CN211392817U - Small order goods suspension chain ex-warehouse transportation system - Google Patents

Abstract

The utility model relates to a little order goods hangs chain delivery conveyor system, the utility model discloses a tear apart district goods shelves, hang the chain and throw the unwrapping wire, hang chain transport bus, hang chain allocation return current, hang chain discharge transfer chain and hang chain container bag recovery line, hang chain drop line and be used for utilizing hang chain container bag to deposit the goods of selecting from tear apart district goods shelves, hang chain allocation return current and be used for carrying hang chain container bag to hang chain discharge transfer chain, hang chain discharge transfer chain and be used for receiving hang chain container bag that hang chain allocation return current carried over, and carry the empty hang chain container bag after unloading to hang chain container bag recovery line; hang chain container bag and retrieve line and be used for throwing the unwrapping wire with the empty chain of hanging container bag of hanging to hanging, the utility model discloses can effectively avoid the goods that little order goods and other goods mix the warehouse-out and cause to omit, directly carry out the loading by the loading personnel in the loading link of warehouse-out, avoid the secondary to choose the goods action.

Description

Small order goods suspension chain ex-warehouse transportation system

Technical Field

The utility model belongs to commodity circulation transportation field, in particular to little order goods hangs chain shipment system of leaving warehouse.

Background

With diversification of medicine retail channels and diversification and individuation of terminal customer requirements of hospitals, small clinics, retail large pharmacies, e-commerce and the like, the single medicine sales order form shows a trend of being smaller and more in quantity, and the sorting workload of the zero-cargo small medicine order in the medicine logistics center is increased day by day. In the future, in a medical e-commerce sales mode directly oriented to terminal retail, the zero small order medicine sorting amount of a logistics center is larger, the variety and specification are more, and the frequency is higher. Therefore, how to improve the work efficiency of drug sorting of the small orders in the retail area of the pharmaceutical logistics center needs to develop a more reasonable optimization solution for processing.

In the existing medicine logistics center, a picking person in a zero area requests a large and small order form medicine picking task through a tablet personal computer arranged on a picking trolley, the picking trolley with a plurality of empty cases is pushed to travel to a corresponding zero order medicine storage shelf after the picking task is requested, relevant information such as the variety, the specification, the quantity, the production lot number and the like of the picked medicine is sequentially checked according to the content prompt of each order form in an inventory management system arranged on the tablet personal computer, the corresponding large and small order form medicine is sequentially selected from the zero order shelf and put into the plurality of zero order cases on the picking trolley after the check is correct, one order form medicine is stored in each zero order case, the completion of the picking task is sequentially confirmed in the inventory management system after the large and small order form medicine is completed, then the picking person pushes the picking trolley to a zero order drum conveying line for box throwing operation, the bin is conveyed to a rechecking area through a roller conveying line, a climbing belt conveying line and a rechecking sorting line, rechecking operators ask for a rechecking and packaging task through a computer inventory management system on a rechecking workbench, the bin is distributed to a corresponding rechecking workbench through the rechecking sorting line after the task is asked for completion, the rechecking operators open the corresponding bin, the order information in the inventory management system is used for sequentially checking related information such as the variety, the specification, the quantity, the production lot number and the like of the drugs in the bin, a plurality of large drug orders of the same customer are placed in one carton for packaging after the check is correct, a small-order drug is placed in a plastic bag and printed out of the plastic bag to be pasted on the plastic bag after the packaging is completed, if a single drug order is a small order, the operators count and recheck the correct order, and then placing the plastic bag filled with the small-order medicines into an empty bin until the empty bin is filled with the small-order medicine plastic bag, and after the bin is fully loaded, rechecking the operation personnel to put the bin onto a delivery belt conveying line for delivery. The bin passes through a series of delivery sorting lines and then is distributed to a delivery slideway, and then the small-order drug bin is conveyed to a small-order drug shelf storage position by a cargo collection worker to be temporarily stored and waiting for loading. After the delivery loading starts, the rear loading operation personnel print delivery loading orders in the computer inventory management system and walk to the storage position of the small-order medicine shelf, the hand-held computer terminal sequentially scans and checks the labels of the plastic bags in the small-order material boxes on the shelf and matches the delivery loading orders to complete secondary sorting delivery, then the small-order medicine plastic bags are sequentially loaded in the pre-distributed distribution direction, and the delivery operation of the small-order medicines is completed. Empty material boxes which are empty after loading are carried to a zero goods sorting area by goods collecting personnel in a centralized mode through an elevator for recycling.

