CN112200276A - Cloud platform based electric power pointer instrument test equipment management and control system and method - Google Patents

Abstract

The invention relates to a cloud platform-based power pointer instrument test equipment management and control system and method, and belongs to the technical field of power pointer instrument test equipment management and control. The system comprises an electromagnetic door lock, a relay connected with the electromagnetic door lock, a palm print machine installed at an outer door opening of a warehouse, an information input module, an RFID tag fixed on electric power pointer instrument testing equipment, an RFID reader-writer, a warehouse server, a background server, an encryption positioning transmission device installed in the electric power pointer instrument testing equipment or on the surface of the electric power pointer instrument testing equipment, and a mobile terminal. The invention realizes personnel identification and equipment warehousing and ex-warehouse management through the combined work of the palm print machine, the entrance guard and the RFID card reader, and definitely obtains the user and the use time of the equipment. The adopted encryption positioning transmission device encrypts the measurement result data and positions the equipment; a series of control on the testing equipment of the electric power pointer instrument is realized through the background server, and the problems that the existing electric power pointer instrument testing equipment is easy to lose and is subjected to delivery inspection in an overdue mode are solved.

Description

Cloud platform based electric power pointer instrument test equipment management and control system and method

Technical Field

The invention belongs to the technical field of management and control of electric power pointer instrument test equipment, and particularly relates to a cloud platform-based electric power pointer instrument test equipment management and control system and method.

Background

In the aspect of the adoption management of the electric pointer instrument test equipment, the manual paper registration mode is generally adopted at home at present. The equipment reception cannot be timely and effectively, the authority of the equipment is unclear, and even the equipment is lost; the use and position conditions of the equipment cannot be mastered in real time, and the equipment can not be transferred to the hand to be used in time when the equipment is stopped in the hand of a person; the equipment needs to be manually turned over for regular inspection, so that the external equipment cannot be inspected in time and even is used for a long time. Therefore, it is critical to make the work more organized to clarify the status of the equipment and to use the information of the user

In the aspect of test report management, test data is manually read out, then a report is manually filled in, and a paper report is saved. Manual filling of test data in such a mode of operation is inefficient. The report paper is complicated to store, difficult to look up and has the risk of damage.

At present, an RFID card reader is a key device for acquiring the warehouse-in and warehouse-out states of equipment, but a certain time delay (4 minutes) is needed for accurately judging the warehouse-in and warehouse-out states of the equipment, because the entrance guard type RFID card reader can only acquire the states of an active tag entering and leaving the card reader area in principle and cannot judge the warehouse-out and warehouse-in states, the delay time is long, and the response cannot be carried out in time.

Therefore, how to overcome the defects of the prior art is a problem which needs to be solved urgently in the field of control of the current paint power pointer instrument test equipment.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a power pointer instrument test equipment management and control system and method based on a cloud platform.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

electric power pointer instrument test equipment management and control system based on cloud platform includes:

the electromagnetic door lock comprises an electromagnetic door lock and a relay connected with the electromagnetic door lock;

further comprising: the palm print machine is used for acquiring palm print identification data and is arranged at an outer door of the warehouse;

the information input module is used for inputting pre-stored information; the pre-stored information comprises palm print information;

the RFID label is fixed on the electric pointer instrument test equipment; each electric power pointer instrument test device is fixedly connected with an RFID label;

the two RFID readers are arranged in the storage warehouse close to the door, and the other RFID reader is arranged in the storage warehouse close to the electric pointer instrument testing equipment;

the storehouse server is respectively connected with the palm print machine, the information input module, the relay and the RFID reader-writer; the system comprises a palm print reader, an information input module, a palm print recognition module, an information input module, an RFID reader-writer and a control module, wherein the palm print recognition module is used for receiving and storing palm print recognition data acquired by the palm print reader, pre-stored information input by the information input module and information read by the RFID reader-writer, and performing corresponding feedback operation according to a preset program; the storehouse server is also electrically connected with the relay, outputs a high-level or low-level electric signal to the relay, and controls the opening and closing of the electromagnetic door lock by the relay;

the background server is connected with the storehouse server and used for acquiring the information of the receiving condition of the electric power pointer instrument testing equipment from the storehouse server;

an encryption positioning transmission device is arranged in or on each electric power pointer instrument test device, and the electric power pointer instrument test devices are communicated with a background server through the encryption positioning transmission devices;

and the mobile terminal is connected with the background server, is used for acquiring related information of the power pointer instrument test equipment, and is also used for receiving reminding information sent by the background server.

Further, it is preferable that the encryption positioning transmission device includes a housing;

an interface unit is fixed on the side wall of the shell; the interface unit is used for communicating with the power pointer instrument test equipment;

a processor unit, an SM4 encryption unit, a power supply unit and a positioning unit are fixed in the shell; the power supply unit is respectively connected with the processor unit, the SM4 encryption unit, the transmission unit and the positioning unit and used for supplying power;

a transmission unit is also fixed on the shell;

the processor unit is respectively connected with the interface unit, the SM4 encryption unit, the transmission unit and the positioning unit;

test data of the power pointer instrument test equipment enter the processor unit through the interface unit, the processor unit sends the test data to the SM4 encryption unit for encryption, and the encrypted data are sent to the transmission unit through the processor unit and transmitted to the background server;

the positioning unit is used for positioning the electric power pointer instrument testing equipment, and the positioning data is sent to the transmission unit through the processor unit and is transmitted to the background server.

Further, preferably, the electric pointer instrument testing device comprises a density relay detecting device, a temperature controller detecting device and a liquid pressure gauge detecting device.

Further, preferably, the system further comprises a display terminal, wherein the display terminal is connected with the storehouse server, and the display is controlled by the storehouse server.

