CN114706806B - Power dispatching data source terminal maintenance and whole network sharing method and device - Google Patents

Abstract

The invention discloses a method and a device for maintaining a power dispatching data source end and sharing the whole network, relates to the technical field of equipment maintenance of the power grid data source end, and solves the problems that the data source end fluctuates or a few daily programs are disordered when a power grid runs, the data source end needs to be manually cared in real time, and the data source end cannot be maintained for the first time when a problem occurs in a period of manual departure or working hours. The power dispatching data source end maintenance and whole network sharing method comprises data source end equipment, wherein three USB interfaces are arranged at the front end of the data source end equipment, and self-checking and backup mechanisms are arranged in front of two USB interfaces. According to the invention, the data source terminal can be automatically checked during the running of the power grid by arranging the data source terminal equipment, the USB interface, the program USB flash disk, the self-checking and backup mechanism and the automatic maintenance mechanism, and the problems are maintained and repaired at the first time when the problems occur, and the data backup and cloud sharing are performed, so that the loss of the data in the data source terminal of the power grid is avoided.

Description

Power dispatching data source terminal maintenance and whole network sharing method and device

Technical Field

The invention relates to the technical field of power grid data source end maintenance, in particular to a method and a device for maintaining a power dispatching data source end and sharing the whole power grid.

Background

With the rapid development of social economy, the power transformation station and the power transmission and distribution line of various voltages in the power system are integrally called as a power network, the power network has the task of transmitting and distributing electric energy, changing the voltage, and the data source end, namely the data terminal equipment, is the end equipment or the end system in the data communication system, is called DTE for short, and can be a data source (a data producer), a data sink (a data receiver) or both.

However, when the data source end of the power grid fluctuates or some daily programs are disordered during operation, the power grid needs to be manually cared in real time, and when a problem occurs during manual departure or working hours, the power grid cannot be maintained at the first time; therefore, the existing requirements are not met, and a power dispatching data source end maintenance and whole network sharing method is provided.

Disclosure of Invention

The invention aims to provide a power dispatching data source end maintenance and whole network sharing method, which aims to solve the problems that the data source end in the power grid provided in the background art fluctuates or some daily programs are disordered when in operation, the power dispatching data source end needs to be manually cared in real time, and when a problem occurs in a manual departure or working period, the maintenance cannot be performed in the first time.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a power dispatching data source end maintenance device, includes data source end equipment, the front end of data source end equipment is provided with three USB interface, wherein the place ahead of two USB interface is provided with self-checking and backup mechanism, self-checking and backup mechanism includes two positioning sleeve, positioning sleeve's one end is connected with data source end equipment's preceding terminal surface, positioning sleeve is provided with the electro-magnet with the inside tip that is connected of data source end equipment, positioning sleeve's the other end runs through and is provided with the telescopic link, the one end grafting of telescopic link is in positioning sleeve's inboard and the tip is provided with the permanent magnet, the permanent magnet is connected with the electro-magnet magnetism, the telescopic link is located the inside tip surface of positioning sleeve and is provided with the spacing piece, the spacing piece is provided with two symmetrical anticreep plug-in blocks with the centre of electro-magnet, the outer end tip of telescopic link is provided with the connecting block, the centre of two connecting blocks is provided with movable bottom plate;

the automatic maintenance mechanism comprises a base, a supporting column is arranged above the base, an adjusting slide block is movably arranged in the middle of one side of the supporting column, an adjusting screw rod is arranged in the middle of the adjusting slide block in a penetrating mode, the bottom end of the adjusting screw rod is inserted into the base, a driving motor is arranged on one side of the bottom end of the adjusting screw rod, driving gears are arranged on the end portion of the driving motor and the outer surface of the bottom end of the adjusting screw rod, the two driving gears are meshed with each other, a lifting support rod is arranged on one side of the adjusting slide block, an inner threaded sleeve is arranged inside the end portion, close to data source end equipment, of the lifting support rod, a butt joint motor is arranged below the side of the inner threaded sleeve, a transmission gear is arranged on the outer surface of the inner threaded sleeve and the end portion of the butt joint motor, and the two transmission gears are meshed with each other;

