CN110782206A - Distribution method and distribution system based on Internet of things - Google Patents

Abstract

The invention relates to a distribution method and a distribution system based on the Internet of things, wherein the distribution method comprises the following steps: acquiring a service order; reading the article information, the unit information, the floor information and the time information of the service order; packing the articles according to the service order requirement and sequentially placing the articles in each unit in mutually independent cells in the same transport box; transporting the transport box to the upper part of the unit corresponding to the transport box; and sequentially distributing the articles in the transport boxes to the floors corresponding to the articles. The distribution system comprises a distribution warehouse arranged on the roof of the building, an order processing system, a transverse transportation system used for transporting the articles in the distribution warehouse to the corresponding units, a longitudinal transportation system used for transporting the articles to the corresponding floors, and an independent article receiving device arranged on the outer wall body of the floors and used for receiving the articles transported by the longitudinal transportation system. The invention has the characteristics of low distribution cost and high distribution efficiency.

Description

Distribution method and distribution system based on Internet of things

Technical Field

The invention relates to the technical field of intelligent distribution, in particular to a distribution method and a distribution system based on the Internet of things.

Background

The urban population mostly lives in high-rise buildings, and particularly, the tendency is more and more obvious when the urbanization rate is continuously increased in recent years. The high-density living environment brings high-efficiency resource utilization rate, but at present, the life rhythm of cities is fast, people return early and late, a lot of times of eating can be solved only by taking out and fast food, and although the problems can be solved to a certain extent by the foods, the foods have the problems of single taste, high oil content, high salt content and the like.

At present, some solutions to the problem exist, such as fresh delivery and the like, but these delivery methods require a large number of hands and sign for receipt on the face, so that not only is the purchase cost too high, but also the delivery methods can only be purchased by people at home, and a certain hysteresis exists.

The internet of things means that the ubiquitous connection of objects and people can be realized through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors, laser scanners and the like, and the intelligent sensing, identification and management of the objects and the processes are realized. With the continuous maturity of the technology of the internet of things, the application scenes of the internet of things are also continuously enriched. In the life field, if a real-time distribution system can be constructed through the Internet of things, people can order vegetables, fruits, meat, eggs, milk and the like at home and then directly deliver goods to home, the purchase time after work can be saved, and the problem that the market is closed at night and cannot be purchased can be solved.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the distribution method based on the Internet of things, which can reduce the distribution cost and improve the distribution efficiency.

The second invention aims to provide an emergency distribution method based on the internet of things, which can quickly deliver articles required by a user to the hand of the user.

A third object of the present invention is to provide a distribution system for implementing the distribution method.

The first purpose of the invention is realized by the following technical scheme:

a distribution method based on the Internet of things comprises the following steps:

acquiring a service order;

reading the article information, the unit information, the floor information and the time information of the service order;

the distribution warehouse packs the articles according to the order requirement and sequentially places the articles in each unit in the cells in the same transport box;

transporting the transport box over its corresponding dwelling unit;

the articles in the transport boxes are sequentially delivered to the houses corresponding to the articles.

By adopting the technical scheme, the distribution method is applied to urban high-rise building residential areas, the distribution warehouse and the horizontal distribution system are both built on the roof, the longitudinal distribution system is built on the outer wall of the building, the horizontal distribution system sends the articles to each unit, and the longitudinal distribution system sends the articles to residents on each floor. The method comprises the following steps that a resident places an order on intelligent equipment such as a mobile phone and a tablet, a distribution warehouse is packed according to order requirements, then the order is placed in cells in the same transport case in sequence, and finally the order is transported to a corresponding residence. The distribution mode can select the type of the goods, the distribution time and the distribution position, and the order form is flexible. All orders are uniformly packaged by the distribution warehouse and then are delivered in batches according to positions and time, so that distribution of a plurality of orders can be realized in a single distribution process, and the distribution cost is lower. And the delivery of all orders is delivered by using a transport box, manual delivery is not needed, delivery can be carried out at any time, more delivery requirements can be met, and the method is particularly suitable for delivering food and the like after office workers go home at night.

The invention is further configured to: the service orders are first sorted according to unit information and then sorted in chronological order.

Through adopting above-mentioned technical scheme, classify the back according to building number and unit, can place article order in the cell of transport case, like this at the in-process of delivery, the delivery case moves forward all the time, need not backward movement, can effectively improve delivery efficiency.

