CN212486090U - Tripping trigger structure of spacer wire-releasing clamp and device for monitoring electric signals falling off and damaged - Google Patents

Abstract

The utility model discloses a tripping triggering structure of a spacer wire-releasing clamp and a device for monitoring electric signals caused by releasing damage, which comprises a wire clamp alloy gland, a wire clamp alloy body, a rotating shaft, rubber tiles, a connector plug, a connector socket, a master control module, a power module and a communication module; the wire clamp alloy gland is hinged with the wire clamp alloy body through a rotating shaft, and the rubber tiles are respectively arranged on the alloy gland and the inner side surface of the alloy body; the connector plug is arranged on one end of the wire clamp alloy gland rubber tile in an embedded mode, and the connector socket is arranged on one end of the wire clamp alloy body rubber tile; the connector plug and the connector socket are matched; the device and the method are used for carrying out real-time efficient safety monitoring on the conditions that the rubber tiles fall off and are damaged or the wire clamps are tripped.

Description

Tripping trigger structure of spacer wire-releasing clamp and device for monitoring electric signals falling off and damaged

Technical Field

The utility model belongs to the technical field of the high tension transmission line gold utensil and specifically relates to a conductor spacer takes off dropout of fastener triggers structure and drops and damage signal of telecommunication monitoring devices.

Background

At present, on a power transmission line, due to the increase of voltage level and transmission current, a split conductor is often required to be adopted for power transmission. In order to ensure the electrical performance and distance between the split conductors, spacers need to be installed at regular intervals. The spacer holds each split conductor by a wire clamp.

The transmission line is in the vibration region, and the measure that the interval stick line monitors the state of the rubber tile is often not enough. Along with the large seasonal temperature difference, the rubber tile is easy to age, wear and fall off or be damaged due to insufficient grip strength in the long-term use process.

In addition, the situation that the rubber tiles lose fixing support and fall down due to damage of the aluminum alloy shell of the wire clamp is also endless, and the wire and the metal of the wire clamp shell are damaged due to rigid friction caused by the accident. And chain reaction is easy to occur after an accident occurs, and serious subspan oscillation causes damping failure of the conductor spacer and abrasion of the conductor, so that a circuit is powered off, and the conductor spacer are replaced and maintained.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the above-mentioned problem, provide the conductor spacer and take off the dropout of fastener and trigger the structure and drop and damage the signal of telecommunication monitoring dress for solve the unable monitoring of abnormal conditions such as conductor spacer rubber tile break away from, harm, lead to the problem that the transmission line conductor spacer damaged.

The utility model adopts the technical scheme as follows:

the utility model provides a conductor spacer takes off knot of fastener and triggers structure which characterized in that: the connector plug is arranged in the wire clamp rubber tile, and the connector socket is arranged on the wire clamp body rubber tile, and the connector plug and the connector socket are arranged in a matched mode.

Preferably, the rubber tiles are arranged on the body and the gland of the wire clamp, when the rubber tiles of the wire clamp are abnormal in work and are tripped, the connector socket is separated from the connector plug, the electric circuit is separated, and when the rubber tiles of the wire clamp are normal in work, the connector socket is connected with the connector plug, and the electric circuit is normal.

The utility model provides an electric signal monitoring device for the falling and damage of a spacer wire clamp rubber tile, which comprises a wire clamp alloy gland, a wire clamp alloy body, a rotating shaft, a rubber tile, a connector plug, a connector socket, a main control module, a power module and a communication module; the wire clamp alloy gland is hinged to the wire clamp alloy body through a rotating shaft, and the rubber tiles are arranged on the inner side faces of the alloy gland and the alloy body respectively.

Preferably, the connector plug is embedded in one end of the wire clamp alloy gland rubber tile, and the connector socket is arranged at one end of the wire clamp alloy body rubber tile; the connector plug and the connector socket are matched,

preferably, the rubber tiles are arranged in an arc structure, and the wires are tightly contacted and fixed through the upper rubber tile and the lower rubber tile.

Preferably, the main control module, the power supply module and the communication module are all arranged in the online alloy clamping body, the main control module is electrically connected with the communication module, and the power supply module is respectively electrically connected with the main control module and the communication module; and the main control module is respectively connected with the connector plug and the connector socket.

Preferably, the main control module is configured to analyze and process the connector plug, the connector socket, and the trigger generation signal, and after monitoring the trigger signal, the main control module generates a trigger report according to an instruction requirement.

Preferably, the communication module is used for communication transmission of the trigger report, and when the trigger report exists, the communication module transmits the trigger report to the monitoring system according to a specified communication mode and an address, so that the outside can know the safety state of the spacer in real time, accurately and efficiently.

