CN112215535A - Inventory checking method, system and storage medium - Google Patents

Abstract

The invention discloses a method, a system and a storage medium for inventory checking. The method comprises the following steps: associating the goods inventory terminal with the goods; after the cargo state information is acquired, a stock checking signal is sent out, and after the first-stage intermediate signal repeater receives the stock checking signal, the stock checking signal is sent out; if the second-stage intermediate signal repeater receives the inventory signal, the inventory signal is sent out, and each subsequent intermediate signal repeater which receives the inventory signal including the cargo state information repeats the transmission process; and after receiving the inventory signal comprising the goods state information, the ultimate signal repeater judges whether an abnormal alarm condition exists or not according to the received inventory signal, if the abnormal alarm condition does not exist, inventory data is formed, and if the abnormal alarm condition exists, the ultimate signal repeater marks the goods inventory terminal and performs additional inventory check. The invention transmits the inventory signal through the N-level intermediate signal repeater, judges whether an abnormal alarm condition exists according to the received inventory signal, realizes inventory checking work of the inventory, and is convenient to arrange and install.

Description

Inventory checking method, system and storage medium

Technical Field

The present invention relates to the field of electronic inventory counting technologies, and in particular, to an inventory counting method, an inventory system capable of performing the inventory counting method, and a storage medium.

Background

At present, as computer management technology enters a fine management stage, the operation requirements of specific places such as bank vaults and the like on the vault are rapid, simple and safe, the traditional manual vault inventory is low in efficiency and has certain potential safety hazards, and a set of effective vault inventory is very necessary to be established in important monitoring areas such as fund stacking areas as a financial system of a national key safety precaution unit.

Disclosure of Invention

The invention mainly aims to provide a method, a system and a storage medium for checking a disc library, and aims to solve the technical problems of complex program and high power consumption of the conventional disc library system.

In order to achieve the above object, the present invention provides a inventory checking method applied to a cargo safety inventory system, the cargo safety inventory system including at least one cargo inventory terminal, N-level intermediate signal repeaters, and at least one final signal repeater, each cargo inventory terminal and the final signal repeater transmitting wireless signals through the N-level intermediate signal repeaters, naming the intermediate signal repeater reachable by the wireless signals sent by each cargo inventory terminal as its first-level intermediate signal repeater, each level including at least one intermediate signal repeater, the intermediate signal repeater within reachable range of the wireless signals sent by each intermediate signal repeater as its next level, each cargo inventory terminal, each intermediate signal repeater, and each final signal repeater having unique ID identification numbers, the inventory checking method comprises the following steps:

s10 associates a watch: associating the goods inventory terminal with goods needing to be attended;

s20 start disc library: after the cargo state information n0 of the cargo is acquired, a stock checking signal b0 is sent out, wherein the stock checking signal b0 comprises the cargo state information n 0;

s30, reporting the disc library data: the disc library signal b0 is transmitted through an N-level intermediate signal repeater and is diffused to the final signal repeater, and the first-level intermediate signal repeater receives the disc library signal b0 and then sends a disc library signal c 1;

if the second-level intermediate signal repeater receives the inventory signal c1, the second-level intermediate signal repeater sends an inventory signal c2, and each subsequent intermediate signal repeater which receives the inventory signal containing the cargo state information n0 repeats the transmission process;

s40 checking the inventory data: after the ultimate signal repeater receives the inventory signal comprising the cargo state information n0, executing a next step instruction;

the next step of the instruction comprises the steps of judging whether an abnormal alarming condition exists or not according to the received inventory signal, forming inventory data by the inventory signal b0 if no abnormal alarming condition exists, marking the goods inventory terminal with the abnormal alarming condition if the abnormal alarming condition exists, and checking the marked goods inventory terminal additionally.

Optionally, in the step of associating a gatekeeper:

the scanning equipment reads an electronic device installed on the goods to acquire goods information and writes the goods information into the goods inventory terminal;

or the goods information is directly written into the goods inventory terminal;

or the goods information is directly input into the goods inventory terminal.

Optionally, the goods inventory terminal starts the inventory by itself.

Optionally, the goods inventory terminal starts an inventory according to an inventory command a0, and after receiving the inventory command a0, the goods inventory terminal starts an inventory to obtain the goods state information n0, and sends an inventory signal b 0.

Optionally, the N-level intermediate signal repeater starts a disk library by itself and issues the disk library command a 0.

Optionally, the background server starts a disc library by itself, and sends the disc library command a0 to the final signal repeater, and the disc library command a0 is diffused to the goods disc library terminal through the N-level intermediate signal repeater.

Optionally, the background server acquires information of a goods inventory terminal requiring inventory, and sends the inventory command a0 to the ultimate signal repeater, where the inventory command a0 includes information of the goods inventory terminal requiring inventory;

and/or the next step of instructing further comprises the step that the ultimate signal repeater reports the received inventory signal including the cargo state information n0 to a background server, the background server judges whether an abnormal alarm condition exists according to the received inventory signal, if no abnormal alarm condition exists, the inventory signal b0 forms inventory data, if an abnormal alarm condition exists, the cargo inventory terminal with the abnormal alarm condition is marked, and the marked cargo inventory terminal is additionally checked.

