阅读说明：本技术 无线防溜器具、防溜器具收纳设备、系统和控制方法 (Wireless anti-slip device, anti-slip device storage equipment, system and control method ) 是由 梁长河 杨鹏涛 黄海才 殷德权 黄辉 于 2019-09-23 设计创作，主要内容包括：本申请涉及无线防溜器具、防溜器具收纳设备、系统和控制方法。无线防溜器具包括器具本体、感应开关和有源无线单元。感应开关和有源无线单元分别设置在器具本体上。感应开关的输出端电连接有源无线单元的供电端。感应开关的输入端用于电连接供电源。感应开关用于在器具本体存入防溜器具收纳设备时,接通供电源对有源无线单元通电。有源无线单元用于在上电后将器具本体的器具标识号无线发送给防溜器具收纳设备的无线接收单元。通过在器具本体上设置感应开关和有源无线单元,有源无线单元上电后自动将器具本体的器具标识号发送给防溜器具收纳设备的无线接收单元,监测无线防溜器具的归箱情况,有效提高防溜器具归箱的监测效率。(The application relates to a wireless anti-slide device, an anti-slide device storage facility, a system and a control method. The wireless anti-slide device comprises a device body, an inductive switch and an active wireless unit. The inductive switch and the active wireless unit are respectively arranged on the appliance body. The output end of the inductive switch is electrically connected with the power supply end of the active wireless unit. The input end of the inductive switch is used for being electrically connected with a power supply. The inductive switch is used for switching on the power supply to electrify the active wireless unit when the appliance body is stored in the anti-slip appliance storage equipment. The active wireless unit is used for wirelessly sending the appliance identification number of the appliance body to the wireless receiving unit of the anti-slip appliance containing equipment after being electrified. Through set up inductive switch and active wireless unit on the utensil body, the automatic utensil identification number with the utensil body of active wireless unit after the electricity sends the wireless receiving unit for preventing swift current utensil storage device, monitors the wireless case circumstances of returning to the box of preventing swift current utensil, effectively improves the monitoring efficiency that prevents swift current utensil case that returns to the box.)

1. A wireless anti-slide appliance is characterized by comprising an appliance body, an induction switch and an active wireless unit, wherein the induction switch and the active wireless unit are respectively arranged on the appliance body;

the output end of the inductive switch is electrically connected with the power supply end of the active wireless unit, and the input end of the inductive switch is electrically connected with a power supply;

the induction switch is used for switching on the power supply source to electrify the active wireless unit when the appliance body is stored in the anti-slip appliance storage equipment, and the active wireless unit is used for wirelessly sending the appliance identification number of the appliance body to the wireless receiving unit of the anti-slip appliance storage equipment after being electrified.

2. The wireless anti-creep device according to claim 1, wherein the active wireless unit comprises a low power consumption rf chip and an antenna, a power supply terminal of the low power consumption rf chip is electrically connected to the output terminal of the inductive switch, and a signal terminal of the low power consumption rf chip is electrically connected to the antenna.

3. The wireless anti-creep device according to claim 2, wherein the low power radio frequency chip is a bluetooth chip.

4. The wireless anti-roll apparatus according to any one of claims 1 to 3, wherein the inductive switch is a reed switch, and the reed switch is configured to turn on the active wireless unit and the power supply source when sensing a box return magnet of the anti-roll apparatus storage device.

5. The wireless anti-slip apparatus according to claim 4, further comprising a power control unit, wherein the output terminal of the inductive switch is electrically connected to the power supply terminal of the active wireless unit through the power control unit, and the power control unit is configured to control the power supply source to stably supply power to the active wireless unit.

6. The wireless anti-skid device of claim 5, wherein the power control unit is an LDO power chip.

7. The anti-slip device storage equipment is characterized by comprising a box body, a wireless receiving unit, a main control unit and a background access unit, wherein the wireless receiving unit, the main control unit and the background access unit are respectively arranged on the box body, the main control unit is respectively and electrically connected with the wireless receiving unit and the background access unit, and the background access unit is used for being in communication connection with a monitoring center;

the wireless receiving unit is used for receiving an appliance identification number sent by an active wireless unit on the wireless anti-slip appliance when the wireless anti-slip appliance is stored in the box body; the appliance identification number corresponds to the wireless anti-sliding appliance;

the main control unit is used for sending the appliance identification number to the monitoring center through the background access unit after acquiring the appliance identification number output by the wireless receiving unit.

8. The device for housing an anti-skid device according to claim 7, further comprising a power management unit electrically connected to the main control unit for power supply management of the main control unit.

9. The anti-skid device storage apparatus according to claim 7 or 8, further comprising a box returning magnet provided on the box body, the box returning magnet being configured to trigger an inductive switch of the wireless anti-skid device to be closed.

10. The anti-skid device storage apparatus according to claim 9, further comprising a storage limiting portion, wherein the case returning magnet is mounted on the storage limiting portion or a case cover of the case body;

the storage limiting part is used for being matched with the box returning limiting part of the appliance body in the wireless anti-slip appliance so as to load the wireless anti-slip appliance.

11. The device for receiving an anti-skid device according to claim 9, further comprising a card reader electrically connected to the main control unit for reading user information of the identification card.

12. The anti-creep device storage apparatus according to claim 10 or 11, wherein the wireless receiving unit is a bluetooth receiving circuit, the main control unit includes a single chip microcomputer or a central processing unit, and the background access unit is a wireless communication module.

13. An anti-slide device management system comprising a monitoring center, and the wireless anti-slide device according to any one of claims 1 to 6 and the anti-slide device storage apparatus according to any one of claims 7 to 12;

and the monitoring center is used for recording the box returning information of the wireless anti-slip device corresponding to the device identification number when receiving the device identification number sent by the background access unit of the anti-slip device storage equipment.

14. The system according to claim 13, wherein the monitoring center includes a monitoring host and a display device, the display device is electrically connected to the monitoring host, and the monitoring host is communicatively connected to the background access unit;

the monitoring host is used for receiving the appliance identification number, recording the box returning information and outputting the position information of the wireless anti-slip appliance to the display device according to the box returning information, and the display device is used for carrying out visual position display on the wireless anti-slip appliance according to the position information.

15. The system according to claim 14, further comprising an identification card for transmitting user information to a card reader of the device for receiving the anti-slide device; the user information corresponds to the wireless anti-slide device which is currently subjected to the access action;

and the monitoring host is also used for recording the ledger data of the wireless anti-slip device according to the user information and the device identification number after receiving the user information sent by the background access unit.

16. An anti-slide device storage control method, characterized by comprising the steps of:

acquiring an appliance identification number of a wireless anti-slip appliance; the device identification number is an identification number sent by an active wireless unit of the wireless anti-slip device when the wireless anti-slip device is stored in anti-slip device storage equipment;

sending the appliance identification number to a monitoring center; the appliance identification number is used for indicating the monitoring center to record the box returning information of the wireless anti-sliding appliance.

