CN113850099A - Storage management method for chemical products - Google Patents

Abstract

The embodiment of the invention relates to the technical field of chemical products, in particular to a storage management method for chemical products, which comprises the following steps: acquiring the name of a chemical product to be stored; determining a first target storage room based on the name of the chemical product to be stored; the first target storage room is used for storing chemical products to be stored; determining a first target NFC label based on the first target storage room and a preset first mapping relation; the first mapping relation is the mapping relation between the storage room and the NFC label with the visible identifier, and the first target NFC label has the target visible identifier; acquiring a first trigger signal of a first target NFC label to an NFC reader; determining the storage state of the chemical product to be stored based on the first trigger signal; the storage state is used for representing the state that whether the chemical product to be stored can be stored in the first target storage room or not. The scheme can reduce the storage management difficulty of the target chemical products.

Description

Storage management method for chemical products

Technical Field

The embodiment of the invention relates to the technical field of chemical products, in particular to a storage management method for chemical products.

Background

Petroleum is the primary raw material for many chemical products, such as solvents, fertilizers, pesticides, and plastics. With the development of society, the demand of people on chemical products is gradually increased, so that the research on the chemical products is gradually refined and deepened.

In the research of chemical products, storage management of the chemical products is generally faced. After chemical enterprises utilize chemical equipment to prepare chemical products, researchers can utilize different types of chemical products to perform experiments. Since the storage conditions (mainly, the storage temperature ranges) of different types of chemical products are different, and even the types of chemical products with the same storage conditions are different, the storage management difficulty of the chemical products is increased.

Therefore, there is a need for a storage management method for chemical products to solve the above technical problems.

Disclosure of Invention

In order to reduce the difficulty of storage management of chemical products, the embodiment of the invention provides a storage management method for chemical products.

The embodiment of the invention provides a storage management method for chemical products, which is applied to storage equipment, wherein the storage equipment comprises an NFC reader and a plurality of storage rooms, and the method comprises the following steps:

acquiring the name of a chemical product to be stored;

determining a first target storage room based on the name of the chemical product to be stored; wherein, the first target storeroom is used for storing the chemical products to be stored;

determining a first target NFC label based on the first target storeroom and a preset first mapping relation; wherein the first mapping relationship is a mapping relationship of a storage room and an NFC tag with a visible identifier, the first target NFC tag has a target visible identifier, and the visible identifier comprises a color, a character and/or a shape;

acquiring a first trigger signal of the first target NFC tag to the NFC reader;

determining the storage state of the chemical product to be stored based on the first trigger signal; wherein the storage state is used for representing the state whether the chemical product to be stored can be stored in the first target storage room.

In one possible design, each of the storage chambers has respective storage conditions, and the storage device is preset with a second mapping relationship between the storage chambers and the storage conditions;

the determining a first target storage room based on the name of the chemical product to be stored comprises:

determining the storage condition of the chemical products to be stored based on the names of the chemical products to be stored;

and determining a first target storage room based on the storage condition of the chemical product to be stored and the second mapping relation.

In one possible design, each of the NFC tags has unique identification information corresponding thereto, and the storage device further includes a database for storing the unique identification information of the NFC tags;

the determining the storage state of the chemical product to be stored based on the first trigger signal comprises:

determining whether the database has unique identification information of the first target NFC tag based on the first trigger signal;

if the storage state of the chemical products to be stored is the state that the chemical products cannot be stored in the first target storage room, determining that the storage state of the chemical products to be stored is the state that the chemical products cannot be stored in the first target storage room;

and if the storage state of the chemical product to be stored does not exist, determining that the storage state of the chemical product to be stored is a state in which the chemical product to be stored can be stored in the first target storage room.

In one possible design, after the determining that the storage status of the chemical product to be stored is a status that the chemical product cannot be stored in the first target storage room, the method further includes:

deleting the unique identification information of the first target NFC tag in the database;

and adjusting the storage state of the chemical products to be stored from the state of not being stored in the first target storage room to the state of being stored in the first target storage room.

In one possible design, further comprising:

acquiring the name of a chemical product to be taken out;

determining whether the chemical product to be taken out exists in the storage equipment or not based on the name of the chemical product to be taken out;

if so, determining a second target storage room; and the chemical product to be taken out, which is adhered with the second target NFC label, is stored in the second target storage room.

