CN116187905A - Warehouse-in checking method, warehouse management system and computer readable storage medium - Google Patents

Abstract

The invention relates to the field of logistics, in particular to a warehouse entry checking method, a warehouse management system and a computer readable storage medium of commodities, comprising the following steps: step S1, in the checking process, a size sensor arranged on a checking trolley detects the three-dimensional size of a commodity, and the commodity volume is obtained according to the three-dimensional size of the commodity; step S2, in the warehouse-in procedure, calculating the total commodity volume of the commodity based on the warehouse-in quantity of the commodity and the commodity volume obtained in the step S1; and S3, comparing the total volume of the commodity with the storage position volume of the storage position corresponding to the commodity, and sending out a prompt if the total volume of the commodity is larger than the storage position volume of the first specified proportion threshold value. In step S1, a commodity is placed on the inventory cart, and a size sensor detects the three-dimensional size of the commodity. Therefore, staff can prepare in advance, store commodities to other warehouse positions, avoid the situation that warehouse entry cannot be performed due to insufficient residual space of the warehouse positions, and improve warehouse entry efficiency.

Description

Warehouse-in checking method, warehouse management system and computer readable storage medium

Technical Field

The invention relates to the field of logistics, in particular to a warehouse entry checking method, a warehouse management system and a computer readable storage medium for commodities.

Background

In the process of entering a warehouse for storage, the commodity usually undergoes two procedures of warehousing and checking.

The warehouse entry is the general term for the work of unloading, checking, accepting, handling warehouse entry and the like when the goods enter the warehouse. The warehouse-in process is the first process of commodity entering warehouse. The checking refers to checking the actual quantity of the stock goods periodically or temporarily, namely checking the actual quantity of the existing goods in the warehouse and the quantity recorded on the deposit account so as to accurately master the stock quantity in order to master the flow condition of the goods. The accuracy of inventory is critical to the development of corporate business. Inventory accuracy can be improved, so that production efficiency is increased, and operation cost is reduced.

However, when the commodity is put in storage, the staff can not accurately estimate the space occupied by the commodity, so that the situation of insufficient storage space is often faced in the storage process. At this time, the staff needs to move the commodity to a larger stock position or use more stock positions to store the commodity, and the warehouse-in efficiency is lower because of insufficient preparation in advance.

Therefore, how to provide a warehouse-in checking method for commodities can accurately estimate the space occupied by the commodities, so that the warehouse-in efficiency of the commodities is improved, and the problem to be solved is solved.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a warehouse-in checking method of commodities, which comprises the following steps: step S1, in the checking process, a size sensor arranged on a checking trolley detects the three-dimensional size of a commodity, and the commodity volume is obtained according to the three-dimensional size of the commodity; step S2, in the warehouse-in procedure, calculating the total commodity volume of the commodity based on the warehouse-in quantity of the commodity and the commodity volume obtained in the step S1; and S3, comparing the total volume of the commodity with the storage position volume of the storage position corresponding to the commodity, and sending out a prompt if the total volume of the commodity is larger than the storage position volume of the first specified proportion threshold value.

According to the technical scheme, in the inventory process, the three-dimensional size of the commodity detected by the size sensor can be applied to the warehouse-in process, and detection is not needed when the three-dimensional size data or the commodity volume data of the commodity are needed in the warehouse-in process, so that the utilization rate of the data and the warehouse-in efficiency are improved. The checking trolley not only can be used for the checking process, but also can be applied to the warehousing process, and plays a role in one vehicle for multiple purposes, so that the equipment utilization rate of the checking trolley is effectively improved.

Comparing the total volume of the commodities with the volume of the storage position corresponding to the commodities, and if the volume is larger than the volume of the storage position of the first specified proportion threshold, indicating that the commodities contained in the storage position are enough, thereby reminding workers that the storage position is difficult to contain or cannot contain more commodities. Therefore, staff can prepare in advance, store commodities to other warehouse positions, avoid the situation that warehouse entry cannot be performed due to insufficient residual space of the warehouse positions, and improve warehouse entry efficiency.

Preferably, in step S1, a commodity is placed on the inventory cart, and the size sensor detects the three-dimensional size of the commodity.

According to the technical scheme, the size sensor detects the three-dimensional size of the single commodity, so that the detection result is more accurate.