The utility model relates to a method for tripping a spacer and monitoring the state of a rubber tile, which comprises the following steps,

the method comprises the following steps: the connector socket is integrated with a wire clamp shell of the spacer to be tested and connected with the main control module, and the connector plug is integrated with a rubber tile of the spacer wire clamp; the main control module is used for receiving electric signals generated by the connector socket and the connector plug;

step two: when the wire clamp is closed in normal operation, the rubber tile does not displace on the wire clamp, and the connector plug is conducted with pins in the socket to form a loop; when the rubber tile of the wire clamp is separated or damaged due to faults, the connector plug is displaced, and a signal can be triggered when the loop is disconnected;

step three: the trigger signal is collected by the main control module and is wirelessly transmitted to the remote monitoring system by the communication module, and the fault of the spacer is warned.

Preferably, the rubber tile is arranged on the body and the gland of the wire clamp.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

(1) the utility model discloses be provided with connector socket and connector plug, when the rubber tile work of fastener is normal, fastener alloy gland is connected normally with fastener alloy body lid box promptly, connector socket and connector plug keep being connected, electric circuit between the two is normal, after the rubber tile work of fastener is unusual and the dropout, connector socket breaks away from with the connector plug, electric circuit breaks away from between the two, host system receives the dropout or links the signal of detaining, can monitor whether the conductor spacer is tripped through opening and shutting of connector plug and connector socket.

Drawings

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

the labels in the figure are: 1. an alloy gland; 2. a wire clamp alloy body; 3. a rotating shaft; 4. a rubber tile; 5. a connector plug; 6. a connector receptacle; 7. a main control module; 8. a power supply module; 9. and a communication module.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the designated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature.

Example 1

This scheme provides a conductor spacer takes off dropout trigger structure of fastener, including setting up connector plug 5 in fastener rubber tile 4 and setting up and fastener body rubber tile 4 on connector socket 6, connector plug 5 sets up with 6 phase-matchs of connector socket.

The rubber tile 4 sets up on the body and the gland of fastener, and after the rubber tile 4 work of fastener is unusual and the dropout, connector socket 6 breaks away from with connector plug 5, and the electric circuit breaks away from, and when the rubber tile 4 work of fastener is normal, connector socket 6 keeps being connected with connector plug 5, and the electric circuit is normal.

Example 2

As shown in fig. 1, an electric signal monitoring device for spacer wire clamp rubber tile falling damage comprises a wire clamp alloy gland 1, a wire clamp alloy body 2, a rotating shaft 3, a rubber tile 4, a connector plug 5, a connector socket 6, a main control module 7, a power supply module 8 and a communication module 9; the wire clamp alloy gland 1 is hinged to the wire clamp alloy body 2 through a rotating shaft 3, the rubber tiles 4 are respectively arranged on the inner side surfaces of the alloy gland 1 and the alloy body, and a wire is fixed in a cavity formed by the wire clamp alloy gland 1 and the wire clamp alloy body 2 through the pressing of the wire clamp alloy gland 1 and the wire clamp alloy body 2.

The connector plug 5 is arranged at one end of the rubber tile 4 of the wire clamp alloy gland 1 in an embedded manner, and the connector socket 6 is arranged at one end of the rubber tile 4 of the wire clamp alloy body 2; the connector insert 5 and the connector receptacle 6 are arranged to match,

the rubber tile 4 is of an arc-shaped structure, and the conducting wires are closely contacted and fixed through the upper rubber tile 4 and the lower rubber tile 4.

When the lead is fixed, the wire clamp alloy gland 1 moves circularly around the rotating shaft 3; when the rubber tile 4 of the wire clamp works normally, namely the wire clamp alloy gland 1 and the wire clamp alloy body 2 are normally connected with the box, the connector socket 6 and the connector plug 5 are kept connected, an electric circuit between the connector socket 6 and the connector plug 5 is normal, when the rubber tile 4 of the wire clamp works abnormally and is tripped, the connector socket 6 is separated from the connector plug 5, the electric circuit between the connector socket and the connector plug 5 is separated, the main control module 7 receives a tripping or connecting and buckling signal, and whether the spacer is tripped or not can be monitored through the opening and closing of the connector plug 5 and the connector socket 6;

the main control module 7, the power module 8 and the communication module 9 are all arranged in the wire-clamping alloy body 2, the main control module 7 is electrically connected with the communication module, and the power module 8 is respectively electrically connected with the main control module 7 and the communication module 9; the main control module 7 is respectively connected with the connector plug 5 and the connector socket 6;

the power module 8 provides power supply for the whole device, the main control module 7 is used for receiving communication signals generated by the connector plug 5 and the connector socket 6, and the main control module 7 transmits the signals to the communication module after receiving the signals and communicates with the outside through the communication module 9.

