CN116011933A - Warehouse goods receiving method and device - Google Patents

Abstract

The invention discloses a method and a device for receiving goods in a warehouse, wherein the method comprises the following steps: classifying goods: acquiring a postal code on the goods, and classifying the goods according to the postal code; configuring cargo parameters: weighing to obtain the weight of each cargo, configuring different weight intervals for the cargoes in the same area, and configuring the cost unit price for each weight interval of each area; calculating freight charges: dividing the weight of the goods obtained by weighing into corresponding weight intervals, and multiplying the weight of the goods obtained by weighing by the cost unit price of the corresponding weight intervals to obtain the freight of the goods; receiving goods in a warehouse; the invention aims to provide a method and a device for receiving goods in a warehouse, which reduce the complexity of manual sorting and the labor intensity of workers by sorting the goods according to areas, calculate and obtain the freight rate of the goods by configuring different freight unit prices for the goods in different areas and different weights, improve the freight rate calculation speed of the goods and improve the sorting efficiency of logistics.

Description

Warehouse goods receiving method and device

Technical Field

The invention relates to the technical field of logistics information processing, in particular to a method and a device for receiving goods in a warehouse.

Background

With the increase of the commodity circulation transaction amount, the service capability and the level of the commodity circulation become concerns, and various commodity circulation projects can be effectively processed by expanding the service range, extending the service depth, increasing the service types and applying high-tech means. The existing logistics is required to be manually stacked and classified during transportation, and when cargoes are conveyed to a logistics transfer station, the cargoes are required to be classified again, and the condition that the cargoes are large in quantity and stacked in disorder often occurs, so that the sorting workload of workers is increased, and the sorting efficiency of the workers is also reduced. Meanwhile, the freight is required to be input in a manual mode at a mail sending point, so that the logistics efficiency is not improved.

Disclosure of Invention

The invention aims to provide a method and a device for receiving goods in a warehouse, which reduce the complexity of manual sorting and the labor intensity of workers by classifying the goods according to areas, weigh the weight of the goods by a charging module and match the weight of the goods with the corresponding cost unit price, calculate and obtain the freight of the goods, improve the freight calculation speed of the goods and improve the sorting efficiency of logistics.

To achieve the purpose, the invention adopts the following technical scheme: a method of receiving a warehouse, comprising the steps of:

classifying goods: acquiring a postal code on the goods through the logistics platform system, and classifying the goods by areas according to the areas corresponding to the postal code;

configuring cargo parameters: weighing to obtain the weight of each cargo, configuring different weight intervals for the cargoes in the same area, and configuring the cost unit price for each weight interval of each area;

calculating freight charges: dividing the weight of the goods obtained by weighing into corresponding weight intervals, and multiplying the weight of the goods obtained by weighing by the cost unit price of the corresponding weight intervals to obtain the freight of the goods;

and (5) receiving goods in a warehouse: the warehouse receives the warehouse in a box charging mode or a single goods charging mode.

Preferably, the step of configuring the cargo parameter specifically includes dividing the weight of the cargo in the same area according to different intervals: the first interval is 1-50, the second interval is 51-100, the third interval is 101-500, and the unit is jin; the cost unit price of the first section of each zone is A, the cost unit price of the second section of each zone is A-2, and the cost unit price of the third section of each zone is A-5.

Preferably, in the step of configuring cargo parameters, the weight of each cargo is obtained by weighing and the weight of the cargo is carried out, and the calculation formula f (x) =lifting (x, 1) is set in a 1-carry manner, wherein x is the weight of the cargo obtained by weighing, and 1 is the base of the rounding operation.

Preferably, in the step of calculating freight rate, if the weight x of the freight is in the range of 1-50, freight rate of the freight is x×a; if the weight x of the goods is in the range of 51-100, the freight rate of the goods is x (A-3); when the weight x of the goods is in the range of 101-500, the freight rate of the goods is x (A-5).

Preferably, in the step of sorting the goods, the first two digits of the zip code represent provinces, the first three digits represent postal zones, the first four digits represent counties, and the last two digits represent delivery offices.

