CN1072468C - Electronic pacing shoes with transmitter-receiver - Google Patents

Abstract

The present invention relates to a pair of pacing shoes. Each shoe comprises a shoe body, a fluid bag, a pressure sensor, a temperature compensator, a transmitting circuit and a receiving circuit, wherein a shoe sole has holding space for holding the fluid bag and the transmitting circuit; the fluid bag is fully filled with fluid; the pressure sensor is communicated with the fluid for sensing the pressure of the fluid so as to generate a pressure voltage signal; the temperature compensator is communicated with the fluid for sensing the temperature of the fluid so as to generate a temperature voltage signal; the transmitting circuit is electrically connected with the pressure sensor and the temperature compensator for receiving the pressure voltage signal and the temperature voltage signal which are converted into numerical values and then are transmitted as a radio signal; the receiving circuit and the transmitting circuit are separately arranged to receive the radio signal transmitted from the transmitting circuit for control and display by demodulation and decoding.

Description

Electronic pacing shoes with transmitter-receiver

The present invention relates to a kind of pedometer shoes, particularly relate to a kind of electronic pacing shoes with transmitter-receiver with the body weight measured, meter step and summary calory count that reckoning consumes of radiating circuit and receiving circuit.

The general measure body weight need be used batheroom scale, but batheroom scale is carried inconvenience, so the body weight value can't be measured at any time; The function in meter step then need be used pedometer, during the stroll motion, may forget the band pedometer, to such an extent as to can't count the step.

During overweight; the fat of accumulation is too many in the expression body; the caloric heat that is accumulation in the body is too many; therefore doctor regular meeting informs how many caloric heats the patient need consume every day; inform according to medical circles; as slowly walking, speed is for per hour 4 kilometers the time, and per hour per kilogram of body weight consumes 2.0 caloric heats approximately.As power-walking, speed is for per hour 6.4 kilometers the time, and per hour per kilogram of body weight consumes 3.4 caloric heats approximately.Walk as anxious walking, speed is for per hour 8.5 kilometers the time, and then per hour per kilogram of body weight consumes 9.3 caloric heats approximately.Data are observed doctor's instrucion and are exercised in view of the above, with maintaining healthy, but will calculate these data, and then non-general sports equipment can reach.

Pedometer commonly used need hang on user's the health, before the user is moved with pick and place very inconveniently after the motion, in addition, may cause miscount because of vibration when walking.

The inventor applies for " the electronics weight footwear " of No. the 84216806th, novel patent in Taiwan, by novel patent authorization, and obtain novel patent.

The object of the invention is to overcome the defective of above-mentioned measurement body weight and pedometer, and a kind of electronic pacing shoes with transmitter-receiver is provided, and this pedometer shoes itself has the function of measuring body weight, meter step and calculating the calory count that is consumed concurrently.

Another object of the present invention is to provide a kind of electronic pacing shoes with transmitter-receiver, the separative receiving circuit of this footwear can receive the signal from the pedometer shoes radiating circuit, observes in order to the user and reads the numerical value of its measurement.

Electronic pacing shoes with transmitter-receiver provided by the invention comprises a footwear body, a fluid cell, a pressure sensor, a temperature compensator, a radiating circuit and a receiving circuit.

The footwear body is general footwear body, and footwear body kind can be children's footwear, Men's Shoes, women's shoes, leather shoes, sport footwear or the like, and the footwear body has a vamp and a sole, and sole has an accommodation space; Left side footwear or right footwear can certainly be that a pair of shoes (left footwear and right footwear) is electronic pacing shoes with transmitter-receiver.

Fluid cell places the accommodation space of sole, and fluid cell is full of liquid, and liquid can be gas (for example air, nitrogen), liquid (for example water or oil) or silica gel or the like.The accommodation space of sole can have suitable ribs or compartment, to strengthen footwear sole construction, to cooperate the ccontaining of fluid cell and location fluid cell, is filled with gas or liquid in the fluid cell.The shape of fluid cell can be Any shape, also can be divided into a plurality of fluid chamber, and each fluid chamber is interconnected.

Pressure sensor contacts with the pressure of senses flow kinetoplast with the liquid of fluid cell, and produces a pressure voltage signal.