the utility model discloses a data source equipment, including internal thread sheathed tube, mounting panel, internal thread sheathed tube middle run through and are provided with the butt joint screw rod, the both ends of butt joint screw rod run through respectively between mounting panel and locating plate and the internal thread sheathed tube through screw drive, the butt joint screw rod runs through the tip terminal surface of mounting panel and is provided with the butt joint piece, the centre of butt joint piece and movable bottom plate is provided with the support bar, the preceding terminal surface at data source equipment is fixed to the one end of support bar, the support bar is kept away from the tip of data source equipment and is provided with two symmetric distribution's side supporting shoe towards the side of butt joint piece, two the centre activity of side supporting shoe is provided with the differentiating board, the centre of differentiating board runs through and is provided with the support pivot, peg graft respectively in the middle of two side supporting shoe at the both ends of support pivot, the one end of differentiating the board is located the below of support bar, the other end and the upper surface of movable bottom plate all are provided with procedure U dish.

Preferably, two symmetrically distributed side toggle bars are arranged on one side of the butt joint block, and a distinguishing bar is arranged between the side toggle bars and the middle of the side toggle bars.

Preferably, the number of the distinguishing strips positioned between the two side poking strips on the side surfaces of different butt joint blocks is not consistent, and the spacing between the distinguishing strips and the adjacent distinguishing strips is the same.

Preferably, the end surface of the differentiating plate below the supporting bar is embedded with a collision sensor, and the collision sensor is electrically connected with the driving motor.

Preferably, the support rotating shaft is inserted in the side support block, a torsion spring is sleeved outside the end part of the support rotating shaft, and one end of the side support block is in contact with the support bar and is formed by integral injection molding with the support bar.

Preferably, a fixed snap ring is arranged above the movable bottom plate, positioning pins are arranged on end faces of two ends of the fixed snap ring, positioning holes are formed in the surface of the movable bottom plate, and the fixed snap ring is connected with the movable bottom plate through the positioning pins and the positioning holes.

Preferably, a guide sliding block is arranged on one side of the lifting supporting rod, a guide rod is arranged in the middle of the guide sliding block in a penetrating mode, and one end of the guide rod is fixedly connected with the butt joint block.

Compared with the prior art, the adjusting mechanism has the beneficial effects that: when a problem occurs at the data source end, the electromagnet is electrified to magnetically adsorb the permanent magnet, the limiting piece drives the telescopic rod to shrink towards the inside of the positioning sleeve, the telescopic rod drives the movable bottom plate and the program U disk to move towards the corresponding USB plug-in interface, the program U disk is plugged into the corresponding USB plug-in interface, then a self-checking program inside the program U disk starts to detect the reason of the problem inside the data source end, then the driving motor drives the adjusting screw to rotate, the adjusting slide block slides on the outer side of the adjusting screw to adjust the position heights of the lifting support rods, the plate is distinguished in the process to pass through the butt joint blocks until the maintenance program inside the program U disk installed on the specific butt joint blocks corresponds to the problem detected by the self-checking program, then the driving motor stops running, and then the butt joint motor drives the internal threaded sleeve to rotate, so that the butt joint screw rod extends out from the lifting support rod and plugs in the corresponding USB plug-in interface until the program U disk is in butt joint with the USB plug-in interface, then the maintenance program starts, the data source end can be self-checked at the first time, the appropriate maintenance program is selected to maintain the data source end, and the data source end is prevented from being damaged by the power grid data inside the data source end.

A power dispatching data source end maintenance and whole network sharing method comprises the following steps:

(A) Firstly, the whole power supply of the device is connected, the electromagnet is started at regular time or the electromagnet is actively connected with the power supply when a problem occurs in the operation of the data source end equipment, at the moment, the electromagnet attracts the permanent magnet, so that the permanent magnet moves towards the electromagnet and the telescopic rod moves towards the inside of the positioning sleeve, the telescopic rod drives the limiting piece to move so that the limiting piece compresses the separation spring, at the moment, the telescopic rod drives the connecting block to synchronously move, and the connecting block drives the movable bottom plate and the program U disk on the surface of the movable bottom plate to move towards the corresponding USB plug interface until the program U disk is plugged in the USB plug interface;