17. The anti-roll storage control method according to claim 16, further comprising, before the step of acquiring an appliance identification number of the wireless anti-roll, the step of:

after receiving an unlocking signal of the anti-creep device containing equipment, acquiring user information of an identity identification card; the user information is used for associating the appliance identification number and transmitting the appliance identification number to the monitoring center;

after receiving a locking signal of the anti-slip device storage equipment, receiving a wireless signal of the active wireless unit; the wireless signal carries the appliance identification number.

18. The method of claim 17, further comprising:

when detecting that abnormal components exist in the anti-slip device containing equipment, sending alarm information to the monitoring center; and the alarm information is used for indicating the monitoring center to carry out abnormal alarm.

19. An anti-slide device storage control device, comprising:

the acquisition module is used for acquiring the appliance identification number of the wireless anti-slip appliance; the device identification number is an identification number sent by an active wireless unit of the wireless anti-slip device when the wireless anti-slip device is stored in anti-slip device storage equipment;

the sending module is used for sending the appliance identification number to a monitoring center; the appliance identification number is used for indicating the monitoring center to record the box returning information of the wireless anti-sliding appliance.

20. A computer-readable storage medium having a computer program stored thereon, wherein the computer program when executed by a processor implements the steps of the anti-skid device storage control method according to any one of claims 16 to 18.

Technical Field

The application relates to the technical field of railway equipment, in particular to a wireless anti-slip device, an anti-slip device storage device, a system and a control method.

Background

With the continuous development of railway equipment technology, the railway raises higher requirements for operation safety indexes and safety performance of railway equipment. The anti-slide operation is an important link of station safety card control, and the inventory management of the anti-slide equipment plays an important role in the operation safety of the station. Both the iron shoes and the anti-slip fasteners are anti-slip devices for preventing the train from slipping, and are also the most common anti-slip equipment, and the anti-slip devices can be safely stored, borrowed, returned and the like, so that closed-loop management of the anti-slip devices can be realized.

In the conventional access management of the anti-slide device, whether the anti-slide device is returned to a box or not is detected by arranging an RIFD tag and a two-dimensional code tag on the anti-slide device or adopting other passive contact or non-contact modes and the like. However, in the process of implementing the present invention, the inventor finds that in the conventional access management method of the anti-slide device, at least, the monitoring efficiency of the anti-slide device is not high.

Disclosure of Invention

In view of the above, it is necessary to provide a wireless anti-slide device, an anti-slide device storage facility, an anti-slide device management system, an anti-slide device storage control method, an anti-slide device storage control device, and a computer-readable storage medium, which can greatly improve the monitoring efficiency of the anti-slide device, in view of the problems in the conventional anti-slide device access management system.

In order to achieve the purpose, the embodiment of the invention adopts the following technical scheme:

on one hand, the embodiment of the invention provides a wireless anti-sliding device which comprises a device body, an inductive switch and an active wireless unit, wherein the inductive switch and the active wireless unit are respectively arranged on the device body;

the output end of the inductive switch is electrically connected with the power supply end of the active wireless unit, and the input end of the inductive switch is electrically connected with a power supply;

the inductive switch is used for switching on the power supply to electrify the active wireless unit when the appliance body is stored in the anti-slip appliance storage equipment, and the active wireless unit is used for wirelessly sending the appliance identification number of the appliance body to the wireless receiving unit of the anti-slip appliance storage equipment after being electrified.

On the other hand, the anti-slip device containing equipment comprises a box body, a wireless receiving unit, a main control unit and a background access unit, wherein the wireless receiving unit, the main control unit and the background access unit are respectively arranged on the box body, the main control unit is respectively and electrically connected with the wireless receiving unit and the background access unit, and the background access unit is used for being in communication connection with a monitoring center;

the wireless receiving unit is used for receiving an appliance identification number sent by an active wireless unit on the wireless anti-slip appliance when the wireless anti-slip appliance is stored in the box body; the appliance identification number corresponds to the wireless anti-sliding appliance;

the main control unit is used for sending the appliance identification number to the monitoring center through the background access unit after acquiring the appliance identification number output by the wireless receiving unit.

In another aspect, an anti-slide apparatus management system is further provided, which includes a monitoring center, the wireless anti-slide apparatus and the anti-slide apparatus storage device;

the monitoring center is used for recording the box returning information of the wireless anti-slip device corresponding to the device identification number when receiving the device identification number sent by the background access unit of the anti-slip device storage equipment.

In another aspect, there is provided a method for controlling storage of an anti-skid device, including the steps of:

acquiring an appliance identification number of a wireless anti-slip appliance; the equipment identification number is an identification number sent by an active wireless unit of the wireless anti-slip equipment when the wireless anti-slip equipment is stored in the anti-slip equipment storage equipment;

sending the appliance identification number to a monitoring center; the appliance identification number is used for indicating the monitoring center to record the box returning information of the wireless anti-sliding appliance.

In still another aspect, there is provided an anti-skid device storage control apparatus including:

the acquisition module is used for acquiring the appliance identification number of the wireless anti-slip appliance; the equipment identification number is an identification number sent by an active wireless unit of the wireless anti-slip equipment when the wireless anti-slip equipment is stored in the anti-slip equipment storage equipment;

the sending module is used for sending the appliance identification number to the monitoring center; the appliance identification number is used for indicating the monitoring center to record the box returning information of the wireless anti-sliding appliance.

In still another aspect, a computer-readable storage medium is provided, on which a computer program is stored, the computer program, when executed by a processor, implementing the steps of the above-described anti-slide apparatus storage control method.

One of the above technical solutions has the following advantages and beneficial effects:

in the wireless anti-slip device, the anti-slip device storage facility, the anti-slip device management system and the control method, the inductive switch and the active wireless unit are arranged on the device body, so that when the device body is stored in the anti-slip device storage facility, the inductive switch can automatically switch on the power supply source, and the power supply source supplies power to the active wireless unit. When the tool body is taken out of the anti-slip tool storage device, the inductive switch can automatically disconnect the power supply source, so that the power supply source stops continuously supplying power to the active wireless unit. After the active wireless unit is powered on, the appliance identification number of the appliance body is automatically sent to the wireless receiving unit of the anti-sliding appliance containing equipment, so that the box returning condition of the wireless anti-sliding appliance is monitored. By adopting the design structure, the condition monitoring of the wireless anti-slip device returning to the box can be rapidly realized, and the monitoring efficiency of the anti-slip device returning to the box is effectively improved.