Optionally, the self-starting disc library includes:

setting the time of each disc library, and starting the disc library when the time of the disc library is up, or starting the disc library randomly.

Optionally, after receiving the disc library signal b0, the first-level intermediate signal repeater sends out a disc library signal c1, where the content c1 includes the content b0, and further sends out a reply signal c12, where the content c12 includes the content that has received the disc library signal b0, and after receiving the reply signal c12, the cargo disc library terminal stops or no longer sends out the disc library signal b 0;

if the second-level intermediate signal repeater receives the disc library signal c1, the second-level intermediate signal repeater sends out a disc library signal c2, the content c2 comprises the content c1, and sends out a reply signal c22 again, the content c22 comprises the content of the disc library signal c1, after the first-level intermediate signal repeater receives the reply signal c22, the first-level intermediate signal repeater stops sending out the disc library signal c1 or does not send out the disc library signal any more, and each subsequent intermediate signal repeater which receives the disc library signal comprising the content b0 repeats the above transfer process;

or, after receiving the disc library signal b0, the first-level intermediate signal repeater sends a disc library signal c13, where the content c13 includes a content b0 and a content that has received the disc library signal b0, and after receiving the disc library signal c13, the cargo disc library terminal stops or no longer sends the disc library signal b 0;

if the second-level intermediate signal repeater receives the disc library signal c1, a disc library signal c23 is sent out, the content c23 comprises the content c1 and the content which has received the disc library signal c1, after the first-level intermediate signal repeater receives the disc library signal c23, the sending of the disc library signal c1 is stopped or not sent out any more, and each subsequent intermediate signal repeater which receives the disc library signal comprising the content b0 repeats the above transfer process.

Optionally, the inventory signal sent by each intermediate signal repeater includes its own ID identification number;

and/or the goods inventory terminal is periodically dormant and fully awake and is in an awakening state when in inventory, or the goods inventory terminal is always fully awake;

and/or the intermediate signal repeater wakes up all the time in a periodic sleep mode and is in a wake-up state during inventory, or the intermediate signal repeater wakes up all the time.

In addition, in order to achieve the above object, the present invention further provides a method for checking inventory of goods, which is applied to a goods safety inventory system, the goods safety inventory system includes at least one goods inventory terminal, N-level intermediate signal repeaters and at least one final signal repeater, a wireless signal sent by each goods inventory terminal is transmitted to the final signal repeater through the N-level intermediate signal repeaters, and at least two intermediate signal repeaters are electrically connected by wire, and/or the final signal repeater and at least one intermediate signal repeater are electrically connected by wire, the intermediate signal repeater which can be reached by the wireless signal sent by each goods inventory terminal is named as a first-level intermediate signal repeater thereof, each level includes at least one intermediate signal repeater, two intermediate signal repeaters directly transmitting signals are two adjacent levels, each goods inventory terminal, each intermediate signal repeater and each final signal repeater have unique ID identification numbers, and the inventory checking method comprises the following steps:

s10 associates a watch: associating the goods inventory terminal with the goods on duty;

s20 start disc library: after the cargo state information n0 of the cargo is acquired, a stock checking signal b0 is sent out, wherein the stock checking signal b0 comprises the cargo state information n 0;

s30, reporting the disc library data: the disc library signal b0 is transmitted to the final signal repeater through an N-level intermediate signal repeater, and the first-level intermediate signal repeater receives the disc library signal b0 and then sends a disc library signal c 1;

if the second-level intermediate signal repeater receives the inventory signal c1, the second-level intermediate signal repeater sends an inventory signal c2, and each subsequent intermediate signal repeater which receives the inventory signal containing the cargo state information n0 repeats the transmission process;

s40 checking the inventory data: after the ultimate signal repeater receives the inventory signal comprising the cargo state information n0, executing a next step instruction;

the next step of the instruction comprises the steps of judging whether an abnormal alarming condition exists or not according to the received inventory signal, forming inventory data by the inventory signal b0 if no abnormal alarming condition exists, marking the goods inventory terminal with the abnormal alarming condition if the abnormal alarming condition exists, and checking the marked goods inventory terminal additionally.

In addition, to achieve the above object, the present invention also provides a disc library system, including:

the goods inventory terminal can watch the safety of the discrete goods;

intermediate signal repeaters, the intermediate signal repeaters between adjacent ones communicate wirelessly or by wire;

a final signal repeater having a power interface and/or having a battery, the battery being a replaceable or non-replaceable battery; and

a background server;

wherein the disc library system is capable of implementing the steps of the disc library inventory method as described above.

Further, to achieve the above object, the present invention also provides a storage medium having stored thereon a program of a disc library inventory method, which when executed by a processor, implements the steps of the disc library inventory method as described above.

The invention provides a stock inventory method, which relates a goods stock inventory terminal and goods, sends out stock inventory signals after obtaining goods state information, the stock inventory signals are transmitted to an ultimate signal repeater through an N-level intermediate signal repeater for diffusion, the first-level intermediate signal repeater sends out the stock inventory signals after receiving the stock inventory signals, if the second-level intermediate signal repeater receives the stock inventory signals, the stock inventory signals are sent out, each subsequent intermediate signal repeater receiving the stock inventory signals including the goods state information repeats the transmission process, after the ultimate signal repeater receives the stock inventory signals including the goods state information, whether abnormal alarm conditions exist or not is judged according to the received stock inventory signals, if the abnormal alarm conditions do not exist, stock inventory data is formed, if the abnormal alarm conditions exist, the goods stock inventory terminal is marked and is additionally checked, thereby realizing the stock inventory work, meanwhile, the layout and installation of the N-level intermediate signal repeater are convenient.