Further, preferably, the system further comprises an alarm, wherein the alarm is connected with the storehouse server and is controlled by the storehouse server to give an alarm.

Further, preferably, the information entry module comprises an input keyboard and a palm print acquisition device.

Further, preferably, the background server is further configured to monitor the delivery time of the power pointer instrument test device, and when the delivery time is reached, send a reminder to the mobile terminal of a corresponding device user or a manager for reminding.

The invention also provides a cloud platform-based power pointer instrument test equipment management and control method, and the power pointer instrument test equipment management and control system based on the cloud platform comprises the following steps:

step (1), the electric pointer instrument test equipment is used:

when a receiver comes to a door of the warehouse for receiving, palm print identification data of the receiver is obtained through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened.

The storehouse server receives the contents read and written by the two RFID readers in real time; when a receiver legally enters and equipment received by the receiver passes through the read-write area of the two RFID readers, the RFID reader close to the electric pointer instrument testing equipment reads equipment RFID label information firstly, then the RFID reader close to a door opening reads the equipment RFID label information, the storehouse server judges that the equipment is legally received according to the read-write contents of the two readers, the same RFID label information and the read-write time of the two readers, and the receiver can get out of a storehouse by hitting an electromagnetic door lock from inside;

if the leader illegally enters the leader device, two conditions exist, one is that two RFID readers read and write device information in sequence, but the storehouse server does not compare the identity of the leader in advance, and after the device leaves a reading and writing area of the RFID reader near the door, the storehouse server controls an alarm to give an alarm; secondly, only the RFID reader-writer close to the electric pointer instrument test equipment reads and writes the RFID label information of the equipment, and then the RFID label information disappears, and both the RFID reader-writers cannot read;

step (2), returning the electric pointer instrument testing equipment:

the method comprises the following steps that a receiver returns to the front of a warehouse door, palm print identification data of the receiver is obtained through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened. The storehouse server receives the contents read and written by the two RFID readers in real time; when a leader legally enters, when equipment used by the leader passes through a reading and writing area of two RFID readers, the RFID reader close to a door opening reads equipment RFID label information firstly, then the RFID reader close to electric pointer instrument testing equipment reads the equipment RFID label information, a warehouse server judges whether the equipment is used in a warehouse legally or not according to the reading and writing contents of the two readers, the same RFID label information and the reading and writing time in the front and the back, and the RFID label information judges that the equipment is used in the warehouse, so that the equipment is legally returned, and the leader can get out of the warehouse by punching an electromagnetic door lock from inside;

if the RFID label information judges that the equipment does not appear in the warehouse, namely a receiver returns the wrong equipment, or two RFID readers cannot read and write the RFID label information, the equipment is returned illegally.

Step (3), testing and standby testing of the electric pointer instrument testing equipment and uploading of position information are achieved:

test data of the power pointer instrument test equipment enter the processor unit through the interface unit, the processor unit sends the test data to the SM4 encryption unit for encryption, and the encrypted data are sent to the transmission unit through the processor unit and transmitted to the background server; the positioning unit sends the positioning data of the electric pointer instrument testing equipment to the transmission unit through the processor unit and transmits the positioning data to the background server;

step (4), background server management and control:

the background server acquires the information of the availability condition of the power pointer instrument testing equipment from the storehouse server, and acquires detection data and position information of the power pointer instrument testing equipment through the encryption positioning transmission device; meanwhile, sending corresponding reminding information to the mobile terminal for reminding according to the acquired information;

step (5), acquiring information of the electric pointer instrument test equipment of the field operation personnel:

the mobile terminal is held by a manager, and acquires relevant information of the power pointer instrument test equipment from the background server; the related information comprises the information of the use condition, the detection data and the position information; and meanwhile, receiving reminding information sent by the background server.

The use method and the principle are as follows:

the method comprises the following steps that information prestored by a power pointer instrument testing device user is collected through a palm print collecting device in an information input module, corresponding identity information is input through an input keyboard and is stored in a storehouse server;

the electromagnetic door lock is arranged on a warehouse door and is controlled to be opened and closed through a relay;

when a receiver comes to a door of the warehouse for receiving, palm print identification data of the receiver is obtained through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened.

The two RFID readers are arranged in the storage warehouse close to the door, and the other RFID reader is arranged in the storage warehouse close to the electric pointer instrument testing equipment; the storehouse server receives the contents read and written by the two RFID readers in real time; when a receiver legally enters and equipment received by the receiver passes through the reading and writing areas of the two RFID readers, the RFID reader close to the electric pointer instrument testing equipment reads equipment RFID label information firstly, then the RFID reader close to the door opening reads the equipment RFID label information, the storehouse server judges that the equipment is legally received according to the reading and writing contents of the two readers, the same RFID label information and the reading and writing time of the two readers, and the receiver can get out of the storehouse by hitting the electromagnetic door lock from inside, so that the time delay is greatly reduced.

If the claimant illegally enters the claimant equipment by damaging the entrance guard, the wall body of the warehouse, the window and the like; in one case, although the two RFID readers read and write the device information successively, the warehouse server does not compare the identities of the users, so that the warehouse server controls the alarm to alarm after the device leaves the read and write area of the RFID reader close to the door.

And secondly, only the RFID reader-writer close to the electric pointer instrument testing equipment reads and writes the RFID label information of the equipment, and then the RFID label information disappears, so that the two RFID reader-writers can not read any more, and the storehouse server controls the alarm to give an alarm.

The display terminal is controlled by the storeroom server to display, and the displayed content comprises but is not limited to identity information of a capturer after the palm prints of the capturer are compared and are not consistent, description of palm prints of the capturer and equipment information acquired by the capturer.