(B) After the program U disk and the USB plug interface are in butt joint, a set self-checking program can be realized in the program U disk to detect the data source equipment, the self-checking program judges the problem firstly after detecting the problem in the data source equipment, if the problem is daily and can be repaired by a preset maintenance program, the device starts an autonomous maintenance mechanism to carry out autonomous maintenance on the data source equipment, and if the problem is abnormal and can not be repaired by the preset maintenance program, the internal system of the data source equipment can feed information back to the control terminal and feed information back to maintenance staff through the control terminal to carry out manual repair;

(C) When the automatic repair can be carried out, the driving motor in the base can be started, at the moment, the driving motor drives the adjusting screw rod to rotate, so that the adjusting screw rod drives the adjusting slide block to move along the outer side of the adjusting screw rod, the adjusting slide block drives the lifting support rod and the butt joint block to synchronously move, the moving butt joint block passes through the side of the distinguishing plate, when the butt joint block passes through the distinguishing plate, one end of the distinguishing plate is stirred through the side stirring strip and the distinguishing strip on the side of the butt joint block, the other end of the distinguishing plate collides with the bottom surface of the supporting strip, the passing butt joint block is distinguished through the collision times between the distinguishing plate and the supporting strip, and after the butt joint block of the program U disk provided with a maintainable program passes through the distinguishing plate, the driving motor stops running;

(D) Then the docking motor is electrified and started, the docking motor drives the internal thread sleeve to rotate through the transmission gear, the internal thread sleeve is driven by threads between the internal thread sleeve and the docking screw, the docking screw extends out of the lifting support rod, at the moment, the docking screw drives the docking block to move towards the data source end equipment, and the program U disk installed on the docking block is spliced into the corresponding USB plug interface until the program U disk is spliced with the USB plug interface;

(E) After the program U disk and the USB plug interface are plugged, a maintenance program preset in the program U disk can be started, the started maintenance program can maintain and repair problems in the data source end equipment, after the maintenance is finished, the docking motor is reversely started, the docking motor drives the internal threaded sleeve to reversely rotate so that the docking screw rod is contracted towards the inside of the lifting support rod, and the docking block is reset to separate the program U disk from the USB plug interface;

(F) The method comprises the steps that after a program USB flash disk is separated from a USB plug interface, an electromagnet in a positioning sleeve below the program USB flash disk corresponding to a self-checking program is electrified, at the moment, the electromagnet attracts a permanent magnet, the permanent magnet drives a telescopic rod to move, the telescopic rod drives a movable bottom plate to move towards data source end equipment through a connecting block, the program USB flash disk on the movable bottom plate is plugged into the corresponding USB plug interface, and then a backup and sharing program in the middle of the program USB flash disk backs up data maintained at the time and shares cloud.

Preferably, the program U disk comprises a self-checking U disk, a backup and sharing U disk and a maintenance U disk, wherein the maintenance U disk is installed on the butt joint block.

Preferably, the three USB interfaces are a self-checking interface, a backup and sharing interface and a maintenance interface, respectively, and the self-checking interfaces and the maintenance interfaces are symmetrically distributed.

Compared with the prior art, the maintenance and whole network sharing method has the beneficial effects that:

according to the method and the system, when errors on a daily program occur at the data source end, the data source end can be self-checked at the first time, an appropriate maintenance program is selected to maintain and repair the data source end, data backup and cloud sharing are performed, and the situation that data in the power grid data source end are lost is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1A in accordance with the present invention;

FIG. 3 is a schematic view of a part of the autonomous maintenance mechanism of the present invention;

FIG. 4 is a schematic diagram of the self-test and backup mechanism of the present invention;

FIG. 5 is a schematic view of the positioning sleeve of the present invention;

fig. 6 is a schematic diagram of a maintenance procedure of a data source according to the present invention.

In the figure: 1. a data source device; 2. a USB interface; 3. program U disk; 4. an autonomous maintenance mechanism; 401. a base; 402. a support column; 403. adjusting a screw; 404. an adjusting slide block; 405. lifting the support rod; 406. a butt joint block; 407. a side toggle bar; 408. a differentiating bar; 409. a support bar; 410. a dividing plate; 411. a transmission gear; 412. supporting a rotating shaft; 413. a side support block; 414. docking the screw; 415. an internally threaded sleeve; 416. a butt joint motor; 417. a mounting plate; 418. a positioning plate; 5. self-checking and backup mechanisms; 501. a movable bottom plate; 502. a fixed snap ring; 503. a connecting block; 504. a telescopic rod; 505. positioning the sleeve; 506. a limiting piece; 507. an anti-drop plug block; 508. a permanent magnet; 509. an electromagnet; 510. separating the spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The docking motor 416 (model ncv-400-60C) and the drive motor (model 6IK 180W-200W) referred to in the present invention are available commercially or custom made.