Drawings

Fig. 1 is a schematic structural diagram of a cargo safe-disc-library system of a hardware operating environment according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a inventory counting method according to a first embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: after the goods inventory terminal is associated with goods needing to be attended, the goods inventory terminal carries out attendance work, after an inventory program is started, goods state information N0 of the goods is obtained, an inventory signal b0 is sent out, the inventory signal b0 is transmitted to the final signal repeater through an N-level intermediate signal repeater to be diffused, the final signal repeater receives the inventory signal comprising the goods state information N0 and then executes a next step of instruction, the next step of instruction comprises the step of judging whether an abnormal alarm condition exists according to the received inventory signal, if the abnormal alarm condition does not exist, the inventory signal b0 forms inventory data, if the abnormal alarm condition exists, the goods inventory terminal with the abnormal alarm condition is marked, and the marked goods inventory terminal carries out additional inventory.

As shown in fig. 1, fig. 1 is a schematic structural diagram of a cargo secure storage system in a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the goods security inventory system may include: a processor 1001 (e.g., CPU), a network interface 1004, a user interface 1003, a memory 1005, and a communication bus 1002. A communication bus 1002 is used to enable connection communications between these components. The user interface 1003 may include a Display screen (Display), an input unit, and the input unit may be a Keyboard (Keyboard), and optionally the user interface 1003 may also include a standard wired interface and a wireless interface. Optionally, the network interface 1004 may include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001 described previously.

Optionally, the cargo safe inventory system may further include a camera, a Radio Frequency (RF) circuit, a sensor, an audio circuit, a Wi-Fi module, and the like. Such as light sensors, motion sensors, shock sensors, and others. Specifically, the vibration sensor is triggered according to the received vibration signal, and the light sensor may include an ambient light sensor and a proximity sensor, wherein the ambient light sensor may adjust the brightness of the display screen according to the brightness of ambient light, and the proximity sensor may turn off the display screen and/or the backlight when the mobile terminal moves to the ear. As one of the motion sensors, the gravity acceleration sensor may detect the magnitude of acceleration in each direction (generally, three axes), detect the magnitude and direction of gravity when the mobile terminal is stationary, and may be used for applications (such as horizontal and vertical screen switching, related games, magnetometer attitude calibration), vibration recognition related functions (such as pedometer and tapping), and the like, where of course, the mobile terminal may also be configured with other sensors such as a gyroscope, a barometer, a hygrometer, a thermometer, and an infrared sensor, and details thereof are not repeated herein.

Those skilled in the art will appreciate that the configuration of the cargo secure warehousing system shown in fig. 1 does not constitute a limitation of the cargo secure warehousing system and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a storage medium, may include therein an operating system, a network communication module, a user interface module, and a disc library program.

In the cargo safe-disc-library system shown in fig. 1, the network interface 1004 is mainly used for connecting with the PC end and performing data communication with the PC end; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be configured to call a disc library program stored in the memory 1005 and perform the following operations:

s10 associates a watch: associating the goods inventory terminal with goods to be attended;

s20 start disc library: after the cargo state information n0 of the cargo is acquired, a stock checking signal b0 is sent out, and the stock checking signal b0 comprises cargo state information n 0;

s30, reporting the disc library data: the disc library signal b0 is transmitted through the N-level intermediate signal repeater and is diffused to the final signal repeater, and the first-level intermediate signal repeater receives the disc library signal b0 and then sends out a disc library signal c 1;

if the second-level intermediate signal repeater receives the inventory signal c1, the second-level intermediate signal repeater sends an inventory signal c2, and each subsequent intermediate signal repeater which receives the inventory signal containing the cargo state information n0 repeats the transmission process;

s40 checking the inventory data: after the ultimate signal repeater receives the inventory signal comprising the cargo state information n0, executing a next step instruction;

the next step of the instruction comprises the steps of judging whether an abnormal alarming condition exists according to the received inventory signals, forming inventory data by the inventory signals b0 if no abnormal alarming condition exists, marking the goods inventory terminal with the abnormal alarming condition if the abnormal alarming condition exists, and checking the marked goods inventory terminal additionally.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

the scanning equipment reads an electronic device installed on the goods to acquire goods information and writes the goods information into the goods inventory terminal;

or the goods information is directly written into the goods inventory terminal;

or the goods information is directly input into the goods inventory terminal.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

and the goods inventory terminal automatically starts the inventory.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

and the goods inventory terminal starts the inventory according to the inventory command a0, and after receiving the inventory command a0, the goods inventory terminal starts the inventory to acquire the goods state information n0 and sends an inventory signal b 0.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

the N-level intermediate signal repeater starts the disc library by itself and issues a disc library command a 0.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

the background server automatically starts the disc library and sends a disc library command a0 to the ultimate signal repeater, and the disc library command a0 is diffused to the goods disc library terminal through the N-level intermediate signal repeater.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