The same holds true when the device returns. The method specifically comprises the following steps: when the receiver returns to the front of the warehouse door, palm print identification data of the receiver is acquired through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened. The storehouse server receives the contents read and written by the two RFID readers in real time; when a leader legally enters and equipment used by the leader passes through the read-write areas of the two RFID readers, the RFID reader close to the door opening reads equipment RFID label information firstly, then the RFID reader close to the electric pointer instrument testing equipment reads the equipment RFID label information, the warehouse server judges whether the equipment is legally returned or not according to the read-write contents of the two readers, the same RFID label information and the read-write time in the front and the back, and the fact that the equipment is used in the warehouse once is judged through the RFID label information, the leader can get the warehouse out by punching the electromagnetic door lock from the inside, and therefore time delay is greatly reduced.

If the RFID label information judges that the equipment does not appear in the warehouse, namely a receiver returns the wrong equipment, or two RFID readers cannot read and write the RFID label information, the equipment is not legally returned; at the moment, the alarm gives an alarm, and the display terminal simultaneously reminds.

The storehouse server performs corresponding feedback operation according to a preset program, and the specific content is the use method and the principle.

Test data of the power pointer instrument test equipment enter the processor unit through the interface unit, the processor unit sends the test data to the SM4 encryption unit for encryption, and the encrypted data are sent to the transmission unit through the processor unit and transmitted to the background server;

the positioning unit is used for positioning the electric power pointer instrument testing equipment, and the positioning data is sent to the transmission unit through the processor unit and is transmitted to the background server.

The background server acquires the information (including alarm information) of the receiving condition of the power pointer instrument testing equipment from the storehouse server, and acquires the detection data and the position information of the power pointer instrument testing equipment through the encryption positioning transmission device;

the mobile terminal is held by a manager, acquires relevant information (including reception condition information, detection data and position information) of the power pointer instrument test device from the background server, and is also used for receiving reminding information sent by the background server, such as reminding when a receiver returns the wrong device, reminding when the receiver enters a warehouse for reception, reminding when the power pointer instrument test device reaches the inspection time, reminding when the reception time is due, and the like.

The network communication of the present invention preferably uses TCP/IP as the network protocol.

The background server provides an interface for uploading data after the test of the power pointer instrument test equipment, realizes remote transmission and storage of the data, provides a storehouse server data request interface, and provides a remote parameter issuing function. And providing a data request interface of the mobile terminal.

The invention completes the closed-loop management and control of the acceptance of the electric pointer instrument test equipment, perfects the personnel acceptance, return, management and control and the like.

In the invention, the power test equipment automatically acquires test data of the SF6 density relay, the main transformer temperature controller and the liquid pressure gauge in a visual identification mode and the like to generate a corresponding test report; each electric power test device is embedded with an encryption positioning transmission device. The test report generated by the power test equipment is sent to the encryption positioning transmission device, and after the encryption positioning module in the encryption positioning transmission device receives the test report data, the test report data simultaneously pass through BEIDOU, GPS and BEIDOUGLONASSThe method comprises the steps of obtaining positioning data of the power testing equipment in various modes, encrypting and packaging the data by a national cryptographic algorithm, finally sending the data to a transmission unit in an encryption positioning transmission device, and sending the data to a background server by the transmission unit through a corresponding communication protocol; and after receiving the data sent by the power test equipment, the background server decrypts and stores the data by using a state encryption algorithm.

The functions of the background server are not limited to the above description, and may further include statistical query to implement the functions of counting the number of the power pointer type instrument test devices, using condition statistics, and query.

Compared with the prior art, the invention has the beneficial effects that:

the invention uses the RFID card reader to read the activity state of the equipment in the storehouse to realize the timely feedback of the equipment in and out of the storehouse. The combined work of the palm print machine, the entrance guard and the RFID card reader realizes the personnel identification and the management of equipment warehousing and ex-warehouse, and definitely obtains the user and the service time of the equipment.

The entrance and exit are the movement in two directions, a single RFID card reader can only acquire the state that an active tag enters and leaves a card reading area, and the moving direction of equipment cannot be identified. When the equipment passes through the RFID card reader area, the server analyzes according to the reported data of the two card readers, so that the delay time of judgment is greatly reduced, and the time is usually only about 10 seconds.

The encryption positioning transmission device adopted by the invention is small and exquisite in appearance, and can be conveniently integrated on the existing portable electric power pointer instrument test equipment, so that the portable electric power pointer instrument test equipment not only has a measurement function, but also has a function of encrypting measurement result data and an equipment positioning function, the high safety and controllability of the transformer substation portable test equipment are further improved, and the remote control of the test equipment and the test data is realized.

According to the invention, a series of control over the test equipment of the power pointer instrument is realized through the background server, closed-loop management of acceptance, detection, positioning, return and submission of the power pointer instrument test equipment is realized, the problems of easy loss, overdue submission and the like of the conventional power pointer instrument test equipment are solved, and the method is easy to popularize and apply.

Drawings

Fig. 1 is a schematic structural diagram of a power pointer instrument test equipment management and control system based on a cloud platform;

FIG. 2 is a schematic structural diagram of an encryption positioning transmission apparatus according to the present invention;

FIG. 3 is a schematic structural view of one embodiment of the case assembly of the present invention;

FIG. 4 is a schematic diagram illustrating a front view of an embodiment of a verification host assembly according to the present invention;

FIG. 5 is a schematic top view of one embodiment of a verification host assembly of the present invention;

FIG. 6 is a side view of a verification host assembly according to an embodiment of the invention;

FIG. 7 is a schematic view of the structure of FIG. 6 taken along the section A-A;

FIG. 8 is a perspective view of one embodiment of a camera assembly of the present invention;

FIG. 9 is a diagram of the effects of the front orientation view of FIG. 7;

FIG. 10 is a schematic diagram of the internal structure of one embodiment of a camera module of the present invention;

FIG. 11 is an exploded view of one embodiment of a camera assembly of the present invention;

FIG. 12 is a data transmission block diagram of a power pointer instrument test equipment management and control system based on a cloud platform according to the present invention; the direction of the arrow being the direction of the data or signal

Wherein, 1, an electromagnetic door lock; 2. a relay; 3. a palm print machine; 4. an information input module; 5. an RFID tag; 6. an RFID reader; 7. a warehouse server; 8. a display terminal; 9. an alarm; 10. electric power pointer instrument test equipment; 11. a housing; 12. an interface unit; 13. a processor unit; 14. an SM4 encryption unit; 15. a transmission unit; 16. a power supply unit; 17. a positioning unit; 18. encrypting and positioning the transmission device; 19. a background server; 20. a mobile terminal.