In the above-mentioned zero-order picking process, two different types of medicine orders, namely a larger type of medicine order and a smaller type of medicine order, generally appear due to the difference of customer's demands, each order medicine needs to use a bin alone to store the medicine, and when the larger type of order medicine appears, the zero-order picking operator picks the corresponding zero-order medicine on the goods shelf in the zero-order area and puts the zero-order medicine into the bin. When a small order medicine type appears, the zero-order picking operator repeats the picking action, but because the order type is small, the quantity of medicines in the order is relatively small, sometimes an extreme phenomenon that only one box of medicines in a single small order is put into a bin occurs, the space of a single bin is in a relatively no-load state at the moment, and the space utilization rate is extremely unsatisfactory. After the sorting of the zero-order medicines is completed, the bins filled with the large and small order zero-order medicines are thrown to a zero-order conveying line by a zero-order sorting operator and conveyed to a rechecking operation area. In the process, if the proportion of the small order zero-cargo medicine material boxes is too large, the large flow pressure is brought to the zero-cargo conveying line, and finally the conveying efficiency is limited. After the large and small order boxes are distributed to the rechecking work slide ways through the rechecking sorting line, since only a fixed number of order boxes can be stored on each rechecking slide way, the small order boxes can occupy a large number of positions of the rechecking slide ways, so that other types of orders cannot be distributed to the rechecking slide ways, and the rechecking and packaging work efficiency of rechecking operators is affected. When a plurality of small-order medicines are put into the box after being packaged by plastic bags, the small-order medicine boxes reach the delivery slide way through a series of conveying and sorting lines to wait for secondary sorting, the goods collecting personnel convey the small-order medicine boxes to the corresponding small-order medicine storage racks, and then the small-order medicines in the boxes are sequentially placed to the corresponding goods positions on the storage racks according to the distribution direction to complete secondary sorting. In the process, the goods collecting operator needs to convey the small-order medicine box to the small-order shelf storage place for temporary storage and scan and recheck the corresponding plastic bag small-order medicine information by using the handheld computer terminal, so that the carrying workload of the goods collecting operator is large, and meanwhile, the small-order medicine is equivalently sorted and rechecked again in the rechecking and storing process, and the operation procedures are increased. In the delivery and loading link, because the quantity of small-order medicines is small and the package of plastic bags is small, the delivery error caused by the omission of part of small-order medicines is easy to occur under the condition that the number of small-order medicines is extremely large.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a small order goods hangs chain shipment system that leaves warehouse is provided.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

a small order goods suspension chain ex-warehouse transportation system comprises a zero-removal area goods shelf, a suspension chain throwing and paying-off line, a suspension chain conveying bus, a suspension chain distribution return line, a suspension chain unloading conveying line and a suspension chain container bag recovery line, wherein the zero-removal area goods shelf is used for storing the zero goods for being selected out of the warehouse, a plurality of empty suspension chain container bags are arranged on the suspension chain throwing line and used for storing goods selected from the zero-removal area goods shelf, the suspension chain throwing and paying-off line is connected with the suspension chain conveying bus, the suspension chain conveying bus is connected with the suspension chain distribution return line and used for conveying the suspension chain container bags to the suspension chain distribution return line from the suspension chain throwing and paying-off line, the suspension chain distribution return line is used for conveying the suspension chain container bags to the suspension chain unloading conveying line, the suspension chain unloading conveying line is located at a container bag unloading position and used for receiving the suspension chain container bags conveyed by the suspension chain distribution return line, conveying the unloaded empty suspension chain container bags to a suspension chain container bag recovery line; and the suspension chain container bag recovery line is connected with the suspension chain throwing line and is used for conveying the empty suspension chain container bag to the suspension chain throwing line.

Further, still include the dolly main part, be provided with many check workbins in the dolly main part.

Further, a radio frequency chip is arranged on the suspension chain container bag, and the type of the radio frequency chip is CMTA.

Further, the hanging chain throwing line, the hanging chain conveying bus, the hanging chain distributing return line, the hanging chain unloading conveying line and the hanging chain container bag recycling line are all chain transmission mechanisms, and the hanging chain container bags are detachably mounted on chains of the chain transmission mechanisms.

Further, the suspension chain container bag is hung on a chain of the chain transmission mechanism through a hook.

The utility model has the advantages that:

1. the utility model discloses in use many check workbins to replace original single check workbin to carry out the small order goods and deposit, avoided a workbin to only deposit the extravagant phenomenon in space of a small order goods, improved workbin availability factor, reduced the workbin quantity that the order goods produced at the in-process of leaving warehouse, very big flow pressure that has alleviateed the central transfer chain of commodity circulation has improved the whole efficiency of leaving warehouse in commodity circulation center.