Referring to fig. 1 to 6, an embodiment of the present invention provides: the utility model provides a power dispatching data source end maintenance device, including data source end equipment 1, the front end of data source end equipment 1 is provided with three USB interface 2, wherein the place ahead of two USB interfaces 2 is provided with self-checking and backup mechanism 5, self-checking and backup mechanism 5 includes two positioning sleeve 505, the one end of positioning sleeve 505 is connected with the preceding terminal surface of data source end equipment 1, the inside electro-magnet 509 that is provided with of tip that positioning sleeve 505 is connected with data source end equipment 1, the other end of positioning sleeve 505 runs through and is provided with telescopic link 504, the one end grafting of telescopic link 504 is provided with permanent magnet 508 in the inboard of positioning sleeve 505 and the tip is provided with permanent magnet 508 with electro-magnet 509, the tip surface that telescopic link 504 is located the inside of positioning sleeve 505 is provided with spacing piece 506, the centre of spacing piece 506 and positioning sleeve 505 is provided with two symmetrical anticreep grafting pieces 507, the centre of anticreep grafting piece 507 and electro-magnet 509 is provided with connecting block 503, the outer end tip of telescopic link 504, the centre of two connecting blocks 501 is provided with movable bottom plate 501;

an automatic maintenance mechanism 4 is arranged in front of the other USB interface 2, the automatic maintenance mechanism 4 comprises a base 401, a supporting column 402 is arranged above the base 401, an adjusting slide block 404 is movably arranged in the middle of one side of the supporting column 402, an adjusting screw 403 is arranged in the middle of the adjusting slide block 404 in a penetrating manner, the bottom end of the adjusting screw 403 is inserted into the base 401, a driving motor is arranged at one side of the bottom end, the end parts of the driving motor and the outer surface of the bottom end of the adjusting screw 403 are respectively provided with a driving gear, the two driving gears are meshed with each other, a lifting support rod 405 is arranged at one side of the adjusting slide block 404, an inner threaded sleeve 415 is arranged in the end part of the lifting support rod 405, which is close to the data source end equipment 1, a butt joint motor 416 is arranged below the side of the inner threaded sleeve 415, the outer surface of the inner threaded sleeve 415 and the end part of the butt joint motor 416 are respectively provided with a driving gear 411, and the two driving gears 411 are meshed with each other;

the utility model provides a data source equipment, including internal thread sleeve 415, the one end outside of internal thread sleeve 415 is provided with locating plate 418, another list of internal thread sleeve 415 is provided with mounting panel 417, the terminal surface at lift bracing piece 405 is installed to mounting panel 417, the centre of internal thread sleeve 415 runs through and is provided with docking screw 414, the both ends of docking screw 414 run through the screw drive between mounting panel 417 and locating plate 418 and the internal thread sleeve 415 respectively, docking screw 414 runs through the tip terminal surface of mounting panel 417 and is provided with docking block 406, the centre of docking block 406 and movable bottom plate 501 is provided with support bar 409, the terminal surface at data source equipment 1 is fixed to the one end of support bar 409, the terminal surface of support bar 409 is kept away from data source equipment 1 is provided with two symmetric distribution's side supporting shoe 413 towards the side of docking block 406, the centre activity of two side supporting shoe 413 is provided with differentiating board 410, the centre of differentiating board 410 runs through and is provided with support pivot 412, peg graft respectively in the centre of two side supporting shoe 413, differentiating board 410's one end is located the below of support bar 409, the other end and the upper surface of movable bottom plate 501 all is provided with procedure dish 3.

Further, two symmetrically distributed side toggle bars 407 are arranged on one side of the docking block 406, a distinguishing bar 408 is arranged between the side toggle bars 407 and the side toggle bars 407, and the side toggle bars 407 and the distinguishing bar 408 on the side face of the docking block 406 can be used for distinguishing program U discs 3 placed in the middle of the docking block 406 and used for different maintenance purposes.

