CN212100733U - Linear sorting machine based on local rotation - Google Patents

Abstract

The utility model discloses a based on local pivoted sharp sorting machine. The linear sorting machine in the prior art has the defects of complex structure and large size of a discharging device; in addition, the linear sorting machine in the prior art has high noise. The utility model relates to a sharp sorting machine based on local pivoted, including frame and transport sorting device. The conveying and sorting device is arranged on the rack and comprises n rotary sorting units which are sequentially arranged; n is more than or equal to 2. The rotary sorting unit includes a steering power element and a sorting conveyor. The sorting conveyor is arranged on the top of the frame and is driven by a steering power element to steer so as to change the conveying direction of the goods. The utility model discloses in set up a plurality of rotary type letter sorting units of arranging in proper order to for the rotary type letter sorting unit provides one around vertical axis pivoted motion degree of freedom, make the small and exquisite rotary type letter sorting unit of size possess simultaneously and carry the goods forward and send into the function of feed opening with the goods through turning to.

Description

Linear sorting machine based on local rotation

Technical Field

The utility model belongs to the technical field of the commodity circulation letter sorting, concretely relates to straight line sorting machine based on local pivoted.

Background

The annual object flow in China is rapidly increased, so that the large object flow needs to be efficiently processed, and two key factors cannot be avoided: and (4) collaborative networking and intelligent technology. Among them, the use of automated logistics equipment, including automated sorting systems, plays a crucial role.

The automatic quick sorting technology replaces a large amount of manual sorting, so that the labor cost is reduced, and meanwhile, the efficiency and the accuracy of sorting operation are greatly improved. The linear sorting system is a high-efficiency and high-precision sorting solution, is high in sorting efficiency and accuracy, adopts modular design and assembly, can be flexibly customized according to scheme requirements, and greatly saves the field area and the equipment configuration cost. However, the linear sorting machine in the prior art has the defects of complex structure and large size of a discharging device; in addition, the linear sorting machine in the prior art is noisy.

Disclosure of Invention

The utility model aims at using unit place, fund limited, requiring under the strict condition to the noise, also can provide a small batch volume automatic sorting equipment, solve in the industry now because the piece volume is little and can't use automatic sorting's pain point problem, reduce the letter sorting cost, improve letter sorting efficiency.

The utility model discloses a frame and transport sorting device. The conveying and sorting device is arranged on the rack and comprises n rotary sorting units which are sequentially arranged; n is more than or equal to 2. The rotary sorting unit includes a steering power element and a sorting conveyor. The sorting conveyor is arranged on the top of the frame and is driven by a steering power element to steer so as to change the conveying direction of the goods.

Preferably, the rotary sorting unit further comprises a guide plate. The guide plate is arranged on the sorting conveyor; the inner side edge of the guide plate is close to and lower than the output end of the conveying surface of the sorting conveyor corresponding to the guide plate, and the outer side edge of the guide plate is higher than the input end of the top surface of the next sorting conveyor.

Preferably, the conveying surfaces of all sorting conveyors are in the same inclined characteristic plane. The included angle between the characteristic plane and the horizontal plane is theta, and theta is more than or equal to 1 degree and less than or equal to 5 degrees; the top surface of the guide plate is inclined downward in the inside-out direction.

Preferably, the two side plates led out of the guide plate are rotatably connected with the output end of the conveying bracket of the sorting conveyor, positioned through the clamping grooves and locked by nuts.

Preferably, the central axis of rotation of the sortation conveyor passes through its geometric center. The length of the sorting conveyor is L, and the width of the sorting conveyor is W; in the initial state, the distance between two adjacent sorting conveyors is B. L, W, B satisfies the following condition:

preferably, the n rotary sorting units are arranged in a step-like manner in sequence from the head end to the tail end of the rack. The input end of a preceding rotary sorting unit is located above the output end of a subsequent rotary sorting unit.

Preferably, a guide plate is arranged in the rotary sorting unit; the guide plate is arranged at the output end of the sorting conveyor; the inside edge of the guide plate is close to and lower than the output end of the conveying surface of the corresponding sorting conveyor, and the outside edge of the guide plate is close to the conveying surface of the next rotary sorting unit.

Preferably, the rotary sorting unit further comprises a photosensor. Photoelectric sensor installs on the letter sorting conveyer, detects the parallel transport face that is higher than the letter sorting conveyer of head axis.

