CN212657461U - Effectual safe power consumption dynamic monitoring system of antidetonation - Google Patents

Effectual safe power consumption dynamic monitoring system of antidetonation Download PDF

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Publication number
CN212657461U
CN212657461U CN202020572787.XU CN202020572787U CN212657461U CN 212657461 U CN212657461 U CN 212657461U CN 202020572787 U CN202020572787 U CN 202020572787U CN 212657461 U CN212657461 U CN 212657461U
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CN
China
Prior art keywords
fixedly connected
sliding
base
wall
monitoring system
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Expired - Fee Related
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CN202020572787.XU
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Chinese (zh)
Inventor
王柏树
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Shaanxi Rongwei Group Electric Technology Co ltd
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Shaanxi Rongwei Group Electric Technology Co ltd
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Priority to CN202020572787.XU priority Critical patent/CN212657461U/en
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Publication of CN212657461U publication Critical patent/CN212657461U/en
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Abstract

The utility model discloses an effectual safe power consumption dynamic monitoring system of antidetonation, including base, shock pad, casing, bellows, backup pad, bracing piece, monitoring facilities body and damper, the equal fixedly connected with shock pad in the left and right sides of base bottom, the fixedly connected with casing of mid point department of inner wall bottom of the base, inner wall of the housing's bottom fixedly connected with bellows, the top fixedly connected with backup pad of bellows, the fixedly connected with bracing piece of mid point department at backup pad top, the top of bracing piece runs through the casing and extends to its outside fixedly connected with monitoring facilities body. The utility model discloses a base, shock pad, casing, bellows, backup pad, bracing piece and monitoring facilities body mutually support, have realized the effectual effect of antidetonation, can effectively alleviate the vibrations that monitoring facilities body during operation produced to can satisfy modern user demand, the practicality is strong, is worth promoting.

