include a driving roller abutting against the upper end surface of the first roller 310 and a driven roller not contacting the first roller 310, the rotation of the driving roller is driven by the first roller 310, and each driving roller drives at least one driven roller. For example, the number of the driving rollers and the driven rollers is 1: 1, namely a driving roller and a driven roller form a group, and the same ends of the driving roller and the driven roller of the group are mutually connected with a transmission belt 8. In the figure, a driving roller 3111 and a driven roller 3112 are in a group, a transmission belt 8 is connected between the driving roller 3111 and the same end of the adjacent driven roller 3112, the driving roller 3111 is driven by a first roller 310 below the driving roller 3111 to rotate, the driving roller 3111 drives the driven roller 3112 to rotate through the transmission belt 8, and thus, one driving roller drives one driven roller to rotate together through the transmission belt 8. The second rollers 321 at both ends of the straight roller zone 32 can also be provided with a transmission belt 8, and the structure of the transmission belt 8 is the same as that of the transmission belt 8 arranged in the inclined roller zone 31, and the description is omitted.

In a preferred embodiment, two sides of the inclined plane formed by the first inclined plane 4 and the second inclined plane 5 are further provided with protective plates 7.

In a preferred embodiment, the apparatus further comprises a support frame (not shown) for mounting the first linear transport mechanism 1, the second linear transport mechanism 2, the third linear transport mechanism 3, the first inclined surface 4 and the second inclined surface 5.

In a preferred embodiment, a connecting plate 6 is disposed at a connection position between one end of the second linear transport mechanism 2 far away from the first linear transport mechanism 1 and the second inclined surface 5, the connecting plate 6 includes a first panel and a second panel which are connected with each other, the first panel is a plane and is connected with the second linear transport mechanism 2, and the second panel is an inclined surface and is connected with the second inclined surface 5, and inclines from the second linear transport mechanism 2 to one side of the second inclined surface 5. Due to the design of the connecting plate 6, all the parcels to be separated can slide down from the second inclined plane 5, and meanwhile, the parcels to be separated are prevented from mistakenly entering a subsequent production line along with the second linear conveying mechanism 2.

To sum up, the application provides a parcel list separator, through setting up first linear transport mechanism, second linear transport mechanism and third transport mechanism, the superimposed parcel that will carry separates, the parcel that is located on the first linear transport mechanism is carried away to second linear transport mechanism's direction forward, the parcel that deviates from first linear transport mechanism can be carried to first inclined plane or second inclined plane along third linear transport mechanism's transmission direction, carry out subsequent backward flow and handle, thereby become the parcel in batches and arrange the list, the rejection of parcel list separation and unusual article has been realized automatically, the human cost is reduced, the work efficiency of parcel letter sorting has been improved.

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 (10)

1. A wrapped singulator separating device, comprising:

the first linear conveying mechanism and the second linear conveying mechanism are sequentially arranged along the same direction, and the width of the second linear conveying mechanism is larger than that of the first linear conveying mechanism;

the third linear conveying mechanism is equal in length to the first linear conveying mechanism and is arranged side by side, and the conveying direction of the third linear conveying mechanism and the conveying direction of the first linear conveying mechanism are arranged in an acute angle;

the first inclined plane and the second inclined plane are arranged side by side, one end of the first inclined plane is connected with the third linear transmission mechanism, and one end of the second inclined plane is connected with the second linear transmission mechanism; the first inclined plane and the horizontal conveying plane of the third linear conveying mechanism, the second inclined plane and the horizontal conveying plane of the second linear conveying mechanism are inclined slopes, and the angles of the inclined slopes are consistent.

2. A wrapped singulator separating apparatus as claimed in claim 1, wherein: the first linear conveying mechanism and the second linear conveying mechanism are belt conveyors.

3. A wrapped singulator separating apparatus as claimed in claim 1, wherein: the height of the conveying surface of the first linear conveying mechanism is consistent with that of the conveying surface of the second linear conveying mechanism; the conveying direction of the first linear conveying mechanism is the same as that of the second linear conveying mechanism.

4. A wrapped singulator as in claim 1, wherein said third linear transfer mechanism is a roller conveyor comprising:

the device comprises a frame, wherein an inclined roller area and a straight roller area are arranged in the frame; the inclined roller area is positioned at one side close to the first linear conveying mechanism, and the straight roller area is positioned at one side close to the first inclined plane;

the inclined roller area comprises a plurality of rotating first rollers which are arranged side by side, the first rollers are obliquely and parallelly installed and connected with the frame of the frame, the first rollers rotate around the roller shafts of the first rollers, and conveying surfaces for conveying packages are formed on the surfaces of the first rollers;

the straight roller area comprises a plurality of rotating second rollers which are arranged side by side, the second rollers are arranged in the frame in parallel, the second rollers rotate around the roller shafts of the second rollers, and the surfaces of the second rollers form conveying surfaces for conveying packages;

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

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

5. A wrapping sheet separating apparatus as claimed in claim 4, wherein: the width of the inclined roller area is larger than that of the straight roller area.

6. A wrapping sheet separating apparatus as claimed in claim 4, wherein: the first driving mechanism and the second driving mechanism both comprise:

a first synchronizing wheel and a second synchronizing wheel;

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.

7. A wrapping sheet separating apparatus as claimed in claim 4, wherein: the first driving mechanism further comprises a first roller fixing beam, the first roller fixing beam is used for fixing a rotating shaft of the first roller, and the first roller fixing beam is arranged below the inclined roller area along the transmission direction of the first roller; the second driving mechanism further comprises a second roller fixing beam, the second roller fixing beam is used for fixing a rotating shaft of the second roller, and the second roller fixing beam is arranged below the straight roller area along the transmission direction of the second roller.

8. A wrapping sheet separating apparatus as claimed in claim 4, wherein: the conveying direction of the first rollers is the direction in which the conveying direction of the first linear conveying mechanism inclines to one side of the second inclined plane.

9. A wrapping sheet separating apparatus as claimed in claim 4, wherein: a plurality of first roller and a plurality of be provided with middle fixing base between the second roller, it is a plurality of first roller is kept away from one side of middle fixing base is equipped with first fixing base, and is a plurality of one side that middle fixing base was kept away from to the second roller is equipped with the second fixing base, and is a plurality of the roller setting of first roller is between first fixing base and middle fixing base, and is a plurality of the roller setting of second roller is in between second fixing base and the middle fixing base.

10. A wrapped singulator separating apparatus as claimed in claim 1, wherein: the second straight line transport mechanism is kept away from first straight line transport mechanism's one end, with the junction on second inclined plane is equipped with a connecting plate, the connecting plate includes interconnect's first panel and second panel, first panel is the plane, with second straight line transport mechanism meets, the second panel is the inclined plane, with the second inclined plane meets, and the inclined plane certainly second straight line transport mechanism's direction of delivery to the second inclined plane slope.

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