Preferably, the output rotating shaft or the output turntable of the steering power element is fixed with the bottom plate; the steering power element adopts a DD motor; the bottom plate is fixed on an output turntable of the DD motor.

Preferably, the sorting conveyor comprises a conveying belt, a roller and a conveying bracket. The two rollers are respectively supported at two ends of the conveying bracket through two central shafts and are connected through a conveying belt.

Preferably, two ends of a central shaft of one roller respectively penetrate through the waist-shaped holes on two sides of the end part of the conveying bracket; bolts which are propped against the end part of the central shaft of the roller are arranged on both sides of the conveying support; one of the two rollers is a motorized roller.

Preferably, the utility model also comprises a weighing and code scanning device; the weighing and code scanning device is positioned at the input end of the conveying and sorting device. The weighing and code scanning device comprises a transition conveyor, a weighing sensor, a code scanning support and a bar code identification module. The transition conveyor is mounted on the frame by one or more load cells. The code scanning bracket is arranged at the output end of the transition conveyor; a bar code recognition module is arranged on the code scanning bracket.

As preferred, the utility model discloses still including the device of packing of keeping in. The temporary storage upper package is arranged at the input end of the conveying and sorting device. The temporary storage packing device comprises a packing conveyor and a temporary storage hopper. The upper bag conveyor adopts a belt conveyor; the conveying surface of the belt conveyor is obliquely arranged, and goods are obliquely and upwards conveyed to the input end of the rack. The temporary storage hopper surrounds the other edges of the upper package conveyor except the output end.

Preferably, the utility model discloses still include the unloading platform. The two blanking tables are respectively arranged at two sides of the conveying and sorting device; and the two blanking tables are provided with n blanking ports which are sequentially arranged along the length direction of the conveying and sorting device. N feed openings on one feeding platform correspond to the n rotary sorting units respectively.

Preferably, each feed opening is provided with a bag opening frame and a bag collecting bag. The bag collecting bag is arranged on the bag opening frame; the bag opening frame adopts a drawing bag opening frame.

Preferably, an abnormal parcel collecting bag is arranged at the tail end of the rack. Each feed opening department all is provided with full bag and detects sensor and pilot lamp.

The utility model has the advantages that:

1. the utility model is provided with a plurality of rotary type sorting units which are arranged in sequence, and provides a degree of freedom of movement for the rotary type sorting units, which rotates around a vertical axis, so that the rotary type sorting units with small sizes have the functions of conveying goods forwards and feeding the goods into a feed opening by turning; therefore, the utility model discloses compare in the linear conveyor of current annular sorting machine and push-down shipment, equipment height is lower, and does not need all the other large-size auxiliary assembly, and is high to the adaptability in place.

2. The utility model moves the small-sized conveyor and the steering power element for driving steering in the operation process; therefore, compare current need sort dolly and make annular sorting machine and push-down linear conveyor who puts down goods of annular removal, this application greatly reduced the production point of noise, reduced the noise, improved operational environment.

3. The utility model adopts the modular design, increases and reduces the number of the feed opening and the rotary sorting unit according to the requirement, is flexible, has no waste of fields and funds, reduces the equipment investment cost, and shortens the fund chain and the turnover period;

4. the embodiment 1 of the utility model provides a mode through set up the guide board between adjacent rotary type letter sorting unit avoids the goods card between two adjacent letter sorting conveyer, or appears violently jolting in transmission process. And simultaneously, the utility model discloses a slope design when preventing that guide board and other rotary type letter sorting units from interfering makes the guide board still keep decurrent slope for the self gravity of goods can not become the resistance that the goods was carried.

5. The embodiment 2 of the utility model provides an in through the mode with each rotary type letter sorting unit ladder arrangement, save the necessary interval between two adjacent rotary type letter sorting units for the goods is carried more smoothly.