the background server acquires information of the goods inventory terminal needing inventory and sends an inventory command a0 to the ultimate signal repeater, wherein the inventory command a0 comprises the information of the goods inventory terminal needing inventory;

and/or the next step of instructing further comprises the step that the ultimate signal repeater reports the received inventory signals comprising the cargo state information n0 to the background server, the background server judges whether an abnormal alarm condition exists or not according to the received inventory signals, if no abnormal alarm condition exists, the inventory signals b0 form inventory data, if an abnormal alarm condition exists, the cargo inventory terminals with the abnormal alarm condition are marked, and the marked cargo inventory terminals are subjected to additional inventory checking.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

the self-starting disc library comprises:

setting the time of each disc library, starting the disc library when the time of the disc library is up, or starting the disc library randomly.

Further, the processor 1001 may call a disc library program stored in the memory 1005, and also perform the following operations:

after receiving the disc library signal b0, the first-level intermediate signal repeater sends out a disc library signal c1, the content c1 comprises a content b0, and then sends out a reply signal c12, the content c12 comprises a content which has received the disc library signal b0, and after receiving the reply signal c12, the goods disc library terminal stops or does not send out the disc library signal b0 any more;

if the second-level intermediate signal repeater receives the disc library signal c1, the second-level intermediate signal repeater sends out a disc library signal c2, the content c2 comprises the content c1, and then sends out a reply signal c22, the content c22 comprises the content of the received disc library signal c1, after the first-level intermediate signal repeater receives the reply signal c22, the first-level intermediate signal repeater stops sending out the disc library signal c1 or does not send out the disc library signal any more, and each subsequent intermediate signal repeater which receives the disc library signal comprising the content b0 repeats the above transfer process;

or, after receiving the disc library signal b0, the first-level intermediate signal repeater sends a disc library signal c13, the content c13 includes the content b0 and the content that has received the disc library signal b0, and after receiving the disc library signal c13, the cargo disc library terminal stops or no longer sends the disc library signal b 0;

if the second level intermediate signal repeater receives the disc library signal c1, it sends out the disc library signal c23, the content c23 includes the content c1 and the content that has received the disc library signal c1, after the first level intermediate signal repeater receives the disc library signal c23, it stops or no longer sends out the disc library signal c1, and each subsequent intermediate signal repeater that receives the disc library signal including the content b0 repeats the above transfer process.

In the invention, the goods safe inventory system can be applied to the inventory of bank warehouses, such as a plurality of stacked cash stacks in a bank area, cash can be stacked together to form the cash stacks after being packaged by packaging bags, goods inventory terminals can be arranged behind the cash stacks, above the cash stacks or below the cash stacks, each goods inventory terminal can be associated with one cash stack, and a plurality of centralized inventory of scattered cash stacks can be realized by using a plurality of goods inventory terminals. Of course, the goods safety inventory system can also be used in other places where inventory goods or articles are needed, such as one or more vehicles in a parking lot/inventory, goods in a supermarket storage room, valuable articles such as luggage needed by a hotel lobby, scientific and technical products displayed in a display stand or a display cabinet, valuable articles and valuable products displayed inside and outside a museum, goods in a freight temporary storage place, or other inventory where people are prohibited from touching the products to prevent damage to the goods in the lost place.

Based on the structural schematic diagram of the cargo safety inventory taking system, the embodiment of the inventory taking method based on the cargo safety inventory taking system is provided.

Referring to fig. 2, in this embodiment, the inventory checking method is applied to a cargo safety inventory system, the cargo safety inventory system includes at least one cargo inventory terminal, N-level intermediate signal repeaters, and at least one final signal repeater, each cargo inventory terminal and the final signal repeater transmit wireless signals through the N-level intermediate signal repeaters, the intermediate signal repeater within the reach of the wireless signal sent by each cargo inventory terminal is named as a first-level intermediate signal repeater thereof, each level includes at least one intermediate signal repeater, the intermediate signal repeater within the reach of the wireless signal sent by each intermediate signal repeater is named as a next-level intermediate signal repeater thereof, each cargo inventory terminal, each intermediate signal repeater and each final signal repeater have unique ID identification numbers, and the inventory checking method comprises the following steps:

step S10 associates a watch: associating the goods inventory terminal with goods to be attended;

in this embodiment, the goods inventory terminal can be associated with the goods needing to be attended in a plurality of ways, specifically, the scanning device can read the electronic device installed on the goods to acquire the goods information, and write the goods information into the goods inventory terminal, or the goods information can be directly written into the goods inventory terminal, or the goods information can be directly entered into the goods inventory terminal. Therefore, the goods inventory terminal stores the on-duty goods information, and the goods information comprises one or more of the category, the quantity, the specification, the production date, the manufacturer and the like of the goods.

Step S20 starts the disc library: after the cargo state information n0 of the cargo is acquired, a stock checking signal b0 is sent out, and the stock checking signal b0 comprises cargo state information n 0;

in this embodiment, the goods inventory terminal starts an inventory by itself or starts the inventory according to a received inventory command, acquires the goods state information n0 stored inside, and sends an inventory signal b 0.

