CN111814995A - Method and device for selecting free storage space in intelligent storage cabinet - Google Patents

Abstract

The invention relates to a method for selecting a spare storage space in an intelligent storage cabinet, which comprises the following steps: acquiring door lock switch data of all storage spaces in the intelligent storage cabinet; selecting current door lock switch data of the current idle storage space one by one, and calculating a door lock health state value of the current door lock switch data; the larger the door lock health state value is, the more door lock operations are represented, and the closer the door lock health state value is to the state needing maintenance; and forming a queue by the obtained free storage spaces according to the health state values of the corresponding door locks from small to large, and selecting the free storage spaces according to the sequence from front to back when the free storage spaces are distributed at the present time or next time. The invention also relates to a device for realizing the method. The method and the device for selecting the free storage space in the intelligent storage cabinet have the following beneficial effects that: the maintenance is simpler and the cost is lower.

Description

Method and device for selecting free storage space in intelligent storage cabinet

Technical Field

The invention relates to the field of intelligent lockers, in particular to a method and a device for selecting free storage space in an intelligent locker.

Background

In the prior art, the intelligent storage cabinet is random when distributing the free storage space. Although this allocation scheme can achieve the allocation of the free storage space, it may cause an increase of the failure for the entire intelligent cabinet. It is known that each storage space is provided with its own electrically controlled lock, which is subject to wear after a period of use. If a random mode is adopted, some electric control locks can be always used and are abraded, so that faults are caused; and other electric control locks are less in use and cannot break down. For an intelligent storage cabinet, even if an electric control lock of a storage space of the intelligent storage cabinet has problems, people need to be dispatched to the site for maintenance. In the use method in the prior art, the use or wear condition of each electric control lock is not controlled or recorded, so that the time difference of the electric control lock reaching the service life is large after the intelligent storage cabinet is used for a period of time, and people need to be continuously dispatched to the site for replacement or maintenance. Therefore, the maintenance is complicated and the cost is high.

Disclosure of Invention

The invention aims to solve the technical problems that in the prior art, the maintenance is more complicated and the cost is higher, and provides a method and a device for selecting the free storage space in an intelligent storage cabinet, which have the advantages of simpler maintenance and lower cost.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for selecting a spare storage space in an intelligent storage cabinet is constructed, and comprises the following steps:

acquiring door lock switch data of all storage spaces in the intelligent storage cabinet;

selecting current door lock operation data of the current idle storage space one by one, and calculating a door lock health state value; the larger the door lock health state value is, the more door lock operations are represented, and the closer the door lock health state value is to the state needing maintenance;

and forming a queue by the obtained free storage spaces according to the health state values of the corresponding door locks from small to large, and selecting the free storage spaces according to the sequence from front to back when the free storage spaces are distributed at the present time or next time.

Furthermore, the door lock switch data is obtained by acquiring the stored initialization data of the door lock and the operation data of the door lock, and arranging the initialization data and the operation data according to a set sequence; the door lock operation data is obtained by accumulating the door lock operation times and states reported to the server after each operation of the intelligent locker.

Furthermore, the queue comprises a plurality of queues, the size and the specification of the free storage space in each queue are consistent, and the free storage spaces with different specifications form different queues; and when the free storage spaces are distributed, sequentially selecting the free storage spaces in the free storage space queues with different specifications according to the designation of a user.

Furthermore, the door lock switch data is obtained by accumulating door lock operation data reported to the server after each operation of the intelligent locker on the basis of door lock data initialization data of the intelligent locker.

Further, the initialization data of the door lock data includes data stored in the server database by way of input or upload; the door lock switch data of one storage space comprises an intelligent locker number, a door lock number or a storage space number, a door lock type, door lock use starting time, a door lock operation type, door lock operation times and door lock fault times.

Further, the door lock health status value is obtained by multiplying the number of door lock operations and the number of door lock failures in the door lock data by a set weight, respectively, and adding the sum to a base value.

Further, the basic value is obtained by converting a setting value corresponding to the type of the door lock and a quantized value obtained by converting the usage time; the quantized value is the door lock use time multiplied by a set weight; the door lock use time is the current time minus the input time of the door lock initialization data.

Furthermore, the obtaining of the current door lock data, the calculating of the door lock health state value and the formation of the queue are all executed on the server, and when the intelligent locker requires the allocation of the free storage space, the server issues the selected storage space box number to the intelligent locker.

Further, the intelligent locker obtains the current door lock data from the server, calculates the health state value of the door lock on the intelligent locker, forms a queue, and sequentially selects when allocating free storage space.