Preferably, the method further comprises: step S4, in the checking procedure, a plurality of commodities are placed on a checking trolley, and a weight sensor arranged on the checking trolley detects the total weight of the commodities; and S5, calculating the stock quantity based on the preset single-weight data and the total weight of the commodities obtained in the step S4.

According to the technical scheme, the commodities are not required to be placed independently during inventory, the commodities are directly placed to detect the total weight of the commodities, and the inventory number is calculated through the detected total weight of the commodities and preset single-weight data, so that the detection efficiency is improved, and meanwhile, the accuracy of the inventory number is guaranteed.

Preferably, the method further comprises: and S6, comparing the stock quantity with the warehouse-in quantity, and alarming if the stock quantity is not matched with the warehouse-in quantity.

According to the technical scheme, the calculated stock quantity is compared with the warehouse-in quantity, and when the quantity is not consistent, the fact that the quantity of the commodities in the warehouse is increased or decreased at the moment is indicated, and an alarm is sent out so that staff can timely handle the situation.

Preferably, the method further comprises: in the checking process, the detection results of the size sensor and the weight sensor are synchronously uploaded to the commodity management system.

According to the technical scheme, in the checking procedure, the detection results of the size sensor and the weight detector arranged on the checking trolley are synchronously uploaded to the commodity management system, so that the detection results can be applied to other procedures, the utilization rate of data is increased, unnecessary repeated detection is reduced, and the checking efficiency and the warehousing efficiency are improved.

Preferably, the method further comprises: and S7, comparing the total volume of the commodity with the volume of the storage position, and sending out a prompt if the total volume of the commodity is lower than the volume of the storage position of the second specified proportion threshold value.

According to the technical scheme, when the volume is smaller than the second specified proportion threshold, the fact that the space utilization rate of the warehouse is insufficient is indicated, so that a user is reminded that the warehouse can store more commodities, and the warehouse space is fully utilized.

Preferably, the size sensor is a 3D structure capture measurement sensor.

According to the technical scheme, the 3D structure capturing and measuring sensor emits structural light to the commodity through the projection equipment, the camera shoots a three-dimensional light pattern formed on the commodity, and the shot image is processed by the acquisition and processing system to obtain commodity surface data. When the relative positions of the camera and the projection device are fixed, the distortion degree of the light projected on the commodity depends on the depth of the object surface, so that a light image with the depth can be obtained in the photographed image, and the size of the commodity is further obtained. The 3D structure is used for capturing the measurement sensor as the size sensor, so that the accuracy and the detection efficiency of commodity size detection are improved.

The invention also provides a warehouse management system, which comprises a checking trolley, wherein the checking trolley is provided with a size sensor, the size sensor detects the three-dimensional size of the commodity, and the commodity volume is obtained according to the three-dimensional size of the commodity; the warehouse-in unit is used for counting the warehouse-in quantity of the commodities and calculating the total commodity volume of the commodities based on the warehouse-in quantity and the commodity volume; and the reminding unit is used for comparing the total volume of the commodity with the volume of the storage position corresponding to the commodity, and sending out a reminder if the total volume of the commodity is larger than a first specified proportion threshold value.

The invention also provides a warehouse management system, which comprises an inventory trolley, wherein the inventory trolley is provided with a size sensor; a processor; a memory storing processor readable instructions that, when executed by one or more processors, perform the steps of: step S1, in the checking process, detecting the three-dimensional size of the commodity by a size sensor, and obtaining the commodity volume according to the three-dimensional size of the commodity; step S2, in the warehouse-in procedure, calculating the total commodity volume of the commodity based on the warehouse-in quantity of the commodity and the commodity volume obtained in the step S1; and S3, comparing the total volume of the commodity with the storage position volume of the storage position corresponding to the commodity, and sending out a prompt if the total volume of the commodity is larger than a first specified proportion threshold.

The invention also provides a computer readable storage medium which stores processor readable instructions, and one or more processors execute the warehouse-in checking method of the commodity provided by any technical scheme by running the processor readable instructions.

Drawings

Fig. 1 is a schematic perspective view of an inventory cart according to a first embodiment of the present invention;

fig. 2 is a control block diagram of a warehouse management system according to a first embodiment of the present invention;

fig. 3 is a flowchart of a warehouse entry checking method of a commodity according to a second embodiment of the present invention;

fig. 4 is another flowchart of a method for warehousing inventory of goods according to a second embodiment of the present invention.