Further, the number of the distinguishing strips 408 positioned in the middle of the two side poking strips 407 on the side surfaces of different butt joint blocks 406 is inconsistent, the spacing between the distinguishing strips 408 and the adjacent distinguishing strips 408 is the same, and the plurality of butt joint blocks 406 can be distinguished through the accurate number of the different distinguishing strips 408 in the middle of the side poking strips 407, so that different maintenance programs can be conveniently used for maintaining the data source end.

Further, the end surface of the differentiating board 410 below the supporting bar 409 is embedded with a collision sensor, the collision sensor is electrically connected with the driving motor, the number of collisions between the supporting bar 409 and the differentiating board 410 in a short time is used for differentiating the docking block 406 passing through the differentiating board 410, and the program U disk 3 installed on the docking block 406 is distinguished.

Further, the support rotating shaft 412 is inserted in the side support block 413, and a torsion spring is sleeved outside the end portion, where one end of the side support block 413 contacts with the support bar 409 and is formed by integral injection molding with the support bar 409, and the torsion spring outside the end portion of the support rotating shaft 412 can reset the differentiating board 410 when the differentiating board 410 is stirred by the side stirring bar 407 when the butting block 406 moves up and down, so that the differentiating board 410 is always balanced.

Further, the top of movable bottom plate 501 is provided with fixed snap ring 502, and fixed snap ring 502's both ends terminal surface all is provided with the locating pin, and movable bottom plate 501's surface is provided with the locating hole, and fixed snap ring 502 passes through the locating pin with movable bottom plate 501 and is connected with the locating hole, can fix program USB flash disk 3 placed in the middle of movable bottom plate 501 through fixed snap ring 502, avoids program USB flash disk 3 to separate from movable bottom plate 501.

Further, a guide sliding block is arranged on one side of the lifting support rod 405, a guide rod is arranged in the middle of the guide sliding block in a penetrating manner, one end of the guide rod is fixedly connected with the butt joint block 406, and the guide rod and the guide sliding block guide and limit the movement of the butt joint block 406, so that the butt joint screw 414 cannot rotate along with the internal thread sleeve 415.

A power dispatching data source end maintenance and whole network sharing method comprises the following steps:

(A) Firstly, the whole power supply of the device is connected, when the electromagnet 509 is started at regular time or a problem occurs during the operation of the data source terminal equipment 1, the electromagnet 509 is actively connected with the power supply, at the moment, the electromagnet 509 attracts the permanent magnet 508, so that the permanent magnet 508 moves towards the electromagnet 509 and the telescopic rod 504 moves towards the inside of the positioning sleeve 505, the telescopic rod 504 drives the limiting piece 506 to move, so that the limiting piece 506 compresses the separation spring 510, at the moment, the telescopic rod 504 drives the connecting block 503 to synchronously move, and the connecting block 503 drives the movable bottom plate 501 and the program U disk 3 on the surface of the movable bottom plate 501 to move towards the corresponding USB interface 2 until the program U disk 3 is inserted into the USB interface 2;

(B) After the program U disk 3 is in butt joint with the USB interface 2, a set self-checking program is realized in the program U disk 3 to detect the data source end equipment 1, the self-checking program judges the problem firstly after detecting the internal problem of the data source end equipment 1, if the problem is daily and can be repaired by a preset maintenance program, the device starts the autonomous maintenance mechanism 4 to autonomously maintain the data source end equipment 1, and if the problem is abnormal and can not be repaired by the preset maintenance program, the internal system of the data source end equipment 1 feeds information back to the control terminal and feeds the information back to maintenance staff through the control terminal to carry out manual repair;

(C) When the automatic repair can be performed, the driving motor in the base 401 is started, at this time, the driving motor drives the adjusting screw 403 to rotate, so that the adjusting screw 403 drives the adjusting slide block 404 to move along the outer side of the adjusting screw, the adjusting slide block 404 drives the lifting support rod 405 and the abutting block 406 to synchronously move, so that the moving abutting block 406 passes by the side of the distinguishing plate 410, and when the abutting block 406 passes by the distinguishing plate 410, one end of the distinguishing plate 410 is stirred through the side stirring bar 407 and the distinguishing bar 408 on the side of the abutting block 406, so that the other end of the distinguishing plate 410 collides with the bottom surface of the supporting bar 409, the passing abutting block 406 is distinguished by the collision times between the distinguishing plate 410 and the supporting bar 409, and after the abutting block 406 of the program U disk 3 provided with a maintainable program passes by the distinguishing plate 410, the driving motor stops running;