In one possible design, after the determining the second target storage room, the method further includes:

acquiring a second trigger signal of the second target NFC tag to the NFC reader;

deleting the unique identification information of the second target NFC tag in the database based on the second trigger signal.

In one possible design, further comprising:

responding to the first trigger signal, and recording the storage date of the chemical product to be stored;

responding to the second trigger signal, and recording the taking-out date of the chemical product to be taken out;

when the chemical product to be stored and the chemical product to be taken out are the same chemical product, obtaining the residual validity period of the chemical product based on the storage date, the taking-out date and the validity period;

when the residual effective period is not less than zero, taking the residual effective period as a new effective period, executing the response to the first trigger signal, and recording the storage date of the chemical product to be stored;

and outputting a prompt of the chemical product expiration when the remaining validity period is less than zero.

In one possible design, a user interactive display screen is provided in the storage device;

the name of the chemical product to be stored is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be stored based on the user interaction display screen.

In one possible embodiment, a speech recognizer is provided in the storage device;

the name of the chemical product to be stored is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be stored based on the voice recognizer.

In one possible design, a user interactive display screen is provided in the storage device;

the name of the chemical product to be taken out is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be taken out based on the user interaction display screen.

In one possible embodiment, a speech recognizer is provided in the storage device;

the name of the chemical product to be taken out is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be taken out based on the voice recognizer.

The embodiment of the invention provides a storage management method for chemical products, which is characterized in that an NFC reader, an NFC label and a mapping relation between the NFC label and a storage room are set, so that after a first target storage room is determined according to the name of the chemical product to be stored, the first target NFC label can be determined, the first target NFC label is pasted on the chemical product to be stored, and after a trigger signal is generated on the NFC reader, the chemical product to be stored can be stored in the first target storage room, and therefore the storage management difficulty of the chemical product to be stored is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a flowchart of a storage management method for chemical products according to an embodiment of the present invention;

fig. 2 is a flow chart of another method for storage management of chemical products according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As described above, in research on chemical products, storage management of the chemical products is generally faced. After chemical enterprises utilize chemical equipment to prepare chemical products, researchers can utilize different types of chemical products to perform experiments. Since the storage conditions (mainly, the storage temperature ranges) of different types of chemical products are different, and even the types of chemical products with the same storage conditions are different, the storage management difficulty of the chemical products is increased.

In order to solve this problem, it is considered to reduce the difficulty of storage management of chemical products from the viewpoint of simplifying or optimizing the storage mode of chemical products.

Referring to fig. 1, an embodiment of the present invention provides a method for storage management of chemical products, where the method is applied to a storage device, the storage device includes an NFC reader and a plurality of storage compartments, and the method includes:

step 100: acquiring the name of a chemical product to be stored;

step 102: determining a first target storage room based on the name of the chemical product to be stored; the first target storage room is used for storing chemical products to be stored;

step 104: determining a first target NFC label based on the first target storage room and a preset first mapping relation; the first mapping relation is a mapping relation between a storage room and an NFC label with a visible identifier, the first target NFC label is provided with a target visible identifier, and the visible identifier comprises colors, characters and/or shapes;

step 106, acquiring a first trigger signal of the first target NFC label to the NFC reader;

step 108, determining the storage state of the chemical product to be stored based on the first trigger signal; the storage state is used for representing the state that whether the chemical product to be stored can be stored in the first target storage room or not.

In the embodiment of the invention, by setting the mapping relation between the NFC reader and the NFC label as well as between the NFC label and the storeroom, after the first target storeroom is determined according to the name of the chemical product to be stored, the first target NFC label can be determined, then the first target NFC label is pasted on the chemical product to be stored, and after the trigger signal is generated on the NFC reader, the chemical product to be stored can be stored in the first target storeroom, so that the storage management difficulty of the chemical product to be stored is reduced.

It is understood that in some embodiments, the storage of the chemical product may also be achieved by way of an RFID reader and an RFID tag. However, this approach has the following disadvantages: 1. the management of chemical products using the RFID technology requires the installation of RFID readers inside each storage room, which increases management costs. 2. Since RFID technology is far field communication, this structural distribution may cause problems with RFID reader scanning RFID tag string compartments, i.e., identification errors of stored storage compartments may occur. However, the NFC technology provided by the embodiment of the present invention has the following advantages: 1. management of all NFC tags can be achieved with only one NFC reader. 2. The NFC technology is a near field communication technology, and the communication distance is within 0-20cm, so that the method has certain advantages of reducing the misidentification of the tag.

