CN114865569A - Hanging device for bypass cable of high-voltage line and operation monitoring system - Google Patents

Abstract

The application discloses a hanging device for a bypass cable of a high-voltage line, which relates to the technical field of power supply and comprises a pair of connecting rods arranged at intervals; the two ends of the hanger rod are respectively hinged on the pair of connecting rods; the hook assemblies are arranged on one of the connecting rods at intervals and can be hung on a high-voltage line; the interval sets up wherein another a plurality of cable anchor clamps on the connecting rod, just cable anchor clamps can fix the cable conductor, correspondingly, still disclose the operation monitored control system of supplementary user's operation, and this application is convenient operation not only, and the centre gripping fixity is good to make and change and maintain the more convenient high efficiency of cable conductor.

Description

Hanging device for bypass cable of high-voltage line and operation monitoring system

Technical Field

The application relates to the technical field of power supply, in particular to a hanging device for a bypass cable of a high-voltage line and an operation monitoring system.

Background

Along with the development of science and technology and the improvement of the living standard of people, household appliances are more and more, so that the power consumption in cities and rural areas is gradually increased, and in order to improve the use safety of electric power equipment, the electric power network needs to be periodically overhauled and cables need to be replaced.

Under the traditional condition, need break off the circuit when overhauing to guarantee maintainer's life safety, but can cause the inconvenient condition of city power consumption like this, can cause certain economic loss even, consequently, people are studying vigorously how to accomplish cable run's maintenance and change under the condition of not cutting off the power supply.

The prior art discloses a device with an insulation function, which can be used for overhauling a line while supplying power, namely, one end of the device is hung on a high-voltage line, the other end of the device is clamped on a cable line, and then the device is operated, but the device is simple in structure and cannot ensure the stability of hanging and clamping.

Disclosure of Invention

In view of the above, the present application provides a hanging device for a bypass cable of a high voltage line to solve the above technical problems.

In order to achieve the purpose, the invention provides the following technical scheme:

a hitch for a bypass cable of a high voltage line, comprising:

a pair of connecting rods arranged at intervals;

the two ends of the hanger rod are respectively hinged on the pair of connecting rods;

the hook assemblies are arranged on one of the connecting rods at intervals and can be hung on a high-voltage line;

the cable clamps are arranged on the other connecting rod at intervals and can fix the cable.

Further, the hook assembly includes:

a mounting base connected between the boom and one of the connecting rods;

the locking plate is hinged on the mounting seat;

an upper lock seat mounted on the mounting seat;

a lower lock seat mounted on the mounting seat;

a hanger connected between the locking plate and the mounting base, the hanger capable of being hung on a high voltage line;

specifically, the locking plate can be clamped between the upper locking seat and the lower locking seat by rotating the locking plate, and the hanging piece can be fixed on a high-voltage line, so that the hook assembly can be hung on the high-voltage line.

Furthermore, elastic pieces are arranged between the upper lock seat and the mounting seat and between the lower lock seat and the mounting seat, each elastic piece comprises a sliding plate in sliding fit with a corresponding first sliding groove formed in the mounting seat and a first compression spring abutted between the sliding plate and the corresponding first sliding groove, and the sliding plate is connected to the upper lock seat or the lower lock seat.

Furthermore, the locking plate comprises a bottom plate hinged to the mounting seat, an outer plate connected to the front side of the bottom plate and a lock head connected to the top of the outer plate, the lock head can be clamped between the upper lock seat and the lower lock seat, a torsion spring is mounted on the bottom plate, one end of the torsion spring is abutted to the outer plate, and the other end of the torsion spring is abutted to the mounting groove of the mounting seat.

Furthermore, a sliding cavity is formed in the left side of the upper lock seat, an upper locking groove is formed in the bottom of the upper lock seat, a lower locking groove is formed in the top of the lower lock seat, and the lock head can be clamped between the upper locking groove and the lower locking groove.

Still further, the hanger includes a pad seat provided on the mount seat, a pressure seat provided on the outer panel, and a second compression spring connected between the outer panel and the pressure seat.

Further, the cable clamp includes:

a fixed block mounted on the other of the connecting rods;

a moving member mounted on the fixed block;

the deflector rod is hinged on the fixed block through a pin shaft and is in sliding connection with the top of the moving piece;

the top of the clamping piece is connected with the right end of the shifting rod, and the bottom of the clamping piece is fixed on the right side of the fixed block;

specifically, the shifting rod can swing by driving the moving piece to move, so that the clamping piece is driven to clamp the cable.