(D) Then the docking motor 416 is electrified and started, the docking motor 416 drives the internal thread sleeve 415 to rotate through the transmission gear 411, the internal thread sleeve 415 drives the internal thread sleeve 415 to extend out of the lifting support rod 405 through thread transmission between the internal thread sleeve 415 and the docking screw 414, at the moment, the docking screw 414 drives the docking block 406 to move towards the data source end device 1, and the program U disk 3 installed on the docking block 406 is spliced into the corresponding USB interface 2 until the program U disk 3 and the USB interface 2 are spliced;

(E) After the program U disk 3 is inserted into the USB interface 2, a maintenance program preset in the program U disk 3 is started, the started maintenance program can maintain and repair problems in the data source end device 1, after the maintenance is finished, the docking motor 416 is reversely started, the docking motor 416 drives the internal thread sleeve 415 to reversely rotate so that the docking screw 414 is contracted towards the inside of the lifting support rod 405, and the docking block 406 resets to separate the program U disk 3 from the USB interface 2;

(F) After the program USB flash disk 3 is separated from the USB plug interface 2, the electromagnet 509 in the positioning sleeve 505 below the program USB flash disk 3 corresponding to the self-checking program is electrified, at this time, the electromagnet 509 attracts the permanent magnet 508, so that the permanent magnet 508 drives the telescopic rod 504 to move, the telescopic rod 504 drives the movable bottom plate 501 to move towards the data source end device 1 through the connecting block 503, the program USB flash disk 3 on the movable bottom plate 501 is plugged in the corresponding USB plug interface 2, and then the backup and sharing program in the middle of the program USB flash disk 3 backs up the data maintained at this time and shares the cloud.

Further, the program USB flash disk 3 comprises a self-checking USB flash disk, a backup and sharing USB flash disk and a maintenance USB flash disk, wherein the maintenance USB flash disk is installed on the butt joint block 406, the self-checking, the backup and the maintenance are mutually distinguished, the orderly progress in the work is ensured, and errors are avoided.

Further, the three USB interfaces 2 are a self-checking interface, a backup and sharing interface and a maintenance interface, the self-checking interface and the maintenance interface are symmetrically distributed, and the self-checking, maintenance or backup work can be orderly performed at the same time through different interfaces, so that interference can not exist gradually.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a power scheduling data source end maintenance device, includes data source end equipment (1), its characterized in that: the front end of the data source end device (1) is provided with three USB plug interfaces (2), wherein the front sides of the two USB plug interfaces (2) are provided with self-checking and backup mechanisms (5), each self-checking and backup mechanism (5) comprises two positioning sleeves (505), one end of each positioning sleeve (505) is connected with the front end face of the data source end device (1), an electromagnet (509) is arranged inside the end part of each positioning sleeve (505) connected with the data source end device (1), the other end of each positioning sleeve (505) is penetrated and provided with a telescopic rod (504), one end of each telescopic rod (504) is inserted into the inner side of each positioning sleeve (505) and the end part of each telescopic rod is provided with a permanent magnet (508), each permanent magnet (508) is magnetically connected with the electromagnet (509), the outer surface of the end part of each telescopic rod (504) positioned inside each positioning sleeve (505) is provided with a limiting piece (506), two symmetrical anti-release plug blocks (507) are arranged between each limiting piece (506) and the positioning sleeve (505), and the middle of the two telescopic rods (503) are arranged outside the middle connecting rods (503);