The invention also relates to a device for realizing the method, which comprises the following steps:

current door lock switch data acquisition unit: the intelligent storage cabinet is used for obtaining door lock switch data of all storage spaces in the intelligent storage cabinet and obtaining current door lock operation data of all the storage spaces;

a door lock health state value acquisition unit: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring current door lock operation data of current idle storage spaces; the larger the door lock health state value is, the more door lock operations are represented, and the closer the door lock health state value is to the state needing maintenance;

a queue forming unit: the device is used for forming a queue by the obtained free storage spaces from small to large according to the corresponding door lock health state values, and selecting the free storage spaces according to the sequence from front to back when the free storage spaces are distributed at the present time or next time.

Furthermore, the queue comprises a plurality of queues, the size and the specification of the free storage space in each queue are consistent, and the free storage spaces with different specifications form different queues; and when the free storage spaces are distributed, sequentially selecting the free storage spaces in the free storage space queues with different specifications according to the designation of a user.

The method and the device for selecting the free storage space in the intelligent storage cabinet have the following beneficial effects that: the operation mode is that the service lives of the door locks of the whole intelligent storage space are maintained at a relatively average level, when the service life of one door lock expires, other door locks basically exhaust the service life of the other door locks, and therefore the door locks of the intelligent storage cabinet can be completely replaced or maintained at one time. Such a method makes it possible to substantially prevent the door lock from malfunctioning in the early stage and to minimize the number of times that maintenance personnel are dispatched to the site in the later stage. Therefore, the maintenance is simpler and the cost is lower.

Drawings

FIG. 1 is a flow chart of a method in an embodiment of a method and apparatus for selecting free storage space in an intelligent storage cabinet of the present invention;

fig. 2 is a schematic view of the structure of the device in the embodiment.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, in an embodiment of a method and an apparatus for selecting a free storage space in an intelligent locker of the present invention, the method for selecting a free storage space in an intelligent locker includes the following steps:

step S11, acquiring door lock initialization data of the intelligent locker: in the step, door lock switch data of all storage spaces in the intelligent storage cabinet are obtained. For the intelligent locker in this embodiment, all operations of the intelligent locker are reported to the server and stored in the server, so as to facilitate operations such as later maintenance and searching. In this embodiment, the door lock switch data includes door lock initialization data and door lock operation data, and the door lock switch data can be obtained in two ways, in one way, the intelligent locker does not upload individual door lock switch data, but uploads the action of the intelligent locker for each storage space, the state of the storage space, and the like, in this case, the door lock switch data needs to be extracted from the uploaded data; of course, this act of extracting data may be performed in advance. In another mode, the intelligent locker uploads the door lock switch data which is separate from other data, in this case, although the requirement on the server is low, data processing needs to be performed on the intelligent locker to obtain the door lock switch data, that is, the requirement on the control unit or the data processing unit of the intelligent locker is high. Specifically, in this embodiment, the door lock switch data is obtained by accumulating door lock operation data reported to the server after each operation of the intelligent locker on the basis of the door lock data initialization data of the intelligent locker. That is, in the present embodiment, the door lock switch data is a special data different from the operation data of the intelligent locker; the door lock switch data is used for describing or recording the data of each door lock state of the intelligent locker respectively, the door lock switch data of one door lock (corresponding to one storage space of the intelligent locker) comprises the initialization data of the door lock, and the initialization data of the door lock is stored in the server database in an input or uploading mode; the door lock switch data of one storage space comprises an intelligent locker number, a door lock number or a storage space number, a door lock type, door lock use starting time, a door lock operation type, door lock operation times and door lock fault times. The intelligent locker number, the door lock number or the storage space number, the door lock type and the door lock use starting time belong to initialization data of the door lock; and the rest data, such as the door lock operation type, the door lock operation times and the door lock failure times, are not door lock initialization data, but door lock operation data, which are accumulated in the operation of the intelligent locker. In some cases, the data not belonging to the door lock initialization data may be obtained from the operation data reported from the intelligent locker to each storage space in the server, or may be obtained by the intelligent locker through an additional operation. Meanwhile, as can be understood from the above description, in the present embodiment, the door lock switch data is the door lock initialization data and the door lock operation data arranged in a predetermined order. The above is given as an example of only one arrangement, and in actual use, it is also possible to arrange in a different order from the above, as long as the arrangement order is specified in advance so that the system can recognize each data and know the physical meaning that each data represents.