Step S30, reporting disc library data: the disc library signal b0 is transmitted through the N-level intermediate signal repeater and is diffused to the final signal repeater, and the first-level intermediate signal repeater receives the disc library signal b0 and then sends out a disc library signal c 1;

if the second-level intermediate signal repeater receives the inventory signal c1, the second-level intermediate signal repeater sends an inventory signal c2, and each subsequent intermediate signal repeater which receives the inventory signal containing the cargo state information n0 repeats the transmission process;

in this embodiment, the disc library signal c2 may be transmitted to the final-stage signal repeater through the first-stage intermediate signal repeater, may be transmitted to the final-stage signal repeater through the first-stage and second-stage intermediate signal repeaters, or may be transmitted through two or more intermediate signal repeaters, and the method of transmitting the disc library signal by the intermediate signal repeater of the subsequent stage is the method of transmitting the disc library signal by the repeater of the previous stage.

S40 checking the inventory data: after the ultimate signal repeater receives the inventory signal comprising the cargo state information n0, executing a next step instruction;

the next step of the instruction comprises the steps of judging whether an abnormal alarming condition exists according to the received inventory signals, forming inventory data by the inventory signals b0 if no abnormal alarming condition exists, marking the goods inventory terminal with the abnormal alarming condition if the abnormal alarming condition exists, and checking the marked goods inventory terminal additionally.

In this embodiment, in the case of no abnormal alarm, the disc library signal b0 forms the initial disc library data, and the data is real and valid. In one embodiment, two intermediate signal repeaters can be electrically connected by wire, a wireless signal sent by each goods inventory terminal is transmitted to the final signal repeater through the N-level intermediate signal repeaters, at least two intermediate signal repeaters are electrically connected by wire, and/or the final signal repeater and at least one intermediate signal repeater are electrically connected by wire.

Specifically, in the step of associating the watch:

the scanning equipment reads an electronic device installed on the goods to acquire goods information and writes the goods information into the goods inventory terminal;

or the goods information is directly written into the goods inventory terminal;

or the goods information is directly input into the goods inventory terminal.

Further, the goods inventory terminal automatically starts the inventory.

Specifically, the goods inventory terminal starts an inventory according to the inventory command a0, and after receiving the inventory command a0, the goods inventory terminal starts the inventory to acquire goods state information n0 and sends an inventory signal b 0.

Alternatively, the N-level intermediate signal repeater starts the disc library by itself and issues a disc library command a 0.

Or the background server automatically starts the disc library and sends a disc library command a0 to the ultimate signal repeater, and the disc library command a0 is diffused to the goods disc library terminal through the N-level intermediate signal repeater.

Specifically, the background server acquires information of the goods inventory terminal needing inventory, and sends an inventory command a0 to the ultimate signal repeater, wherein the inventory command a0 includes information of the goods inventory terminal needing inventory;

and/or the next step of instructing further comprises the step that the ultimate signal repeater reports the received inventory signals comprising the cargo state information n0 to the background server, the background server judges whether an abnormal alarm condition exists or not according to the received inventory signals, if no abnormal alarm condition exists, the inventory signals b0 form inventory data, if an abnormal alarm condition exists, the cargo inventory terminals with the abnormal alarm condition are marked, and the marked cargo inventory terminals are subjected to additional inventory checking.

Further, the self-starting disc library comprises:

setting the time of each disc library, starting the disc library when the time of the disc library is up, or starting the disc library randomly.

Further, after receiving the disc library signal b0, the first-stage intermediate signal repeater sends out a disc library signal c1, the content c1 comprises a content b0, and then sends out a reply signal c12, the content c12 comprises a content which has received the disc library signal b0, and after receiving the reply signal c12, the goods disc library terminal stops or no longer sends out the disc library signal b 0;

if the second-level intermediate signal repeater receives the disc library signal c1, the second-level intermediate signal repeater sends out a disc library signal c2, the content c2 comprises the content c1, and then sends out a reply signal c22, the content c22 comprises the content of the received disc library signal c1, after the first-level intermediate signal repeater receives the reply signal c22, the first-level intermediate signal repeater stops sending out the disc library signal c1 or does not send out the disc library signal any more, and each subsequent intermediate signal repeater which receives the disc library signal comprising the content b0 repeats the above transfer process;

or, after receiving the disc library signal b0, the first-level intermediate signal repeater sends a disc library signal c13, the content c13 includes the content b0 and the content that has received the disc library signal b0, and after receiving the disc library signal c13, the cargo disc library terminal stops or no longer sends the disc library signal b 0;

if the second level intermediate signal repeater receives the disc library signal c1, it sends out the disc library signal c23, the content c23 includes the content c1 and the content that has received the disc library signal c1, after the first level intermediate signal repeater receives the disc library signal c23, it stops or no longer sends out the disc library signal c1, and each subsequent intermediate signal repeater that receives the disc library signal including the content b0 repeats the above transfer process.

Further, the disc library signal sent by each intermediate signal repeater comprises an ID identification number of the disc library signal;

and/or the goods inventory terminal periodically sleeps and wakes up completely, and is in a wake-up state when in inventory, or the goods inventory terminal wakes up completely all the time;

and/or the intermediate signal repeater is periodically dormant and fully awake and is in an awakening state during inventory or is always fully awake.

