CN204126934U - The adaptive remote-controlled device of fan of a kind of brain electricity - Google Patents

Abstract

The utility model relates to a kind of brain electricity self adaption remote-controlled device of fan, and comprise eeg signal acquisition part and remote controller part, eeg signal acquisition part comprises two dry electrodes, two signal conductors and an EEG signals plug; Remote controller part comprises the circuit module being positioned at brain electric control switch button on telecontrol panel and light emitting diode, EEG signals socket and being positioned at remote controller inside, and circuit module comprises signal analyse block, keyboard scanning circuit, remote controller single-chip microcomputer and Bluetooth transmission circuit; Signal analyse block is electrically connected with EEG signals socket, remote controller single-chip microcomputer respectively, and remote controller single-chip microcomputer is electrically connected with light emitting diode, keyboard scanning circuit and Bluetooth transmission circuit respectively, and keyboard scanning circuit is electrically connected with remote controller buttons; Wherein, brain electric control switch button is electrically connected with circuit module.

Description

The adaptive remote-controlled device of fan of a kind of brain electricity

Technical field

The utility model relates to electric fan field, particularly relates to a kind of remote-controlled device of fan.

Background technique

In daily life, we often use electric fan to regulate the temperature of human body, sometimes also often open electric fan sleep, when people is when having a rest, usually the setting revising electric fan can not all be gone, and in fact people is after falling asleep, the wind-force required for electric fan all may with different time clear-headed.The suitable temperature when temperature required for human body is when clear-headed and sleep has a certain distance usually, is easy to like this cause people to be blown to flu by electric fan after sleeping.The timing of existing fan is closed to arrange and human body shell temperature after fan cuts out can be made to increase, and wakes up and come, and therefore needs a kind of device that automatically can regulate rotation speed of the fan.

Summary of the invention

The technical problems to be solved in the utility model is to provide a kind of brain wave by user and carrys out the spontaneous equipment affecting electric fan operation.People's brain wave after entering the state of sleeping soundly has and obviously changes, and this equipment relies on spontaneous these parameters of adjustment of the change of brain wave thus can solve corresponding problem.

Brain electricity self adaption remote-controlled device of fan of the present utility model, comprise remote controller part, it comprises telecontrol panel, remote controller buttons, battery cover; This brain electricity self adaption remote-controlled device of fan also comprises eeg signal acquisition part; Eeg signal acquisition part comprises two dry electrodes, two signal conductors and an EEG signals plug, and described two dry electrodes are electrically connected this two signal conductors, and described two signal conductors are electrically connected this EEG signals plug; Wherein said dry surrounding them is with cohesive material; Remote controller part also comprises the circuit module being positioned at brain electric control switch button on telecontrol panel and light emitting diode, EEG signals socket and being positioned at remote controller inside, and this circuit module comprises signal analyse block, keyboard scanning circuit, remote controller single-chip microcomputer and Bluetooth transmission circuit; This signal analyse block is electrically connected with this EEG signals socket, remote controller single-chip microcomputer respectively, this remote controller single-chip microcomputer is electrically connected with this light emitting diode, this keyboard scanning circuit and this Bluetooth transmission circuit respectively, and this keyboard scanning circuit is electrically connected with this remote controller buttons; Wherein, this brain electric control switch button is electrically connected with this circuit module.

Wherein, described EEG signals socket is positioned at the remote controller back side.

The utility model compared with prior art at least has following advantages: this device can according to the change of brain wave judge active user the best wind-force that is applicable to, when user is busy with work time, system can regulate the wind-force of electric fan automatically to the sensation of temperature according to user self; Simultaneously for the user that open electric fan sleep, system also can according to the wind-force of the change of real-time sleep brain wave correction electric fan gradually.

accompanying drawing explanation

Fig. 1 is the utility model eeg signal acquisition part-structure schematic diagram;

Fig. 2 is the utility model remote controller Facad structure schematic diagram;

Fig. 3 is the utility model remote controller structure schematic diagram;

Fig. 4 is this experiment new function structural representation.

The dry electrode of description of reference numerals: 101-, 102-signal conductor, 103-EEG signals plug, 104-remote controller buttons, 105-telecontrol panel, 106-light emitting diode, 107-battery cover, 108-EEG signals socket, 201-Bluetooth transmission circuit, 202-light emitting diode, 203-signal analyse block, 204-remote controller single-chip microcomputer, 205-EEG signals interface, 206-keyboard scanning circuit.

embodiment

Below in conjunction with drawings and Examples, to above-mentioned being described in more detail with other technical characteristics and advantage of the utility model.

In one embodiment, as shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 4, brain electricity self adaption remote-controlled device of fan of the present utility model is made up of two-part, comprises remote controller part and eeg signal acquisition part, realizes sending and receiving information between two-part by signaling interface.

