CN2609307Y - Handset with heart rate monitoring function - Google Patents

Abstract

The utility model provides a mobile phone with the function of heart rate monitoring. The utility model is characterized in that the utility model is provided with a heart rate detection module, a wireless launching module and a wireless receiving module based in the current mobile phone; wherein, the heart rate detection module comprises a heart rate sensor and a signal amplifying circuit; the heart rate sensor is positioned closing to the chest, and the output of the sensor is connected with the wireless launching module through the signal amplifying circuit; and the wireless receiving module is connected with the receiving circuit of the mobile phone. The utility model is added a heart rate monitoring and the heart rate sensor placing close to the chest to detect the beating rate of the heart of the cardiac patient; the beating condition of the heart is then converted into the electrical pulse signal, and the signal is delivered to the wireless launching module to be sent out; the wireless receiving module then receives the signal and enlarges, detects and decodes the signal; after that the signal is sent to process in the mobile phone; therefore, the phone can be automatically made when the heart is in abnormal condition, and the cardiac patient can be treated much quicker.

Description

Mobile phone with heart rate monitoring function

Affiliated technical field

The utility model provides a kind of mobile phone with heart rate monitoring function, belongs to the communicating terminal technical field.

Background technology

The mobile phone that each production firm produces on the current market, except that possessing communication function, also have wireless network, take pictures, miscellaneous function such as big capacity storage, its serviceability is all fairly perfect, but for unwell crowd, as the heart disease patient, when emergency takes place for he, in time send on the phone of appointment and given first aid to timely thereby just be difficult to utilize existing mobile phone will succour signal automatically.

The utility model content

The purpose of this utility model provides a kind ofly can remedy above-mentioned deficiency, can monitor the human heart rate and can send audio alert under abnormal conditions, also can dial the mobile phone with heart rate monitoring function of emergency phone automatically.Its technical scheme is:

On the basis of original mobile phone, set up heart rate detection module, wireless transmitter module and wireless receiving module, wherein the heart rate detection module comprises heart rate sensor and signal amplification circuit, wherein heart rate sensor pastes and is placed on human chest, its output connects wireless transmitter module through signal amplification circuit, the receiving circuit of wireless receiving module catcher machine.

Described mobile phone with heart rate monitoring function, signal amplification circuit comprises resistance R _1～5, capacitor C _1～4, triode VT ₁With with door F _1～5, wherein the output of heart rate sensor successively through the serial connection capacitor C ₁, and connect with door F ₁And resistance R ₁, capacitor C ₂, and connect with door F ₂And resistance R ₂, capacitor C ₃, and connect with door F ₃And resistance R ₃, capacitor C ₄, with the door F ₄, with the door F ₅, resistance R ₄Meet triode VT after the multistage amplification ₁Base stage, triode VT ₁Grounded emitter, its collector electrode is through resistance R ₅Meet power supply V _CCInput with wireless transmitter module.

Described mobile phone with heart rate monitoring function, wireless transmitter module comprises coding circuit and radio transmitter, wherein coding circuit comprises encoder CT ₁, triode VT ₂, resistance R _6～8, capacitor C _9～10, power supply E and K switch ₁, encoder CT wherein ₁Data terminal D ₁Connect the signal output part of signal amplification circuit, its data terminal D _2～4Corresponding to switch S S _2～4, power end V ₊, capacitor C ₉An end and triode VT ₂Collector electrode connect the positive pole of power supply E, the positive pole of power supply E is also through capacitor C ₁₀Ground connection, corresponding through switch S _1～8Meet encoder CT ₁Address end A _1～8, its negative pole is through K switch ₁With encoder CT ₁Control end G, capacitor C ₉Other end ground connection, encoder CT ₁Two compensation end RC between be serially connected with resistance R ₇, its oscillation output end CP ₁Through resistance R ₆Meet triode VT ₂Base stage, triode VT ₂Emitter connect radio transmitter, radio transmitter comprises tunable capacitor W ₁, capacitor C _5～8, high precision capacitor XT, triode VT ₃, resistance R ₉With inductance coil L _1～2, triode VT wherein ₃Base stage respectively through capacitor C ₅With inductance coil L ₁Meet triode VT in the coding circuit ₂Emitter, triode VT ₃Collector electrode and capacitor C _7～8An end, at inductance coil L ₁Two ends and be connected to tunable capacitor W ₁, at triode VT ₃Collector electrode and base stage between and be connected to resistance R ₉, triode VT ₃Collector electrode also through capacitor C ₆Antenna Y is penetrated in sending and receiving ₁, its emitter is respectively through high precision capacitor XT and inductance coil L ₂With capacitor C _7～8Other end ground connection.

