CN116487923A

CN116487923A - Dynamic fault monitoring miniaturized connector

Info

Publication number: CN116487923A
Application number: CN202310353335.0A
Authority: CN
Inventors: 张瑞; 常鑫; 陈祥
Original assignee: Peaceful Vision Electronic Lianyungang Co ltd
Current assignee: Peaceful Vision Electronic Lianyungang Co ltd
Priority date: 2023-04-04
Filing date: 2023-04-04
Publication date: 2023-07-25
Anticipated expiration: 2043-04-04
Also published as: CN116487923B

Abstract

The invention discloses a dynamic fault monitoring miniaturized connector, and relates to the technical field of miniaturized connectors; according to the invention, the marking unit is arranged to position and sequence number mark a plurality of micro-connection units, the information acquisition unit acquires and stores the running environment information and network interaction information of the micro-connection units through the preset time, the fault monitoring unit is used for carrying out combined judgment on the running environment information and the network interaction information to generate a fault reference value, the fault reference value is used for judging whether the micro-connection units are faulty, when the micro-connection units are faulty, fault signals are generated, all fault signals in a preset time period are acquired, and the corresponding connection sub-bodies in the connection set are called to construct a fault set and are arranged to dynamically refresh and display, so that the functions of accurately positioning and accurately monitoring the fault micro-connection units are realized.

Description

Dynamic fault monitoring miniaturized connector

Technical Field

The invention relates to the technical field of miniaturized connectors, in particular to a dynamic fault monitoring miniaturized connector.

Background

The connector can carry out holistic bridging with two conductors to make two conductors intercommunication, make electric current or electronic signal pass in the conductor, be convenient for transmit data or electric current, through the setting of connector, can be with the quick establishment connection of wire, save the time that the connection took, and the connector has characteristics such as connect fast, simple to operate and small, make the waste in space that can very big reduction, thereby promote the utilization ratio in space, current connector still has some problems when using, can't accomodate the protection to the port when not using the state, and can't gather its data parameter remote monitoring judgement a plurality of connectors in the operation, can't carry out fault judgement, position location etc. to a plurality of connectors, cause its intelligent degree lower problem.

In view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims at: on the basis of realizing non-use state protection and use state multi-port connection, positioning and serial number calibration are carried out on a plurality of micro-connection units through a marking unit, an information acquisition unit acquires operation environment information and network interaction information of the micro-connection units through preset time and stores the operation environment information and the network interaction information, a fault monitoring unit is used for carrying out combined judgment on the operation environment information and the network interaction information to generate a fault reference value, then the fault reference value is used for judging whether the micro-connection units are faulty, when the micro-connection units are faulty, a fault signal is generated, all fault signals in a preset time period are acquired, connection sub-bodies corresponding to the fault signals in the connection set are acquired to construct a fault set, the connection sub-bodies in the fault set are ordered from large to small through the size of the fault reference value, and the ordered fault set is sent to a mobile phone terminal of an operation maintenance personnel to be displayed in a dynamic refreshing mode, so that the functions of accurately positioning and accurately monitoring the fault micro-connection units are realized, and the intelligent degree of the invention is remarkably improved.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a dynamic fault monitoring miniaturized connector comprises a miniature connecting unit, a marking unit, an information acquisition unit, a fault monitoring unit and a data storage unit;

the marking unit marks the plurality of micro connection units and generates a connection set, and the connection set is sent to the data storage unit and is specifically expressed as a connection sub-body 1, a connection sub-body 2, a connection sub-body 3, … … and a connection sub-body i; wherein i is a positive integer; the information acquisition unit is used for acquiring the running environment information of the micro connection unit and the network interaction information of the micro connection unit within preset time and sending the running environment information and the network interaction information to the data storage unit; the data storage unit is used for receiving and storing information;

the fault monitoring unit acquires the running environment information of the micro connection unit and the network interaction information of the micro connection unit through the data storage unit, combines and judges the running environment information and the network interaction information to generate a fault reference value, compares the fault reference value with a preset fault interval, generates a fault signal when judging that the fault reference value is larger than the maximum value of the preset fault interval, acquires all fault signals in preset time, invokes connection sub-bodies corresponding to the fault signals in the connection set to construct a fault set, sorts the connection sub-bodies in the fault set from large to small according to the size of the fault reference value, and sends the sorted fault set to a mobile phone terminal of an operation and maintenance personnel in a dynamic refreshing mode for display.