101. An upper cover handle; 102. locking the upper cover; 103. covering sponge; 104. an upper cover; 105. a limiting band; 106. a lower box body; 107. a front handle; 108. locking the lower box body; 109. a camera assembly positioning slot; 110. an accessory positioning slot; 111. an anti-collision pad; 112. cell body buffer cotton; 113. checking a host positioning groove; 114. a traveling wheel; 115. a rear handle; 116. supporting legs;

201. a control panel; 202. a lower cover of the box; 203. an upper cover of the box; 204. a fan; 205. an air inlet joint; 206. rubber feet; 207. an air pump; 208. an air pump bracket; 209. mounting a copper column; 210. a battery mounting plate; 211. a lithium battery; 212. a cylinder base; 213. a GPS module; 214. a mouse pad; 215. a USB port; 216. a 4G antenna; 217. a metal key switch; 218. a fast-discharging switch; 219. an exhaust joint; 220. a DC charging port; 221. 5 inches of display screen; 222. a circuit board; 223. a keyboard; 224. a keyboard support; 225. a hinge block upper portion; 226. a tablet computer; 27. a butterfly nut;

301. a housing; 302. clamping a hoop; 303. a grip; 304. a barrel; 305. an inner collar; 306. adjusting the stud; 307. mounting a plate; 308. a second connecting rod; 309. an annular seat; 310. a light source; 311. a trough body; 312. a light-diffusing sheet; 313. a camera; 314. a support; 315. a network cable socket; 316. a port; 317. a first connecting rod; 318. a fixed part; 319. a fixing part assembling hole; 320. a nesting part; 321. a butt joint hole; 322. a stringing hole; 323. a horizontal support portion.

Detailed Description

The present invention will be described in further detail with reference to examples.

It will be appreciated by those skilled in the art that the following examples are illustrative of the invention only and should not be taken as limiting the scope of the invention. The examples do not specify particular techniques or conditions, and are performed according to the techniques or conditions described in the literature in the art or according to the product specifications. The materials or equipment used are not indicated by manufacturers, and all are conventional products available by purchase.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected to the other element or intervening elements may also be present. Further, "connected" as used herein may include wirelessly connected. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the description of the present invention, "a plurality" means two or more unless otherwise specified. The terms "inner," "upper," "lower," and the like, refer to an orientation or a state relationship based on that shown in the drawings, which is for convenience in describing and simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "provided" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. To those of ordinary skill in the art, the specific meanings of the above terms in the present invention are understood according to specific situations.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

As shown in fig. 1, 2 and 12, the cloud platform-based power pointer instrument test device 10 management and control system includes:

the electromagnetic door lock comprises an electromagnetic door lock 1 and a relay 2 connected with the electromagnetic door lock 1;

further comprising: the palm print machine 3 is used for acquiring palm print identification data and is arranged at an outer door of a warehouse;

the information input module 4 is used for inputting pre-stored information; the pre-stored information comprises palm print information;

the RFID tag 5 is fixed on the power pointer instrument testing equipment 10; each electric power pointer instrument test device 10 is fixedly connected with an RFID tag 5, and the information in the RFID tag 5 of each electric power pointer instrument test device 10 is unique;

two RFID readers 6, one is arranged in the warehouse close to the door and the other is arranged in the warehouse close to the electric pointer instrument test device 10;

the storehouse server 7 is respectively connected with the palm print machine 3, the information input module 4, the relay 2 and the RFID reader-writer 6; the palm print recognition module is used for receiving and storing palm print recognition data acquired by the palm print machine 3, pre-stored information recorded by the information recording module 4 and information read by the RFID reader-writer 6, and performing corresponding feedback operation according to a preset program; the storehouse server 7 is also electrically connected with the relay 2, outputs a high-level or low-level electric signal to the relay 2, and controls the opening and closing of the electromagnetic door lock 1 through the relay 2;

the background server 19 is connected with the storehouse server 7 and used for acquiring the information of the use condition of the power pointer instrument testing equipment 10 from the storehouse server 7;

an encryption positioning transmission device 18 is arranged in or on the surface of each power pointer instrument testing device 10, and the power pointer instrument testing devices 10 communicate with a background server 19 through the encryption positioning transmission device 18;

and the mobile terminal 20 is connected with the background server 19, and is used for acquiring related information of the power pointer instrument testing device 10 and receiving reminding information sent by the background server 19.

Preferably, the encryption positioning transmission device 18 comprises a housing 11;

an interface unit 12 is fixed on the side wall of the housing 11; the interface unit 12 is used for communicating with the power pointer instrument testing device 10;

a processor unit 13, an SM4 encryption unit 14, a power supply unit 16, and a positioning unit 17 are fixed in the housing 11; the power supply unit 16 is respectively connected with the processor unit 13, the SM4 encryption unit 14, the transmission unit 15 and the positioning unit 17 and used for supplying power;

a transmission unit 15 is also fixed on the housing 11;

the processor unit 13 is respectively connected with the interface unit 12, the SM4 encryption unit 14, the transmission unit 15 and the positioning unit 17;

the test data of the power pointer instrument test device 10 enters the processor unit 13 through the interface unit 12, the processor unit 13 sends the test data to the SM4 encryption unit 14 for encryption, and the encrypted data is sent to the transmission unit 15 through the processor unit 13 and transmitted to the background server 19;

the positioning unit 17 is used for positioning the power pointer instrument testing device 10, and the positioning data is sent to the transmission unit 15 through the processor unit 13 and transmitted to the background server 19.