Described mobile phone with heart rate monitoring function, wireless receiving module comprises decoding circuit and wireless receiving circuit, wherein wireless receiving circuit comprises triode VT _4～5, tunable capacitor W ₂, capacitor C _11～19, resistance R _10～17, inductance coil L _3～4, diode VD ₁With comparator C T ₂, reception antenna Y wherein ₂Respectively through and the inductance coil L that connects ₃With tunable capacitor W ₂Meet triode VT ₄Collector electrode, through the serial connection capacitor C _13～14Meet comparator C T ₂Negative power end, through resistance R ₁₃Meet power supply V _CC, through the serial connection resistance R ₁₄And capacitor C ₁₅Meet triode VT ₅Base stage, at triode VT ₄Collector electrode and emitter between and be connected to capacitor C ₁₁, triode VT ₄Emitter through inductance coil L ₄Connecting resistance R ₁₁With capacitor C ₁₂An end, resistance R ₁₁With capacitor C ₁₂Another meet comparator C T ₂Negative power end, triode VT ₄Base stage respectively through the serial connection resistance R ₁₀With diode VD ₁Meet comparator C T ₂Negative power end, through resistance R ₁₂Meet power supply V _CC, at triode VT ₅Base stage and collector electrode between and be connected to resistance R ₁₅, triode VT ₅Base stage through capacitor C ₁₆Meet comparator C T with its emitter ₂Negative power end, its collector electrode meets comparator C T respectively ₂In-phase input end, through resistance R ₁₆Meet power supply V _CC, through capacitor C ₁₇Meet comparator C T ₂Negative power end, through resistance R ₁₇Meet comparator C T ₂Inverting input, comparator C T ₂Inverting input also through capacitor C ₁₈Meet comparator C T ₂Negative power end, comparator C T ₂Positive supply termination power supply V _CC, decoder CT in its output termination decoding circuit ₃Vibration input CP ₂, decoder CT ₃Power end V ₊And address end A _1～8Meet power supply V _CC, its output CP ₁The signal input part of catcher machine.

The utility model compared with prior art, on the basis of original cell-phone function, increased human heart rate's monitoring function, heart rate sensor pastes the situation of beating that human chest detects heart constantly that is placed on, and convert beating of heart to electric impulse signal and send into coding circuit, launch by radiating circuit again, amplify after being received by the wireless receiving circuit in the mobile phone then, being sent to the decoding demodulation circuit after the detection decodes, the CPU that is sent to after the decoding in the mobile phone handles and shows on screen, can dial the emergency phone so automatically and report to the police when abnormal conditions appear in heart, be a big improvement in the expansion of mobile phone application function therefore.

Description of drawings

Fig. 1 is an operation principle block diagram of the present utility model;

Fig. 2 be the utility model wireless receiving module embodiment line map and with the winding diagram of mobile phone;

Fig. 3 is the line map of the utility model heart rate detection module, wireless transmitter module embodiment.

Embodiment

1, mobile phone 2, heart rate sensor 3, signal amplification circuit 4, coding circuit 5, radio transmitter 6, wireless receiving circuit 7, decoding circuit