The invention is further configured to: in the single delivery process, the number of the orders is less than or equal to the number of the cells in the transport box.

Through adopting above-mentioned technical scheme, when order quantity in the uniform time is great, use the mode of delivery many times to carry out the delivery, can not block the removal of other transport cases like this, can improve holistic delivery efficiency.

The invention is further configured to: the number of the transport boxes is more than two.

By adopting the technical scheme, each transport box corresponds to one unit, so that the longest time of each unit can be limited within a determined range in the transport process, a plurality of distribution vehicles can be simultaneously transported on the same track, and the distribution efficiency is higher.

The invention is further configured to: the plurality of transport boxes are arranged according to the unit information sequence corresponding to the articles in the transport boxes.

By adopting the technical scheme, the plurality of articles in the single transport box are delivered in sequence, so that the transport box only needs to move forwards when the articles are arranged in sequence, and the articles can be delivered to the hands of the residents as quickly as possible within a limited time.

The invention is further configured to: the transport containers are moved above the corresponding dwelling units and separated from the vehicle head or transport container to which they are connected.

By adopting the technical scheme, each transport box corresponds to one unit, and after the transport box is transported to a specified position, the transport box and the transport box can continuously move forwards, so that high-efficiency distribution is realized.

The second purpose of the invention is realized by the following technical scheme:

an emergency distribution method based on the Internet of things comprises the following steps:

acquiring an emergency service order;

emptying the head and the transport box of the transport rail in work;

reading the article information, the unit information and the floor information of the service order;

packing the articles according to the order requirement and placing the articles in the cells in the transport case;

transporting the transport box over its corresponding dwelling unit;

and sending the articles in the transport box to the house corresponding to the articles.

By adopting the technical scheme, when residents need first-aid medicines and the like, the first-aid medicines can be preferentially delivered, the time for going to and going to a downstairs pharmacy for purchasing is avoided, patients can take the medicines in the shortest possible time, and the situations of rescue failure and the like caused by insufficient rescue time are avoided.

The third invention purpose of the invention is realized by the following technical scheme:

an internet of things based delivery system comprising:

a delivery warehouse provided on a roof of the building for storing articles;

the order processing system is used for processing the received service order and the emergency service order;

a lateral transport system for transporting the items within the delivery warehouse to the corresponding units;

a longitudinal transport system for transporting the items to the corresponding floors;

and the independent receiving device is arranged on the outer wall body of the floor and is used for receiving the articles conveyed by the longitudinal conveying system.

Through adopting above-mentioned technical scheme, the delivery warehouse construction of storage article can not occupy the interior preferential space of district on the roof, and horizontal conveyor system and vertical conveyor system build on the roof and the outer wall of building equally, can make full use of current space. For the residents, the distributed objects can be directly placed in the independent receiving device which is positioned on the outer wall body, and the existence of people in the house does not need to be considered, so that all-weather distribution can be realized. In terms of time, the goods are directly sent out from a distribution warehouse on the roof, and the distribution time is very short. The distribution mode is similar to the existing manual distribution mode in distribution selection time, route consumption time and distribution cost, and can realize real unmanned distribution and 24-hour distribution.

The invention is further configured to: and both ends of the transverse transportation system are provided with distribution warehouses.

By adopting the technical scheme, the transverse distribution system can perform reciprocating distribution between the two distribution warehouses, the problem of empty running is avoided, the distribution time can be further shortened, and the distribution efficiency is improved.

In conclusion, the beneficial technical effects of the invention are as follows:

the distribution method is applied to the residential areas of high-rise buildings in cities, a distribution warehouse and a horizontal distribution system are built on the top of a building, a longitudinal distribution system is built on the outer wall of the building, the horizontal distribution system delivers the objects to each unit, and the longitudinal distribution system delivers the objects to residents required by each floor. The method comprises the following steps that a resident places an order on intelligent equipment such as a mobile phone and a tablet, a distribution warehouse is packed according to order requirements, then the order is placed in cells in the same transport case in sequence, and finally the order is transported to a corresponding residence. The distribution mode can select the type of the goods, the distribution time and the distribution position, and the order form is more flexible. All orders are uniformly packaged by the distribution warehouse and then are delivered in batches according to positions and time, so that distribution of a plurality of orders can be realized in a single distribution process, and the distribution cost is lower. And the delivery of all orders is delivered by using a transport box without manual delivery, so that the orders can be delivered at any time, more delivery requirements can be met, and the delivery system is particularly suitable for the delivery requirements of office workers on food and the like after going home at night.