Preferably, interface unit 12 has a bandwidth of 5 Gbps. The interface unit 12 has two interfaces, one is a USB interface and the other is an RS232 interface. The SM4 encryption unit 14 is an SOC chip with a cryptographic SM4 algorithm. The transmission unit 15 adopts a 4G module, and supports 3G and 4G transmission. The processor unit 13 employs a highflux cellcell processor. The power supply unit 16 includes a DC/DC chip. The positioning unit 17 adopts a GPS module to support GPS, Beidou and GLONASS positioning.

Preferably, the electric pointer instrument testing device 10 comprises a density relay 2 detecting device, a temperature controller detecting device and a liquid pressure gauge detecting device.

Preferably, the system further comprises a display terminal 8, wherein the display terminal 8 is connected with the storehouse server 7, and the storehouse server 7 controls display.

Preferably, the system further comprises an alarm 9, wherein the alarm 9 is connected with the storehouse server 7, and the storehouse server 7 controls the alarm.

Preferably, the information entry module 4 comprises an input keyboard and a palm print acquisition device.

Preferably, the background server 19 is further configured to monitor the delivery time of the power pointer instrument testing device 10, and when the delivery time is reached, send a reminder to the mobile terminal 20 of the corresponding device user or manager for reminding.

Preferably, as shown in fig. 3 to 11, the density relay inspection apparatus includes a case assembly including a lower case 106 and an upper cover 104 for closing and opening the lower case 106; a checking host positioning groove 113, an accessory positioning groove 110 and a camera component positioning groove 109 are arranged in the lower box body; the slot body buffer cotton 112 is filled in the slot walls of the calibration host positioning slot and the camera component positioning slot; the four corners of the accessory positioning groove are provided with L-shaped anti-collision pads 111; two supporting legs 116 are arranged at the bottom of the lower box body close to the upper cover, and two travelling wheels 114 are arranged at the bottom of the lower box body far away from the upper cover;

a box-type structure calibration host assembly is arranged in the calibration host positioning groove; a camera component is placed in the camera component positioning groove;

the checking host machine component comprises a box lower cover 202 and a box upper cover 203 which can be opened relatively, wherein the surface of the box lower cover is provided with an air inlet connector 205, a GPS module 213, a 4G antenna 216, a metal key switch 217, a quick-release switch 218, an air outlet connector 219, a DC charging port 220 and a 5-inch display screen 221; the surface of the lower cover of the box is also provided with a keyboard 223 and a mouse pad 214, and the keyboard is adsorbed on the surface of the lower cover through a magnetic rubber pad on the back; the 4G antenna is adhered to the surface of the lower cover of the box; the air inlet connector is connected with an external air bottle, the GPS module is used for providing position information, the 4G antenna is used for signal remote transmission, and the metal key switch is generally a power switch; the quick exhaust switch is used for quick exhaust after verification, and the exhaust joint is connected with a gas cylinder for recovering gas; the DC charging port is used for charging an internal lithium battery; the 5 cun display screen is supplementary demonstration and prompt information, and most show controls are all accomplished at the panel computer.

A tablet computer 226 is arranged on one surface of the upper cover of the box, which faces the surface of the lower cover of the box, the tablet computer is fixed on a tablet computer bracket through a butterfly nut 227, and the tablet computer bracket is arranged on the surface of the upper cover of the box;

the camera assembly comprises a housing 301, a clip 302, a handle 303, a barrel 304, an inner collar 305, a first connecting rod 317, a mounting plate 307, a second connecting rod 308, an annular seat 309, a light source 310, a groove body 311, a light-diffusing plate 312, a camera 313, a bracket, wherein, the outer wall of the shell is clamped with a hoop, the hoop is provided with a handle, the cylinder body is fixed at the front end of the shell through a bolt, an inner convex ring is arranged at the rear end of the shell, the mounting plate is fixedly connected in front of the inner convex ring through a first connecting rod, the annular seat is fixedly connected in front of the mounting plate through a plurality of second connecting rods, the rear end of the annular seat is fixedly connected with a light source, the inner wall of the annular seat is provided with a groove body, a light diffusion plate is clamped in the groove body, the front end of the mounting plate is provided with a bracket, the bracket is fixedly connected with a camera, and the front end of the camera penetrates through the annular seat, the light source and the light-diffusing plate; the inner wall of the cylinder is matched with the outer surface of the meter shell of the sulfur hexafluoride density relay to be verified, and a fastening bolt for fixing the cylinder on the outer surface of the meter shell of the sulfur hexafluoride density relay is arranged on the cylinder;

the camera assembly is electrically connected with the checking host assembly through a power line and is in communication connection with the checking host through a network cable.

Preferably, as shown in FIGS. 7-10: the back of the camera assembly is provided with a port 316 and a power cord connector; the network cable socket is fixedly connected to the front end of the mounting plate 307, the port 316 is arranged at the rear end of the network cable socket, and the port is positioned on the rear end surface of the mounting plate; the barrel includes a fixing portion 318 for fixing with a housing and a nest portion 320 for fixing with a sulfur hexafluoride density relay case. The barrel is designed into two parts and can be detached in the embodiment, and the nested part is of a circular structure matched with the shell of the sulfur hexafluoride density meter.