Drawings

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

fig. 2 is an assembly front view of a single rotary sorting unit, a frame and a blanking table in embodiment 1 of the present invention;

fig. 3 is a perspective view of the rotary sorting unit according to embodiment 1 of the present invention;

fig. 4 is a side view of the rotary sorting unit of embodiment 1 of the present invention with hidden steering power components;

fig. 5 is a schematic view of the overall structure of embodiment 2 of the present invention.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1

As shown in fig. 1, a linear sorting machine based on local rotation comprises a frame 1, a temporary storage upper package device 2, a weighing and code scanning device 3, a conveying and sorting device 4, a blanking table 5 and a controller. The weighing and code scanning device 3 is arranged between the temporary storage and packing device 2 and the conveying and sorting device 4. The conveying and sorting device 4 is arranged on the rack 1 and comprises n rotary sorting units which are sequentially arranged end to end into long strips; n is more than or equal to 2.

As shown in fig. 1, 2, 3 and 4, the rotary sorting unit comprises a steering power element 6, a sorting conveyor 7, a guide plate 8 and a photoelectric sensor 9. And the sorting conveyor 7 is arranged at the top of the rack 1 and used for conveying and discharging goods. The sorting conveyor 7 comprises a conveying belt 7-1, a roller and a conveying bracket 7-2. The two rollers are arranged at the two ends of the conveying bracket 7-2 and are connected through a conveying belt 7-1. Two ends of a central shaft (an outer cylinder body is sleeved on the central shaft) of one of the rollers respectively pass through waist-shaped holes on two sides of the end part of the conveying bracket 7-2; the roller can slide along the waist-shaped hole; bolts 7-3 which are propped against the end part of the central shaft of the roller are arranged on both sides of the conveying support 7-2; adjusting the position of the bolt 7-3 enables the position adjustment of the drum and the tensioning of the conveyor belt. One of the two rollers is a motorized roller.

The bottom of the conveying bracket 7-2 is provided with a bottom plate 7-4 with an inclined top surface. The bottom surface of the bottom plate 7-4 is horizontally arranged. The bottom plate 7-4 and the frame 1 form a rotating pair with a common axis arranged vertically. The common axis of the rotating pair formed by the bottom plate 7-4 and the frame 1 passes through the geometric center of the sorting conveyor 7 (i.e. the distances from the common axis to the four edges are equal). The steering power element 6 is arranged on the frame 1, and an output shaft or a rotating disc is fixed with the bottom plate 7-4, so that the sorting conveyor 7 is driven to rotate around a vertical axis integrally. A photoelectric sensor 9 is arranged at the output end (the end close to the latter rotary sorting unit) of the conveying bracket 7-2, and the axis of the detection head of the photoelectric sensor is parallel to and higher than the top surface of the conveying belt 7-1; the photoelectric sensor 9 is used to detect whether a parcel has passed the rotary sorting unit in which it is located.

Since the top surface of the bottom plate 7-4 of the conveying support 7-2 is inclined, the top surface of the conveyor belt 7-1 mounted on the conveying support 7-2 is also inclined. In the initial state, the conveying direction of all the sorting conveyors 7 is parallel to the arrangement direction of the rotary sorting units, and the goods are conveyed from the head end to the tail end of the rack 1 through sequential relay. Through rotating letter sorting conveyer 7 around vertical axis, can change the direction of delivery of goods wantonly to send into arbitrary a feed opening with the goods.

The conveying planes of all sorting conveyors 7, i.e. the top surfaces of the conveyor belts 7-1, are in the same inclined characteristic plane, so that the goods are conveyed obliquely downwards along the conveying sorting device 4. The included angle between the characteristic plane and the horizontal plane is theta, and theta is more than or equal to 1 degree and less than or equal to 5 degrees; the length of the sorting conveyor is L, and the width of the sorting conveyor is W; in the initial state, the distance between two adjacent sorting conveyors 7 is B. L, W, B satisfies the following condition:

the guide plate 8 is arranged on the conveying bracket 7-2; specifically, two side plates led out from the guide plate 8 are rotatably connected with a central shaft of the roller (the central shaft is fixed with the conveying bracket 7-2) at the output end of the sorting conveyor 7 and are locked by nuts. After the nut is loosened, the inclination angle of the top surface of the guide plate 8 can be turned over and adjusted. The top surface of the guide plate 8 is kept inclined with an inclination angle smaller than θ. The inner edge of the guide plate 8 is close to and lower than the output end of the conveying surface of the sorting conveyor 7 corresponding to the guide plate, and the outer edge of the guide plate is higher than the input end of the top surface of the next sorting conveyor 7. The guide plate 8 can realize the transition of goods between two adjacent sorting conveyors 7, and avoid the goods card between two adjacent sorting conveyors 7 or fiercely jolt appears in the transmission process. Meanwhile, since the outer edge of the guide plate 8 is higher than the latter sorting conveyor 7, the guide plate 8 does not hinder the rotation of the latter sorting conveyor 7. In addition, since the conveying direction of the whole conveying and sorting device 4 is inclined downward, although the outer edge of the guide plate 8 is turned upward relative to the conveying surface of the sorting conveyor 7, the goods still have a downward inclined surface, so that the self-gravity of the goods does not become resistance to the conveying of the goods.