Drawings

Fig. 1 is a flow chart of a distribution method according to an embodiment of the present invention.

Fig. 2 is a schematic processing diagram for order processing according to an embodiment of the present invention.

Fig. 3 is a flow chart of an emergency distribution method according to an embodiment of the present invention.

Fig. 4 is a block diagram of a distribution system according to an embodiment of the present invention.

In the figure: 1. a distribution warehouse 2, an order processing system 3, a transverse transportation system 4, a longitudinal transportation system 5 and an independent receiving device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

For clarity of description of the method, its environment of use and delivery system are described below.

The method is used for delivering articles of a high-rise building, the articles to be delivered are vegetables, fruits, meat, eggs, milk, small-volume living goods and the like, a delivery warehouse 1 is built on the top layer of the building, the delivery system comprises a transverse delivery system, a longitudinal delivery system, a delivery box, a vehicle head and the like, the transverse delivery system is mounted on the roof of the building and is responsible for delivering the articles in the delivery warehouse 1 to each unit, the longitudinal delivery system is responsible for delivering the articles to a required resident, the delivery box is connected to the vehicle head and can move on the transverse delivery system under the pulling of the vehicle head, and a cavity is formed in the delivery box and is used for containing the articles to be delivered.

A resident in the building sends a delivery request to a background through equipment such as a mobile phone and a flat panel, a delivery warehouse 1 completes split charging according to an order, and then articles are delivered to the resident through a transverse delivery system and a longitudinal delivery system.

Referring to fig. 1, a distribution method based on the internet of things disclosed in the embodiment of the present invention includes the following steps:

s101, obtaining a service order.

S102, reading the article information, the unit information, the floor information and the time information of the service order.

The two steps are that the distribution warehouse 1 obtains a service order sent by a resident to the background, the service order comprises article information, unit information, floor information, time information and the like, the article information corresponds to the requirement of the resident, the unit information is the position of the resident, and one vertical distribution can only distribute one unit, so that a specific vertical distribution system needs to be selected according to the unit information. Considering that the number of units is repeated in the actual use environment, a mapping table needs to be built in the background, 101 of the building with the number 1 corresponds to the unit 1, 102 corresponds to the unit two, the resident directly inputs the building number and the actual house number of each resident, and then the background automatically gives the corresponding unit number in the system according to the information and the mapping table. The floor information shows which floor the resident is on, the vertical distribution system directly distributes the item to the floor, and the resident can obtain the item without going out. The time information is delivery time selected by the resident, and the delivery warehouse delivers the packaged time.

S103, packing the articles according to the order requirement and sequentially placing the articles in each unit in the cells in the same transport case.

This step is primarily used to place items in the order in the cells within the shipping box in preparation for subsequent delivery.

And S104, conveying the transport box to the upper part of the corresponding residential unit.

In this step, the transport box filled with goods is moved to above the corresponding dwelling unit to start preparation for distribution.

In one embodiment, the number of the transport boxes is more than two, so that the distribution amount of single transport can be increased, the order processing time is reduced, and the articles can be delivered to the hands of the residents as quickly as possible. On the other hand, articles needed in the same unit can be placed in each transport box, so that the residence time of the transport boxes in each unit is equal, multiple groups of transport boxes can be operated on the whole transverse distribution system at the same time, the multiple groups of transport boxes are distributed at the same time, and the distribution efficiency is higher.

In one embodiment, the articles in the transport boxes are arranged according to the corresponding unit information sequence, namely, the articles do not need to be reversed on the advancing route of the transport boxes, and the articles in the articles are sequentially sent to each resident by the longitudinal distribution system in the advancing process, so that the distribution efficiency is higher.

In one embodiment, the transport box is moved over the corresponding dwelling unit, separate from the head or transport box to which it is attached. After each transport box moves to the position, the longitudinal distribution system corresponding to the position starts to distribute, other transport boxes continue to move forward, and the transport boxes are not interfered with each other.

And S105, sequentially sending the articles in the transport boxes to the corresponding houses.

In which the vertical dispensing system delivers each item in sequence to the desired household.