An apparatus for receiving goods from a warehouse, the apparatus comprising:

the classification module is used for acquiring the postal codes on the goods through the logistics platform system and classifying the goods according to the areas corresponding to the postal codes;

the configuration module is used for weighing to obtain the weight of each cargo, configuring different weight sections for the cargoes in the same area, and configuring the cost unit price for each weight section of each area;

the charging module is used for dividing the weight of the goods obtained by weighing into corresponding weight intervals, and multiplying the weight of the goods obtained by weighing by the cost unit price of the corresponding weight intervals to obtain the freight of the goods;

and the receiving module is used for receiving the warehouse in a box charging mode or a single cargo charging mode.

Preferably, the configuration module is specifically configured to divide the weight of the cargo according to different intervals in the same area: the first interval is 1-50, the second interval is 51-100, the third interval is 101-500, and the unit is jin; the cost unit price of the first section of each zone is A, the cost unit price of the second section of each zone is A-2, and the cost unit price of the third section of each zone is A-5.

Preferably, the configuration module is specifically configured to weigh each cargo to obtain a weight of the cargo and carry out carry processing on the weight of the cargo, and set a 1 carry way, where a calculation formula is f (x) =lifting (x, 1), where x is the weight of the cargo obtained by weighing, and 1 is a radix for performing rounding operation.

Preferably, the charging module is specifically configured to determine that when the weight x of the cargo is in a range of 1-50, the freight rate of the cargo is x×a; judging that the freight rate of the freight is x (A-3) when the weight x of the freight is in the range of 51-100; when the weight x of the goods is judged to be in the range of 101-500, the freight rate of the goods is x (A-5).

Preferably, the classification module specifically includes that the first two digits of the zip code represent provinces, the first three digits represent the zip zone, the first four digits represent counties, and the last two digits represent delivery offices.

The technical scheme of the invention has the beneficial effects that: the postal code of the goods is utilized to classify the goods in areas, the complexity of sorting is reduced, the freight rate of the goods is obtained by weighing the weight of the goods and calculating the freight rate unit price of the corresponding area, the workload of workers is reduced, the automatic calculation of freight rate of the goods is realized while the goods are sorted, and the sorting efficiency of logistics is improved.

Drawings

FIG. 1 is a schematic diagram of the steps of one embodiment of the present invention.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

Referring to fig. 1, a method for receiving goods in a warehouse includes the following steps:

classifying goods: acquiring a postal code on the goods through the logistics platform system, and classifying the goods by areas according to the areas corresponding to the postal code;

configuring cargo parameters: weighing to obtain the weight of each cargo, configuring different weight intervals for the cargoes in the same area, and configuring the cost unit price for each weight interval of each area;

calculating freight charges: dividing the weight of the goods obtained by weighing into corresponding weight intervals, and multiplying the weight of the goods obtained by weighing by the cost unit price of the corresponding weight intervals to obtain the freight of the goods;

and (5) receiving goods in a warehouse: the warehouse receives the warehouse in a box charging mode or a single goods charging mode.

With the increase of the commodity circulation transaction amount, the service capability and the level of the commodity circulation become concerns, and various commodity circulation projects can be effectively processed by expanding the service range, extending the service depth, increasing the service types and applying high-tech means. The existing logistics is required to be manually stacked and classified during transportation, and when cargoes are conveyed to a logistics transfer station, the cargoes are required to be classified again, and the condition that the cargoes are large in quantity and stacked in disorder often occurs, so that the sorting workload of workers is increased, and the sorting efficiency of the workers is also reduced. Meanwhile, the freight is required to be input in a manual mode at a mail sending point, so that the logistics efficiency is not improved.

According to the invention, the goods are classified by using the postal codes of the goods, the complexity of sorting is reduced, the freight rate of the goods is obtained by weighing the weight of the goods and calculating the freight rate of the corresponding area, the workload of workers is reduced, the automatic calculation of freight rate of the goods is realized while the goods are sorted, and the sorting efficiency of logistics is improved.

Preferably, the step of configuring the cargo parameter specifically includes dividing the weight of the cargo in the same area according to different intervals: the first interval is 1-50, the second interval is 51-100, the third interval is 101-500, and the unit is jin; the cost unit price of the first section of each zone is A, the cost unit price of the second section of each zone is A-2, and the cost unit price of the third section of each zone is A-5.

In this embodiment, the weight of the goods is in the weight range of 1-500 jin, and during actual operation, the weight of the goods can be properly adjusted according to the weight of the transported goods, the weight section of the goods is divided into a plurality of cells, and the end point value of the section can also be adjusted according to the actual situation. In the present invention, when the cargo address is a short distance, the cost unit price in the first zone is 15, the cost unit price in the second zone is 13, and the cost unit price in the third zone is 10.