In this embodiment, the ID identification number is used to identify the identities of the goods inventory terminal, the intermediate signal repeater and the ultimate signal repeater, so that it is convenient to find which goods inventory terminal and inventory signal sent by the intermediate signal repeater are reported to which transmission path of the ultimate signal repeater, so as to quickly and accurately find the location of the goods or the pile to be checked according to the location of each goods inventory terminal and intermediate signal repeater, and even if the inventory signal is not transmitted to the ultimate signal repeater, it is also possible to find out which intermediate signal repeater the inventory signal is transmitted to, thereby specifically removing the fault.

In order to further save power and prolong the service life, the goods inventory terminal is periodically dormant and fully awake and is in an awakening state when in inventory or is always fully awake;

in order to further save power and prolong the service life, the intermediate signal repeater periodically sleeps and wakes up completely and is in a wake-up state when in inventory, or the intermediate signal repeater wakes up completely all the time.

In this embodiment, the inventory may be scheduled every hour, every day, every month, every year, or more, according to the specific requirements of the inventory-required inventory situation. For example, valuables in a vault for long-term storage may need to be stocked once per month. The goods inventory terminal and the intermediate signal repeater can be in scheduled timed on-duty communication, so that when the goods inventory terminal and the intermediate signal repeater are in scheduled on-duty time, the goods inventory terminal and the intermediate signal repeater are in a full-awake state. In other embodiments, both the cargo inventory terminal and the intermediate signal repeater may be fully awake at all times.

The present invention also provides a inventory system, including: the goods inventory terminal can watch the safety of the discrete goods;

intermediate signal repeaters, the intermediate signal repeaters between adjacent ones communicate wirelessly or by wire;

the terminal signal repeater is provided with a power interface and/or a battery, and the battery is a replaceable or non-replaceable battery; and

a background server;

wherein the disc library system is capable of implementing the steps of the disc library inventory method of any one of claims 1 to 8.

Furthermore, the present invention also provides a storage medium having a disc library program stored thereon, where the disc library program, when executed by a processor, implements the following operations:

s10 associates a watch: associating the goods inventory terminal with goods to be attended;

s20 start disc library: after the cargo state information n0 of the cargo is acquired, a stock checking signal b0 is sent out, and the stock checking signal b0 comprises cargo state information n 0;

s30, reporting the disc library data: the disc library signal b0 is transmitted through the N-level intermediate signal repeater and is diffused to the final signal repeater, and the first-level intermediate signal repeater receives the disc library signal b0 and then sends out a disc library signal c 1;

if the second-level intermediate signal repeater receives the inventory signal c1, the second-level intermediate signal repeater sends an inventory signal c2, and each subsequent intermediate signal repeater which receives the inventory signal containing the cargo state information n0 repeats the transmission process;

s40 checking the inventory data: after the ultimate signal repeater receives the inventory signal comprising the cargo state information n0, executing a next step instruction;

the next step of the instruction comprises the steps of judging whether an abnormal alarming condition exists according to the received inventory signals, forming inventory data by the inventory signals b0 if no abnormal alarming condition exists, marking the goods inventory terminal with the abnormal alarming condition if the abnormal alarming condition exists, and checking the marked goods inventory terminal additionally.

Further, the disc library program, when executed by the processor, further performs the following operations:

the scanning equipment reads an electronic device installed on the goods to acquire goods information and writes the goods information into the goods inventory terminal;

or the goods information is directly written into the goods inventory terminal;

or the goods information is directly input into the goods inventory terminal.

Further, the disc library program, when executed by the processor, further performs the following operations:

and the goods inventory terminal automatically starts the inventory.

Further, the disc library program, when executed by the processor, further performs the following operations:

and the goods inventory terminal starts the inventory according to the inventory command a0, and after receiving the inventory command a0, the goods inventory terminal starts the inventory to acquire the goods state information n0 and sends an inventory signal b 0.

Further, the disc library program, when executed by the processor, further performs the following operations:

the N-level intermediate signal repeater starts the disc library by itself and issues a disc library command a 0.

Further, the disc library program, when executed by the processor, further performs the following operations:

the background server automatically starts the disc library and sends a disc library command a0 to the ultimate signal repeater, and the disc library command a0 is diffused to the goods disc library terminal through the N-level intermediate signal repeater.

Further, the disc library program, when executed by the processor, further performs the following operations:

the background server acquires information of the goods inventory terminal needing inventory and sends an inventory command a0 to the ultimate signal repeater, wherein the inventory command a0 comprises the information of the goods inventory terminal needing inventory;

and/or the next step of instructing further comprises the step that the ultimate signal repeater reports the received inventory signals comprising the cargo state information n0 to the background server, the background server judges whether an abnormal alarm condition exists or not according to the received inventory signals, if no abnormal alarm condition exists, the inventory signals b0 form inventory data, if an abnormal alarm condition exists, the cargo inventory terminals with the abnormal alarm condition are marked, and the marked cargo inventory terminals are subjected to additional inventory checking.

Further, the disc library program, when executed by the processor, further performs the following operations:

the self-starting disc library comprises:

setting the time of each disc library, starting the disc library when the time of the disc library is up, or starting the disc library randomly.