In order to shorten the delivery time and improve the delivery efficiency, the service orders are sorted according to the unit information, the unit numbers in the sorting process are sorted according to the unit numbers in the mapping table, and an order base is introduced at the moment and is used for storing the order information in each unit and sorting according to the delivery time sequence. And automatically entering the newly entered orders into the corresponding order library according to the front and back sequence for sorting, and waiting for the start of the distribution process.

In one embodiment, the number of orders is less than or equal to the number of cells in the shipping container during a single shipment. Referring to fig. 2, the orders in the order stores are processed in a time sequence, and based on the delivery times, for example, during normal working hours, the single delivery time is generally once in half an hour or once in an hour, and the delivery amount per unit is 5 each time, then under the delivery condition, the number of the orders processed in each order store is 5, the number in the order store is regarded as empty, and the order with the larger number in the order store is delayed. The order sequence within the same delivery time period is based on the time received by the order receiving system 2.

Referring to fig. 3, an emergency distribution method based on the internet of things is disclosed in an embodiment of the present invention, and the emergency distribution method mainly addresses the needs of emergency situations, such as emergency medicines and articles urgently needed at home, but encounters the problems of insufficient time for outdoor purchase, closing of a pharmacy at night, or too far distance of a business place, and the like. When the situation is met, the resident places an order through the mobile phone, and the specific steps are as follows:

s201, acquiring an emergency service order;

s202, emptying the head and the transport box of the transport rail in work;

s203, reading the article information, the unit information and the floor information of the service order;

s204, packing the articles according to the order requirement and placing the articles in the cells in the transport case;

s205, transporting the transport box to the upper part of the corresponding residential unit;

and S206, delivering the articles in the transport box to the corresponding house.

According to the method, after an emergency service order is obtained in a background, a vehicle head and a transport box which work on a transport track are directly cleaned, then independent distribution work is carried out on the order, and the emergency service order has no time information and is directly processed after being received.

In one embodiment, for a malicious emergency order, necessary limiting measures are required to be matched to avoid that some people directly use the emergency order to get the item as soon as possible, the limiting measures mainly limit the range of the emergency item, for example, the range of the emergency item is defined as a medicine, so that the range of the medicine needs to be limited besides that the resident can only select the medicine range after selecting the emergency order, the emergency order can only be used for sudden diseases, and other conventional medicines such as cold medicines are not in the range.

Referring to fig. 3, a distribution system based on the internet of things disclosed in the embodiment of the present invention mainly includes a distribution warehouse 1, an order processing system 2, a transverse transportation system 3, a longitudinal transportation system 4, and an independent receiving device 5.

The warehouse is built on the roof of a building, and the space of the roof is directly utilized, so that enough space can be ensured, and very limited space in a community can not be occupied. The storage articles in the warehouse are daily small articles for daily use and food, and do not store articles with heavy weight and large volume, so that the distribution is inconvenient, the demand is low, the turnover time is long, and the limited storage space of the distribution warehouse 1 can be occupied.

For the stored articles in the warehouse, along with the increase of the number of orders, the adjustment can be carried out according to the order information, a large amount of consumed articles are reserved, a small amount of consumed articles are reserved, the dynamic adjustment is realized, the operation cost is reduced as far as possible, and the space utilization rate is improved.

To the ex-warehouse problem of article, articles for daily use uses a piece as the unit, and food etc. all need the partial shipment intact, uses a piece as the unit, only goes out the warehouse in the distribution warehouse 1, does not have the secondary packing process for improve the efficiency of going out the warehouse.

The order processing system 2 is used for receiving orders sent by residents, classifying the orders according to information such as units, articles, time and the like, and then sending the orders to the distribution warehouse 1 for processing.

The transverse transport system 3 mainly serves to transport the articles to be delivered from the delivery warehouse 1 to each unit, and in one embodiment, the transverse transport system 3 mainly comprises a transverse rail mounted on the roof of a building, a transverse transport trolley, a transport box and the like, and the transverse transport trolley and the transport box run back and forth on the rail.

Each transport case is internally provided with a plurality of transport grids, each transport grid is provided with a cover, and in the process of distribution, the covers are opened to place the articles in the same order in the same transport grid. The bottom surface of the transportation grid is an electric drawing plate, after the transportation box moves to a designated position, the electric drawing plate is drawn open, and the articles in the grid fall onto the longitudinal transportation system 4.