Furthermore, the moving member is including rotating the setting and being in pivot, cover in the fixed block are established epaxial gear assembly, connection the traveller and the cover at gear assembly top are established third compression spring on the traveller, the upper portion of traveller slides and sets up on the fixed block, the top of traveller is equipped with dials the round pin, the left end of driving lever seted up can with dial round pin sliding fit's guide slot, third compression spring be located the upper portion of traveller with between the fixed block.

Furthermore, the holder include with the right side sliding connection's of fixed block movable clamp plate, fix the fixed clamp plate on fixed block right side with install the stopper in the recess that the fixed block right side was seted up, the upper end of movable clamp plate is equipped with the guide arm, the right-hand member of driving lever supports and presses the logical inslot of guide arm, the cable conductor can be by the centre gripping movable clamp plate fixed clamp plate with between the stopper.

An operation monitoring system for operation monitoring based on a hitching device of a bypass cable of a high-voltage line, comprising: the monitoring system comprises a first sensor module, a second sensor module, a handheld monitoring device and a monitoring platform;

the upper lock seat and the lower lock seat of the hanging device are respectively provided with a first sensor module, and the movable clamping plate and the limiting block of the hanging device are respectively provided with a second sensor module; the first sensor module comprises a first pressure detector and a first Bluetooth module, the first pressure detector is used for collecting clamping position information, the first pressure detector converts the collected pressure information into a changed voltage signal and sends the changed voltage signal to the first Bluetooth module, and the first Bluetooth module transmits the first collected information to the handheld monitoring device in a wireless mode to analyze and judge data;

the second sensor module comprises a second pressure detector and a second Bluetooth module, the second pressure detector is used for collecting cable clamping information, the second pressure detector converts the collected pressure information into a changed voltage signal and sends the changed voltage signal to the second Bluetooth module, and the second Bluetooth module transmits second collected information to the handheld monitoring device in a wireless mode to analyze and judge data;

the handheld monitoring device comprises a data processor and a display module, wherein the data processor respectively compares received first acquisition information and second acquisition information with a preset pressure threshold value, and judges whether clamping is successful or in place according to a comparison result;

the monitoring platform is connected with the handheld monitoring device in a wireless mode and used for receiving the detection information and the judgment data uploaded by the handheld monitoring device, storing and recording the detection information and the judgment data to form an operation monitoring list, and associating the operation monitoring list with the personnel information, the place information and the time information of the operator.

The technical scheme can show that the invention has the advantages that:

1. according to the invention, the hook assembly and the cable clamp are arranged, one end of the device can be hung on a high-voltage wire through the hook assembly, the other end of the device can be clamped on the cable wire through the cable clamp, the installation is completed, and then the cable wire is overhauled and replaced, so that the use convenience is greatly improved.

2. The hook assembly and the cable clamp are convenient to operate and good in clamping fixation, so that the hook assembly and the cable clamp are safer and more reliable to use.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

Fig. 1 is a schematic structural diagram of the present application.

Fig. 2 is a partially enlarged view of a portion a of fig. 1.

Fig. 3 is a schematic view of another structure of fig. 2.

Fig. 4 is a partially enlarged view of fig. 3 at B.

Fig. 5 is a schematic structural view of the cable clamp of the present application.

Fig. 6 is a partially enlarged view of fig. 5 at C.

List of reference numerals: the suspension rod 1, the connecting rod 2, the hook assembly 3, the locking plate 31, the outer plate 311, the bottom plate 312, the locking head 313, the mounting seat 32, the first sliding slot 321, the first compression spring 322, the sliding plate 323, the upper locking seat 33, the sliding cavity 331, the upper locking slot 332, the lower locking seat 34, the lower locking slot 341, the torsion spring 35, the mounting slot 36, the pad seat 37, the pressing seat 38, the second compression spring 39, the hinge block 4, the cable clamp 5, the fixing block 51, the second sliding slot 511, the third sliding slot 512, the groove 513, the limiting block 514, the gear 52, the rotating shaft 53, the rack 54, the sliding column 55, the sliding plate 551, the pulling pin 552, the third compression spring 56, the pulling rod 57, the guide slot 571, the pin shaft 572, the movable clamping plate 58, the guide rod 581, the through slot 5811 and the fixed clamping plate 59.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be described in further detail below with reference to the accompanying drawings. The exemplary embodiments and descriptions of the present application are provided to explain the present application and not to limit the present application.