Further, including U-shaped shell, connector body and main joint, the U-shaped shell is used for right the connector body protects, and connector body internally mounted has the thing networking module, the connector body is located inside the U-shaped shell, the rear side of connector body is equipped with the connection interface, the inside grafting of connection interface has the main joint, both ends all are equipped with stop gear about the U-shaped shell, stop gear runs through U-shaped shell and is connected with the connector body, the U-shaped shell passes through stop gear and is articulated with the connector body.

Further, the running environment information of the micro connection unit comprises a temperature value at the internet of things module and a temperature value at the main joint, and the network interaction information of the micro connection unit comprises a signal receiving duration of the temperature value sent by the internet of things module and the temperature value received by the data storage unit.

Further, the specific judging process of the fault monitoring unit is as follows:

after receiving the temperature value at the Internet of things module, the temperature value at the main joint and the signal receiving duration of the preset time, subtracting the maximum value and the minimum value of the preset temperature interval corresponding to the temperature value at the Internet of things module and the temperature value at the main joint respectively, adding absolute values of subtracting values respectively, averaging to obtain the temperature mean difference at the Internet of things module and the temperature mean difference at the main joint, comparing the two temperature mean differences and the signal receiving duration with preset values corresponding to the two temperature mean differences and the signal receiving duration respectively, and extracting values larger than the preset values; when the comparison result is smaller than or equal to the comparison result, the normal operation of the equipment is indicated; and obtaining the number of the extracted numerical values, respectively calculating to obtain an average value and a standard deviation of the numerical values, and obtaining a fault reference value through normalization calculation.

Further, stop gear includes pivot and fixed plate, the fixed plate is connected at the upper and lower both ends face of connector body, one side that the connector body was kept away from to the fixed plate is equipped with the draw-in groove, draw-in groove inner wall symmetry is equipped with a plurality of spacing holes, the one end that the connector body was kept away from to the fixed plate is connected with the sleeve, the draw-in groove is located telescopic inside, the inside second spring that is equipped with of sleeve, the second spring is connected with the fixed plate, and is located the draw-in groove upper end.

Further, the pivot one end runs through the U-shaped shell and is connected with the connecting axle, the connecting axle stretches into sleeve internal connection and has the limiting plate, the limiting plate is located the second spring upper end, the limiting plate lower extreme is connected with the card axle that agrees with the draw-in groove, the card axle is located inside the second spring.

Further, the clamping shaft outer wall is provided with a plurality of step holes, the inside of the step holes is connected with a telescopic block, one end of the telescopic block, which is positioned inside the step holes, is connected with a first spring, one end of the telescopic block, which extends out of the step holes, is movably embedded in the limiting holes, and one end of the telescopic block is movably embedded in the limiting holes.

Further, the main joint comprises a rectangular USB joint and a cylindrical USB joint, the front sides of the rectangular USB joint and the cylindrical USB joint are respectively provided with a connecting part, the front sides of the connecting parts are provided with connecting sockets connected with connecting interfaces, the connecting sockets are internally connected with a plurality of connecting pins, and the connecting pins are arranged in an array and connected with a connecting cylinder.

