CN210051437U - Vibration monitoring induction alarm device - Google Patents

Abstract

A vibration monitoring induction alarm device comprises a box body, a fixed block, a U-shaped clamp assembly, a pressure sensor, a first spring, a weight and a mounting plate; a first mounting bin and a second mounting bin are arranged in the box body; the second mounting bin is provided with a first through hole for the insulation wire to pass through on the box body; the insulating wire is connected with the mounting plate; the mounting plate is connected with the inner wall of the second mounting bin through a second spring, and one end of the mounting plate, which is far away from the first through hole, is uniformly provided with pressure sensors; the first spring is respectively connected with the pressure sensor and the heavy weight; a data receiving module, a storage module, a converter, a data processing module, a central controller and a power supply module are arranged in the first mounting bin; the pressure sensor, the data receiving module, the storage module, the converter, the data processing module, the central controller and the power module are electrically connected; the fixed block sets up on the box, and the U-shaped clamp subassembly is connected in the fixed block cooperation. The utility model is simple in operation convenient to use can effectively detect the vibration of power transmission line.

Description

Vibration monitoring induction alarm device

Technical Field

The utility model relates to a power line vibration monitoring technology field especially relates to a vibration monitoring response alarm device.

Background

The vibration phenomenon is ubiquitous, is closely related to the life of people, can not be identified by naked eyes of people as small as the vibration phenomenon, and is large as the earthquake phenomenon in nature. The 10 kilovolt distribution line is used as the last kilometer of the service customer and is connected with a power supply enterprise and a power utilization customer; the 10 kV overhead line can vibrate in different amplitudes due to strong wind or external construction damage, and even large-area power failure and other accidents caused by tripping due to wire breakage occur; therefore, the vibration of the power transmission line needs to be detected by using a vibration sensing device; however, the existing vibration sensing device is complex in structure, complicated in operation and inconvenient to mount; in addition, the existing vibration sensing device cannot effectively store detected data so as to facilitate a worker to find rules from the vibration data of the power transmission line.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem that exists among the background art, the utility model provides a vibration monitoring response alarm device, the utility model provides a vibration monitoring device can effectively detect the vibration of power transmission line, easy operation convenient to use to can carry out the storage to the data that detect and conveniently look over.

(II) technical scheme

In order to solve the problems, the utility model provides a vibration monitoring induction alarm device, which comprises a box body, a fixed block, a U-shaped clamp component, a data receiving module, a storage module, a converter, a data processing module, a central controller, a power supply module, a pressure sensor, a first spring, a heavy block, an insulated wire, a mounting plate and a second spring;

a clapboard is arranged in the box body; the partition board is used for dividing the interior of the box body into a first mounting bin and a second mounting bin; the first mounting bin and the second mounting bin are respectively provided with an opening on the box body; sealing doors are respectively arranged at the openings;

the second mounting bin is provided with a first through hole on the box body; the insulated wire passes through the first through hole and is connected with the mounting plate; the mounting plate is connected with the inner wall of the second mounting bin through a second spring, and one end of the mounting plate, which is far away from the first through hole, is uniformly provided with pressure sensors; one end of the first spring is connected with the pressure sensor respectively; the other ends of the first springs are respectively connected with the heavy weights; a gap for preventing the heavy block from contacting with the bottom surface of the second mounting bin is reserved between the heavy block and the bottom surface of the second mounting bin;

the data receiving module, the storage module, the converter, the data processing module, the central controller and the power supply module are respectively arranged in the first mounting bin; the current output end of the power supply module is connected with the current input end of the central controller; the signal input end of the central controller is connected with the signal output end of the data processing module; the signal input end of the data processing module is connected with the signal output end of the converter; the signal input end of the converter is connected with the signal output end of the data receiving module; the signal input end of the data receiving module is respectively connected with the signal output end of the pressure sensor; the storage module is connected with the central controller;

the fixed blocks are arranged on the box body side by side, mounting holes are formed in the fixed blocks respectively, and the fixed blocks are connected with the U-shaped clamp assemblies in a matched mode.