Referring to fig. 1 to 6, as shown in fig. 1, the present embodiment provides a hitch of a bypass cable for a high voltage line, including a pair of connection bars 2, a pair of connection bars 2 spaced apart from each other; the two ends of the suspender 1 are respectively hinged on the pair of connecting rods 2; the hook assemblies 3 are arranged on the connecting rod 2 on the left side at intervals, and the hook assemblies 3 can be hung on a high-voltage line; a plurality of cable anchor clamps 5, a plurality of cable anchor clamps 5 interval sets up on the right side on connecting rod 2, just cable anchor clamps 5 can fix the cable conductor.

Preferably, this application can be used for articulating of high-voltage line bypass cable conductor, and this application has insulating nature to improve constructor's security.

As shown in fig. 2, the hooking member 3 comprises: a mounting seat 32, wherein the mounting seat 32 is connected between the boom 1 and the connecting rod 2 on the left side; the locking plate 31 is hinged on the mounting seat 32; an upper lock seat 33, wherein the upper lock seat 33 is installed on the installation seat 32; a lower lock seat 34, the lower lock seat 34 being mounted on the mounting seat 32; a hanger connected between the locking plate 31 and the mounting seat 32, the hanger being capable of being hung on a high voltage line; specifically, by rotating the locking plate 31, the locking plate 31 can be clamped between the upper lock seat 33 and the lower lock seat 34, and the hanger is fixed on a high voltage line, so that the hook assembly 3 can be hung on the high voltage line.

As shown in fig. 4, elastic members are disposed between the upper lock holder 33 and the mounting holder 32 and between the lower lock holder 34 and the mounting holder 32, each elastic member includes a sliding plate 323 and a first compression spring 322, the sliding plate 323 is in sliding fit with a corresponding first sliding slot 321 formed in the mounting holder 32, the first compression spring 322 is abutted between the sliding plate 323 and the corresponding first sliding slot 321, and the sliding plate 323 is connected to the upper lock holder 33 or the lower lock holder 34.

Preferably, the locking plate 31 includes a bottom plate 312, an outer plate 311 and a locking head 313, the bottom plate 312 is hinged on the mounting seat 32, the outer plate 311 is connected at the front side of the bottom plate 312, the locking head 313 is connected at the top of the outer plate 311, the locking head 313 can be clamped between the upper locking seat 33 and the lower locking seat 34, a torsion spring 35 is installed on the bottom plate 312, one end of the torsion spring 35 is abutted on the outer plate 311, and the other end of the torsion spring 35 is abutted in the mounting groove 36 of the mounting seat 32.

Preferably, the upper lock holder 33 has a slide cavity 331 opened at a left side thereof, the upper lock holder 33 has an upper lock groove 332 opened at a bottom thereof, the lower lock holder 34 has a lower lock groove 341 opened at a top thereof, and the lock head 313 is clamped between the upper lock groove 332 and the lower lock groove 341.

As shown in fig. 3, the hanger includes a pad 37, a press seat 38 and a second compression spring 39, the pad 37 is disposed on the mounting seat 32, the press seat 38 is disposed on the outer plate 311, and the second compression spring 39 is connected between the outer plate 311 and the press seat 38.

Preferably, the suspension rod 1 and the pair of connecting rods 2 are hinged through a hinge block 4, and the mounting seat 32 is mounted on the corresponding hinge block 4.

As shown in fig. 5, the cable clamp 5 includes: the fixed block 51 is installed on the right connecting rod 2; a moving member mounted on the fixed block 51; the middle part of the shifting lever 57 is hinged on the fixed block 51 through a pin shaft 572, and the shifting lever 57 is connected to the top of the moving piece in a sliding manner; the top of the clamping piece is connected with the right end of the shifting rod 57, and the bottom of the clamping piece is fixed on the right side of the fixed block 51; specifically, by driving the moving member to move, the shift lever 57 can be swung, so as to drive the clamping member to clamp the cable line.