Preferably, as shown in FIGS. 7-10: the light source and the light-diffusing plate are both annular, wherein the light-diffusing plate comprises two light-diffusing plates which are parallel to each other. The light source 310 may be a conventional LED ring light for providing illumination for image acquisition; the light diffusion sheet 312 is a conventional commercially available product for playing a light diffusion effect.

Preferably, as shown in FIGS. 4-7: a rubber foot 206 is arranged at the bottom of the lower cover of the box of the checking host machine component; the lower box cover and the upper box cover are hinged through a hinge structure with damping; the surface of the lower cover of the box corresponding to the keyboard is provided with a groove, the keyboard is arranged in the groove, and the surface of the keyboard is flush with the surface of the groove. The rubber foot is used for supporting, and the damped hinge can make the case upper cover stop from optional position, is similar to the hinge structure of notebook computer. The keyboard realizes a sinking effect as for the groove, so that the surface is level and not easy to collide, and the effect is very attractive.

Preferably, as shown in FIGS. 4-7: an air cylinder base 212, a battery mounting plate 210, a lithium battery 211, a fan 204, an air pump 207 and a multilayer circuit board 222 are arranged in the lower cover of the box; the bottom of the groove sinks into the lower cover of the box to form a keyboard bracket 224; and the end surface of the lower cover of the box is provided with a ventilation heat dissipation hole corresponding to the installation position of the fan. The air cylinder is arranged on the air cylinder base and used for adjusting air supply pressure, the fan is used for dissipating heat, the air pump is used for supplying air, the multilayer circuit board can ensure reliable heat dissipation among the circuit boards, and meanwhile, the plane size of the whole circuit board does not need to be designed to be too large; the lithium battery provides a mobile power supply.

Preferably, as shown in fig. 3: an upper cover lock catch 102 is arranged on an upper cover of the box body assembly, and a lower box body of the box body assembly is provided with a lower box body lock catch 108 matched and corresponding to the upper cover lock catch; a limiting belt 105 is connected between the upper cover of the box body assembly and the lower box body 106; the upper cover of the box body component is also provided with an upper cover handle 101, the lower box body of the box body component is provided with a rear handle 115 on the mounting surface of the supporting leg, and the lower box body of the box body component is provided with a front handle 107 on the end surface of one side opposite to the rear handle. The handle of the box body is beneficial to opening and closing during lifting and using.

Preferably, as shown in fig. 3: the front handle mounting end face of the lower box body of the box body component is provided with a telescopic pull rod. The telescopic pull rod can make the pulling process easy to adjust.

Preferably, as shown in FIGS. 7-10: the hoop is an upper half part and a lower half part which are symmetrical up and down; the handle 303 is arranged on the upper half part, and the upper half part and the lower half part are connected after bolts are arranged through the butt joint holes 321 on the two sides; a rope threading hole 322 is also arranged between the opposite surfaces of the butt joint holes; the bottom surface of the lower half is a horizontal support 323. The rope through hole can penetrate through a rubber band or an insulating rope to further fix the shell and the sulfur hexafluoride density relay. The horizontal supporting part can be horizontally placed to be not toppled when being used at ordinary times.

As shown in fig. 1, 2 and 12, a method for managing and controlling power pointer instrument test equipment based on a cloud platform, which adopts the system for managing and controlling power pointer instrument test equipment based on the cloud platform, includes the following steps:

step (1), the electric pointer instrument test equipment is used:

when a receiver comes to a door of the warehouse for receiving, palm print identification data of the receiver is obtained through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened.

The storehouse server receives the contents read and written by the two RFID readers in real time; when a receiver legally enters and equipment received by the receiver passes through the read-write area of the two RFID readers, the RFID reader close to the electric pointer instrument testing equipment reads equipment RFID label information firstly, then the RFID reader close to a door opening reads the equipment RFID label information, the storehouse server judges that the equipment is legally received according to the read-write contents of the two readers, the same RFID label information and the read-write time of the two readers, and the receiver can get out of a storehouse by hitting an electromagnetic door lock from inside;

if the leader illegally enters the leader device, two conditions exist, one is that two RFID readers read and write device information in sequence, but the storehouse server does not compare the identity of the leader in advance, and after the device leaves a reading and writing area of the RFID reader near the door, the storehouse server controls an alarm to give an alarm; secondly, only the RFID reader-writer close to the electric pointer instrument test equipment reads and writes the RFID label information of the equipment, and then the RFID label information disappears, and both the RFID reader-writers cannot read;

step (2), returning the electric pointer instrument testing equipment:

the method comprises the following steps that a receiver returns to the front of a warehouse door, palm print identification data of the receiver is obtained through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened. The storehouse server receives the contents read and written by the two RFID readers in real time; when a leader legally enters, when equipment used by the leader passes through a reading and writing area of two RFID readers, the RFID reader close to a door opening reads equipment RFID label information firstly, then the RFID reader close to electric pointer instrument testing equipment reads the equipment RFID label information, a warehouse server judges whether the equipment is used in a warehouse legally or not according to the reading and writing contents of the two readers, the same RFID label information and the reading and writing time in the front and the back, and the RFID label information judges that the equipment is used in the warehouse, so that the equipment is legally returned, and the leader can get out of the warehouse by punching an electromagnetic door lock from inside;

if the RFID label information judges that the equipment does not appear in the warehouse, namely a receiver returns the wrong equipment, or two RFID readers cannot read and write the RFID label information, the equipment is returned illegally.