Further, the left side of the U-shaped shell is connected with a limiting pad, the interface is internally connected with a plurality of connecting cylinders, and the connecting cylinders are arranged in an array.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, through the U-shaped shell, the U-shaped shell is hinged with the connector body through the limiting mechanism, so that the connector body can conveniently rotate in the U-shaped shell, the connector body can be conveniently protected under the condition of no use, and meanwhile, the main joint is protected, so that the damage caused by contact collision between the connector body and foreign objects is avoided, and the service life of the connector body is prolonged; the detachable main joint connected to the connector body is convenient for replacing USB joints of different shapes, so that the connector is convenient to connect with different ports arranged on a host, and the practicability is improved.

2. On the basis of realizing the protection of the unused state and the multi-port connection of the used state, the invention positions and marks the serial numbers of a plurality of micro-connection units by arranging the marking unit, the information acquisition unit acquires the running environment information and the network interaction information of the micro-connection units through the preset time and stores the running environment information and the network interaction information, the fault monitoring unit combines the running environment information and the network interaction information to judge and generate a fault reference value, the fault reference value is used for judging whether the micro-connection units are faulty, when the micro-connection units are faulty, the fault signals are generated, all fault signals in the preset time period are acquired, the corresponding connection sub-bodies in the connection set are called to construct a fault set, the connection sub-bodies in the fault set are ordered from large to small through the size of the fault reference value, and the ordered fault set is sent to the mobile phone terminal of an operation and maintenance personnel to be displayed in a dynamic refreshing mode, so that the functions of accurately positioning and accurately monitoring the fault micro-connection units are realized, and the intelligent degree of the invention is remarkably improved.

Drawings

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

fig. 2 is a schematic rear view of a connector body according to the present invention;

FIG. 3 is a schematic top view of a rectangular USB connector according to the present invention;

FIG. 4 is a schematic top view of a cylindrical USB connector according to the present invention;

FIG. 5 is a schematic diagram of the front view of the main joint of the present invention;

FIG. 6 is a schematic diagram of a front view of a spacing mechanism according to the present invention;

FIG. 7 is a schematic cross-sectional view of a spacing mechanism of the present invention;

FIG. 8 is a schematic top view of a mounting plate according to the present invention;

fig. 9 is a schematic cross-sectional view of the chuck shaft of the present invention.

Fig. 10 is a flow chart of the present invention.

In the figure: 1. a U-shaped housing; 2. a connector body; 3. a limiting mechanism; 4. a main joint; 11. a limit pad; 21. a connection interface; 22. a connecting cylinder; 31. a rotating shaft; 32. a sleeve; 33. a fixing plate; 41. a rectangular USB connector; 42. a connection part; 43. a cylindrical USB connector; 311. a connecting shaft; 312. a clamping shaft; 313. a first spring; 314. a step hole; 315. a telescopic block; 316. a limiting plate; 321. a second spring; 331. a clamping groove; 332. a limiting hole; 421. a connection socket; 422. and connecting the needles.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The existing connector for monitoring the Internet faults has certain defects when in use, people are connected with a host in the normal use process, in the use process, a single port of the connector for monitoring the Internet faults is connected with a port arranged on the host, when different hosts are provided with ports with different shapes, the connector for monitoring the Internet faults cannot be used, and the practicability is reduced; the specific embodiments of the present invention are as follows:

example 1

As shown in fig. 1-9, a dynamic fault monitoring miniaturized connector comprises a U-shaped housing 1, a connector body 2 and a main joint 4,U-shaped housing 1, wherein the connector body 2 is internally provided with an internet of things module, the connector body 2 is positioned in the U-shaped housing 1, the rear side of the connector body 2 is provided with a connection interface 21, the connection interface 21 is internally spliced with the main joint 4,U-shaped housing 1, the upper end and the lower end of the main joint 4,U-shaped housing 1 are respectively provided with a limiting mechanism 3, the limiting mechanisms 3 penetrate through the U-shaped housing 1 and are connected with the connector body 2, and the U-shaped housing 1 is hinged with the connector body 2 through the limiting mechanisms 3; the utility model discloses a detachable main joint 4 of connecting on the connector body 2 is convenient for change the USB joint of different shapes to be convenient for be connected with the different ports that set up on the host computer, improve the practicality, and through the U-shaped shell 1 that sets up, effectively protect connector body 2, improve connector body 2's life.