Drawings

FIG. 1 is a schematic diagram of a wireless anti-creep device according to an embodiment;

FIG. 2 is a schematic view showing another structure of the wireless anti-slip device according to the embodiment;

FIG. 3 is a schematic view showing still another structure of the wireless anti-slip device according to the embodiment;

FIG. 4 is a block diagram of a partial circuit configuration of a wireless anti-creep device according to an embodiment;

FIG. 5 is a block diagram showing a partial circuit configuration of a wireless anti-creep device according to another embodiment;

FIG. 6 is a schematic structural view of an anti-roll apparatus storage facility according to an embodiment;

FIG. 7 is a schematic circuit diagram of an anti-slide device storage apparatus according to an embodiment;

FIG. 8 is a schematic view of an embodiment of a receiving position-limiting portion and a box-returning magnet;

FIG. 9 is a schematic view of another embodiment of the storage position-limiting portion and the box-returning magnet;

FIG. 10 is a schematic circuit diagram of an anti-slide device storage apparatus according to another embodiment;

FIG. 11 is a schematic diagram showing the configuration of an anti-roll device management system according to an embodiment;

FIG. 12 is a schematic structural diagram of an anti-roll device management system according to another embodiment;

FIG. 13 is a first flowchart of a method of controlling the storage of the anti-roll device according to the embodiment;

FIG. 14 is a second flowchart of a control method for storing the anti-skid device according to the embodiment;

FIG. 15 is a third flowchart of a method of controlling the storage of the anti-skid device according to the embodiment;

fig. 16 is a schematic block diagram of an anti-roll device storage control device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In recent years, along with the progress of technology in recent years, there have been anti-slide devices provided with RIFD tags or two-dimensional code tags and other types of anti-slide devices for detecting the return of an anti-slide device to a box. Taking a skate with an RFID tag as an example, based on the characteristics of the RFID tag, when the RFID tag senses a signal of an RFID card reader, the RFID card reader reads tag information from the RFID tag; when the energy sensed by the RFID tag is relatively small, the energy fed back to the RFID reader is relatively small, so that the RFID reader can miss reading of the RFID tag. The scheme of using the RFID tag is easily influenced by the external environment, the material cost is relatively high, and the overall monitoring efficiency is not high. For the purpose of illustrating the present invention, the following examples are described in detail.

Referring to fig. 1, an embodiment of the present invention provides a wireless anti-skid device 100, which includes a device body 12, an inductive switch 14, and an active wireless unit 16. The inductive switch 14 and the active wireless unit 16 are respectively provided on the appliance body 12. The output terminal of the inductive switch 14 is electrically connected to the power supply terminal of the active wireless unit 16. The input terminal of the inductive switch 14 is used for electrically connecting a power supply source. The inductive switch 14 is used to energize the active wireless unit 16 by turning on the power supply when the tool body 12 is stored in the anti-slide tool storage device. The active wireless unit 16 is configured to wirelessly transmit the appliance identification number of the appliance body 12 to the wireless receiving unit of the anti-creep appliance housing apparatus after power-on.

It will be appreciated that the implement body 12 may be an anti-slip skate or an anti-slip fastener of various types of construction known in the art. The inductive switch 14 may be a contact inductive switch 14, a non-contact inductive switch 14, a magnetic switch or other types of inductive switches 14, and the specific type may be selected according to the application requirements, as long as it can sense that the appliance body 12 is returned to the box and generate a corresponding power supply switch function when the appliance body 12 is stored in the anti-slide appliance storage apparatus. Active wireless unit 16 may be any type of low power wireless chip known in the art, such as, but not limited to, any type of radio chip used in low power wide area network (ww an) technology, such as a lora radio, an RPMA (random phase multiple access) radio, or a Sigfox radio. The power supply may be a stand-alone portable power supply, or a mains power supply or other type of power supply, and the input terminal of the inductive switch 14 is directly or indirectly electrically connected to the power supply, so as to control the on/off of the circuit between the power supply and the active wireless unit 16. The anti-slide device storage facility is a storage facility for the wireless anti-slide device 100, and has a wireless signal reception function.

The inductive switch 14 and the active wireless unit 16 may be separately mounted on the device body 12 by discrete components, or integrated into a circuit module, integrally mounted on the device body 12 by welding, bonding, screwing, clipping on the outer surface of the device body 12, or embedded in the device body 12. The specific mounting position and mounting manner of the inductive switch 14 and the active wireless unit 16 on the appliance body 12 can be selected according to the specific structure of the appliance body 12 used in practical applications, as long as the inductive switch 14 and the active wireless unit 16 can be effectively fixed, and the normal anti-slide operation of the appliance body 12 is not hindered, or the inductive switch 14 and the active wireless unit 16 are prevented from being damaged by the anti-slide operation. The appliance identification number is a unique identification number of the appliance body 12 (also representing the wireless anti-slide appliance 100), and may also be referred to as an ID number of the wireless anti-slide appliance 100. Fig. 2 shows an application example of the device body 12 being a conventional anti-slip skate in the field, fig. 3 shows an application example of the device body 12 being a conventional anti-slip fastener in the field, and it should be noted that the positions of the components in the foregoing application examples are only schematic and are not limited to actual installation positions.

Specifically, when the anti-skid device storage apparatus is taken out of the device body 12 and used for anti-skid work of a railway train, the inductive switch 14 can control the active wireless unit 16 to cut off the current between the active wireless unit 16 and the power supply source, and the active wireless unit 16 is not operated when power is off. When the tool body 12 is returned to the box and stored after the anti-slide operation or the maintenance operation is completed, the power supply source is turned on to energize the active wireless unit 16 only by placing the tool body 12 in the anti-slide tool storage facility and sensing that the tool body 12 is returned to the box by the inductive switch 14. After the active wireless unit 16 is powered on, the pre-stored appliance identification number of the appliance body 12 is automatically and wirelessly sent to the wireless receiving unit of the anti-slide appliance storage device, so that after the main control unit of the anti-slide appliance storage device can receive the appliance identification number, the condition that the appliance body 12 is returned to the box is recorded or the appliance identification number is reported to the monitoring center of the railway station, so as to record the condition that the appliance body 12 is returned to the box, such as whether the appliance body is returned to the box or not, the time of returning to the box and the like.

In the above-described wireless antislip device 100, the inductive switch 14 and the active wireless unit 16 are provided in the device main body 12, so that when the device main body 12 is stored in the antislip device housing apparatus, the inductive switch 14 automatically turns on the power supply source to supply power to the active wireless unit 16. When the tool body 12 is taken out of the anti-slip tool storage device, the inductive switch 14 automatically turns off the power supply source, and the power supply source stops continuing to supply power to the active wireless unit 16. When the active wireless unit 16 is powered on, the device identification number of the device body 12 is automatically transmitted to the wireless receiving unit of the anti-slide device storage apparatus, so as to monitor the case returning condition of the wireless anti-slide device 100. By adopting the design structure, the condition monitoring of the wireless anti-slip device 100 returning to the box can be rapidly realized, and the monitoring efficiency of the wireless anti-slip device returning to the box is effectively improved.