the automatic maintenance mechanism (4) is arranged in front of the USB plug-in port (2), the automatic maintenance mechanism (4) comprises a base (401), a supporting column (402) is arranged above the base (401), an adjusting slide block (404) is movably arranged in the middle of one side of the supporting column (402), an adjusting screw (403) is arranged in the middle of the adjusting slide block (404) in a penetrating mode, the bottom end of the adjusting screw (403) is plugged into the inside of the base (401), a driving motor is arranged on one side of the bottom end, driving gears are arranged at the end of the driving motor and the outer surface of the bottom end of the adjusting screw (403), two driving gears are meshed with each other, a lifting supporting rod (405) is arranged on one side of the adjusting slide block (404), an inner threaded sleeve (415) is arranged inside the end of the lifting supporting rod (405) close to the data source end equipment (1), a butting motor (416) is arranged below the inner threaded sleeve (415), a transmission gear (411) is arranged at the outer surface of the inner threaded sleeve (415) and the end of the butting motor (416), and the two transmission gears (411) are meshed with each other;

a positioning plate (418) is arranged at the outer side of one end of the internal thread sleeve (415), a mounting plate (417) is arranged at the other end of the internal thread sleeve (415), the mounting plate (417) is arranged on the front end face of the lifting support rod (405), a butt joint screw (414) is arranged in the middle of the internal thread sleeve (415) in a penetrating way, two ends of the butt joint screw (414) respectively penetrate through the mounting plate (417) and the positioning plate (418) and the internal thread sleeve (415) through threaded transmission, a butt joint block (406) is arranged at the end face of the butt joint screw (414) penetrating through the end face of the mounting plate (417), a support bar (409) is arranged between the butt joint block (406) and the movable bottom plate (501), one end of the support bar (409) is fixed on the front end face of the data source end device (1), two symmetrically distributed side support blocks (413) are arranged at the side faces of the end face of the butt joint block (406), a distinguishing plate (410) is arranged in the middle of the two side support blocks (413), the middle of the middle support block (412) is provided with a distinguishing plate (410), the two side support blocks (412) are arranged at the middle of the two side support blocks (410) respectively, the two side support blocks (412) are arranged at the middle of the two side faces of the middle support block (410) and are located at the middle end of the rotating shaft (410), the other end of the butt joint block (406) and the upper surface of the movable bottom plate (501) are both provided with a program U disk (3).

2. The power dispatching data source end maintenance device according to claim 1, wherein: two symmetrically distributed side toggle bars (407) are arranged on one side of the butt joint block (406), and a distinguishing bar (408) is arranged between the side toggle bars (407) and the middle of the side toggle bars (407).

3. The power dispatching data source end maintenance device according to claim 2, wherein: the number of the distinguishing strips (408) positioned between the two side toggle strips (407) on the side surfaces of different butt joint blocks (406) is not consistent, and the spacing between the distinguishing strips (408) and the adjacent distinguishing strips (408) is the same.

4. The power dispatching data source end maintenance device according to claim 1, wherein: the end surface of the differentiating plate (410) below the supporting bar (409) is embedded with a collision sensor, and the collision sensor is electrically connected with the driving motor.

5. The power dispatching data source end maintenance device according to claim 1, wherein: the support rotating shaft (412) is inserted into the side support block (413), a torsion spring is sleeved outside the end part of the side support block (413), and one end of the side support block (413) is in contact with the support bar (409) and is formed by integral injection molding with the support bar (409).

6. The power dispatching data source end maintenance device according to claim 1, wherein: the movable bottom plate (501) is characterized in that a fixed clamping ring (502) is arranged above the movable bottom plate (501), positioning pins are arranged on end faces of two ends of the fixed clamping ring (502), positioning holes are formed in the surface of the movable bottom plate (501), and the fixed clamping ring (502) is connected with the movable bottom plate (501) through the positioning pins and the positioning holes.

7. The power dispatching data source end maintenance device according to claim 2, wherein: one side of the lifting support rod (405) is provided with a guide sliding block, a guide rod penetrates through the middle of the guide sliding block, and one end of the guide rod is fixedly connected with the butt joint block (406).