Temperature compensator can place in the fluid cell, communicates with liquid, also can place pressure sensor one side or be affixed on pressure sensor, with the temperature of senses flow kinetoplast, and produces a temperature voltage signal.When the present invention utilizes the fixed volume of liquid in the fluid cell to bear pressure, because of Volume Changes draws sensing value, but the liquid in fluid cell, when producing cold shrinkage and thermal expansion because of variations in temperature, the fixed volume of the interior liquid of fluid cell this moment itself has produced error, and therefore the value of measuring has error surely, so need a temperature compensator, temperature value is revised, so the liquid in the fluid cell, to be subjected to the influence of temperature change smaller for good.

Radiating circuit is arranged at the accommodation space of sole, be electrically connected pressure sensor and temperature compensator, and after pressure voltage signal that it can be transmitted and the amplification of temperature voltage signal, convert a frenquency signal to and get a numerical value via counting, again this numerical value is launched with radio signals.

Receiving circuit separates setting with radiating circuit, and receiving circuit can receive the radio signals from radiating circuit, and with after the radio signals demodulation of receiving, amplifying, demonstrates the numerical value that radiating circuit transmits again.Receiving circuit can lie in wrist in the wrist-watch mode, or wears in neck in the necklace mode.

Electronic pacing shoes with transmitter-receiver of the present invention with cooperating of pressure sensor and temperature compensator, and can record the suffered force value of footwear body, pressurized number of times, and then calculate the calory count that the user consumes; Launch by radiating circuit again, receive and show, can reach body weight, the step number of walking and the calory count that is consumed etc. of measuring the user by receiving circuit.

Further describe the present invention below in conjunction with accompanying drawing.

Fig. 1: be the decomposition texture schematic diagram of first embodiment of the invention.

Fig. 2: the generalized section that is socketed on the fluid cell outlet for the connector of first embodiment of the invention.

Fig. 3: be the structural representation of first embodiment of the invention.

Fig. 4: the schematic diagram that combines with connector for the fluid cell of second embodiment of the invention.

Fig. 5: the schematic appearance that is set to a wrist-watch for receiving circuit of the present invention.

Fig. 6: be the circuit diagram of radiating circuit of the present invention.

Fig. 7: be the circuit diagram of receiving circuit of the present invention.

Fig. 8: be the reception control circuit circuit diagram of receiving circuit of the present invention.

The figure number explanation:

Footwear body 10 vamps 11 soles 12

Fluid chamber 21 before accommodation space 13 fluid cell 20

23 outlets 24 of 22 back fluid chamber of middle fluid chamber

Barrier film 25 valves 26 connectors 30

Through hole 31 outstanding thorn 32 radiating circuits 40

First power circuit, 41 first batteries, 42 first switches 43

Protecting component 44 pressure sensors 45 first amplifying circuits 46

Amplifier 47 is adjusted multiplying power element 48 RZ elements 49

Temperature compensator 50 change-over circuits 51 converters 52

First micro-control circuit, 53 first microcontrollers, 54 radio transmitter circuits 55

Modulator 56 first resonance circuits 57 transmitting antennas 58

Frequency-modulation element 59 receiving circuits 70 second source circuit 71

Second battery, 72 second switches, 73 protecting components 74

Filter noise element 75 signal receiving circuits 76 reception antennas 77

Second resonance circuit, 78 second amplifying circuits, 79 detecting circuits 80

Reception control circuit 81 second microcontrollers 82 buzzers 83

Function control circuit 84 control buttons 85 liquid crystal display circuits 86

LCD driver 87 LCDs 88 wrist-watches 90

Amplifier A1～A4 fixed capacity C1～C32 variable capacitance C33～C41

Germanium diode D1～D2 IC I1～I4 inductance L 1～L8

Electric crystal Q1～Q5 resistance R 1～R42 variable resistor R43～R44

Crystal S1～S2

The detailed description of preferred embodiment:

See also Fig. 1, electronic pacing shoes with transmitter-receiver of the present invention comprises a footwear body 10, a fluid cell 20, a pressure sensor 45 (not showing among Fig. 1), a temperature compensator 50 (Fig. 1 does not show), a radiating circuit 40 and a receiving circuit 70 (not showing among Fig. 1).

Footwear body 10 has a vamp 11 and a sole 12, and fluid cell 20, pressure sensor 45, temperature compensator 50 and radiating circuit 40 all place the accommodation space 13 of sole 12.

See also Fig. 2 and Fig. 3, fluid cell 20 is divided into before one a fluid chamber 22 and a back fluid chamber 23 in the fluid chamber 21, among first embodiment, and each fluid chamber is interconnected, and fluid cell 20 has one to export 24 and be arranged in fluid chamber 22, and this outlet 24 has a barrier film 25.