Reference numerals: 100 checking a trolley; 1 a size sensor; 2 a weight sensor; 3, warehousing the unit; a reminding unit; 5 a processor; 6 a memory.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

First embodiment

The embodiment provides a warehouse management system. Fig. 1 is a perspective view of an inventory cart 100 according to a first embodiment of the present invention, and as shown in fig. 1, the warehouse management system includes the inventory cart 100.

The inventory cart 100 has a size sensor 1, and the size sensor 1 detects the three-dimensional size of the commodity and obtains the commodity volume from the three-dimensional size of the commodity.

In the present embodiment, the size sensor 1 is a 3D structure capturing measurement sensor. The 3D structure capturing and measuring sensor emits structured light to the commodity, the camera shoots a three-dimensional light pattern formed on the commodity, and the shot image is processed by the acquisition and processing system to obtain object surface data of the commodity. When the relative positions of the camera and the projection device are fixed, the distortion degree of the light projected on the commodity depends on the depth of the object surface, so that a light image with the depth can be obtained in the photographed image, and the size of the commodity is further obtained. The 3D structure capturing measurement sensor is used as the size sensor 1, so that the accuracy and the detection efficiency of commodity size detection can be improved.

In this embodiment, the 3D structure captures the size of the commodity detected by the measurement sensor, and is the length, width and height data of the commodity, and when the commodity is of a non-cubic structure, the detected data is the approximate length, width and height data of the commodity, so as to obtain the approximate volume of the commodity.

For example, if the commodity is an object with a radius of 5cm and a height of 10cm, the actual volume is 785cm ³ Then the dimension of the commodity detected by the 3D structure capturing and measuring sensor is 10cm long, 10cm wide and 10cm high, and the volume is calculated to be 1000cm ³ . Since the cylindrical objects cannot be completely attached to each other when they are stored, a certain gap is left. If the volume of the cylinder is calculated according to the actual size of the cylinder, the data display space is enough, but the commodity cannot be contained in the actual storage, so the calculation is performed according to the smallest cube capable of containing the cylinder.

In other embodiments of the invention, the specific structure of the commodity is obtained by capturing the measurement sensor through the 3D structure, and the approximate volume, or the actual volume, of the commodity is directly calculated. In addition, the size sensor 1 is not limited to the 3D structure capturing measurement sensor, but may be another type of sensor, such as a laser profile meter, etc., and is not particularly limited herein.

Fig. 2 is a control block diagram of a warehouse management system according to a first embodiment of the present invention. As shown in fig. 2, further, the warehouse management system includes a warehouse entry unit 3 and a reminder unit 4.

Specifically, the warehousing unit 3 is used for counting the warehousing quantity of the commodity, and calculating the total commodity volume V1 of the commodity based on the warehousing quantity and the commodity volume.

The reminding unit 4 is used for comparing the total volume V1 of the commodity with the storage position volume V2 of the storage position corresponding to the commodity, and sending a reminding to a worker if the total volume V1 of the commodity is in an abnormal range (the occupied storage position volume V2 is too large or too small), so that the worker can have enough time to deal with preparation.

Further, the inventory cart 100 is also provided with a weight sensor 2 for detecting the weight of the commodity placed on the inventory cart 100. The weight sensor 2 in the present embodiment is a high-sensitivity electronic scale, and the high-sensitivity electronic scale has the advantages of high detection accuracy and accurate detection result. In other embodiments of the present invention, the weight sensor 2 is not limited to a high-sensitivity electronic scale, and is not particularly limited herein.

In this embodiment, the checking trolley 100 further has a wireless communication module (not shown), and the checking trolley 100 transmits data to the commodity management system by adopting a wireless transmission (such as Wi-Fi, cellular network, bluetooth, etc.), so that the checking trolley 100 is more flexible and movable.

In this embodiment, the warehouse management system further includes a processor 5 and a memory 6, and the memory 6 stores instructions readable by the processor 5. The processor 5 is in communication with the size sensor 1, the weight sensor 2, the warehousing unit 3, and the reminder unit 4 to receive information detected by these components or to control their operation.

Second embodiment

Fig. 3 is a flowchart of a method for warehousing inventory of goods according to a second embodiment of the present invention. As shown in fig. 3, this embodiment provides a method for warehousing and checking of commodities, including: in step S1, in the inventory process, the size sensor 1 provided in the inventory cart 100 detects the three-dimensional size of the commodity, and obtains the commodity volume from the three-dimensional size of the commodity.