Further, the disc library program, when executed by the processor, further performs the following operations:

after receiving the disc library signal b0, the first-level intermediate signal repeater sends out a disc library signal c1, the content c1 comprises a content b0, and then sends out a reply signal c12, the content c12 comprises a content which has received the disc library signal b0, and after receiving the reply signal c12, the goods disc library terminal stops or does not send out the disc library signal b0 any more;

if the second-level intermediate signal repeater receives the disc library signal c1, the second-level intermediate signal repeater sends out a disc library signal c2, the content c2 comprises the content c1, and then sends out a reply signal c22, the content c22 comprises the content of the received disc library signal c1, after the first-level intermediate signal repeater receives the reply signal c22, the first-level intermediate signal repeater stops sending out the disc library signal c1 or does not send out the disc library signal any more, and each subsequent intermediate signal repeater which receives the disc library signal comprising the content b0 repeats the above transfer process;

or, after receiving the disc library signal b0, the first-level intermediate signal repeater sends a disc library signal c13, the content c13 includes the content b0 and the content that has received the disc library signal b0, and after receiving the disc library signal c13, the cargo disc library terminal stops or no longer sends the disc library signal b 0;

if the second level intermediate signal repeater receives the disc library signal c1, it sends out the disc library signal c23, the content c23 includes the content c1 and the content that has received the disc library signal c1, after the first level intermediate signal repeater receives the disc library signal c23, it stops or no longer sends out the disc library signal c1, and each subsequent intermediate signal repeater that receives the disc library signal including the content b0 repeats the above transfer process.

Further, the disc library program, when executed by the processor, further performs the following operations:

the disc library signal sent by each intermediate signal repeater comprises an ID identification number of the disc library signal;

and/or the goods inventory terminal periodically sleeps and wakes up completely, and is in a wake-up state when in inventory, or the goods inventory terminal wakes up completely all the time;

and/or the intermediate signal repeater is periodically dormant and fully awake and is in an awakening state during inventory or is always fully awake.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system 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 system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (13)

1. A method for checking a disc library is characterized in that,

the inventory checking method is applied to a cargo safety inventory checking system, the cargo safety inventory checking system comprises at least one cargo inventory terminal, N-level intermediate signal repeaters and at least one final signal repeater, wireless signals are transmitted between each cargo inventory terminal and the final signal repeater through the N-level intermediate signal repeaters, an intermediate signal repeater which can be reached by the wireless signals sent by each cargo inventory terminal is named as a first-level intermediate signal repeater of the cargo inventory terminal, each level comprises at least one intermediate signal repeater, an intermediate signal repeater which can be reached by the wireless signals sent by each intermediate signal repeater is named as a next level, and each cargo inventory terminal, each intermediate signal repeater and each final signal repeater have unique ID identification numbers, and the inventory checking method comprises the following steps:

s10 associates a watch: associating the goods inventory terminal with goods needing to be attended;

s20 start disc library: after the cargo state information n0 of the cargo is acquired, a stock checking signal b0 is sent out, wherein the stock checking signal b0 comprises the cargo state information n 0;

s30, reporting the disc library data: the disc library signal b0 is transmitted through an N-level intermediate signal repeater and is diffused to the final signal repeater, and the first-level intermediate signal repeater receives the disc library signal b0 and then sends a disc library signal c 1;

if the second-level intermediate signal repeater receives the inventory signal c1, the second-level intermediate signal repeater sends an inventory signal c2, and each subsequent intermediate signal repeater which receives the inventory signal containing the cargo state information n0 repeats the transmission process;

s40 checking the inventory data: after the ultimate signal repeater receives the inventory signal comprising the cargo state information n0, executing a next step instruction;

the next step of the instruction comprises the steps of judging whether an abnormal alarming condition exists or not according to the received inventory signal, forming inventory data by the inventory signal b0 if no abnormal alarming condition exists, marking the goods inventory terminal with the abnormal alarming condition if the abnormal alarming condition exists, and checking the marked goods inventory terminal additionally.

2. The disc library inventory method of claim 1, wherein the step of associating a watch includes:

the scanning equipment reads an electronic device installed on the goods to acquire goods information and writes the goods information into the goods inventory terminal;

or the goods information is directly written into the goods inventory terminal;

or the goods information is directly input into the goods inventory terminal.

3. The inventory counting method as recited in claim 2,

and the goods inventory terminal automatically starts the inventory.

4. The inventory counting method as recited in claim 2,

and the goods inventory terminal starts an inventory according to an inventory command a0, and after receiving the inventory command a0, the goods inventory terminal starts the inventory to acquire the goods state information n0 and sends an inventory signal b 0.

5. The inventory counting method as recited in claim 4,

the N-level intermediate signal repeater starts a disk library by itself and sends out the disk library command a 0.

6. The inventory counting method as recited in claim 4,

and the background server automatically starts the disc library and sends the disc library command a0 to the final signal repeater, and the disc library command a0 is diffused to the goods disc library terminal through the N-level intermediate signal repeater.