Eeg signal acquisition analysis part is made up of two dry electrodes, 101, two signal conductors 102 and an EEG signals plug 103, and described two dry electrodes are electrically connected this two signal conductors, and described two signal conductors are electrically connected this EEG signals plug.Dry electrode 101 is alloy material, encloses cohesive material to be attached to skin surface around.Two electrodes are placed on the left front frontal region of user and right front frontal region, and system gathers original EEG signals by these two dry electrodes, are then transmitted to EEG signals plug 103 by two signal conductors 102 and are used for exporting EEG signals.

The visible remote controller buttons 104 of remote controller portion of external, telecontrol panel 105, light emitting diode 106, battery cover 107, EEG signals socket 108, brain electric control switch button (not shown).Remote controller buttons 104 is positioned at the front of remote controller, contain the button of a series of control fan running, these buttons do not have large difference with conventional fan governor, unique unlike adding a brain electric control switch button, the light emitting diode 106 in the upper right corner, remote controller front is used to indicate the working condition of current remotes, and the bottom of remote controller is provided with battery cover 107 and EEG signals patch 108.

Remote controller inside has circuit module, and this circuit module comprises signal analyse block 203, keyboard scanning circuit 206, remote controller single-chip microcomputer 204 and Bluetooth transmission circuit 201; When this signal analyse block 203 uses with this EEG signals interface 205(respectively, EEG signals plug 103 inserts EEG signals socket 108 and namely forms EEG signals interface 205), remote controller single-chip microcomputer 204 is electrically connected, this remote controller single-chip microcomputer 204 is electrically connected with this light emitting diode 202, this keyboard scanning circuit 206 and this Bluetooth transmission circuit 201 respectively, and this keyboard scanning circuit 206 is electrically connected with this remote controller buttons 104; Wherein, this brain electric control switch button is electrically connected with this circuit module.

The critical component of remote controller inside is signal analyse block 203, and these parts are responsible for the processing of EEG signals, process and feature identification.From the signal that EEG signals interface 205 receives, information analysis module 203 will be transferred to, this module integration functions such as A/D conversion, Signal Pretreatment, signal analysis, tagsort and identification.By extracting the composition information about brain excitement degree and attention rate in EEG signals, finally these information being converted to one-dimensional data and sending remote controller single-chip microcomputer 204 to; Remote controller single-chip microcomputer 204 using the effective information identified from user's brain wave that receives as controlled variable, complete part manipulation function, namely light emitting diode 202 and keyboard scanning circuit 206 is controlled, the working condition that light emitting diode 202 display remote controller is current; This keyboard scanning circuit 206 is connected with remote controller buttons 104, its reception carries out conversion operations from the control command of remote controller single-chip microcomputer 204 to remote controller buttons 104, be electrical signal by keyboard scanning circuit 206 by the operation transformation controlling button and send to remote controller single-chip microcomputer 204, the remote signal finally produced by remote controller single-chip microcomputer 204 is transmitted to fan by Bluetooth transmission circuit 201 thus realizes the function of remote control fan.

This remote controller is by identifying that brain wave judges that the comfortable feel in the brain of active user selects suitable wind-force, when brain feels scorching, just add the wind-force of big fan, when brain is felt colder time, just automatically reduce the wind-force of fan, in time feeling pleasant, fan will continue to run according to the wind-force of current setting.When system judges that the brain of active user is in temperature pleasant state time, system can detect the composition whether containing sleep ripple in brain wave, when the sleep ripple signal that system discovery is stronger time, illustrate that user has started to enter sleep state, remote controller can transmit and reduce fan wind-force gradually, to ensure that user does not catch a cold because of blowing fan.

Above-described embodiment is described preferred implementation of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that those of ordinary skill in the art make the technical solution of the utility model and improvement, all should fall in protection domain that the utility model claims determine.

Claims (2)

1. a brain electricity self adaption remote-controlled device of fan, comprise remote controller part, it comprises telecontrol panel, remote controller buttons, battery cover; It is characterized in that this brain electricity self adaption remote-controlled device of fan also comprises eeg signal acquisition part; Eeg signal acquisition part comprises two dry electrodes, two signal conductors and an EEG signals plug, and described two dry electrodes are electrically connected this two signal conductors, and described two signal conductors are electrically connected this EEG signals plug; Wherein said dry surrounding them is with cohesive material;

Remote controller part also comprises the circuit module being positioned at brain electric control switch button on telecontrol panel and light emitting diode, EEG signals socket and being positioned at remote controller inside, and this circuit module comprises signal analyse block, keyboard scanning circuit, remote controller single-chip microcomputer and Bluetooth transmission circuit; This signal analyse block is electrically connected with this EEG signals socket, remote controller single-chip microcomputer respectively, this remote controller single-chip microcomputer is electrically connected with this light emitting diode, this keyboard scanning circuit and this Bluetooth transmission circuit respectively, and this keyboard scanning circuit is electrically connected with this remote controller buttons;

Wherein, this brain electric control switch button is electrically connected with this circuit module.

2. brain electricity self adaption remote-controlled device of fan as claimed in claim 1, is characterized in that described EEG signals socket is positioned at the remote controller back side.