CN205917907U - Fuzzy controller suitable for building anti -seismic damper - Google Patents

Abstract

The utility model discloses a fuzzy controller suitable for building anti -seismic damper, including the fuzzy control module, displacement sensor, acceleration sensor, a speed sensor, signal processing module, AD conversion module, the button module, the power modul, wireless module, anti -seismic damper, the display module, alarm module, displacement sensor, acceleration sensor, speedtransmitter connected signal processing module, the fuzzy control module, AD conversion module, the fuzzy control module connects gradually, alarm module is connected to the fuzzy control module, the display module, wireless module and power module, wireless module connects damping antidetonation ware, power module is connected to damping antidetonation ware, power module includes solar energy power supply unit and mains supply unit. The utility model discloses accessible displacement sensor, speedtransmitter and add speedtransmitter and detect seismic signal, intelligent control anti -seismic damper is carried out to rethread fuzzy control module to reach the shock -resistant effect of building.

Description

A kind of fuzzy controller being applied to building aseismicity antivibrator

Technical field

This utility model relates generally to a kind of anti-seismic damper, more particularly, it relates to one kind is applied to building aseismicity resistance The fuzzy controller of Buddhist nun's device.

Background technology

Since human civilization starts, earthquake disaster is just continuous to be occurred, and causes a tremendous loss of lives and building, bridge Beam is isostructural to be destroyed and collapses, and causes huge casualties and economic asset loss, and earthquake creates to human civilization Huge destructive power, seimic disaster census show, the destruction of the Life Engineering such as all kinds of building bridges is to lead to people's lives and properties to be damaged The main cause lost.Therefore, urgency building structure provided fortification against earthquakes and necessity are obvious.How actively , it is efficient that improve building structure to resist the ability of eaerthquake damage be the research direction extremely with significance.

Utility model content

The purpose of this utility model is to provide a kind of fuzzy controller being applied to building aseismicity antivibrator, on solving State the problem proposing in background technology.

For achieving the above object, this utility model provides a kind of following technical scheme: building aseismicity antivibrator of being applied to Fuzzy controller, including fuzzy control model, displacement transducer, acceleration transducer, velocity sensor, signal processing module, A/d modular converter, key-press module, power module, wireless module, anti-seismic damper, display module, alarm module, described displacement Sensor, acceleration transducer, velocity sensor connect signal processing module, described fuzzy control model, a/d modular converter, Fuzzy control model is sequentially connected, and described fuzzy control model connects alarm module, display module, wireless module and power supply mould Block, described wireless module connects damping shock proof device, and described damping shock proof device connects power module, and described power module includes the sun Energy power supply unit and electrical network power supply unit, are provided with battery module in described solar powered unit, described damping shock proof device is Magnetorheological (mr) antivibrator；

The signal that institute's displacement sensors, acceleration transducer, velocity sensor are gathered pass through signal processing module and Data after changing is sent to fuzzy control model by a/d modular converter, and described fuzzy control model is calculated by fuzzy algorithmic approach The energy that corresponding earthquake produces, then described fuzzy control model controlled by the size controlling damping shock proof device input current The damping that damping shock proof device processed produces, thus controlling the shock resistance of anti-seismic damper, damping and ground that anti-seismic damper produces The energy that shake produces offsets, thus reaching antihunt action.

Further, the master element of described fuzzy control model adopts at89c52 single-chip microcomputer.

Further, described velocity sensor adopts laser velocimeter sensor.

Compared with prior art, the beneficial effects of the utility model are: its structure is simple, can be provided that electricity using the sun Source, adds battery module, in earthquake power-off, also dynamic source in power module；Energy-conserving and environment-protective, and pass through wireless signal Transmission data, prevents wire signal during earthquake and is destroyed and cannot transmit the situation of signal.

Brief description

Fig. 1 is structural representation of the present utility model.

In figure: 1, fuzzy control model, 2, key-press module, 3, velocity sensor, 4, acceleration transducer, 5, displacement sensing Device, 6, signal processing module, 7, a/d modular converter, 8, power module, 9, solar powered unit, 10, electrical network power supply unit, 11st, wireless module, 12, anti-seismic damper, 13, display module, 14, alarm module.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work The every other embodiment being obtained, broadly falls into the scope of this utility model protection.