In the embodiment shown in Fig. 1～3: heart rate sensor 2 pastes and is placed on human chest, and its output is the capacitor C through being connected in series successively ₁, and connect with door F ₁And resistance R ₁, capacitor C ₂, and connect with door F ₂And resistance R ₂, capacitor C ₃, and connect with door F ₃And resistance R ₃, capacitor C ₄, with the door F ₄, with the door F ₅, resistance R ₄Meet triode VT after the multistage amplification ₁Base stage, triode VT ₁Grounded emitter, its collector electrode is through resistance R ₅Meet power supply V _CCInput D with coding circuit 4 ₁, the heartbeat conversion of signals that records is become electric impulse signal, send into encoder CT in the coding circuit 4 ₁Data terminal D ₁, encoder CT ₁Data terminal D _2～4Corresponding to switch S S _2～4, power end V ₊, capacitor C ₉An end and triode VT ₂Collector electrode connect the positive pole of power supply E, the positive pole of power supply E is also through capacitor C ₁₀Ground connection, corresponding through switch S _1～8Meet encoder CT ₁Address end A _1～8, its negative pole is through K switch ₁With encoder CT ₁Control end G, capacitor C ₉Other end ground connection, provide working power by power supply E for coding circuit 4, encoder CT ₁Two compensation end RC between be serially connected with resistance R ₇, its oscillation output end CP ₁Through resistance R ₆Meet triode VT ₂Base stage, triode VT ₂Emitter connect the input of radio transmitter 5, code signal is outputed to radio transmitter 5.Triode VT in the radio transmitter 5 ₃Base stage respectively through capacitor C ₅With inductance coil L ₁Meet triode VT in the coding circuit ₂Emitter, triode VT ₃Collector electrode and capacitor C _7～8An end, at inductance coil L ₁Two ends and be connected to tunable capacitor W ₁, at triode VT ₃Collector electrode and base stage between and be connected to resistance R ₉, triode VT ₃Collector electrode also through capacitor C ₆Antenna Y is penetrated in sending and receiving ₁, its emitter is respectively through high precision capacitor XT and inductance coil L ₂With capacitor C _7～8Other end ground connection.The signal of being launched by radio transmitter 5 is by the reception antenna Y in the wireless receiving circuit 6 ₂Receive reception antenna Y ₂Respectively through and the inductance coil L that connects ₃With tunable capacitor W ₂Meet triode VT ₄Collector electrode, through the serial connection capacitor C _13～14Meet comparator C T ₂Negative power end, through resistance R ₁₃Meet power supply V _CC, through the serial connection resistance R ₁₄And capacitor C ₁₅Meet triode V _T5Base stage, at triode VT ₄Collector electrode and emitter between and be connected to capacitor C ₁₁, triode VT ₄Emitter through inductance coil L ₄Connecting resistance R ₁₁With capacitor C ₁₂An end, resistance R ₁₁With capacitor C ₁₂Another meet comparator C T ₂Negative power end, triode VT ₄Base stage respectively through the serial connection resistance R ₁₀With diode VD ₁Meet comparator C T ₂Negative power end, through resistance R ₁₂Meet power supply V _CC, at triode VT ₅Base stage and collector electrode between and be connected to resistance R ₁₅, triode VT ₅Base stage through capacitor C ₁₆Meet comparator C T with its emitter ₂Negative power end, its collector electrode meets comparator C T respectively ₂In-phase input end, through resistance R ₁₆Meet power supply V _CC, through capacitor C ₁₇Meet comparator C T ₂Negative power end, through resistance R ₁₇Meet comparator C T ₂Inverting input, comparator C T ₂Inverting input also through capacitor C ₁₈Meet comparator C T ₂Negative power end, comparator C T ₂Positive supply termination power supply V _CC, its output termination decoder CT ₃Vibration input CP ₂, decoder CT ₃Power end V ₊And address end A _1～8Meet power supply V _CC, its output CP ₁The signal input part of catcher machine.Be that the heartbeat electric impulse signal that wireless transmitter module sends is received by the wireless receiving circuit in the mobile phone 16, it amplified, be sent to decoding circuit 7 after the detection, after the decoding again by decoder CT ₃Output CP ₁The CPU that signal is sent in the mobile phone 1 handles and shows on screen, can dial the emergency phone automatically and report to the police when abnormal conditions appear in heart.

Claims (4)

1, a kind of mobile phone with heart rate monitoring function, it is characterized in that: on the basis of original mobile phone (1), set up heart rate detection module, wireless transmitter module and wireless receiving module, wherein the heart rate detection module comprises heart rate sensor (2) and signal amplification circuit (3), wherein heart rate sensor (2) pastes and is placed on human chest, its output connects wireless transmitter module through signal amplification circuit (3), the receiving circuit of wireless receiving module catcher machine (1).

2, the mobile phone with heart rate monitoring function as claimed in claim 1 is characterized in that: signal amplification circuit (3) comprises resistance R _1～5, capacitor C _1～4, triode VT ₁With with door F _1～5, wherein the output of heart rate sensor (2) successively through the serial connection capacitor C ₁, and connect with door F ₁And resistance R ₁, capacitor C ₂, and connect with door F ₂And resistance R ₂, capacitor C ₃, and connect with door F ₃And resistance R ₃, capacitor C ₄, with the door F ₄, with the door F ₅, resistance R ₄Meet triode VT after the multistage amplification ₁Base stage, triode VT ₁Grounded emitter, its collector electrode is through resistance R ₅Meet power supply V _CCInput with wireless transmitter module.