Description

Effectual safe power consumption dynamic monitoring system of antidetonation
Technical Field
The utility model relates to a safe power consumption technical field specifically is an effectual safe power consumption dynamic monitoring system combats earthquake.
Background
The electric energy can not be used in production and life, the technical requirements for electrical installation are higher and higher along with the development of national economy and the improvement of living standard of people, the electrical safety is not neglected, various protection measures such as interstage cooperative protection of fuses, circuit breakers, leakage protectors and the like are provided at present, but the protection measures are limited by the mechanical performance, setting parameters, service life and the like of equipment, and sometimes misoperation occurs or the reliable action fails when a fault occurs. Therefore, the current intelligent level of electric safety protection still has development space and will become a necessary trend. At present, a common dynamic monitoring system for safety power utilization is poor in anti-seismic effect and cannot meet the requirements of modern use, and therefore a dynamic monitoring system for safety power utilization with a good anti-seismic effect is provided.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an effectual safe power consumption dynamic monitoring system of antidetonation to solve the problem that proposes in the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: a safe electricity utilization dynamic monitoring system with a good anti-seismic effect comprises a base, shock pads, a shell, a corrugated pipe, a supporting plate, supporting rods, a monitoring equipment body and a shock absorption mechanism, wherein the shock pads are fixedly connected to the left side and the right side of the bottom of the base;
the damping mechanism comprises two sliding grooves, the two sliding grooves are symmetrically arranged on the left side and the right side of the bottom of the monitoring equipment body, a sliding rod is fixedly connected to the inner wall of each sliding groove, a sliding block is connected to the surface of each sliding rod in a sliding manner, the bottom of each sliding block penetrates through each sliding groove and extends to the outside of each sliding groove, a buffer spring is sleeved on the surface of each sliding rod, fixed blocks are fixedly connected to the bottoms of the left side and the right side of the inner wall of the base, a first shaft rod is fixedly connected to the front side of each fixed block, a second shaft rod is fixedly connected to the bottom of the front side of each sliding block, the first shaft rod and the second shaft rod are hinged through a connecting rod, a damping spring is fixedly connected to the position, located between the shell and the sliding grooves, of the bottom of the monitoring equipment, the limiting groove has been all seted up to the base inner wall left and right sides and the position that corresponds the pulley, the limiting groove is run through and extends to inside to one side that the monitoring facilities body was kept away from to the pulley.
Preferably, the surface of the support plate is movably connected with the inner wall of the shell.
Preferably, the support rod is movably connected with the shell.
Preferably, the sliding block is movably connected with the sliding groove.
Preferably, the pulley is connected with the limiting groove in a sliding mode.
Compared with the prior art, the beneficial effects of the utility model are as follows:
the utility model discloses a base, shock pad, casing, bellows, backup pad, bracing piece and monitoring facilities body mutually support, have realized the effectual effect of antidetonation, can effectively alleviate the vibrations that monitoring facilities body during operation produced to can satisfy modern user demand, the practicality is strong, is worth promoting.
Drawings
FIG. 1 is a structural section view in elevation of the present invention;
fig. 2 is an enlarged schematic view of a in fig. 1 according to the present invention.
In the figure: the device comprises a base 1, a shock pad 2, a shell 3, a corrugated pipe 4, a support plate 5, a support rod 6, a monitoring device body 7, a shock absorption mechanism 8, a sliding groove 801, a sliding rod 802, a sliding block 803, a buffer spring 804, a fixed block 805, a first shaft rod 806, a second shaft rod 807, a connecting rod 808, a shock absorption spring 809, a pulley 810 and a spacing groove 811.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Please refer to fig. 1-2, a dynamic monitoring system for safe power utilization with good anti-seismic effect, comprising a base 1, a shock pad 2, a housing 3, a corrugated pipe 4, a supporting plate 5, a supporting rod 6, a monitoring device body 7 and a shock absorption mechanism 8, wherein the shock pad 2 is fixedly connected to the left side and the right side of the bottom of the base 1, the housing 3 is fixedly connected to the midpoint of the bottom of the inner wall of the base 1, the corrugated pipe 4 is fixedly connected to the bottom of the inner wall of the housing 3, the supporting plate 5 is fixedly connected to the top of the corrugated pipe 4, the surface of the supporting plate 5 is movably connected to the inner wall of the housing 3, the supporting rod 6 is fixedly connected to the midpoint of the top of the supporting plate 5, the supporting rod 6 is movably connected to the housing 3, the top of the supporting rod 6 penetrates through the housing.