The left side of the U-shaped shell 1 is connected with a limiting pad 11, the limiting pad 11 is made of a rubber material, the interface is internally connected with a plurality of connecting cylinders 22, the connecting cylinders 22 are arranged in an array, the main joint 4 comprises a rectangular USB joint 41, the front side of the rectangular USB joint 41 is provided with a connecting part 42, the front side of the connecting part 42 is provided with a connecting jack 421 connected with the connecting interface 21, the connecting jack 421 is internally connected with a plurality of connecting pins 422, the connecting pins 422 are arranged in an array and are connected with the connecting cylinders 22, the limiting mechanism 3 comprises a rotating shaft 31 and a fixed plate 33, the fixed plate 33 is respectively connected with the upper end face and the lower end face of a connector body 2, one side of the fixed plate 33, far away from the connector body 2, is provided with a clamping groove 331, the inner wall of the clamping groove 331 is symmetrically provided with a plurality of limiting holes 332, one end of a telescopic block 315 is movably embedded with the limiting holes 332, and the telescopic block can be far away from the limiting holes by pulling the rotating shaft; the end, far away from the connector body 2, of the fixing plate 33 is connected with a sleeve 32, a clamping groove 331 is formed in the sleeve 32, a second spring 321 is arranged in the sleeve 32, the second spring 321 is connected with the fixing plate 33 and is located at the upper end of the clamping groove 331, one end of a rotating shaft 31 penetrates through the U-shaped shell 1 and is connected with a connecting shaft 311, the connecting shaft 311 stretches into the sleeve 32 and is internally connected with a limiting plate 316, the limiting plate 316 is located at the upper end of the second spring 321, the lower end of the limiting plate 316 is connected with a clamping shaft 312 which is matched with the clamping groove 331, the clamping shaft 312 is located inside the second spring 321, a plurality of step holes 314 are formed in the outer wall of the clamping shaft 312, a telescopic block 315 is connected with a telescopic block 315, one end, located inside the step holes 314, of the telescopic block 315 stretches out of the step holes 314 and is matched with the limiting hole 332; the rectangular USB connector 41 is connected with a port arranged on a computer host, so that the connector body 2 is connected with a computer system, and fault monitoring of the Internet is realized.

Example 2

As shown in fig. 1-9, the invention provides a dynamic fault monitoring miniaturized connector, which comprises a U-shaped shell 1, a connector body 2 and a main joint 4,U-shaped shell 1, wherein the connector body 2 is internally provided with an internet of things module, the connector body 2 is positioned in the U-shaped shell 1, the rear side of the connector body 2 is provided with a connecting interface 21, the inside of the connecting interface 21 is plugged with the main joint 4,U-shaped shell 1, the upper end and the lower end of the main joint 4,U-shaped shell 1 are respectively provided with a limiting mechanism 3, the limiting mechanisms 3 penetrate through the U-shaped shell 1 and are connected with the connector body 2, and the U-shaped shell 1 is hinged with the connector body 2 through the limiting mechanisms 3; the utility model discloses a detachable main joint 4 of connecting on the connector body 2 is convenient for change the USB joint of different shapes to be convenient for be connected with the different ports that set up on the host computer, improve the practicality, and through the U-shaped shell 1 that sets up, effectively protect connector body 2, improve connector body 2's life.