2. The utility model discloses in use to hang chain transfer chain and carry and select the small order goods of assigning to the customer alone, can effectively avoid the mixed goods that leads to the fact of leaving warehouse of small order goods and other types order goods to omit the risk, simultaneously in the loading link of leaving warehouse directly take out the small order goods by the loading personnel and carry out the loading in hanging chain container bag, the secondary action of choosing at the district of leaving warehouse has been avoided, the loading personnel only need to take out the small order goods and can carry out the loading operation after simple rechecking from hanging chain container, select from zero goods and carry out the sorting of warehouse loading link in whole by hanging chain equipment and replacing collection cargo personnel and carrying out the secondary letter sorting, it replaces small order goods shelves to keep in to hang chain transfer chain temporary storage, and can circulate and keep in the transportation, the operation personnel walking distance has been reduced and collection cargo personnel secondary letter sorting operation, the container bag is retrieved to the repeated unwrapping line of hanging chain delivery department of hanging chain that hangs by hanging chain container bag after the task completion simultaneously, it is Use, saved and retrieved the transport process with the workbin manual work, improved logistics center degree of automation.

Drawings

Fig. 1 and fig. 2 are schematic views of the local structure of the present invention.

1. Disassembling a goods shelf in a zero area; 2. throwing and paying off a suspension chain; 3. a suspension chain conveying bus; 4. hanging a chain distribution return line; 5. a suspension chain discharge conveyor line; 6. suspension chain container bag recovery line

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "clockwise", "counterclockwise" and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 and 2, a small order goods suspension chain delivery transportation system comprises a part-dismantling area shelf 1, a suspension chain throwing and releasing line 2, a suspension chain conveying bus 3, a suspension chain distribution return line 4, a suspension chain unloading conveying line 5 and a suspension chain container bag recovery line 6, wherein the part-dismantling area shelf 1 is used for storing the small order goods for being picked out of the warehouse, a plurality of empty suspension chain container bags are arranged on the suspension chain throwing and releasing line 2 and used for storing goods picked from the part-dismantling area shelf 1, the suspension chain throwing and releasing line 2 is connected with the suspension chain conveying bus 3, the suspension chain conveying bus 3 is connected with the suspension chain distribution return line 4 and used for conveying the suspension chain container bags from the suspension chain throwing and releasing line 2 to the suspension chain distribution return line 4, the suspension chain distribution return line 4 is used for conveying the suspension chain container bags to the suspension chain unloading return line 5, the suspension chain unloading conveying line 5 is positioned at the container bag unloading position and is used for receiving the suspension chain container bags conveyed by the suspension chain distribution return line 4 and conveying the unloaded empty suspension chain container bags to the suspension chain container bag recovery line 6; the suspension chain container bag recovery line 6 is connected with the suspension chain throwing line 2 and is used for conveying the empty suspension chain container bag to the suspension chain throwing line 2.

As an implementation mode, the trolley further comprises a trolley main body, and a multi-grid material box is arranged on the trolley main body.

As an implementation mode, a radio frequency chip is arranged on the suspension chain container bag, and the model of the radio frequency chip is CMT 2300A.

As an implementation mode, the hanging chain throwing line 2, the hanging chain conveying bus 3, the hanging chain distribution return line 4, the hanging chain unloading conveying line 5 and the hanging chain container bag recycling line 6 are all chain transmission mechanisms, and the hanging chain container bags are detachably mounted on chains of the chain transmission mechanisms.

In one embodiment, the suspension chain container bag is hung on a chain of a chain transmission mechanism through a hook.

The utility model discloses include following step during specific operation:

step 1, a picking person in a zero cargo area requests a small-order medicine task on a tablet personal computer on a zero cargo picking trolley through an inventory management system, after the task is requested to be finished, the picking person pushes the picking trolley to walk to a corresponding goods shelf in a zero-removal area to pick the medicines in the task order, after the medicines are picked, after a rechecking interface of the inventory management system rechecks the medicines, a paper delivery label is clicked to confirm and printed, then the picking person loads the small-order medicines into plastic bags and pastes the delivery label, after the label is pasted, the plastic bags filled with the medicines are placed into material boxes separated by a partition plate, the single small-order picking task is finished, each picking trolley is provided with 4 material boxes, each material box is separated into 4 grids by the partition plate, and the picking person repeats the actions until 16 small-order medicine picking tasks are finished, so that 4 material boxes are fully loaded;