Preferably, the moving member includes a rotating shaft 53, a gear assembly, a sliding column 55 and a third compression spring 56, the rotating shaft 53 is rotatably disposed in the fixed block 51, the gear assembly is sleeved on the rotating shaft 53, the sliding column 55 is connected to the top of the gear assembly, the third compression spring 56 is sleeved on the sliding column 55, the upper portion of the sliding column 55 is slidably disposed on the fixed block 51, a shifting pin 552 is disposed at the top of the sliding column 55, a guide groove 571 is disposed at the left end of the shifting rod 57, the guide groove 571 is in sliding fit with the shifting pin 552, and the third compression spring 56 is located between the upper portion of the sliding column 55 and the fixed block 51.

As shown in fig. 6, the clamping member includes a movable clamping plate 58, a fixed clamping plate 59 and a limiting block 514, the movable clamping plate 58 is slidably connected to the right side of the fixed block 51, the fixed clamping plate 59 is fixed to the right side of the fixed block 51, the limiting block 514 is installed in a groove 513 formed in the right side of the fixed block 51, a guide rod 581 is arranged at the upper end of the movable clamping plate 58, the right end of the deflector rod 57 abuts against and is pressed in a through groove 5811 of the guide rod 581, a cable can be clamped among the movable clamping plate 58, the fixed clamping plate 59 and the limiting block 514, and the clamping effect can be better by clamping three sides of the cable.

Preferably, the fixed block 51 is provided with a second sliding slot 511 and a third sliding slot 512, the bottom of the sliding column 55 is connected with a sliding plate 551, the sliding plate 551 is in sliding fit with the second sliding slot 511, and the left end of the movable clamp plate 58 is provided with a sliding block, which is in sliding fit with the third sliding slot 512.

Preferably, the gear assembly includes a gear 52 and a rack 54, the gear 52 is sleeved on the rotating shaft 53, the rack 54 is engaged with the rear side of the gear 52, the sliding plate 551 is connected to the top of the rack 54, and the third compression spring 56 is abutted between the sliding plate 551 and the top of the second sliding slot 511.

The working principle is as follows: firstly, a high-voltage wire is placed between the cushion seat 37 and the pressing seat 38, the locking plate 31 is rotated clockwise, so that the locking head 313 slides through the sliding cavity 331 and presses the upper locking seat 33 and the lower locking seat 34, under the pressing action, the two sliding plates 323 can press the corresponding first compression springs 322, so that the distance between the upper locking seat 33 and the lower locking seat 34 is increased, then the locking head 313 is clamped between the upper locking groove 332 and the lower locking groove 341, under the reaction action of the pair of first compression springs 322, the locking head 313 can be tightly connected between the upper locking groove 332 and the lower locking groove 341, when the locking plate 31 swings, the torsion spring 35 is pressed, and the pressing seat 38 is close to the cushion seat 37, finally, under the condition that the locking head 313 is clamped, the pressing seat 38 can tightly press the high-voltage wire against the cushion seat 37, so that the device is fixed on the high-voltage wire, then the bypassed cable 514 is placed between the movable clamping plate 58 and the fixed clamping plate 59, and the left end of the cable 514 is pressed against the limiting block, the rotating shaft 53 is rotated, so that the gear 52 rotates to drive the rack 54 to move upwards, the rack 54 moves upwards to push the shift lever 57, the shift lever 57 rotates along the pointer around the pin shaft 572, and the right end of the shift lever 57 is pressed in the through groove 5811, so that the guide rod 581 drives the movable clamp 58 to move downwards along with the clockwise swing of the shift lever 57, and the bypass cable is tightly clamped under the three surfaces of the movable clamp 58, the fixed clamp 59 and the limiting block 514.

In this embodiment, the system further includes an operation monitoring system, which performs operation monitoring based on the hitching apparatus of the bypass cable of the high-voltage line, and the operation monitoring system specifically includes: the monitoring system comprises a first sensor module, a second sensor module, a handheld monitoring device and a monitoring platform.

The upper lock seat 33 and the lower lock seat 34 of the hanging device are both provided with a first sensor module, and the movable clamping plate 58 and the limiting block 514 of the hanging device are both provided with a second sensor module; first sensor module is including first pressure detector and the first bluetooth module that is used for gathering joint positional information, first pressure detector converts the pressure information of gathering into the voltage signal of change and sends to first bluetooth module, first bluetooth module is through wireless mode with first acquisition information transmission extremely handheld monitoring devices carries out data analysis and judges, and wherein, first sensor module inlays the joint tip at last lock seat 33 and lower lock seat 34, and the centre gripping tip at activity splint 58 and stopper 514 is inlayed to the second sensor module.