Preferably, the end surfaces of the sealing door and the box body which are attached are respectively provided with a sealing ring; the sealing door is provided with a handle and a lockset for locking the sealing door and the box body.

Preferably, the second mounting bin is provided with a second through hole on the box body.

Preferably, the U-shaped clamp assembly includes a threaded rod and a fastening strip; two ends of the fastening strip are respectively connected with a threaded rod; the threaded rods are screwed into the mounting holes respectively.

Preferably, the U-shaped yoke assembly further comprises a fastener; the fasteners are respectively in threaded connection with the threaded rods, and the end faces, facing the fixing blocks, of the fasteners are respectively pressed against the fixing blocks.

Preferably, four first springs are arranged, the first springs are obliquely arranged, and an included angle between each first spring and the heavy block is 45-60 degrees; the four first springs are uniformly distributed in a circumference manner by taking the central axis of the weight sinking block as the center.

Preferably, the weight is in a cubic structure; one ends of the first springs are respectively positioned at the centers of the side end faces of the heavy blocks.

Preferably, a signal amplifier is further arranged in the first mounting bin; the signal output end of the signal amplifier is connected with the signal input end of the data receiving module, and the signal input end of the signal amplifier is connected with the signal output end of the pressure sensor.

Preferably, a wireless transmission module is further arranged in the first installation bin; the central controller is in communication connection with the mobile terminal through the wireless transmission module.

Preferably, the solar photovoltaic panel further comprises a photovoltaic panel and an inverter; the inverter is arranged in the first mounting bin, the current input end of the inverter is connected with the current output end of the photovoltaic panel, and the current output end of the inverter is connected with the current input end of the power supply module.

The above technical scheme of the utility model has following profitable technological effect:

in the utility model, the box body is fixedly connected with the object to be detected by vibration through the arranged U-shaped clamp assembly; when the device is installed, the fastening strip surrounds the installation frame of the object to be detected by vibration; then, the threaded rods are screwed into mounting holes formed in the fixed blocks respectively, and the fastening strips are tightly pressed on a mounting rack of an object to be detected for vibration, so that the box body is fixed; the operation is simple and the use is convenient;

connecting one end of an insulated wire with the power transmission line, and respectively enabling the other end of the insulated wire to penetrate through the first through hole and be connected with the mounting plate; when the power transmission line vibrates, the vibration is transmitted to the mounting plate through the insulated wire; the mounting plate vibrates to drive the first spring and the second spring to rock; the first spring drives the weight block to generate tension force on the pressure sensor when vibrating; the pressure sensor outputs a detected pressure signal, and the pressure signal is finally sent to a mobile terminal of a worker by the central controller through the wireless transmission module, so that the worker can know in time and maintain the power transmission line possibly in a dangerous situation; the vibration intensity of the power transmission line can be judged according to the detected pressure value;

in addition, the detected data is stored in the storage module and is convenient for the staff to consult.

Drawings

Fig. 1 is the utility model provides a vibration monitoring response alarm device's schematic structure.

Fig. 2 is a front view of the vibration monitoring sensing alarm device provided by the utility model.

Fig. 3 is a top view of the vibration monitoring sensing alarm device provided by the utility model.

Fig. 4 is a schematic block diagram of the vibration monitoring sensing alarm device provided by the utility model.

Reference numerals: 1. a box body; 2. a fixed block; 3. a partition plate; 4. a data receiving module; 5. a threaded rod; 6. a storage module; 7. a photovoltaic panel; 8. a first installation bin; 9. a converter; 10. a data processing module; 11. a central controller; 12. an inverter; 13. a power supply module; 14. a pressure sensor; 15. a first spring; 16. a second mounting bin; 17. sinking the weight block; 18. a sealing door; 19. a lock; 20. a fastener; 21. fastening strips; 22. a wireless transmission module; 23. a signal amplifier; 24. a positioning module; 25. an insulated wire; 26. mounting a plate; 27. a second spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-4, the utility model provides a vibration monitoring induction alarm device, including box 1, fixed block 2, U-shaped clamp subassembly, data receiving module 4, storage module 6, converter 9, data processing module 10, central controller 11, power module 13, pressure sensor 14, first spring 15, heavy piece 17, insulated wire 25, mounting panel 26 and second spring 27;