8. A power dispatching data source end maintenance and whole network sharing method is characterized in that: the maintenance and whole network sharing method comprises the following steps:

(A) Firstly, the whole power supply of the device is connected, the electromagnet (509) is started at regular time or the electromagnet (509) is actively connected with the power supply when a problem occurs in the operation of the data source terminal equipment (1), at the moment, the electromagnet (509) can attract the permanent magnet (508), the permanent magnet (508) moves towards the electromagnet (509) and the telescopic rod (504) moves towards the inside of the positioning sleeve (505), the telescopic rod (504) drives the limiting piece (506) to move so that the limiting piece (506) compresses the separation spring (510), at the moment, the telescopic rod (504) can drive the connecting block (503) to synchronously move, and the connecting block (503) drives the movable bottom plate (501) and the program U disk (3) on the surface of the movable bottom plate (501) to move towards the corresponding USB plug interface (2) until the program U disk (3) is plugged in the USB plug interface (2);

(B) After the program U disk (3) is in butt joint with the USB plug interface (2), a self-checking program which is set in the program U disk (3) can detect the data source end equipment (1), the self-checking program judges the problem firstly after detecting the internal problem of the data source end equipment (1), if the problem is daily and can be repaired by a preset maintenance program, the device starts an automatic maintenance mechanism (4) to autonomously maintain the data source end equipment (1), and if the problem is abnormal and can not be repaired by the preset maintenance program, the internal system of the data source end equipment (1) can feed information back to a control terminal and feed information back to maintenance staff through the control terminal to carry out manual repair;

(C) When the automatic repair can be carried out, a driving motor in the base (401) can be started, at the moment, the driving motor drives the adjusting screw (403) to rotate, so that the adjusting screw (403) drives the adjusting slide block (404) to move along the outer side of the adjusting screw, the adjusting slide block (404) can drive the lifting support rod (405) and the butt joint block (406) to synchronously move, the moving butt joint block (406) passes by the side of the distinguishing plate (410), the butt joint block (406) can stir one end of the distinguishing plate (410) through a side stirring bar (407) and a distinguishing bar (408) on the side of the butt joint block (406) when passing by the distinguishing plate (410), the other end of the distinguishing plate (410) collides with the bottom surface of the supporting bar (409), the passing butt joint block (406) is distinguished by the collision times between the distinguishing plate (410) and the supporting bar (409), and the driving motor stops running after the butt joint block (406) of the program U disk (3) provided with a maintainable program passes by the distinguishing plate (410);

(D) Then the docking motor (416) is electrified and started, the docking motor (416) drives the internal thread sleeve (415) to rotate through the transmission gear (411), the internal thread sleeve (415) is driven by threads between the internal thread sleeve and the docking screw (414), the docking screw (414) stretches out of the lifting support rod (405), at the moment, the docking screw (414) can drive the docking block (406) to move towards the data source end equipment (1), and the program U disk (3) installed on the docking block (406) is plugged into the corresponding USB plug interface (2) until the program U disk (3) and the USB plug interface (2) are plugged;

(E) After the program U disk (3) is inserted into the USB plug interface (2), a maintenance program preset in the program U disk (3) is started, the started maintenance program can maintain and repair problems in the data source terminal equipment (1), after the maintenance is finished, the docking motor (416) is reversely started, the docking motor (416) drives the internal thread sleeve (415) to reversely rotate so that the docking screw (414) is contracted towards the inside of the lifting support rod (405), and the docking block (406) is reset to separate the program U disk (3) from the USB plug interface (2);

(F) The method comprises the steps that an electromagnet (509) in a positioning sleeve (505) below a program U disk (3) corresponding to a self-checking program is electrified after the program U disk (3) is separated from a USB plug-in port (2), the electromagnet (509) attracts a permanent magnet (508) at the moment, the permanent magnet (508) drives a telescopic rod (504) to move, the telescopic rod (504) drives a movable bottom plate (501) to move towards a data source end device (1) through a connecting block (503), the program U disk (3) on the movable bottom plate (501) is plugged in the corresponding USB plug-in port (2), and then a backup and sharing program in the middle of the program U disk (3) backs up and shares cloud data after maintenance at the moment.

9. The method for maintaining and sharing the power dispatching data source end as claimed in claim 8, wherein: the program U disk (3) comprises a self-checking U disk, a backup and sharing U disk and a maintenance U disk, wherein the maintenance U disk is installed on the butt joint block (406).

10. The method for maintaining and sharing the power dispatching data source end as claimed in claim 8, wherein: the three USB plug interfaces (2) are respectively a self-checking plug interface, a backup and sharing plug interface and a maintenance plug interface, and the self-checking plug interfaces and the maintenance plug interfaces are symmetrically distributed.