The second sensor module comprises a second pressure detector and a second Bluetooth module, the second pressure detector is used for collecting cable clamping information, the second pressure detector converts the collected pressure information into a changed voltage signal and sends the changed voltage signal to the second Bluetooth module, and the second Bluetooth module transmits second collected information to the handheld monitoring device in a wireless mode to analyze and judge data.

The handheld monitoring device comprises a data processor and a display module, the data processor compares received first acquisition information and second acquisition information with a preset pressure threshold value respectively, whether clamping is successful or clamping is in place is judged according to a comparison result, the display module comprises a three-dimensional model display module and a pressure value display module, the three-dimensional model display module is used for displaying a three-dimensional simulation model corresponding to a detection part, and the pressure value display module is used for displaying pressure value information and a judgment result corresponding to the detection part.

The monitoring platform is connected with the handheld monitoring device in a wireless mode and used for receiving the detection information and the judgment data uploaded by the handheld monitoring device, storing and recording the detection information and the judgment data to form an operation monitoring list, and associating the operation monitoring list with the personnel information, the place information and the time information of the operator.

In this embodiment, the first bluetooth module and the second bluetooth module both adopt SKB369 models, and the IIC interface of the first bluetooth module and the second bluetooth module is connected to the detector for information transmission.

In this embodiment, the user may further add a video interaction device to the handheld monitoring device according to actual operation conditions, where the video interaction device includes a camera and a radio frequency intercom terminal, and the video interaction device is used for communication and emergency guidance between the operator and the remote monitoring person. The operation monitoring system can assist operators to efficiently finish the maintenance and replacement of cables, so that the operation safety is higher.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and it will be apparent to those skilled in the art that various modifications and variations can be made in the embodiment of the present application. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A hitch arrangement for a bypass cable of a high voltage line, comprising:

a pair of connecting rods (2) arranged at intervals;

the two ends of the suspender (1) are respectively hinged on the pair of connecting rods (2);

the hook assemblies (3) are arranged on one of the connecting rods (2) at intervals, and the hook assemblies (3) can be hung on a high-voltage line;

a plurality of cable clamps (5) are arranged on the other connecting rod (2) at intervals, and the cable clamps (5) can fix the cable.

2. A hitch arrangement for a bypass cable of a high voltage line as claimed in claim 1, characterized in that the hook assembly (3) comprises:

a mounting seat (32) connected between the boom (1) and one of the connecting rods (2);

a locking plate (31) hinged on the mounting seat (32);

an upper lock seat (33) mounted on the mounting seat (32);

a lower lock seat (34) mounted on the mounting seat (32);

a hanger connected between the locking plate (31) and the mounting seat (32), the hanger being capable of being hung on a high voltage line;

specifically, the locking plate (31) can be clamped between the upper lock seat (33) and the lower lock seat (34) by rotating the locking plate (31), and the hanger can be fixed on a high-voltage line, so that the hook assembly (3) can be hung on the high-voltage line.

3. A hitch device for a bypass cable of a high voltage line according to claim 2, wherein an elastic member is provided between the upper latch holder (33) and the mounting holder (32) and between the lower latch holder (34) and the mounting holder (32), the elastic member comprises a sliding plate (323) slidably engaged with a corresponding first sliding slot (321) formed in the mounting holder (32) and a first compression spring (322) abutting between the sliding plate (323) and the corresponding first sliding slot (321), and the sliding plate (323) is connected to the upper latch holder (33) or the lower latch holder (34).

4. A hitch device for bypass cable of high-voltage line according to claim 3, characterized in that the locking plate (31) comprises a bottom plate (312) hinged on the mounting seat (32), an outer plate (311) connected to the front side of the bottom plate (312) and a locking head (313) connected to the top of the outer plate (311), and the locking head (313) can be clamped between the upper locking seat (33) and the lower locking seat (34), the bottom plate (312) is installed with a torsion spring (35), one end of the torsion spring (35) abuts against the outer plate (311), and the other end of the torsion spring (35) abuts against the mounting groove (36) of the mounting seat (32).