a partition plate 3 is arranged in the box body 1; the partition board 3 is used for dividing the interior of the box body 1 into a first mounting bin 8 and a second mounting bin 16; the first mounting bin 8 and the second mounting bin 16 are respectively provided with openings on the box body 1; sealing doors 18 are respectively arranged at the openings; the sealing doors 18 are respectively connected with the box body 1 in a rotating way; the components in the first installation bin 8 and the second installation bin 16 can be inspected and maintained by opening the sealing door 18;

the second mounting bin 16 is provided with a first through hole on the box body 1; the insulated wire 25 passes through the first through hole and is connected with the mounting plate 26; the mounting plate 26 is connected with the inner wall of the second mounting bin 16 through a second spring 27, and one end, far away from the first through hole, of the mounting plate 26 is uniformly provided with the pressure sensors 14; one end of the first spring 15 is connected with the pressure sensor 14; the other ends of the first springs 15 are respectively connected with a weight 17; a gap for preventing the counterweight 17 from contacting the bottom surface of the second mounting bin 16 is reserved between the counterweight 17 and the bottom surface of the second mounting bin 16;

it should be noted that the weight of the weight 17 is selected before use by the elastic force generated by the first spring 15, so that the resonance phenomenon does not occur; the insulated wire 25 is connected with the power transmission line, the other end of the insulated wire 25 is connected with the mounting plate 26, and the insulated wire 25 is tightened;

the data receiving module 4, the storage module 6, the converter 9, the data processing module 10, the central controller 11 and the power supply module 13 are respectively arranged in the first mounting bin 8;

the current output end of the power supply module 13 is connected with the current input end of the central controller 11, and the power supply module 13 provides electric energy for the data receiving module 4, the storage module 6, the converter 9, the data processing module 10, the central controller 11 and the pressure sensor 14;

the signal input end of the data receiving module 4 is respectively connected with the signal output end of the pressure sensor 14, and the signal output end of the data receiving module 4 is connected with the signal input end of the converter 9; the data receiving module 4 is used for receiving the signal sent by the pressure sensor 14 and sending the received signal to the converter 9;

the signal output end of the converter 9 is connected with the signal input end of the data processing module 10; the signal output end of the data processing module 10 is connected with the signal input end of the central controller 11; the converter 9 sends the converted information to the data processing module 10; the data processing module 10 processes the data and sends the processed data to the central controller 11; the central controller 11 sends the received signal to the storage module 6 and stores the information; the storage module 6 is connected with the central controller 11; the working personnel can conveniently call data from the storage module 6 for looking up, and when the wind speed vibrates the power transmission line due to seasonal variation, the vibration rule of the power transmission line can be found through the data, so that the power transmission line can be detected in different degrees in seasons with different seasons;

the fixed blocks 2 are arranged on the box body 1 side by side, mounting holes are respectively formed in the fixed blocks 2, and the fixed blocks 2 are connected with a U-shaped hoop component in a matched mode and used for tightly mounting the box body 1 on an object to be subjected to vibration detection; the utility model discloses the structure is light and handy conveniently carries the installation.

In an alternative embodiment, a sealing ring is arranged on the end face of the sealing door 18 attached to the box body 1; the sealing ring is arranged to prevent external impurities, water and the like from entering the box body 1 from a gap between the sealing door 18 and the box body 1; a handle is arranged on the sealing door 18, and a lockset 19 used for locking the sealing door 18 and the box body 1 is arranged on the sealing door 18; the lock 19 is selected from, but not limited to, a drawer lock; the sealing door 18 and the box body 1 are locked through the lock 19, the opening and the closing are convenient, and the safety is improved.

In an alternative embodiment, the second installation bin 16 is provided with a second through hole on the box body; the water entering the second mounting bin 16 from the first through hole flows out of the second through hole;

further, the bottom surface of the second mounting bin 16 is spherical, so that water can be conveniently drained;

furthermore, a dustproof filter screen is arranged in the first through hole; the insulated wire 25 passes through the hole of the dustproof filter screen.