The damping mechanism 8 comprises two sliding chutes 801, the two sliding chutes 801 are symmetrically arranged on the left side and the right side of the bottom of the monitoring device body 7, a sliding rod 802 is fixedly connected on the inner wall of the sliding chute 801, a sliding block 803 is connected on the surface of the sliding rod 802 in a sliding manner, the bottom of the sliding block 803 penetrates through the sliding chute 801 and extends to the outside of the sliding chute 801, the sliding block 803 is movably connected with the sliding chute 801, a buffer spring 804 is sleeved on the surface of the sliding rod 802, fixed blocks 805 are fixedly connected on the bottom of the left side and the right side of the inner wall of the base 1, a first shaft 806 is fixedly connected on the front side of the fixed block 805, a second shaft 807 is fixedly connected on the bottom of the front side of the sliding block 803, the first shaft 806 is hinged to the second shaft 807 through a connecting rod 808, a damping spring 809 is fixedly connected at the position between the bottom of the monitoring device body 7 and the, limiting grooves 811 are formed in the left side and the right side of the inner wall of the base 1 and correspond to the positions of the pulleys 810, one side, far away from the monitoring equipment body 7, of each pulley 810 penetrates through the limiting grooves 811 and extends to the inside of the corresponding pulley 810, and the pulleys 810 and the limiting grooves 811 are connected in a sliding mode.
During the use, can produce vibrations when monitoring facilities body 7 during operation, drive bracing piece 6 and backup pad 5 downstream by monitoring facilities body 7, thereby compression bellows 4 cushions the shock attenuation, drive slider 803 downstream by monitoring facilities body 7 simultaneously, thereby under the principle of effort and reaction force, make connecting rod 808 promote slider 803 to the one side motion that is close to buffer spring 804, thereby compression buffer spring 804 cushions the shock attenuation, simultaneously by monitoring facilities body 7 compression damping spring 809 shock attenuation, through above step, can realize good antidetonation effect.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an effectual safe power consumption dynamic monitoring system of antidetonation, includes base (1), shock pad (2), casing (3), bellows (4), backup pad (5), bracing piece (6), monitoring facilities body (7) and damper (8), its characterized in that: the shock absorption device comprises a base (1), shock absorption pads (2) are fixedly connected to the left side and the right side of the bottom of the base (1), a shell (3) is fixedly connected to the midpoint of the bottom of the inner wall of the base (1), a corrugated pipe (4) is fixedly connected to the bottom of the inner wall of the shell (3), a supporting plate (5) is fixedly connected to the top of the corrugated pipe (4), a supporting rod (6) is fixedly connected to the midpoint of the top of the supporting plate (5), the top of the supporting rod (6) penetrates through the shell (3) and extends to the outside of the shell to be fixedly connected with a monitoring device body (7), and a shock absorption mechanism (8;
the damping mechanism (8) comprises two sliding grooves (801), the two sliding grooves (801) are symmetrically arranged on the left side and the right side of the bottom of the monitoring equipment body (7), a sliding rod (802) is fixedly connected to the inner wall of the sliding groove (801), a sliding block (803) is connected to the surface of the sliding rod (802) in a sliding mode, the bottom of the sliding block (803) penetrates through the sliding groove (801) and extends to the outside of the sliding groove, a buffer spring (804) is sleeved on the surface of the sliding rod (802), fixed blocks (805) are fixedly connected to the bottoms of the left side and the right side of the inner wall of the base (1), a first shaft lever (806) is fixedly connected to the front side of the fixed block (805), a second shaft lever (807) is fixedly connected to the bottom of the front side of the sliding block (803), the first shaft lever (806) and the second shaft lever (807) are hinged through a connecting rod (808), and a damping spring (809) is fixedly connected to the bottom, the bottom and base (1) fixed connection of damping spring (809), two pulleys (810) of the equal fixedly connected with of mid point department of the monitoring facilities body (7) left and right sides, base (1) inner wall left and right sides and the position that corresponds pulley (810) have all seted up spacing groove (811), one side that monitoring facilities body (7) were kept away from in pulley (810) runs through spacing groove (811) and extends to its inside.
2. The dynamic safety power utilization monitoring system with good anti-seismic effect according to claim 1, characterized in that: the surface of the supporting plate (5) is movably connected with the inner wall of the shell (3).
3. The dynamic safety power utilization monitoring system with good anti-seismic effect according to claim 1, characterized in that: the supporting rod (6) is movably connected with the shell (3).
4. The dynamic safety power utilization monitoring system with good anti-seismic effect according to claim 1, characterized in that: the sliding block (803) is movably connected with the sliding groove (801).
5. The dynamic safety power utilization monitoring system with good anti-seismic effect according to claim 1, characterized in that: the pulley (810) is connected with the limiting groove (811) in a sliding mode.
CN202020572787.XU 2020-04-17 2020-04-17 Effectual safe power consumption dynamic monitoring system of antidetonation Expired - Fee Related CN212657461U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020572787.XU CN212657461U (en) 2020-04-17 2020-04-17 Effectual safe power consumption dynamic monitoring system of antidetonation

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020572787.XU CN212657461U (en) 2020-04-17 2020-04-17 Effectual safe power consumption dynamic monitoring system of antidetonation

Publications (1)

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CN212657461U true CN212657461U (en) 2021-03-05

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114435037A (en) * 2022-01-21 2022-05-06 浙江科丰传感器股份有限公司 Tire pressure sensor and tire pressure monitoring method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114435037A (en) * 2022-01-21 2022-05-06 浙江科丰传感器股份有限公司 Tire pressure sensor and tire pressure monitoring method thereof
CN114435037B (en) * 2022-01-21 2023-12-12 浙江科丰传感器股份有限公司 Tire pressure sensor and tire pressure monitoring method thereof

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20210305

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