Referring to fig. 4, in one embodiment, the active wireless unit 16 includes a low power rf chip 162 and an antenna 164. The power supply terminal of the low power consumption rf chip 162 is electrically connected to the output terminal of the inductive switch 14. The signal end of the low power consumption rf chip 162 is electrically connected to the antenna 164.

It can be understood that the low power consumption rf chip 162 and the antenna 164 may be separately disposed, or may be integrally packaged on the same PCB circuit substrate, and may be specifically selected according to the installation requirement. The shape, size, etc. of the antenna 164 may be determined according to installation and application requirements, and is not limited in this specification. Specifically, after the power supply of the inductive switch 14 is turned on, the low-power consumption rf chip 162 may output the pre-stored appliance identification number to the antenna 164 in the form of an rf signal, and the rf signal is converted by the antenna 164 and then transmitted. In this way, after the wireless receiving unit of the anti-slide apparatus storage device receives the wireless signal transmitted by the antenna 164, the wireless receiving unit can directly perform signal conversion to obtain the apparatus identification number or convert the wireless signal into a digital signal, and then output the digital signal to the main control unit of the anti-slide apparatus storage device, and the main control unit of the anti-slide apparatus storage device reads the apparatus identification number in the signal.

Through foretell low-power consumption chip and antenna 164, can realize fast and prevent the wireless communication between the wireless receiving unit of swift current utensil storage device, can send the utensil identification number to preventing swift current utensil storage device through antenna 164 after the low-power consumption chip is gone up the electricity, realize the wireless transmission of efficient utensil identification number, effectively avoid traditional passive monitoring lower problem of efficiency, promote the wireless monitoring efficiency who prevents swift current utensil case that returns, and the cost is lower.

In one embodiment, the low power rf chip 162 is a bluetooth chip. It can be understood that, in this embodiment, a bluetooth chip may be specifically adopted as the low power consumption rf chip 162, so that a standard bluetooth communication protocol is applied to perform wireless transmission of the appliance identification number. So, bluetooth chip and antenna 164 can constitute active bluetooth label and set up on utensil body 12, and utensil identification number can prestore in the bluetooth chip, will use the frequency of bluetooth communication protocol to externally transmit utensil identification number through antenna 164 after the bluetooth chip is electrified. Those skilled in the art can understand that the wireless receiving unit of the anti-slide apparatus receiving device may also adopt a bluetooth receiving circuit, so as to receive the bluetooth wireless signal transmitted by the bluetooth chip through the antenna 164, so as to read the apparatus identification number carried in the bluetooth wireless signal.

Through adopting the bluetooth chip to carry out the wireless transmission of utensil identification number, the application cost is not high, good reliability and low power dissipation, can effectively improve the wireless transmission efficiency of utensil identification number to promote the monitoring efficiency and the degree of accuracy that anti-creep utensil returned to the case.

In one embodiment, inductive switch 14 is a reed switch. The reed switch is used for inducing a box returning magnet of the anti-slip device storage equipment and then connecting the active wireless unit 16 with a power supply.

It is understood that in the present embodiment, a reed switch in the art can be used to sense whether the appliance body 12 is returned to the box, and the type of the reed switch can be selected according to the application cost, the switch wiring mode, and the like. Specifically, whether utensil body 12 returns to the box is induced to reed switch among the magnetic switch to the on-off control in-process between power supply and the active wireless unit 16 is carried out to the correspondence, reed switch deposits along with utensil body 12 in anti-slide utensil storage device, and when making reed switch be close to the box return magnet of anti-slide utensil storage device, under the magnetic force effect of box return magnet, reed switch is closed, thereby switch-on power supply and active wireless unit 16 (like the bluetooth chip), make the bluetooth chip go up the electricity work, and the utensil identification number of utensil body 12 is outwards launched through antenna 164.

Whether the appliance body 12 is returned to the box or not is sensed by applying the reed switch, whether the active wireless unit 16 is electrified to work or not is correspondingly controlled, the box returning sensing is simple in implementation mode, good in reliability and high in reaction speed, the box returning monitoring efficiency of the anti-slip appliance can be further improved, and the application cost is reduced.

Referring to fig. 5, in one embodiment, the wireless anti-slide apparatus 100 further includes a power control unit 18. The output terminal of the inductive switch 14 is electrically connected to the power supply terminal of the active wireless unit 16 through the power control unit 18. The power supply control unit 18 is used to control the power supply source to stably supply power to the active wireless unit 16.

It is understood that the power control unit 18 can be any type of power chip or power adapter circuit known in the art, and the specific type can be selected according to the magnitude of the voltage and current of the power supply, and the power supply condition required by the active wireless unit 16. The power control unit 18 may be a separate component mounted to the fixture body 12 at a safe location (as long as the anti-creep operation is not hindered), or may be integrated with the active wireless unit 16 on a PCB circuit board.

Specifically, since the output voltage or current of the power supply is not always stable in practical applications, after the inductive switch 14 switches on the power supply and the active wireless unit 16, the output voltage or current of the power supply will fluctuate with the passage of power supply time, for example, the power supply will drop or the current will become small, or even the voltage or current will suddenly change, which will seriously affect the normal operation and life of the active wireless unit 16. Therefore, by accessing the power control unit 18, the voltage or current output by the power supply can be converted and controlled to form a stable voltage or current output, so that the power supply stability of the active wireless unit 16 can be ensured, and the reduction or misalignment of the monitoring rate of the appliance body 12 being returned to the box can be avoided.

The power management technology based on which the power control unit 18 is based is widely applied in various fields and scenes, and the technology is mature and reliable. The power supply control unit 18 described above can ensure the power supply stability of the active wireless unit 16, and further improve the monitoring efficiency of the carriage return of the anti-skid device.

In one embodiment, power control unit 18 is an LDO power chip. It can be understood that the LDO power supply chip is also a low dropout linear regulator. Optionally, in this embodiment, an LDO power supply chip may be used to provide power supply stability control of the active wireless unit 16 during power-on, so that stable and reliable power supply of the active wireless unit 16 can be realized, and power supply with low power consumption can be realized.

Referring to fig. 6, in an embodiment, an anti-slide apparatus storage device 200 is further provided, which includes a box 21, a wireless receiving unit 23, a main control unit 25, and a background access unit 27. The wireless receiving unit 23, the main control unit 25 and the background access unit 27 are respectively arranged on the box body 21. The main control unit 25 is electrically connected to the wireless receiving unit 23 and the background access unit 27, respectively. The background access unit 27 is used for being in communication connection with the monitoring center 32. The wireless receiving unit 23 is used for receiving the appliance identification number transmitted by the active wireless unit 16 on the wireless anti-slide appliance 100 when the wireless anti-slide appliance 100 is stored in the box 21; the device identification number corresponds to the wireless anti-slide device 100. The main control unit 25 is configured to obtain the appliance identification number output by the wireless receiving unit 23, and then send the appliance identification number to the monitoring center through the background access unit 27.