The manner in which the various steps shown in fig. 1 are performed is described below.

In some embodiments, the method for obtaining the name of the chemical product to be stored may set a user interaction display screen in the storage device, so that the user may input the name of the chemical product to be stored into the display screen; for example, a voice recognizer may be provided in the storage device, so that the user can read out the name of the chemical product to be stored to the voice recognizer.

For step 102, for example, a mapping relationship between the name of the chemical product and the storage room is preset in the storage device, and after the name of the chemical product is obtained, the storage room corresponding to the name of the chemical product, that is, the first target storage room, may be determined.

In some embodiments, each storage room has its own storage condition, the storage device is preset with a second mapping relationship between the storage room and the storage condition, and step 102 may specifically include:

determining the storage condition of the chemical products to be stored based on the names of the chemical products to be stored;

and determining a first target storage room based on the storage condition of the chemical product to be stored and the second mapping relation.

In this embodiment, the storage conditions include, but are not limited to: temperature, light intensity, dryness, etc. If only the mapping relation between the names of the chemical products and the storage rooms is relied on, one kind of chemical products can be corresponding to a plurality of storage rooms with more proper storage conditions. However, the storage conditions for one type of chemical product are strictly regulated, and if it is stored in a storage room which is not optimal, it may be disadvantageous to store the chemical product. Therefore, the storage conditions of the chemical products to be stored and the second mapping relation need to be established, and after the storage conditions are determined, the most appropriate storage room, namely the first target storage room, can be determined.

For step 104, for example, there are 7 storage rooms, each storage room corresponds to 10 NFC tags, so as to facilitate the researcher to find the NFC tag corresponding to the first target storage room, a visible identification manner may be utilized, for example, the colors of the NFC tags corresponding to the 7 storage rooms are red, orange, yellow, green, cyan, blue, and purple, respectively. These 7 storerooms correspond to 70 NFC tags, each of which has a different ID (i.e., unique identification information). Furthermore, the visible identifiers may also be characters, shapes, etc., which are not specifically described herein.

After determining the NFC tag corresponding to the first target storage room, the researcher may select an unused NFC tag from these NFC tags as the first target NFC tag at will, and paste this first target NFC tag on the chemical product. For example, the chemical product is packaged in a packaging bag, and the first target NFC tag may be attached to the packaging bag. Then, the chemical product with the first target NFC label is placed in the first target storage room.

With reference to step 106, a researcher holds the chemical product with the first target NFC tag attached thereto to approach the NFC reader, so as to record the unique identification information of the first target NFC tag in the storage device, and then places the chemical product in the first target storage room.

For step 108, each NFC tag has unique identification information corresponding thereto, and the storage device further includes a database for storing the unique identification information of the NFC tag, which may specifically include:

determining whether the database has the unique identification information of the first target NFC tag based on the first trigger signal;

if the storage state of the chemical products to be stored is the state that the chemical products cannot be stored in the first target storage room, determining that the storage state of the chemical products to be stored is the state that the chemical products cannot be stored in the first target storage room;

and if the storage state does not exist, determining that the storage state of the chemical product to be stored is a state in which the chemical product can be stored in the first target storage room.

In this embodiment, the first trigger signal generated by the NFC reader may indicate whether the chemical product may be stored in the first target storage room, for example, a trigger result corresponding to the generated first trigger signal is displayed on a display screen or is notified to a researcher through a voice module, and whether the chemical product may be stored in the first target storage room may be determined, so that the researcher may be guided to perform a related operation (i.e., may be stored in the first target storage room).

When the trigger result corresponding to the generated first trigger signal indicates that the chemical product cannot be stored in the first target storage room, the reason is that the unique identification information of the first target NFC tag is not deleted after the chemical product is taken out from the first target storage room last time, and therefore, when the NFC reader identifies the first target NFC tag, the storage device can identify the same unique identification information.

To solve the technical problem, in some embodiments, the method may include:

deleting the unique identification information of the first target NFC label in the database;

and adjusting the storage state of the chemical products to be stored from the state of not being stored in the first target storage room to the state of being stored in the first target storage room.