Among first embodiment, pressure sensor 45 is incorporated into a connector 30 with temperature compensator 50, this connector 30 has a through hole 31 and an outstanding thorn 32, because connector 30 closely is socketed on fluid cell 20, when connector 30 is socketed on the outlet 24 of fluid cell 20, the outstanding thorn 32 of connector 30 can be connected the liquid 26 of fluid cell 20 via the through hole 31 of connector 30 for the barrier film 25 that punctures outlet 24 with pressure sensor 45 and temperature compensator 50.

Because of fluid cell 20 is arranged at the accommodation space 13 of sole 12, when the user wore shoes, health gravity fell within on this fluid cell 20, and connected pressure sensor 45 just senses fluid cell 20 pressurized situations, and then can get a pressure voltage signal; Simultaneous temperature compensator 50 also senses the temperature of liquid in the fluid cell 20, and obtains a temperature voltage signal.

See also Fig. 6, radiating circuit 40 of the present invention comprises one first power circuit 41, one first amplifying circuit 46, a change-over circuit 51, one first micro-control circuit 53 and a radio transmitter circuit 55.

In first embodiment, first power circuit 41 comprises two first batteries 42, one first switch 43, a protecting component 44.First battery 42 is in series (also can be replaced by mercury battery or lithium battery) by two 1.5 volts dc-battery, can provide radiating circuit 40 required power supply; The open and close of first switch, 43 controls, first power circuit 41 can be in not using the time to economize electric power; Protecting component 44 is a germanium diode D1, can prevent that adorning the circuit that causes inverse time when the polarity of first battery 42 damages.

First amplifying circuit 46 among first embodiment comprises three amplifiers 47, an adjustment multiplying power element 48 and a RZ element 49.Pressure sensor 45 is electrically connected on first amplifying circuit 46 with temperature compensator 50, amplifier 47 is the OP operational amplifier of model TLO74N, pressure voltage signal and the temperature voltage signal that is transmitted by pressure sensor 45 and temperature compensator 50 can be amplified (250 times), reach change-over circuit 51 again.And wherein control is amplified the voltage multiplying power by adjusting 48 controls of multiplying power element; In addition, make zero, realize with RZ element 49 among first embodiment for making the pressure voltage signal when the user is lifted away from ground with footwear body 10.

Change-over circuit 51 comprises a converter 52 at least.Change-over circuit 51 receives by first amplifying circuit 46 and transmits pressure voltage signal and temperature voltage signal after the amplification, and these pressure, temperature voltage signal are converted to a frenquency signal by converter 52, reaches first micro-control circuit 53 again.It is the V-F converter of XP-4151 that converter 52 among first embodiment adopts model.

First micro-control circuit 53 comprises one first microcontroller 54.First micro-control circuit 53 can with the frenquency signal that transmits through counting and a numerical value, the data content of this numerical value includes the consumption calory count that pressure sensor 45 cooperates measured a force value, a pressurized number of times and a summary of temperature compensator 50; Again this numerical value is reached radio transmitter circuit 55.First microcontroller, 54 models among first embodiment are PIC12C508.

And obtain the source of the numerical value such as consumption calory count of force value recited above, pressurized number of times and summary, as described below:

(1) force value via the numerical value that first microcontroller 54 counts out, can record user's body weight by the pressure voltage signal of pressure sensor 45 pressurizeds institute sensing; But when closing the power supply of radiating circuit 40, this force value of will resetting.

(2) pressurized number of times, first microcontroller, 54 inner settings, one a reference value, when pressure sensor 45 sensings were learnt the pressure voltage signal less than this a reference value, the expression user made footwear body 10 be lifted away from ground; And when 45 sensings of pressure sensor learnt that the pressure voltage signal surpasses this a reference value, the expression user made footwear body 10 be pressed on ground; Every circulation primary first microcontroller 54 like this will add one, calculate pressurized number of times altogether with this, to reach the function in step.

(3) calory count of Xiao Haoing, by the product of force value and pressurized number of times, again this product be multiply by a constant and a calory count that consumes.

Radio transmitter circuit 55 comprises a modulator 56, one first resonance circuit 57, a transmitting antenna 58 and frequency-modulation element 59.Modulator 56 can be tuned as the numerical value that transmits AM (amplitude modulation) frequency, launches via transmitting antenna 58 with low-energy hyperfrequency radio signals via first resonance circuit 57 of high frequency LC again.Wherein, the frequency-modulation element 59 that is used for adjusting radio transmission frequencies among first embodiment is realized by a variable condenser C41.