It is understood that the box 21 may be an uncovered open-type box 21, or may be an openable-closable box 21 with a cover (e.g. including a storage compartment and a box cover, also called a box door), and the overall shape of the box 21 may be a square or other geometric shape, which may be determined according to the storage needs of the wireless anti-skid device 100 in the art. The background access unit 27 may be various types of wireless communication modules in the field, and may also be a wired communication module, for example, a network cable interface or other data cable interface module, and may be specifically determined according to the communication access requirement of the monitoring center. The monitoring center can be a man-machine interaction system device used for monitoring the operation condition of the station, the monitoring condition and/or scheduling of various railway operations of the station and the like in the railway station in the field, and can realize the display and data management functions of various image interfaces.

The wireless receiving unit 23, the main control unit 25 and the background access unit 27 may be discrete components, or may be integrated circuit modules integrated on one PCB substrate. Accordingly, the wireless receiving unit 23, the main control unit 25 and the back-end access unit 27 may be installed on the outer surface of the case 21, or may be installed inside the case 21, for example, in a storage compartment of the case 21 for storing the wireless anti-slide device 100, or may be embedded in a wall plate on the periphery of the case 21, and the specific installation manner may be determined according to the receiving of the wireless signal of the active wireless unit 16, the transmission requirement of the device identification number to the monitoring center, and the like.

Specifically, when the wireless anti-slide device 100 is stored in the box 21, the inductive switch 14 on the wireless anti-slide device 100, for example, the reed switch described above, automatically controls the power on of the active wireless unit 16, so that the active wireless unit 16 is powered on to operate, and the device identification number of the wireless anti-slide device 100 is wirelessly transmitted to the outside. At this time, since the wireless slide preventer 100 is located in the box 21, the wireless receiving unit 23 can receive the wireless signal transmitted from the active wireless unit 16, receive the apparatus identification number of the wireless slide preventer 100, and output the same to the main control unit 25. The main control unit 25 further outputs the received appliance identification number to the background access unit 27, so that the background access unit 27 sends the appliance identification number to the monitoring center through the communication link established with the monitoring center. In this way, the monitoring center can record the case returning condition of the wireless anti-slip device 100 after receiving the device identification number.

Through the structural design of the anti-slide device storage apparatus 200, the wireless receiving unit 23, the main control unit 25, the background access unit 27 and the like are applied in cooperation with the wireless anti-slide device 100, so that after the device body 12 of the wireless anti-slide device 100 is stored in the box 21, the main control unit 25 receives the device identification number sent by the wireless anti-slide device 100 through the wireless receiving unit 23, and then reports the received device identification number to the monitoring center through the background access unit 27, so as to track and record the box returning condition of the wireless anti-slide device 100. By adopting the design structure and the wireless anti-slip device 100, the defects that the device is missed and the device identification number cannot be detected can be effectively avoided, the box returning monitoring speed is high, and the device box returning detection efficiency is greatly improved.

Referring to fig. 7, in an embodiment, the anti-slide apparatus storage device 200 further includes a power management unit 29. The power management unit 29 is electrically connected to the main control unit 25, and is configured to perform power supply management on the main control unit 25.

It is understood that the power management unit 29 may be any type of power management module commonly used in the art, and the power management unit 29 may access an external power source, such as a commercial power source, a mobile power source, or a generator, and convert the power provided by the external power source into stable adaptive power to be output to the main control unit 25.

Specifically, during the daily use of the anti-slide device storage apparatus 200, a stable and reliable power supply can be provided by the power management unit 29, the power management unit 29 can be electrically connected to the main control unit 25 through, but not limited to, an I/O interface, and characteristics such as output voltage and current of the power management unit 29 can be determined according to the power supply needs of the main control unit 25. When the wireless slide preventer 100 is stored in the box 21, the power management unit 29 may be electrically connected to the power control unit 18 of the wireless slide preventer 100, so that the power management unit 29 supplies power to the main control unit 25 and the active wireless unit 16 in a unified manner, thereby eliminating the need to separately supply power by installing a battery in the wireless slide preventer 100.

The power management unit 29 described above can supply power with low power consumption, reduce the energy consumption of the anti-skid device storage apparatus 200, improve the power-on operation stability of the main control unit 25 and the like, and reduce the failure rate of the anti-skid device storage apparatus 200.

Referring to fig. 8 or 9, in one embodiment, the anti-skid device storage apparatus 200 further includes a box-returning magnet 26. The box returning magnet 26 is provided on the box body 21. The box returning magnet 26 is used for triggering the induction switch 14 of the wireless anti-slide device 100 to be closed.

It is to be understood that the number of the box-returning magnets 26 may be one or more, and the specific number may be determined according to the number of the wireless antislip devices 100 that are planned to be housed in the box 21. For example, one case-returning magnet 26 may correspond to all of the wireless anti-slide devices 100: if a box returning magnet 26 is arranged in the common induction area in the box body 21, the induction switch 14 of each wireless anti-slide device 100 can be induced by being close to the box returning magnet 26 when the wireless anti-slide device is returned to the box; or a box-returning magnet 26 with a large magnetic area is adopted, so that the inductive switches 14 of the wireless anti-slip devices 100 can be positioned in the magnetic force range of the box-returning magnet 26 after being returned to the box, thereby realizing the induction. For example, a plurality of box returning magnets 26 may be provided in the box body to trigger the closing of the inductive switches 14 of the wireless slide preventers 100 of the respective boxes, and for example, the box returning magnets 26 may be provided in a paired manner corresponding to one wireless slide preventer 100, or one box returning magnet 26 may be provided in a grouped manner corresponding to a plurality of wireless slide preventers 100.

The box returning magnet 26 may be a permanent magnet or an electromagnet, as long as it can effectively trigger the reed switch of the wireless anti-slide device 100 to generate a corresponding switch control action. The specific mounting position of the return magnet 26 in the case 21 or on the outer surface of the case 21 can be determined according to the need to trigger the reed switch of the wireless slide preventer 100 after the wireless slide preventer 100 is stored in the case 21.

Specifically, when the wireless anti-slide device 100 adopts a reed switch or other magnetic switches, the box returning magnet 26 may be arranged in the box 21, so that when the wireless anti-slide device 100 is stored in the box 21, the box returning magnet 26 acts on the reed switch, so that the reed switch is closed, and further the active wireless unit 16 of the wireless anti-slide device 100 sends the device identification number of the wireless anti-slide device 100 to the wireless receiving unit 23, so that the main control unit 25 reports the received device identification number to the monitoring center for processing through the background access unit 27.