Step (3), testing and standby testing of the electric pointer instrument testing equipment and uploading of position information are achieved:

test data of the power pointer instrument test equipment enter the processor unit through the interface unit, the processor unit sends the test data to the SM4 encryption unit for encryption, and the encrypted data are sent to the transmission unit through the processor unit and transmitted to the background server; the positioning unit sends the positioning data of the electric pointer instrument testing equipment to the transmission unit through the processor unit and transmits the positioning data to the background server;

step (4), background server management and control:

the background server acquires the information of the availability condition of the power pointer instrument testing equipment from the storehouse server, and acquires detection data and position information of the power pointer instrument testing equipment through the encryption positioning transmission device; meanwhile, sending corresponding reminding information to the mobile terminal for reminding according to the acquired information;

step (5), acquiring information of the electric pointer instrument test equipment of the field operation personnel:

the mobile terminal is held by a manager, and acquires relevant information of the power pointer instrument test equipment from the background server; the related information comprises the information of the use condition, the detection data and the position information; and meanwhile, receiving reminding information sent by the background server.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Pointer power pointer instrument test equipment management and control system based on cloud platform includes:

the electromagnetic door lock comprises an electromagnetic door lock and a relay connected with the electromagnetic door lock;

further comprising: the palm print machine is used for acquiring palm print identification data and is arranged at an outer door of the warehouse;

the information input module is used for inputting pre-stored information; the pre-stored information comprises palm print information;

the RFID label is fixed on the pointer type electric power pointer instrument test equipment; each pointer type electric power pointer type instrument test device is fixedly connected with an RFID label;

the two RFID readers are arranged in the warehouse close to the door, and one RFID reader is arranged in the warehouse close to the pointer type electric pointer instrument testing equipment;

the storehouse server is respectively connected with the palm print machine, the information input module, the relay and the RFID reader-writer; the system comprises a palm print reader, an information input module, a palm print recognition module, an information input module, an RFID reader-writer and a control module, wherein the palm print recognition module is used for receiving and storing palm print recognition data acquired by the palm print reader, pre-stored information input by the information input module and information read by the RFID reader-writer, and performing corresponding feedback operation according to a preset program; the storehouse server is also electrically connected with the relay, outputs a high-level or low-level electric signal to the relay, and controls the opening and closing of the electromagnetic door lock by the relay;

the background server is connected with the storehouse server and used for acquiring the information of the receiving condition of the pointer type electric power pointer instrument testing equipment from the storehouse server;

an encryption positioning transmission device is arranged in or on the surface of each pointer type electric power pointer instrument test device, and the pointer type electric power pointer instrument test device is communicated with a background server through the encryption positioning transmission device;

and the mobile terminal is connected with the background server and used for acquiring related information of the pointer type electric power pointer instrument test equipment and receiving reminding information sent by the background server.

2. The cloud platform-based power pointer instrument test equipment management and control system of claim 1, wherein the encryption positioning transmission device comprises a housing;

an interface unit is fixed on the side wall of the shell; the interface unit is used for communicating with the power pointer instrument test equipment;

a processor unit, an SM4 encryption unit, a power supply unit and a positioning unit are fixed in the shell; the power supply unit is respectively connected with the processor unit, the SM4 encryption unit, the transmission unit and the positioning unit and used for supplying power;

a transmission unit is also fixed on the shell;

the processor unit is respectively connected with the interface unit, the SM4 encryption unit, the transmission unit and the positioning unit;

test data of the power pointer instrument test equipment enter the processor unit through the interface unit, the processor unit sends the test data to the SM4 encryption unit for encryption, and the encrypted data are sent to the transmission unit through the processor unit and transmitted to the background server;

the positioning unit is used for positioning the electric power pointer instrument testing equipment, and the positioning data is sent to the transmission unit through the processor unit and is transmitted to the background server.

3. The cloud platform-based power pointer instrument test device management and control system of claim 1, wherein the power pointer instrument test device comprises a density relay detection device, a temperature controller detection device, and a liquid pressure gauge detection device.

4. The cloud platform based pointer type power pointer instrument test equipment management and control system as claimed in claim 3, wherein the density relay detection equipment comprises a box body assembly, the box body assembly comprises a lower box body and an upper cover for closing and opening the lower box body; a checking host positioning groove, an accessory positioning groove and a camera component positioning groove are formed in the lower box body; the groove body buffer cotton is filled in the groove walls of the calibration host positioning groove and the camera assembly positioning groove; the four corners of the accessory positioning groove are provided with L-shaped anti-collision pads; two supporting legs are arranged at the position, close to the upper cover, of the bottom of the lower box body, and two traveling wheels are arranged at the position, far away from the upper cover, of the bottom of the lower box body;

a box-type structure calibration host assembly is arranged in the calibration host positioning groove; a camera component is placed in the camera component positioning groove;

the checking host machine component comprises a lower box cover and an upper box cover which can be opened relatively, and an air inlet connector, a GPS module, a 4G antenna, a metal key switch, a quick release switch, an exhaust connector, a DC charging port and a 5-inch display screen are arranged on the surface of the lower box cover; the surface of the lower cover of the box is also provided with a keyboard and a mouse pad, and the keyboard is adsorbed on the surface of the lower cover through a magnetic rubber pad on the back surface; the 4G antenna is adhered to the surface of the lower cover of the box;

a tablet personal computer is arranged on one surface, facing the surface of the lower cover of the box, of the upper cover of the box, the tablet personal computer is fixed on a tablet personal computer support through a butterfly nut, and the tablet personal computer support is arranged on the surface of the upper cover of the box;

the camera assembly comprises a shell, a clamp, a handle, a barrel, an inner convex ring, a first connecting rod, a mounting plate, a second connecting rod, an annular seat, a light source, a groove body, a light diffusion plate, a camera and a support, wherein the clamp is clamped on the outer wall of the shell, the handle is arranged on the clamp, the barrel is fixed at the front end of the shell through a bolt, the inner convex ring is arranged at the rear end of the shell, the mounting plate is fixedly connected in front of the inner convex ring through the first connecting rod, the annular seat is fixedly connected in front of the mounting plate through a plurality of second connecting rods, the light source is fixedly connected at the rear end of the annular seat, the groove body is arranged on the inner wall of the annular seat, the light diffusion plate is clamped in the groove body, the support is arranged at the front end of the mounting plate, the camera is fixedly; the inner wall of the cylinder is matched with the outer surface of the meter shell of the sulfur hexafluoride density relay to be verified, and a fastening bolt for fixing the cylinder on the outer surface of the meter shell of the sulfur hexafluoride density relay is arranged on the cylinder;

the camera assembly is electrically connected with the checking host assembly through a power line and is in communication connection with the checking host through a network cable.