Step S12 obtains current door lock operation data: in this step, the current door lock operation data is obtained. As described above, in the present embodiment, the operation of each storage space of the intelligent locker causes the door lock thereof to generate or have door lock operation data, which is obtained by accumulating each operation of the door lock. In this step, the current value of the door lock operation data of each door lock in the intelligent locker is obtained on the server. In other words, in this step, the door lock operation data and the door lock initial data obtained in the previous step are arranged according to the regulations, so as to obtain the door lock switch data in this embodiment, which indicates all the current actions or states of a door lock from the beginning of use on the intelligent locker. It is worth mentioning that, in some cases, the above steps may be relatively independent, that is, regardless of whether the following steps are executed, as long as the intelligent locker is operated, the above steps are executed to obtain the door lock switch data and store the data for standby; when the storage space needs to be selected, the latest door lock switch data can be directly called.

Step S13 obtains the door lock health status value of the current empty storage space: in the step, the door lock health state value of the current idle storage space is calculated and obtained according to the door lock switch data of each door lock of the intelligent storage cabinet obtained in the step. In this step, the intelligent storage cabinet can be actually subdivided into two stages, wherein in the first stage, the current free storage space of the intelligent storage cabinet is determined; for an intelligent locker, the idle storage spaces may be different at different times, and the number and position or number of the current idle storage spaces need to be confirmed at this stage; and in the second stage, the health state values of the door locks corresponding to the storage spaces are calculated one by one respectively. The first stage can be obtained by inquiring the current state of each storage space of the intelligent storage cabinet of the server, and can also require the intelligent storage cabinet to report; the second stage of calculation is to calculate the door lock health state values of the door locks one by using the door lock switch data obtained in the step; the larger the door lock health status value is, the more door lock operation is, and the closer the door lock health status value is to the state needing maintenance. In this embodiment, the door lock health status value is obtained by multiplying the number of door lock operations and the number of door lock failures in the door lock data by a set weight, respectively, and adding the result to a base value. The basic value is obtained by converting a set value corresponding to the type of the door lock and a quantized value obtained by using time; the quantized value is the door lock use time multiplied by a set weight.

Step S14 forms a queue with the current empty storage space according to the obtained door lock health status value: in the step, the door lock health state values of the current free storage spaces are obtained according to the previous step to form a queue, namely, the current free storage spaces form a queue from small to large according to the corresponding door lock health state values, and when the free storage spaces are distributed at the current time or next time, the free storage spaces are selected according to the sequence from front to back of the queue. In above-mentioned queue promptly, the lock of arranging the idle storing space in the front of the queue uses lessly, and its remaining life is longer, consequently, when needs use idle storing space, the preferential use, the effect of doing so is that make the remaining comparatively average of life of the lock of whole intelligent locker as far as possible for these locks can be changed by simultaneously or as far as possible simultaneously, realize enough guaranteeing that intelligent locker normal work reduces the work load of artifical maintenance, can not bring great waste again.

Step S15 is performed according to the above queue sequence when the free storage space needs to be used: in this step, when the empty storage space needs to be used, the empty storage space is sequentially allocated from the queue according to the method described above. It should be noted that if the queue is formed, but a new empty storage space is generated, it is not necessary to recalculate all the empty storage spaces according to the above method and then form the queue again. In this case, it is only necessary to calculate the newly added door lock of the free storage space according to the above method to obtain the health status value thereof, then compare the health status value of the newly added door lock of the storage space with the health status values of the door locks of the storage spaces in the queue, and when it is found that the new health status value is greater than the previous health status value and smaller than the next health status value of the door locks of the two adjacent storage spaces, place the newly added free storage space between the two storage spaces in the queue to form a new alignment, and select the new alignment in the subsequent selection.

Generally, in an existing intelligent storage cabinet, storage spaces of the intelligent storage cabinet may be divided into a plurality of specifications according to the size, and the storage space of each specification is used for placing articles with different volumes. Therefore, in this embodiment, the queue may also include a plurality of queues, the size and specification of the free storage spaces in each queue are consistent, and the free storage spaces of different specifications form different queues; and when the free storage spaces are distributed, sequentially selecting the free storage spaces in the free storage space queues with different specifications according to the designation of a user.

In this embodiment, in some cases, the obtaining of the current door lock data, the calculating of the door lock health state value, and the forming of the queue are all performed on the server, and when the intelligent locker requires allocation of the free storage space, the server issues the selected storage space box number to the intelligent locker. In other cases, the intelligent locker obtains the current door lock data from the server, calculates the health state value of the door lock on the intelligent locker, forms a queue, and sequentially selects when allocating free storage space. These two approaches are suitable for different environments or device configurations, respectively, for example, when network conditions are not good, choosing to process on the server may cause delays in service; when the configuration of the control unit of the intelligent locker is weak, the server is usually selected to perform the above processing, and the control unit of the intelligent locker only needs to execute the instruction sent by the server.