The left side of the U-shaped shell 1 is connected with a limit pad 11, the limit pad 11 is made of a rubber material, the inside of an interface is connected with a plurality of connecting cylinders 22, the connecting cylinders 22 are arranged in an array, the main joint 4 comprises a cylindrical USB joint 43, the front side of the cylindrical USB joint 43 is provided with a connecting part 42, the front side of the connecting part 42 is provided with a connecting jack 421 connected with the connecting interface 21, the inside of the connecting jack 421 is connected with a plurality of connecting pins 422, the connecting pins 422 are arranged in an array and connected with the connecting cylinders 22, the limit mechanism 3 comprises a rotating shaft 31 and a fixed plate 33, the fixed plate 33 is respectively connected with the upper end face and the lower end face of a connector body 2, one side of the fixed plate 33 away from the connector body 2 is provided with a clamping groove 331, the inner wall of the clamping groove 331 is symmetrically provided with a plurality of limit holes 332, the end, far away from the connector body 2, of the fixing plate 33 is connected with a sleeve 32, a clamping groove 331 is formed in the sleeve 32, a second spring 321 is arranged in the sleeve 32, the second spring 321 is connected with the fixing plate 33 and is located at the upper end of the clamping groove 331, one end of a rotating shaft 31 penetrates through the U-shaped shell 1 and is connected with a connecting shaft 311, the connecting shaft 311 stretches into the sleeve 32 and is internally connected with a limiting plate 316, the limiting plate 316 is located at the upper end of the second spring 321, the lower end of the limiting plate 316 is connected with a clamping shaft 312 which is matched with the clamping groove 331, the clamping shaft 312 is located inside the second spring 321, a plurality of step holes 314 are formed in the outer wall of the clamping shaft 312, a telescopic block 315 is connected with a telescopic block 315, one end, located inside the step holes 314, of the telescopic block 315 stretches out of the step holes 314 and is matched with the limiting hole 332; the cylindrical USB connector 43 is connected with a port arranged on a computer host, so that the connector body 2 is connected with a computer system, and fault monitoring of the Internet is realized.

The specific operation mode of the first embodiment of the invention is as follows:

when the connector is used, the rotating shaft 31 is pulled towards the outer side of the U-shaped shell 1, the clamping shaft 312 is far away from the clamping groove 331, the telescopic block 315 is far away from the limiting hole 332, the connector body is convenient to rotate, the connector body is rotated, one end provided with the connecting interface 21 is located at the outer side of the U-shaped shell 1, the connecting portion 42 arranged on the main joint 4 is inserted into the connecting interface 21, the connecting needle 422 is connected with the connecting cylinder 22, clamping connection is achieved, the connector body 2 connected with the main joint 4 is connected with a port arranged on a computer host, connection with an Internet system is achieved, fault monitoring of the Internet is conducted, an Internet of things module is arranged inside the connector body 2, a mobile phone is convenient to wirelessly connect with the connector body 2, and remote control is achieved.

Example 3

As shown in fig. 10, a dynamic fault monitoring miniaturized connector includes a miniature connection unit, a marking unit, an information acquisition unit, a fault monitoring unit and a data storage unit;

the specific working principle is as follows:

the fault monitoring unit acquires the running environment information of the micro connection unit and the network interaction information of the micro connection unit through the data storage unit, combines and judges the running environment information and the network interaction information to generate a fault reference value, compares the fault reference value with a preset fault interval, generates a fault signal when judging that the fault reference value is larger than the maximum value of the preset fault interval, acquires all fault signals in preset time, invokes corresponding connection sub-bodies in the connection set to construct a fault set, sorts the connection sub-bodies in the fault set from large to small through the size of the fault reference value, and sends the sorted fault set to a mobile phone terminal of an operation and maintenance personnel in a dynamic refreshing mode for display;

the running environment information of the micro connecting unit comprises a temperature value at the Internet of things module and a temperature value at the main joint, and the network interaction information of the micro connecting unit comprises a signal receiving time length of the temperature value sent by the Internet of things module and the temperature value received by the data storage unit; the slower the signal receiving time length is, the worse the communication of the equipment can be, the direct disconnection is indicated if the signal of the micro-connection unit is 0, and the abnormal problem of the communication module, the induction module and/or other modules of the equipment is indicated if the temperature value received by the signal is too large or too small, so that the equipment needs to be maintained or replaced;