Preferably, in the step of configuring cargo parameters, the weight of each cargo is obtained by weighing and the weight of the cargo is carried out, and the calculation formula f (x) =lifting (x, 1) is set in a 1-carry manner, wherein x is the weight of the cargo obtained by weighing, and 1 is the base of the rounding operation.

In the carry processing in this embodiment, the carry value is 2 when the weight of the load is 1, for example, 1.5, and the carry value is 2 when the weight is 1.1, when the weight of the load is less than 1. The radix of the carry rounding operation can be adjusted according to practical conditions, and when the radix is set to be 2, the calculated result is added with 2 as long as the decimal point is provided.

Preferably, in the step of calculating freight rate, if the weight x of the freight is in the range of 1-50, freight rate of the freight is x×a; if the weight x of the goods is in the range of 51-100, the freight rate of the goods is x (A-3); when the weight x of the goods is in the range of 101-500, the freight rate of the goods is x (A-5).

When the weight x of the weighed goods is in the corresponding weight interval, carrying out carry processing on the weight x of the goods, substituting the weight x of the goods after carry processing into a corresponding calculation formula, and calculating to obtain the freight of the goods.

Preferably, in the step of sorting the goods, the first two digits of the zip code represent provinces, the first three digits represent postal zones, the first four digits represent counties, and the last two digits represent delivery offices.

And acquiring the postal code of the goods through the logistics platform system, identifying the six-digit numerical value of the postal code, and judging the address of the goods.

An apparatus for receiving goods from a warehouse, the apparatus comprising:

the classification module is used for acquiring the postal codes on the goods through the logistics platform system and classifying the goods according to the areas corresponding to the postal codes;

the configuration module is used for weighing to obtain the weight of each cargo, configuring different weight sections for the cargoes in the same area, and configuring the cost unit price for each weight section of each area;

the charging module is used for dividing the weight of the goods obtained by weighing into corresponding weight intervals, and multiplying the weight of the goods obtained by weighing by the cost unit price of the corresponding weight intervals to obtain the freight of the goods;

and the receiving module is used for receiving the warehouse in a box charging mode or a single cargo charging mode.

The goods are classified according to the areas through the classification module, the complexity of manual sorting is reduced, the labor intensity of workers is reduced, different cost unit prices are configured for the goods in different areas and different weights through the configuration module, the weight of the goods is weighed through the charging module and is matched with the corresponding cost unit price, the freight of the goods is calculated, the freight calculation speed of the goods is improved, and the sorting efficiency of logistics is improved.

Preferably, the configuration module is specifically configured to divide the weight of the cargo according to different intervals in the same area: the first interval is 1-50, the second interval is 51-100, the third interval is 101-500, and the unit is jin; the cost unit price of the first section of each zone is A, the cost unit price of the second section of each zone is A-2, and the cost unit price of the third section of each zone is A-5.

In this embodiment, the weight of the goods is in the weight range of 1-500 jin, and during actual operation, the configuration module can properly adjust according to the weight of the transported goods, divide the weight zone of the goods into a plurality of cells, and the end point value of the zone can also be adjusted according to the actual situation. In the present invention, when the cargo address is a short distance, the cost unit price in the first zone is 15, the cost unit price in the second zone is 13, and the cost unit price in the third zone is 10.

Preferably, the configuration module is specifically configured to weigh each cargo to obtain a weight of the cargo and carry out carry processing on the weight of the cargo, and set a 1 carry way, where a calculation formula is f (x) =lifting (x, 1), where x is the weight of the cargo obtained by weighing, and 1 is a radix for performing rounding operation.

The configuration module adopts a 1-carry mode, when the weight of the goods is less than 1, the goods are rounded up by 1, for example, when the weight is 1.5, the carry value is 2, and when the weight is 1.1, the carry value is 2. The radix of the carry rounding operation can be adjusted according to practical conditions, and when the radix is set to be 2, the calculated result is added with 2 as long as the decimal point is provided.

Preferably, the charging module is specifically configured to determine that when the weight x of the cargo is in a range of 1-50, the freight rate of the cargo is x×a; judging that the freight rate of the freight is x (A-3) when the weight x of the freight is in the range of 51-100; when the weight x of the goods is judged to be in the range of 101-500, the freight rate of the goods is x (A-5).