Through the integrated device, the real-time detection can be carried out on the abnormal conditions such as the damage and the shedding of the rubber tile 4 of the wire clamp, the tripping condition of the spacer can be monitored, the safe and efficient operation of the spacer is ensured, the spacer can be timely known when a fault occurs, the fault is timely processed, and the overall safety performance of the power transmission line is improved.

Based on the structure, the power supply module 8 supplies electric energy to the main control module 7 and the communication module in an induction self-power-taking mode;

the main control module 7 is used for analyzing and processing signals generated by triggering the connector plug 5 and the connector socket 6, and after the triggering signals are monitored, the main control module 7 generates a triggering report according to the instruction requirements.

The communication module is used for triggering communication transmission of the report, and after the report is triggered, the communication module transmits the trigger report to the monitoring system according to a specified communication mode and an address, so that the outside can know the safety state of the spacer in real time, accurately and efficiently.

The spacer wire clamp aluminum alloy body is used for placing and protecting the main control module 7, the power module 8 and the communication module except for the function of clamping a wire by the spacer wire clamp, so that the spacer wire clamp aluminum alloy body can operate in a complex electromagnetic environment, a climate environment and a mechanical environment of a power transmission line

The connector plug 5 of placing in the rubber tile 4 in normal conditions switches on with the inside stitch of the connector socket 6 of placing in the fastener alloy body 2 in, forms the return circuit with the wire that is connected to main control module 7, when the rubber tile 4 of conductor spacer fastener is deviate from or is damaged because of the trouble, connector plug 5 breaks away from the signal that produces the disconnection promptly with connector socket 6, this signal is received and the analysis by main control module 7, generate and trigger the message, through communication module wireless transmission to remote monitoring system.

Example 3

The utility model also provides a conductor spacer dropout and rubber tile state monitoring method, it includes following step:

the method comprises the following steps: the connector socket 6 is integrated with a wire clamp shell of the spacer to be tested and connected with the main control module 7, and the connector plug 5 is integrated with the rubber tile 4 of the spacer wire clamp; the main control module 7 is used for receiving electric signals generated by the connector socket 6 and the connector plug 5;

step two: when the wire clamp normally operates and is closed, the rubber tile 4 does not displace on the wire clamp, and the connector plug 5 is conducted with pins in the socket to form a loop; when the rubber tile 4 of the wire clamp is separated or damaged due to faults, the connector plug 5 is displaced, so that a signal can be triggered when a loop is disconnected;

step three: the trigger signal is collected by the main control module 7 and is wirelessly transmitted to a remote monitoring system by the communication module, and the fault of the spacer is pre-warned.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The release of conductor spacer release clamp triggers structure, its characterized in that: the connector plug is arranged in the wire clamp rubber tile, and the connector socket is arranged on the wire clamp body rubber tile, and the connector plug and the connector socket are arranged in a matched mode.

2. The trip triggering structure of the spacer wire releasing clamp according to claim 1, wherein: the rubber tile sets up on the body and the gland of fastener, works unusually and the dropout back as the rubber tile of fastener, and the connector socket breaks away from with the connector plug, and the electric circuit breaks away from, and when the rubber tile work of fastener is normal, the connector socket keeps being connected with the connector plug, and the electric circuit is normal.

3. The electric signal monitoring device that conductor spacer fastener rubber tile drops, damages, its characterized in that: the cable clamp comprises a cable clamp alloy gland, a cable clamp alloy body, a rotating shaft, a rubber tile, a connector plug, a connector socket, a main control module, a power module and a communication module; the wire clamp alloy gland is hinged to the wire clamp alloy body through a rotating shaft, and the rubber tiles are arranged on the inner side faces of the alloy gland and the alloy body respectively.

4. The spacer wire clamp rubber tile falling and damage electrical signal monitoring device according to claim 3, characterized in that: the connector plug is arranged on one end of the wire clamp alloy gland rubber tile in an embedded mode, and the connector socket is arranged on one end of the wire clamp alloy body rubber tile; the connector plug and the connector socket are matched.

5. The spacer wire clamp rubber tile falling and damage electrical signal monitoring device according to claim 4, characterized in that: the rubber tile is of an arc-shaped structure, and the conducting wires are closely contacted and fixed through the upper rubber tile and the lower rubber tile.

6. The spacer wire clamp rubber tile falling and damage electrical signal monitoring device according to claim 5, characterized in that: the main control module, the power supply module and the communication module are all arranged in the online alloy clamping body, the main control module is electrically connected with the communication module, and the power supply module is respectively electrically connected with the main control module and the communication module; and the main control module is respectively connected with the connector plug and the connector socket.

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