the specific judging process of the fault monitoring unit is as follows:

after receiving the temperature value at the internet of things module, the temperature value at the main joint 4 and the signal receiving time length of the preset time, subtracting the maximum value and the minimum value of the preset temperature interval corresponding to the temperature value at the internet of things module and the temperature value at the main joint 4 respectively, adding absolute values of subtracted values respectively, averaging to obtain the temperature mean difference at the internet of things module and the temperature mean difference at the main joint 4, indicating that the temperature is unstable when the temperature mean difference is larger, comparing the two temperature mean differences and the signal receiving time length with preset values corresponding to the two temperature mean differences and the signal receiving time length respectively, and extracting the values larger than the preset values; when the comparison result is smaller than or equal to the comparison result, the normal operation of the equipment is indicated; the temperature is acquired by a temperature sensor, and the signal receiving time length is obtained by subtracting the sending time sequence and the receiving time sequence;

the number of the extracted numerical values is obtained, the average value and the standard deviation of the numerical values are calculated respectively, and a fault reference value is obtained through normalization calculation; the normalized calculation formula is:wherein a is a failure reference value; q1 is the standard deviation corresponding to the temperature value at the Internet of things module after being processed by the fault monitoring unit, W1 is the standard deviation corresponding to the temperature value of the main joint 4 after being processed by the fault monitoring unit, and R1 is the standard deviation corresponding to the signal receiving time length after being processed by the fault monitoring unit; q2 is an average value corresponding to the temperature value at the position of the Internet of things module after being processed by the fault monitoring unit, W2 is an average value corresponding to the temperature value of the main joint 4 after being processed by the fault monitoring unit, and R2 is an average value corresponding to the signal receiving time length after being processed by the fault monitoring unit; e1, e2, e3 and e4 are weight parameters; the weight parameters enable the calculated result to be more approximate to a true value, and simultaneously e1+e2+e3+e4=5.67, e3+e4=1, and e2 > e1 > e4 > e3;

the preset time is typically set to 1 minute; i.e. once per minute; the weight parameters and the preset fault interval are simulated through a large amount of data, and the specific numerical value is set by a person skilled in the art in a specific case; so as to achieve the most realistic simulation output result; the weight parameters are set for displaying the importance degree of a plurality of quantity numbers in the total quantity, and the numerical units are subjected to dimension removal processing to realize the unification of the numbers.

According to the technical scheme, the marking units are arranged to position and sequence number the micro connection units, the information acquisition unit acquires and stores the running environment information and the network interaction information of the micro connection units through preset time, the fault monitoring unit is used for carrying out combined judgment on the running environment information and the network interaction information to generate a fault reference value, the fault reference value is used for judging whether the micro connection units are faulty, when the micro connection units are faulty, fault signals are generated, all fault signals in a preset time period are acquired, connection sub-bodies corresponding to the fault signals in the connection set are taken to construct a fault set, the connection sub-bodies in the fault set are ordered from large to small through the size of the fault reference value, and the ordered fault set is sent to a mobile phone terminal of an operation and maintenance personnel to be displayed in a dynamic refreshing mode, so that the functions of accurately positioning and accurately monitoring the fault micro connection units are realized; the preset period is typically 24 hours.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The dynamic fault monitoring miniaturized connector is characterized by comprising a miniature connecting unit, a marking unit, an information acquisition unit, a fault monitoring unit and a data storage unit;

2. The miniature connector for dynamic fault monitoring according to claim 1, comprising a U-shaped shell (1), a connector body (2) and a main joint (4), wherein the U-shaped shell (1) is used for protecting the connector body (2), an internet of things module is installed inside the connector body (2), the connector body (2) is located inside the U-shaped shell (1), a connection interface (21) is arranged on the rear side of the connector body (2), the main joint (4) is inserted inside the connection interface (21), limiting mechanisms (3) are respectively arranged at the upper end and the lower end of the U-shaped shell (1), the limiting mechanisms (3) penetrate through the U-shaped shell (1) to be connected with the connector body (2), and the U-shaped shell (1) is hinged with the connector body (2) through the limiting mechanisms (3).