Preferably, the classification module specifically includes that the first two digits of the zip code represent provinces, the first three digits represent the zip zone, the first four digits represent counties, and the last two digits represent delivery offices.

In the description herein, reference to the term "embodiment," "example," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. A method of receiving a warehouse, comprising the steps of:

classifying goods: acquiring a postal code on the goods through the logistics platform system, and classifying the goods by areas according to the areas corresponding to the postal code;

configuring cargo parameters: weighing to obtain the weight of each cargo, configuring different weight intervals for the cargoes in the same area, and configuring the cost unit price for each weight interval of each area;

calculating freight charges: dividing the weight of the goods obtained by weighing into corresponding weight intervals, and multiplying the weight of the goods obtained by weighing by the cost unit price of the corresponding weight intervals to obtain the freight of the goods;

and (5) receiving goods in a warehouse: the warehouse receives the warehouse in a box charging mode or a single goods charging mode.

2. A method of receiving goods in a warehouse according to claim 1, wherein in the step of configuring the parameters of the goods, the method specifically comprises dividing the weight of the goods in the same area according to different intervals: the first interval is 1-50, the second interval is 51-100, the third interval is 101-500, and the unit is jin; the cost unit price of the first section of each zone is A, the cost unit price of the second section of each zone is A-2, and the cost unit price of the third section of each zone is A-5.

3. A method of receiving goods in a warehouse according to claim 1, wherein in the step of configuring the parameters of the goods, the weight of each good is obtained by weighing and the weight of the good is processed by carrying out a carry, and the formula of f (x) =ceiling (x, 1) is calculated in a 1 carry manner, where x is the weight of the good obtained by weighing and 1 is the base of the rounding operation.

4. A method of receiving goods in a warehouse according to claim 2, wherein in the step of calculating the freight rate, if the weight x of the goods is in the range of 1-50, the freight rate of the goods is x a; if the weight x of the goods is in the range of 51-100, the freight rate of the goods is x (A-3); when the weight x of the goods is in the range of 101-500, the freight rate of the goods is x (A-5).

5. A method of receiving goods from a warehouse as claimed in claim 1 wherein in the step of sorting the goods, the first two digits of the zip code represent provinces, the first three digits represent postal zones, the first four digits represent counties, and the last two digits represent delivery offices.

6. An apparatus for receiving goods in a warehouse, the apparatus comprising:

the classification module is used for acquiring the postal codes on the goods through the logistics platform system and classifying the goods according to the areas corresponding to the postal codes;

the configuration module is used for weighing to obtain the weight of each cargo, configuring different weight sections for the cargoes in the same area, and configuring the cost unit price for each weight section of each area;

the charging module is used for dividing the weight of the goods obtained by weighing into corresponding weight intervals, and multiplying the weight of the goods obtained by weighing by the cost unit price of the corresponding weight intervals to obtain the freight of the goods;

and the receiving module is used for receiving the warehouse in a box charging mode or a single cargo charging mode.

7. The device for receiving goods in a warehouse according to claim 6, wherein the configuration module is specifically configured to divide the weight of the goods in the same area according to different intervals: the first interval is 1-50, the second interval is 51-100, the third interval is 101-500, and the unit is jin; the cost unit price of the first section of each zone is A, the cost unit price of the second section of each zone is A-2, and the cost unit price of the third section of each zone is A-5.

8. The device according to claim 6, wherein the configuration module is specifically configured to weigh each cargo and carry the weight of the cargo, and the calculation formula is f (x) =ceiling (x, 1) in a 1-carry manner, where x is the weight of the cargo obtained by weighing, and 1 is the base of the rounding operation.

9. The device for receiving goods in a warehouse according to claim 7, wherein the charging module is specifically configured to determine that the freight rate of the goods is x a when the weight x of the goods is in a range of 1-50; judging that the freight rate of the freight is x (A-3) when the weight x of the freight is in the range of 51-100; when the weight x of the goods is judged to be in the range of 101-500, the freight rate of the goods is x (A-5).

10. The apparatus of claim 6, wherein the sorting module comprises a first two digits representing a province, a first three digits representing a postal zone, a first four digits representing a county, and a last two digits representing a delivery office.

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