3, the mobile phone with heart rate monitoring function as claimed in claim 1 is characterized in that: wireless transmitter module comprises coding circuit (4) and radio transmitter (5), and wherein coding circuit (4) comprises encoder CT ₁, triode VT ₂, resistance R _6～8, capacitor C _9～10, power supply E and K switch ₁, encoder CT wherein ₁Data terminal D ₁Connect the signal output part of signal amplification circuit, its data terminal D _2～4Corresponding to switch S S _2～4, power end V ₊, capacitor C ₉An end and triode VT ₂Collector electrode connect the positive pole of power supply E, the positive pole of power supply E is also through capacitor C ₁₀Ground connection, corresponding through switch S _1～8Meet encoder CT ₁Address end A _1～8, its negative pole is through K switch ₁With encoder CT ₁Control end G, capacitor C ₉Other end ground connection, encoder CT ₁Two compensation end RC between be serially connected with resistance R ₇, its oscillation output end CP ₁Through resistance R ₆Meet triode VT ₂Base stage, triode VT ₂Emitter connect radio transmitter (5), radio transmitter (5) comprises tunable capacitor W ₁, capacitor C _5～8, high precision capacitor XT, triode VT ₃, resistance R ₉With inductance coil L _1～2, triode VT wherein ₃Base stage respectively through capacitor C ₅With inductance coil L ₁Meet triode VT in the coding circuit ₂Emitter, triode VT ₃Collector electrode and capacitor C _7～8An end, at inductance coil L ₁Two ends and be connected to tunable capacitor W ₁, at triode VT ₃Collector electrode and base stage between and be connected to resistance R ₉, triode VT ₃Collector electrode also through capacitor C ₆Antenna Y is penetrated in sending and receiving ₁, its emitter is respectively through high precision capacitor XT and inductance coil L ₂With capacitor C _7～8Other end ground connection.

4, the mobile phone with heart rate monitoring function as claimed in claim 1 is characterized in that: wireless receiving module comprises decoding circuit (7) and wireless receiving circuit (6), and wherein wireless receiving circuit (6) comprises triode VT _4～5, tunable capacitor W ₂, capacitor C _11～19, resistance R _10～17, inductance coil L _3～4, diode VD ₁With comparator C T ₂, reception antenna Y wherein ₂Respectively through and the inductance coil L that connects ₃With tunable capacitor W ₂Meet triode VT ₄Collector electrode, through the serial connection capacitor C _13～14Meet comparator C T ₂Negative power end, through resistance R ₁₃Meet power supply V _CC, through the serial connection resistance R ₁₄And capacitor C ₁₅Meet triode VT ₅Base stage, at triode VT ₄Collector electrode and emitter between and be connected to capacitor C ₁₁, triode VT ₄Emitter through inductance coil L ₄Connecting resistance R ₁₁With capacitor C ₁₂An end, resistance R ₁₁With capacitor C ₁₂Another meet comparator C T ₂Negative power end, triode VT ₄Base stage respectively through the serial connection resistance R ₁₀With diode VD ₁Meet comparator C T ₂Negative power end, through resistance R ₁₂Meet power supply V _CC, at triode VT ₅Base stage and collector electrode between and be connected to resistance R ₁₅, triode VT ₅Base stage through capacitor C ₁₆Meet comparator C T with its emitter ₂Negative power end, its collector electrode meets comparator C T respectively ₂In-phase input end, through resistance R ₁₆Meet power supply V _CC, through capacitor C ₁₇Meet comparator C T ₂Negative power end, through resistance R ₁₇Meet comparator C T ₂Inverting input, comparator C T ₂Inverting input also through capacitor C ₁₈Meet comparator C T ₂Negative power end, comparator C T ₂Positive supply termination power supply V _CC, decoder CT in its output termination decoding circuit (7) ₃Vibration input CP ₂, decoder CT ₃Power end V ₊And address end A _1～8Meet power supply V _CC, its output CP ₁The signal input part of catcher machine (1).

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