The temporary storage upper package device 2 is arranged at the input end of the frame 1. The temporary storage and package feeding device 2 comprises a package feeding conveyor 2-1 and a temporary storage hopper 2-2. The upper bag conveyor 2-1 adopts a belt conveyor; the conveying surface of the belt conveyor is obliquely arranged, so that goods can be obliquely and upwards conveyed to the input end of the rack 1. The temporary storage hopper 2-2 surrounds the other edges of the upper packing conveyor 2-1 except the output end. The temporary storage upper package device 2 can be convenient for workers to pick up goods and has certain stock capacity.

The weighing and code scanning device 3 comprises a transition conveyor 3-1, a weighing sensor, a code scanning bracket 3-2 and a bar code identification module. The transition conveyor 3-1 is mounted on the frame 1 by four load cells. The transition conveyor 3-1 is of the same construction as the sorting conveyor 7, except that it is not rotatable about a vertical axis, but is mounted stationary. The load cell is capable of detecting the weight of the cargo as it passes through the transition conveyor 3-1. The code scanning support 3-2 is door-shaped and is arranged at the output end of the transition conveyor 3-1; the top of the code scanning support 3-2 is provided with a bar code identification module facing to the right lower part. The bar code identification module adopts a camera or a bar code scanning gun to identify the bar code on the goods passing below. The bar code information and the bar code information are automatically related to the goods, so that necessary basis is provided for sorting the goods at the back.

As shown in fig. 1 and 2, two blanking tables 5 are respectively provided on both sides of the conveying and sorting device 4; the two blanking tables 5 are provided with n blanking ports which are sequentially arranged along the length direction of the conveying and sorting device 4. Two adjacent feed openings are separated by a baffle 5-1. The n feed openings on one blanking table 5 are aligned with the n rotary sorting units, respectively. Each feed opening is provided with an inclined slide way for guiding goods to slide out of the feed opening to a target position.

And each steering power element 6, the electric roller, the photoelectric sensor, the bar code identification module and the weighing sensor are connected with the controller. The control of the circuit, the motor and the sensor connected with the above is the same as that of the prior art. The controller adopts PLC.

In a preferable technical scheme, each feed opening is provided with a bag opening frame 5-2 and a bag collecting bag. The bag collecting bag is arranged on the bag opening frame 5-2; the bag opening frame 5-2 adopts a drawing bag opening frame 5-2, and can adapt to bag collecting bags of different specifications.

The full bag detection sensor and the indicating lamp are arranged at each feed opening; when the bag is filled with the packages, the bag opening is blocked, the full bag detection sensor is triggered, and the indicating lamp prompts workers. The full bag detection sensor adopts a photoelectric sensor.

In a preferable technical scheme, an abnormal parcel collecting bag is arranged at the tail end of the rack 1; unidentifiable packages can fall into an abnormal package collecting bag under the conveying of the conveying and sorting device 4.

The machine frame 1 is provided with emergency stop buttons at a plurality of positions, and when a fault or a danger occurs, a worker can press the emergency stop buttons urgently;

as a preferred solution, the steering power element 6 is a DD motor or other electric machine.

The working principle of the utility model is as follows:

first, the worker transports and carries the goods to the temporary storage upper packing device 2, and the temporary storage bucket 2-2 provides a certain stock capacity. The upper package conveyor 2-1 in the temporary storage upper package device 2 conveys the goods to the top end, so that the workers can pick up the goods conveniently. The staff carries the goods from the temporary storage upper package device 2 to a transition conveyor 3-1 of the weighing and code scanning device 3, and ensures that the bar codes of the goods are upward; the weighing sensor automatically weighs the goods. Weighing is not a necessary process for sorting operations and may be done in an un-weighed manner as desired.