The invention also relates to a device for implementing the method, and a schematic structural diagram of the device is shown in figure 2. In fig. 2, the apparatus includes a current door lock switch data acquisition unit 1, a door lock health state value acquisition unit 2, and a queue formation unit 3; the current door lock switch data acquisition unit 1 is used for acquiring door lock switch data of all storage spaces in the intelligent storage cabinet; the door lock health state value obtaining unit 2 is used for selecting current door lock operation data of the current idle storage space one by one and calculating the door lock health state value; the larger the door lock health state value is, the more door lock operations are represented, and the closer the door lock health state value is to the state needing maintenance; the queue forming unit 3 is used for forming a queue from small to large according to the corresponding door lock health state value of the obtained free storage space, and selecting the free storage space according to the sequence from front to back when the free storage space is allocated at the current time or next time. In this embodiment, the queue includes a plurality of queues, the size and specification of the free storage space in each queue are consistent, and the free storage spaces with different specifications form different queues; and when the free storage spaces are distributed, sequentially selecting the free storage spaces in the free storage space queues with different specifications according to the designation of a user.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A method for selecting a vacant storage space in an intelligent storage cabinet is characterized by comprising the following steps:

selecting current door lock switch data of the current idle storage space one by one, and calculating a door lock health state value of the current door lock switch data; the larger the door lock health state value is, the more door lock operations are represented, and the closer the door lock health state value is to the state needing maintenance;

and forming a queue by the obtained free storage spaces according to the health state values of the corresponding door locks from small to large, and selecting the free storage spaces according to the sequence from front to back when the free storage spaces are distributed at the present time or next time.

2. The method for selecting the free storage space in the intelligent storage cabinet according to claim 1, further comprising the following steps:

acquiring door lock switch data of all storage spaces in the intelligent storage cabinet; the door lock switch data is obtained by acquiring stored door lock initialization data and door lock operation data, and arranging the stored door lock initialization data and the stored door lock operation data according to a set sequence; the door lock operation data is obtained by accumulating the door lock operation times and states reported to the server after each operation of the intelligent locker.

3. The method for selecting the free storage space in the intelligent storage cabinet according to claim 2, wherein the queue comprises a plurality of queues, the size and specification of the free storage space in each queue are consistent, and the free storage spaces with different specifications form different queues; and when the free storage spaces are distributed, sequentially selecting the free storage spaces in the free storage space queues with different specifications according to the designation of a user.

4. The method of claim 3, wherein the initialization data of the door lock data comprises data stored in the server database by inputting or uploading; the door lock switch data of one storage space comprises an intelligent locker number, a door lock number or a storage space number, a door lock type, door lock use starting time, a door lock operation type, door lock operation times and door lock fault times.

5. The method of claim 4, wherein the door lock health status value is obtained by multiplying the door lock operation times and the door lock failure times in the door lock data by a set weight and adding the weight to a basic value.

6. The method for selecting the free storage space in the intelligent storage cabinet as claimed in claim 5, wherein the basic value is obtained by converting a setting value corresponding to the type of the door lock and a quantized value obtained by converting the usage time; the quantized value is the door lock use time multiplied by a set weight; the door lock use time is the current time minus the input time of the door lock initialization data.

7. The method of any one of claims 1 to 6, wherein the obtaining of the current door lock data, the calculating of the door lock health status value and the formation of the queue are performed on the server, and the server issues the selected storage space box number to the intelligent locker when the intelligent locker requires allocation of free storage space.

8. The method for selecting free storage space in an intelligent locker according to any one of claims 1 to 6, wherein the intelligent locker obtains the current door lock data from the server, calculates the health status value of the door lock on the intelligent locker, forms a queue, and sequentially selects when allocating free storage space.

9. The device for selecting the free storage space in the intelligent storage cabinet according to claim 1, comprising:

current door lock switch data acquisition unit: the intelligent storage cabinet is used for obtaining door lock switch data of all storage spaces in the intelligent storage cabinet and obtaining current door lock operation data of all the storage spaces;

a door lock health state value acquisition unit: the system comprises a data acquisition module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring current door lock operation data of current idle storage spaces; the larger the door lock health state value is, the more door lock operations are represented, and the closer the door lock health state value is to the state needing maintenance;

a queue forming unit: the device is used for forming a queue by the obtained free storage spaces from small to large according to the corresponding door lock health state values, and selecting the free storage spaces according to the sequence from front to back when the free storage spaces are distributed at the present time or next time.

10. The device of claim 9, wherein the queue comprises a plurality of queues, the size specification of the free storage space in each queue is consistent, and the free storage spaces with different specifications form different queues; and when the free storage spaces are distributed, sequentially selecting the free storage spaces in the free storage space queues with different specifications according to the designation of a user.

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