5. A hitching apparatus for a bypass cable of a high-voltage line according to claim 4, characterized in that a sliding cavity (331) is opened at the left side of the upper locking seat (33), an upper locking groove (332) is opened at the bottom of the upper locking seat (33), a lower locking groove (341) is opened at the top of the lower locking seat (34), and the locking head (313) can be clamped between the upper locking groove (332) and the lower locking groove (341).

6. A hitch arrangement for a bypass cable of a high voltage line according to claim 4, characterized in that the suspension comprises a pad (37) arranged on the mounting seat (32), a press seat (38) arranged on the outer plate (311) and a second compression spring (39) connected between the outer plate (311) and the press seat (38).

7. A hitch arrangement for a bypass cable of a high voltage line according to claim 1, characterized in that the cable clamp (5) comprises:

a fixed block (51) arranged on the other connecting rod (2);

a moving member mounted on the fixed block (51);

a deflector rod (57) hinged on the fixed block (51) through a pin shaft (572) and connected with the top of the moving piece in a sliding way;

the top of the clamping piece is connected with the right end of the shifting rod (57), and the bottom of the clamping piece is fixed on the right side of the fixed block (51);

specifically, the shifting rod (57) can be swung by driving the moving piece to move, so that the clamping piece is driven to clamp the cable.

8. The hanging device for the bypass cable of the high-voltage wire according to claim 7, wherein the moving member comprises a rotating shaft (53) rotatably disposed in the fixed block (51), a gear assembly sleeved on the rotating shaft (53), a sliding column (55) connected to the top of the gear assembly, and a third compression spring (56) sleeved on the sliding column (55), the upper portion of the sliding column (55) is slidably disposed on the fixed block (51), a shifting pin (552) is disposed at the top of the sliding column (55), a guide groove (571) capable of slidably fitting with the shifting pin (552) is disposed at the left end of the shifting rod (57), and the third compression spring (56) is disposed between the upper portion of the sliding column (55) and the fixed block (51).

9. The hitch device for a bypass cable of a high-voltage wire according to claim 8, wherein the clamping member comprises a movable clamping plate (58) slidably connected with the right side of the fixed block (51), a fixed clamping plate (59) fixed on the right side of the fixed block (51) and a limit block (514) installed in a groove (513) formed in the right side of the fixed block (51), a guide rod (581) is arranged at the upper end of the movable clamping plate (58), the right end of the driving lever (57) is pressed in a through groove (5811) of the guide rod (581), and a cable line can be clamped among the movable clamping plate (58), the fixed clamping plate (59) and the limit block (514).

10. An operation monitoring system for monitoring an operation of the hitching apparatus for a bypass cable of a high-voltage line according to any one of claims 1 to 9, comprising: the monitoring system comprises a first sensor module, a second sensor module, a handheld monitoring device and a monitoring platform;

the upper lock seat (33) and the lower lock seat (34) of the hanging device are respectively provided with a first sensor module, and the movable clamping plate (58) and the limiting block (514) of the hanging device are respectively provided with a second sensor module; the first sensor module comprises a first pressure detector and a first Bluetooth module, the first pressure detector is used for collecting clamping position information, the first pressure detector converts the collected pressure information into a changed voltage signal and sends the changed voltage signal to the first Bluetooth module, and the first Bluetooth module transmits the first collected information to the handheld monitoring device in a wireless mode to analyze and judge data;

the second sensor module comprises a second pressure detector and a second Bluetooth module, the second pressure detector is used for collecting cable clamping information, the second pressure detector converts the collected pressure information into a changed voltage signal and sends the changed voltage signal to the second Bluetooth module, and the second Bluetooth module transmits second collected information to the handheld monitoring device in a wireless mode to analyze and judge data;

the handheld monitoring device comprises a data processor and a display module, wherein the data processor respectively compares received first acquisition information and second acquisition information with a preset pressure threshold value, and judges whether clamping is successful or in place according to a comparison result;

the monitoring platform is connected with the handheld monitoring device in a wireless mode and used for receiving the detection information and the judgment data uploaded by the handheld monitoring device, storing and recording the detection information and the judgment data to form an operation monitoring list, and associating the operation monitoring list with the personnel information, the place information and the time information of the operator.

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