Then, the goods pass through the code scanning bracket 3-2 under the conveying of the transition conveyor 3-1 and enter the conveying and sorting device 4; the bar code identification module scans and identifies bar codes on goods; and the controller respectively determines the target feed openings corresponding to the cargos according to the received bar code information. In addition, the target feed opening of the goods can be determined in a mode of presetting the position in advance without using bar code scanning.

Finally, the goods move to a target feed opening under the relay conveying of each sorting conveyor 7; when one piece of goods triggers the photoelectric sensor on the previous sorting conveyor of the sorting conveyor corresponding to the target feed opening, the sorting conveyor corresponding to the target feed opening is driven by the steering power element to rotate to a state that the conveying direction faces the target feed opening. Goods drop to the target feed opening under the transport of the letter sorting conveyer that the target feed opening corresponds, realize the letter sorting.

As a preferred technical solution, goods which cannot be identified fall into the abnormal package collecting bag under the transportation of the transporting and sorting device 4.

Example 2

As shown in fig. 5, the present embodiment is different from embodiment 1 in that:

(1) the length L and the width W of the sorting conveyor and the distance B between two adjacent sorting conveyors 7 do not need to satisfy inequality

(2) The rotary sorting unit is not provided with a guide plate 8; the bottom of the conveying bracket 7-2 does not need to be provided with a bottom plate with an inclined top surface; the conveying surface of the sorting conveyor 7 may be either a horizontal surface or an inclined surface.

(3) The n rotary sorting units are sequentially arranged in a ladder shape from the head end to the tail end of the rack. The input end of a preceding rotary sorting unit is located above the output end of a subsequent rotary sorting unit. Because two adjacent rotary type letter sorting units stagger in height, so rotary type letter sorting unit can not take place to interfere because of the interval undersize around the rotatory in-process of vertical axis. Thereby avoiding the condition that goods lack conveying power on the guide plate; the goods are conveyed more smoothly.

Example 3

A linear sorting machine based on partial rotation is disclosed, and the embodiment is different from the embodiment 1 in that: a guide plate 8 is arranged in the rotary sorting unit; the guide plate 8 is arranged at the output end of the sorting conveyor 7; the inner edge of the guide plate 8 is close to and lower than the output end of the conveying surface of the corresponding sorting conveyor 7, and the outer edge of the guide plate is close to the conveying surface of the next rotary sorting unit; the guide plate 8 and the horizontal plane form an included angle of 10-45 degrees.

In this embodiment, the goods are transferred between the two rotary sorting units by the guide plate 8 with a larger inclination; the goods can slide down smoothly along the guide plate 8. Compared with the embodiment 1, the embodiment can prevent the goods from being blocked between the two rotary sorting units to the maximum extent; compare in embodiment 2, this embodiment can avoid the goods to take place to damage or roll out the condition appearance of transfer chain when the ladder department drops.

Claims (16)

1. A linear sorting machine based on partial rotation comprises a rack (1) and a conveying sorting device (4); the method is characterized in that: the conveying and sorting device (4) is arranged on the rack (1) and comprises n rotary sorting units which are sequentially arranged; n is more than or equal to 2; the rotary sorting unit comprises a steering power element (6) and a sorting conveyor (7); the sorting conveyor (7) is arranged on the frame (1) and is driven by a steering power element (6) to steer so as to change the conveying direction of the goods.

2. The linear sorting machine based on partial rotation according to claim 1, characterized in that: the rotary sorting unit further comprises a guide plate (8); the guide plate (8) is arranged on the sorting conveyor (7); the inner side edge of the guide plate (8) is close to and lower than the output end of the sorting conveyor (7) corresponding to the guide plate, and the outer side edge of the guide plate is higher than the input end of the top surface of the next sorting conveyor (7).

3. The linear sorting machine based on partial rotation according to claim 2, characterized in that: all rotary conveying surfaces are in the characteristic plane of the same sorting conveyor (7); the included angle between the characteristic plane and the horizontal plane is theta, and theta is more than or equal to 1 degree and less than or equal to 5 degrees; the top surface of the guide plate (8) is inclined downward in the inside-out direction.

4. The linear sorting machine based on partial rotation according to claim 2, characterized in that: the two side plates led out from the guide plate (8) are rotatably connected with the output end of the conveying bracket of the sorting conveyor (7), and are positioned through the clamping grooves and locked by nuts.