Through the arrangement of the box returning magnet 26, the wireless anti-slip device 100 can be automatically triggered to return to the box and then an appliance identification number is sent, so that the wireless anti-slip device 100 can be rapidly stored and monitored, other reminding means (such as manual reminding or sensor detection reminding) for whether the wireless anti-slip device 100 is returned to the box or not do not need to be additionally arranged, the box returning monitoring efficiency of the anti-slip device storage equipment 200 for the wireless anti-slip device 100 is better improved, and the box returning monitoring cost is reduced.

In one embodiment, as shown in fig. 8 or 9, the anti-skid device storage apparatus 200 further includes a storage stopper portion 24. The housing stopper 24 is provided in the case 21. The return magnet 26 is mounted on the housing stopper 24 or on the cover of the case 21. The storage stopper 24 is used to fit with a return stopper of the tool body 12 of the wireless slide preventer 100 to mount the wireless slide preventer 100.

It is understood that the number of the storage limiting portions 24 provided in the case 21 may be one (for example, one storage limiting portion 24 corresponds to all the wireless antislip devices 100), or a plurality of (for example, one storage limiting portion 24 corresponds to one wireless antislip device 100, or the storage limiting portions 24 correspond to the wireless antislip devices 100 one by one), and the structural shape and size of the storage limiting portions 24 are matched with the structural shape and size of the box-returning limiting portion of the wireless antislip device 100 to be stored. The housing stopper 24 may be a skate rail corresponding to a skate in the art, as shown in fig. 8; or may be a hanging groove corresponding to the anti-slip fastener as shown in fig. 9. The housing stopper 24 may be laid in the case 21 by screw connection, welding, or other means, and the laying direction may be determined according to the housing requirement of the wireless antislip device 100, which is not limited in this specification.

Specifically, the box returning magnet 26 may be embedded in the storage limiting portion 24, so that, when the wireless anti-slide device 100 is paired and fixed with the storage limiting portion 24 through its box returning limiting portion, for example, a skate is clamped into a skate guide rail (i.e., the storage limiting portion 24) arranged in the box body 21 through its own rail groove (i.e., the box returning limiting portion) to realize loading limiting, or an anti-slide fastener is hung onto a hanging groove (i.e., the storage limiting portion 24) arranged in the box body 21 through its own hanging portion (i.e., the box returning limiting portion) to realize loading limiting, a reed switch on the wireless anti-slide device 100 enters a magnetic range of the box returning magnet 26 to be triggered, and a bluetooth tag on the wireless anti-slide device 100 is controlled to be powered on to emit the device identification number to the outside.

In some application scenarios, the box 21 is an openable and closable box 21 including a box cover and a storage compartment, and in this case, the box returning magnet 26 may be directly attached to the box cover. The box returning magnet 26 is located on a surface facing the inside of the storage compartment when the box cover closes the storage compartment. The specific installation position of the box returning magnet 26 on the box cover can be determined according to the position of the reed switch on the wireless anti-slip device 100 after the wireless anti-slip device 100 is fixed on the storage limiting part 24, or can be determined according to the convenience of induction triggering when each wireless anti-slip device 100 approaches the box returning magnet 26 in the process that the wireless anti-slip device 100 is placed in the storage cabin, as long as the box returning magnet 26 can effectively trigger the reed switch when the box cover closes the storage cabin. Thus, when the wireless anti-slide device 100 is taken back into the box, the reed switch on the wireless anti-slide device 100 can be triggered by closing the box cover, so that the active wireless unit 16 on the wireless anti-slide device 100 is powered on to work.

Through the setting of taking in spacing portion 24 to and the position setting of case returning magnet 26 on box 21, can effectively and trigger wireless anti-slide apparatus 100 to return the case and send the utensil identification number to anti-slide apparatus storage device 200's wireless receiving unit 23, control is realized simply and need not to consume the electric energy, can further improve wireless anti-slide apparatus 100's case returning monitoring efficiency, and can effectively improve the position stability after wireless anti-slide apparatus 100 returns the case, avoid wireless anti-slide apparatus 100 to take place the position transfer and mutual collision, damage scheduling problem in box 21.

Referring to fig. 10, in an embodiment, the anti-slide apparatus storage device 200 further includes a card reader 31. The card reader is electrically connected with the main control unit 25 and is used for reading the user information of the identification card.

It is understood that the card reader 31 may be an IC card or a radio frequency card reader 31 in the art, or may be other types of card readers 31, and may be selected according to the type of the identification card (such as, but not limited to, an IC card, a radio frequency card, an RFID tag, an anti-metal tag, or an eas anti-theft tag). The card reader 31 may be directly electrically connected to the main control unit 25, or may be indirectly electrically connected to the main control unit 25, for example, the main control unit 25 is electrically connected through an entrance guard control module of the box 21, or is electrically connected to the main control unit 25 through a signal conversion element. The card reader 31 may be disposed on the outer surface of the box 21, and the specific position may be determined according to the requirement when the worker holds the identification card to swipe the card and open the box.

Specifically, in practical applications, when an operator needs to take out the wireless anti-slip device 100, the assigned identification card may be swiped through the card reader 31 to open the cover of the box 21, so as to take out the wireless anti-slip device 100. When the worker takes the wireless anti-skid device 100, the main control unit 25 may receive the user information read by the card reader 31, for example, the card number of the identification card or the job number of the worker, and associate the device identification number of the taken wireless anti-skid device 100 with the user information, so as to subsequently monitor the box returning condition of the wireless anti-skid device 100 taken by the worker. After the operator returns the wireless anti-slide device 100 to the box 21, the main control unit 25 receives the device identification number reported by the wireless anti-slide device 100 through the wireless receiving unit 23, and then sends the device identification number and the read user information to the monitoring center through the background access unit 27, so that the monitoring center can correspondingly track the case returning condition of the taken wireless anti-slide device 100, for example, record the wireless anti-slide device 100 and the account of the operator who has taken the wireless anti-slide device 100.

Through the addition of the card reader 31, more accurate box returning monitoring of the wireless anti-slip device 100 can be realized, corresponding box returning tracking monitoring can be conveniently carried out on a background, and the box returning monitoring efficiency of the wireless anti-slip device 100 is further improved.

In one embodiment, the wireless receiving unit 23 is a bluetooth receiving circuit. The main control unit 25 includes a single chip microcomputer or a central processing unit. The background access unit 27 is a wireless communication module.