step 2, after the picking task is completed, the operator pushes the picking trolley to travel to a throwing point of suspension chain conveying equipment, the picking personnel holds a wireless scanning gun to scan a container bag label hung on a suspension chain, simultaneously scans a plastic bag delivery paper label in a material box, completes the task binding of a suspension chain container bag and a small order delivery medicine plastic bag, determines a loading place distributed by the suspension chain container through the interaction of an inventory management system and a warehouse equipment control system while binding the task, the picking personnel sequentially repeats the actions to complete the task binding and throwing of 16 small order medicine delivery orders, and after the throwing is completed, the picking personnel continues to carry out other small order medicine sorting delivery operation in a zero cargo area;

and 3, arranging a radio frequency chip on the suspension chain container bag, and determining the position of the container bag on the suspension chain conveying line. Conveying the container bags filled with small-order medicines to a delivery area through a suspension chain conveying line, distributing the container bags to corresponding area suspension chain main lines through a suspension chain radio frequency induction system according to a delivery direction, printing the small-order medicine loading list by a loading person to travel to a suspension chain unloading position in advance after the suspension chain container bags reach the corresponding area suspension chain main lines, scanning the loading list through a handheld terminal computer to fetch a small-order medicine delivery task, distributing the corresponding task container bags to the suspension chain unloading position from the area suspension chain main lines through the suspension chain conveying line after the task fetching is completed, taking out the small-order medicine plastic bags in the distributed container bags at the suspension chain unloading position by the loading person, scanning paper delivery labels on the plastic bags through the handheld terminal computer, comparing the delivery label information and the small-order medicine quantity with a loading list core, checking the small-order medicine plastic bags, placing the small-order medicine plastic bags into a vehicle to load the vehicle, completing the small-order medicine ex-warehouse process;

and 4, continuously circulating and refluxing the container bag tasks which are not requested to be taken on the main line of the regional suspension chain until the container bag tasks are requested to be taken by the carloader and then are continuously transferred out of the main line of the suspension chain to reach a suspension chain unloading point, and repeating the rechecking and carloading actions by the carloader. The sorted container bags are returned to the zero cargo area for reuse through the suspension chain empty bag recovery line.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (5)

1. A small order goods suspension chain delivery transportation system is characterized by comprising a zero-splitting area goods shelf (1), a suspension chain throwing and releasing line (2), a suspension chain conveying bus (3), a suspension chain distribution return line (4), a suspension chain unloading conveying line (5) and a suspension chain container bag recovery line (6), wherein the zero-splitting area goods shelf (1) is used for storing zero goods for being picked out of a warehouse, a plurality of empty suspension chain container bags are arranged on the suspension chain throwing and releasing line (2), the empty suspension chain container bags are used for storing goods picked from the zero-splitting area goods shelf (1), the suspension chain throwing and releasing line (2) is connected with the suspension chain conveying bus (3), the suspension chain conveying bus (3) is connected with the suspension chain distribution return line (4) and is used for conveying the suspension chain container bags from the suspension chain throwing and releasing line (2) to the suspension chain distribution return line (4), the suspension chain distribution return line (4) is used for conveying suspension chain container bags to the suspension chain discharge conveying line (5), the suspension chain discharge conveying line (5) is located at a container bag discharge position and is used for receiving the suspension chain container bags conveyed by the suspension chain distribution return line (4) and conveying the unloaded empty suspension chain container bags to a suspension chain container bag recovery line (6); the suspension chain container bag recovery line (6) is connected with the suspension chain throwing line (2) and is used for conveying the empty suspension chain container bag to the suspension chain throwing line (2).

2. The small-order goods drop-off chain ex-warehouse transportation system of claim 1, further comprising a trolley body, wherein a multi-grid bin is disposed on the trolley body.

3. The picket order goods hanging chain ex-warehouse transportation system of claim 1, wherein the hanging chain container bag is provided with a radio frequency chip, and the radio frequency chip is of a model CMT 2300A.

4. The small-order goods suspension chain ex-warehouse transportation system according to claim 1, wherein the suspension chain throwing line (2), the suspension chain conveying bus (3), the suspension chain distribution return line (4), the suspension chain unloading conveying line (5) and the suspension chain container bag recovery line (6) are all chain transmission mechanisms, and the suspension chain container bags are detachably mounted on chains of the chain transmission mechanisms.

5. The small order goods drop chain off-warehouse shipping system of claim 4, wherein the drop chain container bags hang by hooks on the chain of a chain drive mechanism.

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