Specifically, in step S1, one commodity is placed on the inventory cart 100, and the size sensor 1 detects the three-dimensional size of the commodity. The size sensor 1 detects the three-dimensional size of a single commodity, so that the detection result is more accurate. In some embodiments, the three-dimensional size of the commodity can be recorded in the warehouse management system when the commodity is checked for the first time, and the commodity type of the commodity can be rapidly distinguished by identifying the three-dimensional size of the commodity when the commodity is checked again.

In other embodiments of the present invention, it is also possible to detect the three-dimensional size of one of the commodities in the case of placing a plurality of commodities, thereby improving convenience.

And S2, in the warehousing process, calculating the total commodity volume V1 of the commodity based on the warehousing quantity of the commodity and the commodity volume obtained in the step S1. The checking trolley 100 not only can be used for the checking process, but also can be used for the warehousing process, and the effect of 'one vehicle is multipurpose' is achieved, so that the equipment utilization rate of the checking trolley 100 is effectively improved.

After the step S2 is completed, step S8 is entered, and the total volume V1 of the commodity is compared with the storage volume V2 of the storage corresponding to the commodity.

If the volume V2 of the stock position with the second specified proportion threshold value is less than or equal to the total volume V1 of the commodity and less than or equal to the volume V2 of the stock position with the first specified proportion threshold value, the total volume of the commodity stored in the stock position at the moment is in a normal range.

If the total volume V1 of the commodity is greater than the storage volume V2 of the first prescribed proportion threshold, the step S3 is entered, and the reminding unit 4 sends a reminder to the staff that the storage space is full or about to be full.

The reminding unit 4 (shown in fig. 2) can remind the staff by emitting light signals, sound signals and the like, so that the staff can timely receive the information of insufficient residual space.

Therefore, staff can prepare in advance, the warehouse location is increased or adjusted to a larger warehouse location, the situation that warehouse entry cannot be performed due to insufficient residual space of the warehouse location is avoided, and warehouse entry efficiency is improved.

In the present embodiment, the first predetermined ratio threshold is 90%. In other embodiments of the present invention, the first specified ratio threshold may be other values, such as 85%, 95%, etc., without being specifically limited herein. In other embodiments, the first predetermined ratio threshold value of the library bit volume may be directly calculated as a value expressed by volume, and the present invention is not limited to the expression of the first predetermined ratio threshold value of the library bit volume in the determination expression.

The warehouse-in checking method for the commodities can accurately calculate the volume of the commodities stored in the warehouse location at present, prompt a user to transfer the warehouse location in time, and avoid the condition that the commodities are overfilled.

Comparing the commodity total volume V1 with the storage position volume V2 of the storage position, and if the commodity total volume V1 is lower than the storage position volume V2 of the second specified proportion threshold, turning to the step S7, and reminding that the storage position space utilization rate is lower. When the volume is smaller than the second prescribed proportion threshold, the space utilization rate of the warehouse is insufficient, and more commodities can be stored. Therefore, the user is reminded that the warehouse can store more commodities, the waste of the warehouse space is avoided, and the warehouse cost is saved.

In the present embodiment, the second predetermined ratio threshold is 15%. In other embodiments of the present invention, the second prescribed ratio threshold may be other values, such as 10%, 20%, etc., without being specifically limited herein.

Fig. 4 is another flowchart of the method for warehousing and checking the commodity according to the second embodiment of the present invention, as shown in fig. 4, further, the method for warehousing and checking the commodity further includes:

in step S4, in the inventory process, a plurality of products are placed on the inventory cart 100, and the total weight of the products is detected by the weight sensor 2 provided in the inventory cart 100.

And S5, calculating the stock quantity based on the preset single-weight data and the total weight of the commodities obtained in the step S4. Therefore, the number of the commodities is obtained without single and sequential counting, and the number of the commodities can be automatically obtained only by placing a plurality of commodities on the counting trolley 100 at one time, so that the accuracy of the counting result is ensured, the counting efficiency is improved, and the time and the counting cost for counting the commodities are saved.

When it is difficult to put down all the commodities at one time, the inventory trolley 100 divides the commodities into several batches, weights the batches, and then accumulates the quantities of the commodities.

After step S5 is completed, the process proceeds to step S9. In step S9, it is compared whether the stock quantity matches the warehouse-in quantity. If the two types of products are matched, the fact that the commodity is not lost is indicated.