It can be understood that, in this embodiment, a bluetooth receiving circuit may be adopted to receive the appliance identification number sent by the bluetooth tag in the wireless anti-slip appliance 100, so that the reliability of wireless transmission is high, and the missing detection of the wireless anti-slip appliance 100 can be effectively avoided. In addition, the main control unit 25 may be any one of various single-chip microcomputers MCU and central processing units CPU commonly used in the art, so as to efficiently complete the receiving and reporting process of the appliance identification number when the wireless anti-slide appliance 100 is returned to the box. The wireless communication module may be various wireless communication modules in the art, such as, but not limited to, a 470MHz wireless communication module or an 2/3/4G communication module, and may be specifically selected according to a wireless frequency used by the monitoring center. The Bluetooth receiving circuit and the wireless communication module can be but not limited to be communicated with the MCU or the CPU through the SPI interface.

Referring to fig. 11, in an embodiment, there is further provided an anti-slide apparatus management system 300, which includes a monitoring center 302, the wireless anti-slide apparatus 100 and the anti-slide apparatus storage device 200. The monitoring center 302 is configured to record the box returning information of the wireless anti-slide device 100 corresponding to the device identification number when receiving the device identification number sent by the back-office access unit 27 of the anti-slide device storage apparatus 200.

It is to be understood that the explanation of the monitoring center 302, the wireless anti-slide device 100, and the anti-slide device storage apparatus 200 in this embodiment can be specifically understood by referring to the corresponding explanation of the monitoring center 302, the wireless anti-slide device 100, and the anti-slide device storage apparatus 200 in each of the above embodiments, and the explanation thereof is not repeated here and hereafter.

By applying the wireless anti-slide device 100 and the anti-slide device storage facility 200 described above, the anti-slide device management system 300 can efficiently monitor the case where the anti-slide device is returned to the box, effectively improve the monitoring efficiency of the case where the anti-slide device is returned to the box, and reduce the monitoring cost.

Referring to fig. 12, in one embodiment, the monitoring center 302 includes a monitoring host 322 and a display device 324. The display device 324 is electrically connected to the monitoring host 322. The monitoring host 322 is communicatively connected to the background access unit 27. The monitoring host 322 is configured to receive the appliance identification number, record the binning information, and output the position information of the wireless anti-slide appliance 100 to the display device 324 according to the binning information. The display device 324 is used for visually displaying the position of the wireless anti-roll apparatus 100 according to the position information.

It is understood that the monitoring host 322 may be a computer host or a server. The display device 324 may be a touch-operated touch display terminal, such as a tablet computer, smart interactive tablet, or other computer with touch input functionality. The display device 324 may also be a voice-controlled display terminal, such as an intelligent voice interaction device, on which a user may perform control operations in a voice manner. The box information may include, but is not limited to, information such as whether the wireless slide preventer 100 is currently in a box-in state or a box-out state, and the device number and/or the box-in time of the slide preventer housing device 200 in which the wireless slide preventer 100 is located.

Specifically, in the monitoring center 302, the monitoring host 322 may receive user information of an operator, that is, user information of an operator who takes the wireless anti-slide device 100 corresponding to the appliance identification number, and correspondingly record the box-returning information of the wireless anti-slide device 100 in some application scenarios based on the appliance identification number received from the back-end access unit 27, and further output location information of the wireless anti-slide device 100, such as a station name where the wireless anti-slide device 100 is currently located and a device number of the anti-slide device storage device 200, to the display device 324 based on the box-returning information. The display device 324 may further display the visual position of the wireless anti-roll apparatus 100 according to the position information, that is, display the current position of the wireless anti-roll apparatus 100 on the screen.

Through the cooperative work of the monitoring host 322 and the display device 324, the box returning condition of the wireless anti-slide device 100 can be quickly known at the monitoring center 302, and the position of the wireless anti-slide device 100 can be visually tracked and searched, so that the operator can be conveniently guided to access the wireless anti-slide device 100, and the management efficiency of the wireless anti-slide device 100 can be improved.

In one embodiment, the anti-slide apparatus management system 300 further includes an identification card. The identification card is used to transmit user information to the card reader 31 of the anti-slide device housing apparatus 200. The user information corresponds to the wireless anti-creep device 100 in which the access behavior currently occurs. The monitoring host 322 is further configured to record ledger data of the wireless anti-slide apparatus 100 according to the user information and the apparatus identification number after receiving the user information sent by the background access unit 27.

It is understood that the identification card, such as but not limited to an IC card, a radio frequency card, an RFID tag, an anti-metal tag or an eas anti-theft tag, may store user information of the operator, such as a user name or an identification of a card number.

Specifically, each time an operator accesses the wireless anti-slide device 100 for performing anti-slide operation, the operator can swipe a card through the card reader 31 of the anti-slide device storage apparatus 200 for access, and the card reader 31 can correspondingly read the user information on the identification card, so as to report the user information to the monitoring host 322 through the main control unit 25 and the background access unit 27. The monitoring host 322 may also record various data generated in the operation process corresponding to the operator currently accessing the wireless anti-slide apparatus 100, so as to form ledger data corresponding to the wireless anti-slide apparatus 100. Through the identity identification card, an operator can conveniently and quickly access the wireless anti-slip device 100, and meanwhile, the monitoring host 322 can conveniently and automatically record account data of the wireless anti-slip device 100 accurately, so that the probability of monitoring errors is reduced, and the monitoring accuracy of the anti-slip device box returning is improved.

Referring to fig. 13, in one embodiment, there is provided a method for controlling storage of a slide stopper, including steps S12 and S14:

s12, acquiring an appliance identification number of the wireless anti-slide appliance; the equipment identification number is an identification number sent by an active wireless unit of the wireless anti-slip equipment when the wireless anti-slip equipment is stored in the anti-slip equipment storage equipment;

s14, sending the appliance identification number to a monitoring center; the appliance identification number is used for indicating the monitoring center to record the box returning information of the wireless anti-sliding appliance.

It can be understood that, for the explanation of the technical terms of the wireless anti-slide device, the device identification number, the anti-slide device storage device, the active wireless unit, the monitoring center, the box returning information, and the like described in this embodiment, reference may be made to the corresponding technical terms in the foregoing embodiments, and details of this embodiment and the following description are not repeated one by one.

Specifically, after acquiring the appliance identification number transmitted by the active wireless unit, the control unit (which may be an independently external controller, or the main control unit 25 in the anti-slide appliance storage device) transmits the appliance identification number to the monitoring center, so that the monitoring center records the box returning information of the wireless anti-slide appliance corresponding to the appliance identification number, for example, the current box returning state is information such as the box returning state, the non-box returning state, and the box returning time. After receiving the appliance identification number, the monitoring center can reply a response signal to the control unit to inform the control unit that the data has been received.