In this embodiment, if the storage device recognizes the same unique identification information, that is, the researcher does not approach the first target NFC tag to the NFC reader according to the regulations when taking out the chemical product last time, the unique identification information of the first target NFC tag is deleted, so that the cause of the abnormality is generated. When the chemical product is put in again, the same unique identification information stored in the database before is deleted, so that the chemical product can be put in the first target storage room.

The above technical solution is the introduction of the process of storing the chemical products to be stored in the first target storage room, and as mentioned above, the management of the chemical products further includes taking out the chemical products.

In some embodiments, the above method further comprises:

acquiring the name of a chemical product to be taken out;

determining whether the chemical products to be taken out exist in the storage equipment or not based on the names of the chemical products to be taken out;

if so, determining a second target storage room; and the second target storeroom stores chemical products to be taken out, wherein the chemical products are pasted with the second target NFC labels.

In this embodiment, after obtaining the name of the chemical product to be taken out, can judge whether storage equipment exists the chemical product to be taken out, if exist, can determine the second target storeroom according to the mapping relation of the name of the chemical product and the storeroom that have set up in advance in the storage equipment, then the researcher can go to seek in the second target storeroom and wait to take out the chemical product, this has reduced the degree of difficulty of seeking of the chemical product to be taken out to the storage management degree of difficulty of the chemical product to be taken out has been reduced.

In some embodiments, the manner of obtaining the name of the chemical product to be taken out may be, for example, setting a user interaction display screen in the storage device, so that a user may input the name of the chemical product to be taken out to the display screen; for example, a voice recognizer may be provided in the storage device so that a user can read out the name of the chemical product to be taken out to the voice recognizer.

In some embodiments, after determining the second target storage room, further comprising:

acquiring a second trigger signal of a second target NFC label to the NFC reader;

and deleting the unique identification information of the second target NFC label in the database based on the second trigger signal.

In this embodiment, when the researcher takes the chemical product to be taken out, the second target NFC tag attached to the chemical product to be taken out is close to the NFC reader, so that the NFC reader generates the second trigger signal, and thus the storage device can delete the unique identification information of the second target NFC tag in the database, thereby completing the taking action. Meanwhile, the unique identification information of the second target NFC label in the database is deleted, so that a convenient condition is provided for putting the chemical product into the storage equipment again in the follow-up process.

In some embodiments, the above method further comprises:

responding to the first trigger signal, and recording the storage date of the chemical product to be stored;

responding to the second trigger signal, and recording the taking-out date of the chemical product to be taken out;

when the chemical product to be stored and the chemical product to be taken out are the same chemical product, obtaining the residual validity period of the chemical product based on the storage date, the taking-out date and the validity period;

when the residual effective period is not less than zero, taking the residual effective period as a new effective period, responding to the first trigger signal, and recording the storage date of the chemical product to be stored;

and outputting a prompt of the chemical product expiration when the residual effective period is less than zero.

In the embodiment, by recording the storage date of the chemical product to be stored and the taking date of the chemical product to be taken out, whether one chemical product reaches the validity period or not is favorably ensured, so that researchers can be assisted to better complete the accuracy of the chemical product experiment; meanwhile, when a chemical product is determined to be overdue, a researcher can be prompted to take the chemical product out of the storage equipment, so that the influence of mildew in the storage room on the quality of other chemical products is avoided.

Fig. 2 shows a flow chart of a method for storage management of chemical products according to another embodiment. Referring to fig. 2, the method includes:

step 200: acquiring the name of a chemical product to be stored;

step 202: determining the storage condition of the chemical products to be stored based on the names of the chemical products to be stored;

step 204: determining a first target storage room based on the storage condition of the chemical product to be stored and the second mapping relation;

step 206: determining a first target NFC label based on the first target storage room and a preset first mapping relation;

step 208: acquiring a first trigger signal of a first target NFC label to an NFC reader;

step 210: determining whether the database has the unique identification information of the first target NFC tag based on the first trigger signal; if not, go to step 212; if so, go to step 214;

step 212: determining the storage state of the chemical products to be stored as a state capable of being stored in a first target storage room;

step 214: determining that the storage state of the chemical products to be stored is a state that the chemical products cannot be stored in a first target storage room;

step 216: deleting the unique identification information of the first target NFC label in the database;

step 218: and adjusting the storage state of the chemical products to be stored from the state of not being stored in the first target storage room to the state of being stored in the first target storage room.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (11)