5. The cloud platform based pointer type power pointer instrument test equipment management and control system of claim 4, wherein a port and a power line connector are arranged on the back of the camera assembly; the network cable socket is fixedly connected to the front end of the mounting plate, the port is arranged at the rear end of the network cable socket and is positioned on the rear end face of the mounting plate; the barrel comprises a fixing part and a nesting part, wherein the fixing part is used for being fixed with the shell, and the nesting part is used for being fixed with a meter shell of the sulfur hexafluoride density relay.

6. The cloud platform-based power pointer instrument test equipment management and control system of claim 1, further comprising a display terminal, wherein the display terminal is connected with the warehouse server and is controlled by the warehouse server to display.

7. The cloud platform-based power pointer instrument test equipment management and control system of claim 1, further comprising an alarm, wherein the alarm is connected with the warehouse server, and the warehouse server controls the alarm.

8. The cloud platform-based power pointer instrument test equipment management and control system of claim 1, wherein the information entry module comprises an input keyboard and a palm print collection device.

9. The cloud platform-based power pointer instrument test equipment management and control system of claim 1, wherein the background server is further configured to monitor a delivery time of the power pointer instrument test equipment, and when the delivery time is reached, send a reminder to a mobile terminal of a corresponding equipment seeker or manager for reminding.

10. The cloud platform based electric power pointer instrument test equipment management and control method adopts the cloud platform based electric power pointer instrument test equipment management and control system of any one of claims 1 to 9, and is characterized by comprising the following steps:

step (1), the electric pointer instrument test equipment is used:

when a receiver comes to a door of the warehouse for receiving, palm print identification data of the receiver is obtained through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened.

The storehouse server receives the contents read and written by the two RFID readers in real time; when a receiver legally enters and equipment received by the receiver passes through the read-write area of the two RFID readers, the RFID reader close to the electric pointer instrument testing equipment reads equipment RFID label information firstly, then the RFID reader close to a door opening reads the equipment RFID label information, the storehouse server judges that the equipment is legally received according to the read-write contents of the two readers, the same RFID label information and the read-write time of the two readers, and the receiver can get out of a storehouse by hitting an electromagnetic door lock from inside;

if the leader illegally enters the leader device, two conditions exist, one is that two RFID readers read and write device information in sequence, but the storehouse server does not compare the identity of the leader in advance, and after the device leaves a reading and writing area of the RFID reader near the door, the storehouse server controls an alarm to give an alarm; secondly, only the RFID reader-writer close to the electric pointer instrument test equipment reads and writes the RFID label information of the equipment, and then the RFID label information disappears, and both the RFID reader-writers cannot read;

step (2), returning the electric pointer instrument testing equipment:

the method comprises the following steps that a receiver returns to the front of a warehouse door, palm print identification data of the receiver is obtained through a palm print machine and then transmitted to a warehouse server; the storehouse server receives and stores the palm print identification data acquired by the palm print machine, compares the palm print identification data with prestored information of a receiver stored in the storehouse server, and outputs a low-level electric signal to the relay when the palm print identification data are consistent with the prestored information of the receiver, the relay controls the electromagnetic door lock to open, and the electromagnetic door lock is legally accessed; when the two signals are inconsistent, the storehouse server outputs a high-level electric signal to the relay, and the relay controls the electromagnetic door lock not to be opened. The storehouse server receives the contents read and written by the two RFID readers in real time; when a leader legally enters, when equipment used by the leader passes through a reading and writing area of two RFID readers, the RFID reader close to a door opening reads equipment RFID label information firstly, then the RFID reader close to electric pointer instrument testing equipment reads the equipment RFID label information, a warehouse server judges whether the equipment is used in a warehouse legally or not according to the reading and writing contents of the two readers, the same RFID label information and the reading and writing time in the front and the back, and the RFID label information judges that the equipment is used in the warehouse, so that the equipment is legally returned, and the leader can get out of the warehouse by punching an electromagnetic door lock from inside;

if the RFID label information judges that the equipment does not appear in the warehouse, namely a receiver returns the wrong equipment, or two RFID readers cannot read and write the RFID label information, the equipment is returned illegally.

Step (3), testing and standby testing of the electric pointer instrument testing equipment and uploading of position information are achieved:

test data of the power pointer instrument test equipment enter the processor unit through the interface unit, the processor unit sends the test data to the SM4 encryption unit for encryption, and the encrypted data are sent to the transmission unit through the processor unit and transmitted to the background server; the positioning unit sends the positioning data of the electric pointer instrument testing equipment to the transmission unit through the processor unit and transmits the positioning data to the background server;

step (4), background server management and control:

the background server acquires the information of the availability condition of the power pointer instrument testing equipment from the storehouse server, and acquires detection data and position information of the power pointer instrument testing equipment through the encryption positioning transmission device; meanwhile, sending corresponding reminding information to the mobile terminal for reminding according to the acquired information;

step (5), acquiring information of the electric pointer instrument test equipment of the field operation personnel:

the mobile terminal is held by a manager, and acquires relevant information of the power pointer instrument test equipment from the background server; the related information comprises the information of the use condition, the detection data and the position information; and meanwhile, receiving reminding information sent by the background server.

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