5. A substrate according to claim 1In local pivoted straight line sorting machine, its characterized in that: the central axis of rotation of the sorting conveyor (7) passes through the geometric center of the sorting conveyor; the length of the sorting conveyor is L, and the width of the sorting conveyor is W; in the initial state, the distance between two adjacent sorting conveyors (7) is B; l, W, B satisfies the following condition:

6. the linear sorting machine based on partial rotation according to claim 1, characterized in that: the n rotary sorting units are sequentially arranged in a step shape from the head end to the tail end of the rack; the input end of a preceding rotary sorting unit is located above the output end of a subsequent rotary sorting unit.

7. The linear sorter based on partial rotation according to claim 6, wherein: a guide plate (8) is arranged in the rotary sorting unit; the guide plate (8) is arranged at the output end of the sorting conveyor (7); the inner side edge of the guide plate (8) is flush with the output end of the sorting conveyor (7) corresponding to the guide plate, and the outer side edge of the guide plate is close to the conveying surface of the next rotary sorting unit.

8. The linear sorting machine based on partial rotation according to claim 1, characterized in that: the rotary sorting unit further comprises a photoelectric sensor (9); the photoelectric sensor (9) is arranged on the sorting conveyor (7), and the axis of the detection head is parallel to and higher than the conveying surface of the sorting conveyor (7).

9. The linear sorting machine based on partial rotation according to claim 1, characterized in that: the steering power element (6) adopts a DD motor; the bottom plate (7-4) is fixed on an output turntable of the DD motor.

10. The linear sorting machine based on partial rotation according to claim 1, characterized in that: the sorting conveyor (7) comprises a conveying belt (7-1), a roller and a conveying bracket (7-2); the two rollers are respectively supported at two ends of the conveying bracket (7-2) through two central shafts and are connected through a conveying belt (7-1).

11. The linear sorter based on partial rotation of claim 10 wherein: two ends of a central shaft of one roller respectively penetrate through waist-shaped holes on two sides of the end part of the conveying bracket (7-2); bolts (7-3) which are propped against the end part of the central shaft of the roller are arranged on both sides of the conveying support (7-2); one of the two rollers is a motorized roller.

12. The linear sorting machine based on partial rotation according to claim 1, characterized in that: the device also comprises a weighing and code scanning device (3); the weighing and code scanning device (3) is positioned at the input end of the conveying and sorting device (4); the weighing and code scanning device (3) comprises a transition conveyor (3-1), a weighing sensor, a code scanning bracket (3-2) and a bar code identification module; the transition conveyor (3-1) is arranged on the frame (1) through one or more weighing sensors; the code scanning support (3-2) is arranged at the output end of the transition conveyor (3-1); a bar code recognition module is arranged on the code scanning bracket (3-2).

13. The linear sorting machine based on partial rotation according to claim 1, characterized in that: the temporary storage and packaging device (2); the temporary storage upper package device (2) is arranged at the input end of the conveying and sorting device (4); the temporary storage and package feeding device (2) comprises a package feeding conveyor (2-1) and a temporary storage hopper (2-2); the upper bag conveyor (2-1) adopts a belt conveyor; the conveying surface of the belt conveyor is obliquely arranged, and goods are obliquely and upwards conveyed to the input end of the rack (1); the temporary storage hopper (2-2) surrounds the other edges of the upper wrapping conveyor (2-1) except the output end.

14. The linear sorting machine based on partial rotation according to claim 1, characterized in that: also comprises a blanking table (5); the two blanking tables (5) are respectively arranged at two sides of the conveying and sorting device (4); n blanking ports which are sequentially arranged along the length direction of the conveying and sorting device (4) are arranged on the two blanking tables (5); the n blanking ports on one blanking table (5) correspond to the n rotary sorting units respectively.

15. The linear sorter based on partial rotation of claim 14 wherein: each feed opening is provided with a bag opening frame (5-2) and a bag collecting bag; the bag collecting bag is arranged on the bag opening frame (5-2); the bag opening frame (5-2) adopts a drawing bag opening frame.

16. The linear sorter based on partial rotation of claim 14 wherein: an abnormal parcel collecting bag is arranged at the tail end of the rack (1); each feed opening department all is provided with full bag and detects sensor and pilot lamp.

Images