In an alternative embodiment, the U-shaped clip assembly comprises a threaded rod 5 and a fastening strip 21; two ends of the fastening strip 21 are respectively connected with the threaded rod 5; the threaded rods 5 are screwed into the mounting holes respectively;

when in use, the fastening strip 21 surrounds the mounting rack of the object to be detected to vibrate; then, the threaded rods 5 are screwed into mounting holes formed in the fixed blocks 2 respectively, and the fastening strips 21 tightly press the mounting rack so as to fix the box body 1 on the mounting rack; simple operation and convenient use.

In an alternative embodiment, the U-shaped yoke assembly further includes a fastener 20; the fasteners 20 are respectively in threaded connection with the threaded rods 5, and the end faces, facing the fixed block 2, of the fasteners 20 respectively press the fixed block 2;

further, the fastener 20 is a nut; the threaded rod 5 and the fixed block 2 are tightly pressed by the provided fastener 20, so that the threaded rod 5 is prevented from loosening and the box body 1 is prevented from falling.

In an alternative embodiment, four first springs 15 are provided, the first springs 15 are arranged obliquely, and the included angle between the first springs 15 and the heavy block 17 is 45-60 degrees;

the four first springs 15 are uniformly distributed circumferentially around the central axis of the heavy block 17.

In an alternative embodiment, the heavy block 17 is a cube structure; one ends of the first springs 15 are respectively positioned at the centers of the side end faces of the heavy weights 17;

it should be noted that the heavy block 17 can be selected to be spherical; one ends of the first springs 15 are respectively disposed on the spherical surfaces.

In an alternative embodiment, four second springs 27 are used, and the second springs 27 are respectively arranged at the right-angled edges of the mounting plate 26; the two ends of the second spring 27 are respectively connected with the mounting plate 26 and the inner wall of the second mounting bin 16.

In an alternative embodiment, a signal amplifier 23 is further arranged in the first mounting bin 8; the signal output end of the signal amplifier 23 is connected with the signal input end of the data receiving module 4, and the signal input end of the signal amplifier 23 is connected with the signal output end of the pressure sensor 14; the signal amplifier 23 is used for amplifying the signal emitted by the pressure sensor 14 so as to facilitate the reception of the data receiving module 4.

In an optional embodiment, a wireless transmission module 22 is further arranged in the first mounting bin 8; the central controller 11 is in communication connection with the mobile terminal through a wireless transmission module 22; the mobile terminal is a mobile phone end or a computer end; the central controller 11 sends the received signal to the mobile terminal of the worker in real time, so that the worker can know the signal in time.

In an alternative embodiment, a photovoltaic panel 7 and an inverter 12 are also included; the inverter 12 is arranged in the first mounting bin 8, the current input end of the inverter 12 is connected with the current output end of the photovoltaic panel 7, and the current output end of the inverter 12 is connected with the current input end of the power module 13; the photovoltaic panel 7 is arranged on the object to be detected to vibrate or the box body 1; the photovoltaic panel 7 converts the received solar energy into electric energy and stores the electric energy in the power module 13 through the inverter 12; the power module 13 selects a storage battery;

the data receiving module 4, the storage module 6, the converter 9, the data processing module 10, the central controller 11 and the pressure sensor 14 arranged in the box body 1 have low power consumption, and the power required by normal operation of the box body is completely met through the arranged power supply module 13; the photovoltaic panel 7 converts clean solar energy into electric energy to be stored in the power module 13, so that the cruising ability of the power module 13 is greatly improved, and the clean energy is used for being more environment-friendly.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A vibration monitoring induction alarm device is characterized by comprising a box body (1), a fixed block (2), a U-shaped hoop assembly, a data receiving module (4), a storage module (6), a converter (9), a data processing module (10), a central controller (11), a power supply module (13), a pressure sensor (14), a first spring (15), a heavy block (17), an insulated wire (25), a mounting plate (26) and a second spring (27);