7. The inventory counting method as recited in claim 6,

the background server acquires information of a goods inventory terminal needing inventory, and sends an inventory command a0 to the ultimate signal repeater, wherein the inventory command a0 comprises information of the goods inventory terminal needing inventory;

and/or the next step of instructing further comprises the step that the ultimate signal repeater reports the received inventory signal including the cargo state information n0 to a background server, the background server judges whether an abnormal alarm condition exists according to the received inventory signal, if no abnormal alarm condition exists, the inventory signal b0 forms inventory data, if an abnormal alarm condition exists, the cargo inventory terminal with the abnormal alarm condition is marked, and the marked cargo inventory terminal is additionally checked.

8. The disc library inventory method of any one of claims 3, 5 and 6, wherein the self-starting disc library comprises:

setting the time of each disc library, and starting the disc library when the time of the disc library is up, or starting the disc library randomly.

9. The inventory counting method according to any one of claims 3 to 7,

after receiving the disc library signal b0, the first-level intermediate signal repeater sends out a disc library signal c1, content c1 comprises content b0, and sends out a reply signal c12 again, content c12 comprises the content of the disc library signal b0, and after receiving the reply signal c12, the cargo disc library terminal stops or does not send out the disc library signal b0 any more;

if the second-level intermediate signal repeater receives the disc library signal c1, the second-level intermediate signal repeater sends out a disc library signal c2, the content c2 comprises the content c1, and sends out a reply signal c22 again, the content c22 comprises the content of the disc library signal c1, after the first-level intermediate signal repeater receives the reply signal c22, the first-level intermediate signal repeater stops sending out the disc library signal c1 or does not send out the disc library signal any more, and each subsequent intermediate signal repeater which receives the disc library signal comprising the content b0 repeats the above transfer process;

or, after receiving the disc library signal b0, the first-level intermediate signal repeater sends a disc library signal c13, where the content c13 includes a content b0 and a content that has received the disc library signal b0, and after receiving the disc library signal c13, the cargo disc library terminal stops or no longer sends the disc library signal b 0;

if the second-level intermediate signal repeater receives the disc library signal c1, a disc library signal c23 is sent out, the content c23 comprises the content c1 and the content which has received the disc library signal c1, after the first-level intermediate signal repeater receives the disc library signal c23, the sending of the disc library signal c1 is stopped or not sent out any more, and each subsequent intermediate signal repeater which receives the disc library signal comprising the content b0 repeats the above transfer process.

10. The inventory counting method as recited in claim 9,

the disc library signal sent by each intermediate signal repeater comprises an ID identification number of the disc library signal;

and/or the goods inventory terminal is periodically dormant and fully awake and is in an awakening state when in inventory, or the goods inventory terminal is always fully awake;

and/or the intermediate signal repeater wakes up all the time in a periodic sleep mode and is in a wake-up state during inventory, or the intermediate signal repeater wakes up all the time.

11. A method for checking a disc library is characterized in that,

the inventory checking method is applied to a cargo safety inventory checking system, the cargo safety inventory checking system comprises at least one cargo inventory terminal, N-level intermediate signal repeaters and at least one final signal repeater, wireless signals sent by each cargo inventory terminal are transmitted to the final signal repeater through the N-level intermediate signal repeaters, at least two intermediate signal repeaters are electrically connected through wires, and/or the final signal repeater is electrically connected with at least one intermediate signal repeater through wires, the intermediate signal repeater which can be reached by the wireless signals sent by each cargo inventory terminal is named as a first-level intermediate signal repeater, each level comprises at least one intermediate signal repeater, two intermediate signal repeaters directly transmitting the signals are two adjacent levels, and each cargo inventory terminal, each intermediate signal repeater and each final signal repeater have unique ID identification numbers, the inventory checking method comprises the following steps:

s10 associates a watch: associating the goods inventory terminal with the goods on duty;

s20 start disc library: after the cargo state information n0 of the cargo is acquired, a stock checking signal b0 is sent out, wherein the stock checking signal b0 comprises the cargo state information n 0;

s30, reporting the disc library data: the disc library signal b0 is transmitted to the final signal repeater through an N-level intermediate signal repeater, and the first-level intermediate signal repeater receives the disc library signal b0 and then sends a disc library signal c 1;

if the second-level intermediate signal repeater receives the inventory signal c1, the second-level intermediate signal repeater sends an inventory signal c2, and each subsequent intermediate signal repeater which receives the inventory signal containing the cargo state information n0 repeats the transmission process;

s40 checking the inventory data: after the ultimate signal repeater receives the inventory signal comprising the cargo state information n0, executing a next step instruction;

the next step of the instruction comprises the steps of judging whether an abnormal alarming condition exists or not according to the received inventory signal, forming inventory data by the inventory signal b0 if no abnormal alarming condition exists, marking the goods inventory terminal with the abnormal alarming condition if the abnormal alarming condition exists, and checking the marked goods inventory terminal additionally.

12. A disc library system, comprising:

the goods inventory terminal can watch the safety of the discrete goods;

intermediate signal repeaters, the intermediate signal repeaters between adjacent ones communicate wirelessly or by wire;

a final signal repeater having a power interface and/or having a battery, the battery being a replaceable or non-replaceable battery; and

a background server;

wherein the disc library system is capable of implementing the steps of the disc library inventory method of any one of claims 1 to 8.

13. A storage medium, characterized in that the storage medium has stored thereon a program of a disc library inventory method, which when executed by a processor implements the steps of the disc library inventory method according to any one of claims 1 to 8.

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