Embodiment 1, refers to figure, and this utility model provides a kind of technical scheme: one kind is applied to building aseismicity antivibrator Fuzzy controller, including fuzzy control model 1, displacement transducer 5, acceleration transducer 4, velocity sensor 3, signal processing Module 6, a/d modular converter 7, key-press module 2, power module 8, wireless module 11, anti-seismic damper 12, display module 13, report Alert module 14, displacement transducer 5, acceleration transducer 4, velocity sensor 3 connect signal processing module 6, fuzzy control model 1st, a/d modular converter 7, fuzzy control model 1 are sequentially connected, fuzzy control model 1 connect alarm module 14, display module 13, Wireless module 11 and power module 8, wireless module 11 connects damping shock proof device 12, and damping shock proof device 12 connects power module 8, electricity Source module 8 includes solar powered unit 9 and electrical network power supply unit 10, is provided with battery module in solar powered unit 9, when Electrical network power supply unit 10 is then enabled, damping shock proof device 12 is magnetorheological (mr) antivibrator during solar powered unit 9 electricity shortage, The signal that displacement transducer 5, acceleration transducer 4, velocity sensor 3 are gathered passes through signal processing module 6 and a/d modulus of conversion Data after changing is sent to fuzzy control model 1 by block 7, and fuzzy control model 1 calculates corresponding earthquake by fuzzy algorithmic approach Produce energy, then fuzzy control model 1 by control damping shock proof device 12 input current size control damping shock proof The damping that device 12 produces, thus controlling the shock resistance of anti-seismic damper 12, damping and earthquake that anti-seismic damper 12 produces are produced Raw energy offsets, thus reaching antihunt action.The master element of fuzzy control model 1 adopts at89c52 single-chip microcomputer.

Embodiment 2, refers to figure, and this utility model provides a kind of technical scheme: one kind is applied to building aseismicity antivibrator Fuzzy controller, including fuzzy control model 1, displacement transducer 5, acceleration transducer 4, velocity sensor 3, signal processing Module 6, a/d modular converter 7, key-press module 2, power module 8, wireless module 11, anti-seismic damper 12, display module 13, report Alert module 14, displacement transducer 5, acceleration transducer 4, velocity sensor 3 connect signal processing module 6, and velocity sensor 3 is adopted Use laser velocimeter sensor.Fuzzy control model 1, a/d modular converter 7, fuzzy control model 1 are sequentially connected, Fuzzy Control molding Block 1 connects alarm module 14, display module 13, wireless module 11 and power module 8, and wireless module 11 connects damping shock proof device 12, damping shock proof device 12 connects power module 8, and power module 8 includes solar powered unit 9 and electrical network power supply unit 10, too Sun can be provided with battery module in power supply unit 9, then enables electrical network power supply unit when solar powered unit 9 electricity shortage 10, damping shock proof device 12 is magnetorheological (mr) antivibrator, and fuzzy control model 1 passes through to control the big of the electric current of damping shock proof device 12 The little damping force to control damping shock proof device 12 to produce, thus control the shock resistance of anti-seismic damper 12.Fuzzy control model 1 Master element adopt at89c52 single-chip microcomputer.

The above, only this utility model preferably specific embodiment, but protection domain of the present utility model is not Be confined to this, any those familiar with the art in the technical scope that this utility model discloses, according to this practicality New technical scheme and its improve design in addition equivalent or change, all should cover in protection domain of the present utility model Interior.

Claims (3)

1. a kind of fuzzy controller being applied to building aseismicity antivibrator it is characterised in that: include fuzzy control model, displacement pass Sensor, acceleration transducer, velocity sensor, signal processing module, a/d modular converter, key-press module, power module, wireless Module, anti-seismic damper, display module, alarm module, institute's displacement sensors, acceleration transducer, velocity sensor connect Signal processing module, described fuzzy control model, a/d modular converter, fuzzy control model are sequentially connected, described Fuzzy Control molding Block connects alarm module, display module, wireless module and power module, and described wireless module connects damping shock proof device, described resistance Buddhist nun's antidetonation device connects power module, and described power module includes solar powered unit and electrical network power supply unit, described solar energy It is provided with battery module, described damping shock proof device is magnetorheological (mr) antivibrator in power supply unit；

The signal that institute's displacement sensors, acceleration transducer, velocity sensor are gathered is turned by signal processing module and a/d Data after changing is sent to fuzzy control model by die change block, and described fuzzy control model is calculated by fuzzy algorithmic approach accordingly Earthquake produce energy, then described fuzzy control model by control damping shock proof device input current size control damping The damping that antidetonation device produces, thus controlling the shock resistance of anti-seismic damper, damping and earthquake that anti-seismic damper produces produce Energy offset, thus reaching antihunt action.

2. a kind of fuzzy controller being applied to building aseismicity antivibrator according to claim 1 it is characterised in that: described The master element of fuzzy control model adopts at89c52 single-chip microcomputer.

3. a kind of fuzzy controller being applied to building aseismicity antivibrator according to claim 1 it is characterised in that: described Velocity sensor adopts laser velocimeter sensor.