3. The miniaturized connector of claim 2, wherein the running environment information of the miniature connection unit includes a temperature value at the internet of things module and a temperature value at the main joint (4), and the network interaction information of the miniature connection unit includes a signal receiving duration of the temperature value sent by the internet of things module and the temperature value received by the data storage unit.

4. A miniaturized connector for dynamic fault monitoring according to claim 3, wherein the specific judging process of the fault monitoring unit is as follows:

after receiving the temperature value at the Internet of things module, the temperature value at the main joint (4) and the signal receiving time length of the preset time, subtracting the maximum value and the minimum value of the preset temperature interval corresponding to the temperature value at the Internet of things module and the temperature value at the main joint (4) respectively, adding absolute values of subtracted values respectively, averaging to obtain the temperature average difference at the Internet of things module and the temperature average difference at the main joint (4), comparing the two temperature average differences and the signal receiving time length with preset values corresponding to the two temperature average differences and the signal receiving time length respectively, and extracting the values larger than the preset values; when the comparison result is smaller than or equal to the comparison result, the normal operation of the equipment is indicated; and obtaining the number of the extracted numerical values, respectively calculating to obtain an average value and a standard deviation of the numerical values, and obtaining a fault reference value through normalization calculation.

5. The miniaturized connector for dynamic fault monitoring according to claim 2, wherein the limiting mechanism (3) comprises a rotating shaft (31) and a fixing plate (33), the fixing plate (33) is respectively connected to the upper end face and the lower end face of the connector body (2), a clamping groove (331) is formed in one side, far away from the connector body (2), of the fixing plate (33), a plurality of limiting holes (332) are symmetrically formed in the inner wall of the clamping groove (331), a sleeve (32) is connected to one end, far away from the connector body (2), of the fixing plate (33), the clamping groove (331) is located in the sleeve (32), a second spring (321) is arranged in the sleeve (32), and the second spring (321) is connected with the fixing plate (33) and is located at the upper end of the clamping groove (331).

6. The miniaturized connector for dynamic fault monitoring according to claim 5, wherein one end of the rotating shaft (31) penetrates through the U-shaped housing (1) to be connected with a connecting shaft (311), the connecting shaft (311) stretches into the sleeve (32) to be connected with a limiting plate (316), the limiting plate (316) is located at the upper end of the second spring (321), the lower end of the limiting plate (316) is connected with a clamping shaft (312) which is matched with the clamping groove (331), and the clamping shaft (312) is located inside the second spring (321).

7. The miniaturized connector for dynamic fault monitoring according to claim 6, wherein a plurality of step holes (314) are formed in the outer wall of the clamping shaft (312), a telescopic block (315) is connected to the inside of the step holes (314), a first spring (313) is connected to one end of the telescopic block (315) located inside the step holes (314), one end of the telescopic block (315) extending out of the step holes (314) is matched with the limiting hole (332), and one end of the telescopic block (315) is movably embedded in the limiting hole (332).

8. The dynamic fault monitoring miniaturized connector according to claim 2, wherein the main connector (4) comprises a rectangular USB connector (41) and a cylindrical USB connector (43), the front sides of the rectangular USB connector (41) and the cylindrical USB connector (43) are respectively provided with a connecting portion (42), the front side of the connecting portion (42) is provided with a connecting socket (421) connected with the connecting interface (21), the connecting socket (421) is internally connected with a plurality of connecting pins (422), and the plurality of connecting pins (422) are arranged in an array and are connected with the connecting cylinder (22).

9. The miniaturized connector for dynamic fault monitoring according to claim 2, wherein the left side of the U-shaped housing (1) is connected with a limit pad (11), the interface is internally connected with a plurality of connecting cylinders (22), and the plurality of connecting cylinders (22) are arranged in an array.