a clapboard (3) is arranged in the box body (1); the partition plate (3) is used for dividing the interior of the box body (1) into a first mounting bin (8) and a second mounting bin (16); the first mounting bin (8) and the second mounting bin (16) are respectively provided with an opening on the box body (1); sealing doors (18) are respectively arranged at the openings;

the second mounting bin (16) is provided with a first through hole on the box body (1); an insulated wire (25) passes through the first through hole and is connected with the mounting plate (26); the mounting plate (26) is connected with the inner wall of the second mounting bin (16) through a second spring (27), and one end, far away from the first through hole, of the mounting plate (26) is uniformly provided with pressure sensors (14); one end of the first spring (15) is respectively connected with the pressure sensor (14); the other ends of the first springs (15) are respectively connected with a heavy weight (17); a gap for preventing the counter weight (17) from contacting the bottom surface of the second mounting bin (16) is reserved between the counter weight (17) and the bottom surface of the second mounting bin (16);

the data receiving module (4), the storage module (6), the converter (9), the data processing module (10), the central controller (11) and the power supply module (13) are respectively arranged in the first mounting bin (8); the current output end of the power supply module (13) is connected with the current input end of the central controller (11); the signal input end of the central controller (11) is connected with the signal output end of the data processing module (10); the signal input end of the data processing module (10) is connected with the signal output end of the converter (9); the signal input end of the converter (9) is connected with the signal output end of the data receiving module (4); the signal input end of the data receiving module (4) is respectively connected with the signal output end of the pressure sensor (14); the storage module (6) is connected with the central controller (11);

fixed block (2) set up side by side on box (1), are equipped with the mounting hole on fixed block (2) respectively, and U-shaped clamp subassembly is connected in fixed block (2) cooperation.

2. The vibration monitoring induction alarm device according to claim 1, characterized in that the sealing rings are respectively arranged on the end surfaces of the sealing door (18) and the box body (1) which are jointed; the sealing door (18) is provided with a handle, and the sealing door (18) is provided with a lockset (19) used for locking the sealing door (18) and the box body (1).

3. A vibration monitoring, sensing and alarming device as claimed in claim 1, wherein the second mounting bin (16) is provided with a second through hole on the box body (1).

4. A vibration monitoring and sensing alarm device according to claim 1, characterised in that the U-shaped yoke assembly comprises a threaded rod (5) and a fastening strip (21); two ends of the fastening strip (21) are respectively connected with the threaded rod (5); the threaded rods (5) are screwed into the mounting holes respectively.

5. A vibration monitoring and sensing alarm device according to claim 4, characterised in that the U-shaped yoke assembly further comprises a fastener (20); the fasteners (20) are respectively in threaded connection with the threaded rods (5), and the end faces, facing the fixing blocks (2), of the fasteners (20) are respectively pressed on the fixing blocks (2).

6. A vibration monitoring induction alarm device according to claim 1, characterized in that there are four first springs (15), the first springs (15) are arranged obliquely, and the included angle between the first springs (15) and the heavy block (17) is 45-60 degrees; the four first springs (15) are uniformly distributed in a circle by taking the central axis of the heavy block (17) as the center.

7. A vibration monitoring induction warning unit as claimed in claim 6, characterised in that the weight (17) is of a cube configuration; one end of each first spring (15) is positioned at the center of the side end face of the counter weight (17).

8. A vibration monitoring, sensing and alarming device as claimed in claim 1, wherein the first mounting chamber (8) is further provided with a signal amplifier (23); the signal output end of the signal amplifier (23) is connected with the signal input end of the data receiving module (4), and the signal input end of the signal amplifier (23) is connected with the signal output end of the pressure sensor (14).

9. A vibration monitoring, sensing and alarming device as claimed in claim 8, wherein a wireless transmission module (22) is further arranged in the first mounting bin (8); the central controller (11) is in communication connection with the mobile terminal through a wireless transmission module (22).

10. A vibration monitoring induction warning device according to claim 1, characterized by further comprising a photovoltaic panel (7) and an inverter (12); the inverter (12) is arranged in the first mounting bin (8), the current input end of the inverter (12) is connected with the current output end of the photovoltaic panel (7), and the current output end of the inverter (12) is connected with the current input end of the power supply module (13).

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