According to the storage control method of the anti-slip device, the device identification number of the wireless anti-slip device is obtained through the active wireless unit of the wireless anti-slip device, and then the obtained device identification number is reported to the monitoring center, so that the box returning condition of the wireless anti-slip device can be tracked and recorded, the defects that the wireless anti-slip device is missed in detection and the device identification number cannot be detected can be effectively avoided, the box returning monitoring speed is high, and the box returning detection efficiency of the wireless anti-slip device is greatly improved.

Referring to fig. 14, in an embodiment, before the step S12, the following control steps S10 and S11 may be further included:

s10, after receiving an unlocking signal of the anti-slide device containing equipment, acquiring user information of the identity identification card; the user information is used for associating the appliance identification number and transmitting the appliance identification number to the monitoring center;

s11, receiving a lock-off signal of the anti-slide device storage apparatus, and then receiving a wireless signal of the active wireless unit; the wireless signal carries an appliance identification number.

It can be understood that when an operator unlocks the anti-slip device storage device by swiping a card to open the box 21 of the anti-slip device storage device to take a wireless anti-slip device therein, the control unit may automatically activate the power on, for example, after the single chip microcomputer of the anti-slip device storage device receives an unlocking signal output by the door lock of the box 21, the single chip microcomputer activates the power on, reads the user information of the identification card through the door lock, and associates the user information with the device identification number of the wireless anti-slip device currently taken to form a corresponding relationship to wait for a lock closing signal.

When the worker finishes the operation, the taken wireless anti-slide device is stored in the box body 21 and the box body 21 is closed, the door lock outputs a locking signal to the control unit, at this time, the induction switch 14 in the wireless anti-slide device is switched on to supply power to the active wireless unit due to the fact that the wireless anti-slide device is stored in the box body 21, and the active wireless unit starts to send the device identification number of the wireless anti-slide device. The control unit can thus acquire the appliance identification number in the wireless signal of the active wireless unit after receiving the lock-off signal.

Through the steps, the user information and the corresponding appliance identification number can be accurately acquired according to the locking and unlocking state of the box body 21, the box returning state of the wireless anti-slip appliance can be more accurately monitored, and the management efficiency of the wireless anti-slip appliance is improved.

Referring to fig. 15, in one embodiment, the method for controlling the storage of the anti-slip device further includes the following step S16:

s16, when detecting that the anti-slide device containing equipment has abnormal components, sending alarm information to a monitoring center; the alarm information is used for indicating the monitoring center to carry out abnormal alarm.

The abnormal component may be an electronic door lock that cannot be normally unlocked in the anti-skid device storage apparatus, a failed wireless receiving unit 23, or another electronic component. Specifically, after the electronic lock is activated and turned on, the control unit may automatically detect whether each connected electronic component is normal, for example, if the user information is received but the unlocking signal is not received, it is determined that the electronic door lock is abnormal, for example, a test signal is sent to the wireless receiving unit 23 and the response signal is not received, it is determined that the wireless receiving unit 23 is abnormal, and detection of whether the component is abnormal or not may be implemented by other abnormal detection methods, which are not listed herein. The control unit can also detect abnormal components in daily work.

Specifically, when detecting that an abnormal component exists in the anti-slip device storage equipment, the control unit sends alarm information to the monitoring center, such as the name, the IP address, the abnormal type and the like of the abnormal component, so that the monitoring center can timely give an abnormal alarm, such as playing alarm voice or audio, or giving an alarm display picture and the like, so as to remind personnel in the monitoring center to issue a maintenance task in time and eliminate the abnormality. Through the steps, abnormal conditions can be found and reminded in time in the daily inspection process of the wireless anti-slip device, so that effective box returning management of the wireless anti-slip device is ensured.

It should be understood that, although the respective steps in the flowcharts of fig. 13 to 15 are sequentially shown as indicated by arrows, the steps are not necessarily sequentially performed in the order indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 13-15 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performing the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least some of the sub-steps or stages of other steps.

Referring to fig. 16, in one embodiment, an anti-roll device storage control apparatus 400 is provided, which includes an acquisition module 42 and a transmission module 44. Wherein: the acquisition module 42 is used for acquiring an appliance identification number of the wireless anti-slide appliance; the device identification number is an identification number transmitted by an active wireless unit of the wireless anti-slip device when the wireless anti-slip device is stored in the anti-slip device storage equipment. The sending module 44 is used for sending the appliance identification number to the monitoring center; the appliance identification number is used for indicating the monitoring center to record the box returning information of the wireless anti-sliding appliance.

Through foretell controlling means 400 is accomodate to anti-creep device, through the cooperation of each module, obtain the utensil identification number of wireless anti-creep device from the active wireless unit of wireless anti-creep device, then report the utensil identification number that obtains monitoring center to the case circumstances of returning of wireless anti-creep device of trail record can effectively avoid the defect that wireless anti-creep device missed-examination just can't detect utensil identification number, and the case monitoring speed that returns is fast, has improved the efficiency that wireless anti-creep device returned the case and detected greatly.

In one embodiment, the anti-slide device storage control apparatus 400 further includes an identity information module and a signal receiving module. The identity information module is used for acquiring the user information of the identity identification card after receiving an unlocking signal of the anti-slip device storage equipment; the user information is used for associating the appliance identification number and transmitting the appliance identification number to the monitoring center. The signal receiving module is used for receiving a locking signal of the anti-slip device storage equipment and then receiving a wireless signal of the active wireless unit; the wireless signal carries an appliance identification number.

In one embodiment, the above-mentioned anti-slide apparatus storage control device 400 further includes an alarm sending module, configured to send alarm information to the monitoring center when detecting that there is an abnormal component in the anti-slide apparatus storage device; the alarm information is used for indicating the monitoring center to carry out abnormal alarm.

For specific limitations of the anti-slide device storage control apparatus 400, reference may be made to the above limitations of the anti-slide device storage control method, and details thereof will not be repeated here. All or part of the respective modules in the anti-slide device storage control apparatus 400 may be realized by software, hardware, or a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, there is also provided a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the process steps of: acquiring an appliance identification number of a wireless anti-slip appliance; the equipment identification number is an identification number sent by an active wireless unit of the wireless anti-slip equipment when the wireless anti-slip equipment is stored in the anti-slip equipment storage equipment; sending the appliance identification number to a monitoring center; the appliance identification number is used for indicating the monitoring center to record the box returning information of the wireless anti-sliding appliance.

In one embodiment, the computer program may also implement, when executed by the processor, the additional steps in each of the above-described anti-slide apparatus storage control method embodiments.

It will be understood by those skilled in the art that all or part of the processes in the anti-slide apparatus storage control method according to the above embodiments may be implemented by instructing relevant hardware through a computer program, where the computer program may be stored in a non-volatile computer readable storage medium, and when executed, the computer program may include the processes of the above embodiments of the anti-slide apparatus storage control method. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

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