The longitudinal transport system 4 is used for conveying the articles received from the transverse transport system 3 to the corresponding household. One transverse transportation system 3 corresponds to a plurality of longitudinal transportation systems 4, and the whole building is covered completely.

In one embodiment, the longitudinal transportation system 4 is mainly composed of a longitudinal rail installed on the outer wall of the building, a longitudinal transportation vehicle installed on the longitudinal rail, and a distribution box installed on the longitudinal transportation vehicle. During distribution, the articles in the transportation grids sequentially drop into the distribution boxes on the longitudinal transportation trolley, and then are transported to the designated residents by the longitudinal transportation trolley.

In one embodiment, the longitudinal rail is positioned right below the transverse rail, and a through hole is formed in the transverse rail arranged on the longitudinal rail, and articles in the transportation grids fall into the distribution box on the longitudinal transportation trolley through the through hole. In another embodiment, in order to ensure that the articles can accurately fall into the distribution boxes on the longitudinal transport trolley, a closed channel can be arranged at the through hole on the transverse track, the upper end of the channel is communicated with the through hole on the transverse track, and the lower end of the channel is an open end and is smaller than the inner size of the distribution boxes on the longitudinal transport trolley, so that the lower end of the channel can be directly inserted into the distribution boxes on the longitudinal transport trolley in the article transferring process.

The independent receiving device 5 is installed on the outer wall of each household and needs to be located right below a window, the independent receiving device 5 is used for directly receiving articles transferred from a distribution box on the longitudinal transport trolley, so that the articles can be distributed under the condition that no person is at home, and the distribution efficiency is higher.

In one embodiment, the separate receiving means 5 is a box fixed to the outer wall of the building, which box has no top surface. Correspondingly, the bottom surface of the distribution box on the longitudinal transport trolley is an inclined plane, an electric flashboard is arranged on the side surface of the distribution box, after the distribution box moves to a specified position, the electric flashboard is opened, and articles in the distribution box slide into the box on the outer wall of the building.

In order to further improve the distribution efficiency, in one embodiment, the distribution warehouses 1 are arranged at two ends of the transverse transportation system 3, so that the transverse transportation trolley and the transportation box can run back and forth on the transverse rail, and the problem of empty trolley return in unidirectional distribution is avoided.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. A distribution method based on the Internet of things is characterized by comprising the following steps:

acquiring a service order;

reading the article information, the unit information, the floor information and the time information of the service order;

packing the articles according to the service order requirement and sequentially placing the articles in each unit in mutually independent cells in the same transport box;

transporting the transport box to the upper part of the unit corresponding to the transport box;

and sequentially distributing the articles in the transport boxes to the floors corresponding to the articles.

2. The internet of things-based distribution method according to claim 1, wherein: the service orders are first sorted according to unit information and then sorted in chronological order.

3. The internet of things-based distribution method according to claim 1 or 2, wherein: the number of the transport boxes is more than two.

4. The internet of things-based distribution method according to claim 3, wherein: in the single conveying process, the order processing quantity corresponding to each transport box is less than or equal to the quantity of the cells in the transport box.

5. The internet of things-based distribution method according to claim 4, wherein: the plurality of transport boxes are arranged according to the unit information sequence corresponding to the articles in the transport boxes.

6. The distribution method based on the internet of things according to claim 5, wherein: when the transport case moves above the corresponding dwelling unit, the transport case is separated from the vehicle head or the transport case connected with the transport case.

7. An emergency distribution method based on the Internet of things is characterized by comprising the following steps:

acquiring an emergency service order;

emptying the head and the transport box of the transport rail in work;

reading the article information, the unit information and the floor information of the service order;

packing the articles according to the order requirement and placing the articles in the cells in the transport case;

transporting the transport box over its corresponding dwelling unit;

and conveying the articles in the transport box to the corresponding floors.

8. A delivery system based on the Internet of things is characterized by comprising:

a delivery warehouse provided on a roof of the building for storing articles;

the order processing system is used for processing the received service order and the emergency service order;

a lateral transport system for transporting the items within the delivery warehouse to the corresponding units;

a longitudinal transport system for transporting the items to the corresponding floors;

and the independent receiving device is arranged on the outer wall body of the floor and is used for receiving the articles conveyed by the longitudinal conveying system.

9. The internet of things-based delivery system according to claim 8, wherein: and both ends of the transverse transportation system are provided with distribution warehouses.

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