1. A storage management method for chemical products, applied to a storage device including an NFC reader and a plurality of storage compartments, the method comprising:

acquiring the name of a chemical product to be stored;

determining a first target storage room based on the name of the chemical product to be stored; wherein, the first target storeroom is used for storing the chemical products to be stored;

determining a first target NFC label based on the first target storeroom and a preset first mapping relation; wherein the first mapping relationship is a mapping relationship of a storage room and an NFC tag with a visible identifier, the first target NFC tag has a target visible identifier, and the visible identifier comprises a color, a character and/or a shape;

acquiring a first trigger signal of the first target NFC tag to the NFC reader;

determining the storage state of the chemical product to be stored based on the first trigger signal; wherein the storage state is used for representing the state whether the chemical product to be stored can be stored in the first target storage room.

2. The method of claim 1, wherein each of the storage compartments has respective storage conditions, and the storage device is pre-provided with a second mapping relationship of the storage compartments and the storage conditions;

the determining a first target storage room based on the name of the chemical product to be stored comprises:

determining the storage condition of the chemical products to be stored based on the names of the chemical products to be stored;

and determining a first target storage room based on the storage condition of the chemical product to be stored and the second mapping relation.

3. The method of claim 1, wherein each of the NFC tags has unique identification information corresponding thereto, and wherein the storage device further comprises a database for storing the unique identification information of NFC tags;

the determining the storage state of the chemical product to be stored based on the first trigger signal comprises:

determining whether the database has unique identification information of the first target NFC tag based on the first trigger signal;

if the storage state of the chemical products to be stored is the state that the chemical products cannot be stored in the first target storage room, determining that the storage state of the chemical products to be stored is the state that the chemical products cannot be stored in the first target storage room;

and if the storage state of the chemical product to be stored does not exist, determining that the storage state of the chemical product to be stored is a state in which the chemical product to be stored can be stored in the first target storage room.

4. The method according to claim 3, further comprising, after the determining that the storage status of the chemical product to be stored is a status that the chemical product cannot be stored in the first target storage room:

deleting the unique identification information of the first target NFC tag in the database;

and adjusting the storage state of the chemical products to be stored from the state of not being stored in the first target storage room to the state of being stored in the first target storage room.

5. The method according to any one of claims 1-4, further comprising:

acquiring the name of a chemical product to be taken out;

determining whether the chemical product to be taken out exists in the storage equipment or not based on the name of the chemical product to be taken out;

if so, determining a second target storage room; and the chemical product to be taken out, which is adhered with the second target NFC label, is stored in the second target storage room.

6. The method of claim 5, further comprising, after said determining a second target storage compartment:

acquiring a second trigger signal of the second target NFC tag to the NFC reader;

deleting the unique identification information of the second target NFC tag in the database based on the second trigger signal.

7. The method of claim 6, further comprising:

responding to the first trigger signal, and recording the storage date of the chemical product to be stored;

responding to the second trigger signal, and recording the taking-out date of the chemical product to be taken out;

when the chemical product to be stored and the chemical product to be taken out are the same chemical product, obtaining the residual validity period of the chemical product based on the storage date, the taking-out date and the validity period;

when the residual effective period is not less than zero, taking the residual effective period as a new effective period, executing the response to the first trigger signal, and recording the storage date of the chemical product to be stored;

and outputting a prompt of the chemical product expiration when the remaining validity period is less than zero.

8. The method according to any one of claims 1 to 4, wherein a user interactive display screen is provided in the storage device;

the name of the chemical product to be stored is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be stored based on the user interaction display screen.

9. The method according to any one of claims 1 to 4, wherein a speech recognizer is provided in the storage device;

the name of the chemical product to be stored is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be stored based on the voice recognizer.

10. The method of claim 5, wherein a user interactive display screen is provided in the storage device;

the name of the chemical product to be taken out is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be taken out based on the user interaction display screen.

11. The method of claim 5, wherein a voice recognizer is disposed in the storage device;

the name of the chemical product to be taken out is obtained, and the method comprises the following steps:

and acquiring the name of the chemical product to be taken out based on the voice recognizer.

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