If the number of the commodities in the warehouse is not consistent with the number of the commodities in the warehouse, the step S6 is performed, and the number of the commodities in the warehouse is larger or smaller than the number of the commodities in the warehouse in the moment, so that an alarm needs to be sent to a worker, and the worker can process the situation in time.

In the inventory process, the detection results of the size sensor 1 and the weight sensor 2 are all synchronously uploaded to the commodity management system. Therefore, the detection result can be applied to other working procedures, the data utilization rate is increased, unnecessary repeated detection is reduced, and the inventory efficiency and the warehouse-in efficiency are improved.

In this embodiment, the numbers of steps S1, S2, S3, and the like do not indicate the actual order of steps. For example, step S7 may occur after step S2, rather than after step S6.

The present embodiment also provides a computer readable storage medium (not shown in the figure) storing processor readable instructions, and the one or more processors 5 (shown in fig. 2) execute the warehouse entry checking method of the commodity provided in the present embodiment by executing the processor readable instructions.

Those skilled in the art will appreciate that the specific features of the various embodiments may be adaptively split or combined. Such splitting or combining of specific technical features does not cause the technical solution to deviate from the principle of the present invention, and therefore, the technical solution after splitting or combining falls within the protection scope of the present invention. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The warehouse-in checking method of the commodity is characterized by comprising the following steps:

step S1, in the checking process, a size sensor arranged on the checking trolley detects the three-dimensional size of the commodity, and the commodity volume is obtained according to the three-dimensional size of the commodity;

step S2, in the warehouse-in procedure, calculating the total commodity volume of the commodity based on the warehouse-in quantity of the commodity and the commodity volume obtained in the step S1;

and S3, comparing the total volume of the commodity with the storage position volume of the storage position corresponding to the commodity, and sending out a prompt if the total volume of the commodity is larger than the storage position volume of a first specified proportion threshold value.

2. The method according to claim 1, wherein in said step S1, one of said products is placed on said inventory cart, and said size sensor detects a three-dimensional size of said product.

3. The method of warehousing inventory of goods of claim 1, further comprising:

step S4, in the checking step, a plurality of commodities are placed on the checking trolley, and a weight sensor arranged on the checking trolley detects the total weight of the commodities;

and S5, calculating the stock quantity based on preset single-weight data and the total weight of the commodities obtained in the step S4.

4. A method of warehousing inventory of goods as claimed in claim 3, further comprising:

and S6, comparing the stock quantity with the warehouse-in quantity, and alarming if the stock quantity is not matched with the warehouse-in quantity.

5. The method of warehousing inventory of goods of claim 1, further comprising:

in the checking process, the detection results of the size sensor and the weight sensor are synchronously uploaded to a commodity management system.

6. The method of warehousing inventory of goods of claim 1, further comprising:

and S7, comparing the total volume of the commodity with the volume of the storage position, and sending out a prompt if the total volume of the commodity is lower than the volume of the storage position of a second specified proportion threshold value.

7. The method of any one of claims 1-6, wherein the size sensor is a 3D structure capture measurement sensor.

8. A warehouse management system, comprising

The checking trolley is provided with a size sensor, the size sensor detects the three-dimensional size of the commodity, and the commodity volume is obtained according to the three-dimensional size of the commodity;

the warehouse-in unit is used for counting the warehouse-in quantity of the commodities and calculating the total commodity volume of the commodities based on the warehouse-in quantity and the commodity volume;

and the reminding unit is used for comparing the total volume of the commodity with the storage position volume of the storage position corresponding to the commodity, and sending out a reminder if the total volume of the commodity is larger than a first specified proportion threshold.

9. A warehouse management system, comprising

A checking trolley having a size sensor;

a processor;

a memory storing processor readable instructions that, when executed by one or more processors, perform the steps of:

step S1, in the checking process, detecting the three-dimensional size of the commodity by the size sensor, and obtaining the commodity volume according to the three-dimensional size of the commodity;

step S2, in the warehouse-in procedure, calculating the total commodity volume of the commodity based on the warehouse-in quantity of the commodity and the commodity volume obtained in the step S1;

and S3, comparing the total volume of the commodity with the storage position volume of the storage position corresponding to the commodity, and sending out a prompt if the total volume of the commodity is larger than a first specified proportion threshold.

10. A computer readable storage medium having stored thereon processor readable instructions, one or more processors executing the method of warehousing inventory of goods according to any one of claims 1-7 by executing the processor readable instructions.

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