See also Fig. 7 and Fig. 8, receiving circuit 70 comprises a second source circuit 71, a signal receiving circuit 76, one second amplifying circuit 79, a detecting circuit 80 and a reception control circuit 81 among first embodiment.

Second source circuit 71 comprises two second batteries 72, a second switch 73, a protecting component 74 and plural filter noise element 75.Second battery 72 is in series (also can be replaced by mercury battery or lithium battery) by two 1.5 volts dc-battery, can provide receiving circuit 70 required power supply; The open and close of second switch 73 control second source circuit 71 can be in not using the time to economize electric power; Protecting component 74 is a germanium diode D2, can prevent that adorning the circuit that causes inverse time when the polarity of second battery 72 damages.

Signal receiving circuit 76 can receive the radio signals from radiating circuit 40, and signal receiving circuit 76 comprises a filter noise element 75, a reception antenna 77 and one second resonance circuit 78.Reception antenna 77 can receive radio signals, reaches the tuner of second resonance circuit, 78, the second resonance circuits 78 for being made of LC resonance again, can filter out the frequency of the radio signals of being launched by radiating circuit 40, reaches second amplifying circuit 79 again.Wherein, for filtering the radio signals that received, avoid being interfered and misoperation, among first embodiment, this filter noise element 75 adopts a pair of inductance L 3, L4.

Second amplifying circuit 79 is for mainly by electric crystal Q2, Q3, the high frequency string utmost point amplifying circuit that Q4 formed, can be with receive and filter back radio signals amplification, reach detecting circuit 80 again and carry out detection, and the potential change that is produced when obtaining receiving radio signals and confiscating radio signals reaches reception control circuit 81 again.

Reception control circuit 81 comprises one second microcontroller 82, a function control circuit 84 and a liquid crystal display circuit 86.Second microcontroller 82 can be decoded to the signal that is transmitted by detecting circuit 80, and obtain the numerical value launched by radiating circuit 40, after receiving the numerical value that transmits, the user can be by control function control circuit 84, select desired data, in first embodiment, this function control circuit 84 has three control buttons 85, and these control buttons 85 can be specified three kinds of output signals such as consumption calory count of force value, pressurized number of times and summary that output transmitted by radiating circuit 40 respectively.The data of these numerical value (i.e. three kinds of output signals) is shown that by liquid crystal display circuit 86 this liquid crystal display circuit 86 comprises a LCD driver 87 and a LCD 88 again; LCD driver 87 can receive the appointment output signal that transmits, and demonstrates desired data and drive LCD 88.It is the IC of PIC16C54 that second microcontroller 83 among first embodiment adopts model.

For convenient user at any time in closely reading the received numerical value of receiving circuit 70, in first embodiment, receiving circuit 70 is arranged on the wrist-watch 90, see also Fig. 5.

In addition, the reception control circuit 81 among first embodiment can comprise a buzzer 83 again, and this buzzer 83 is a condenser type piezoelectric buzzer, is electrically connected on second microcontroller 82; And second microcontroller 82 can preestablish a preset value by the user, equals preset value as the calory count of pressurized number of times or consumption; When second microcontroller 82 received that the numerical value that is transmitted by radiating circuit 40 equals or exceeds this preset value, the buzzer that promptly moves was informed the user.

The second embodiment of the present invention sees also Fig. 4, and the structure of second embodiment is all identical with first embodiment with manner of execution; Have only, fluid cell 20 has a connector 30, pressure sensor 45 is incorporated into this connector 30 with temperature compensator 50, and its combination changes heat fused or gummed mode into, be: in second embodiment, fluid cell 20 and connector 30 can integral manufacturings and the shape of its form fit sole and being moulded; Pressure sensor 45 is combined closely in connector 30 with temperature compensator 50, and for making things convenient for the pressure and the temperature of senses flow somatocyst 20 inner fluids, pressure sensor 45 all exposes within the fluid cell 20 with the sensing position, top of temperature compensator 50, contacts with fluid; Among second embodiment, connector 30 is identical material with the outer rim of pressure sensor 45 and the outer rim of temperature compensator 50, so can be with heat fused or gummed mode together with connector 30 and pressure sensor 45 and temperature compensator 50, so, make the pressure sensor 45 and the sensing position, top of temperature compensator 50 all insert the inboard of fluid cell 20, pour into fluid by valve 26 places of fluid cell 20 again and enter fluid cell 20 inside, and the valve 26 of sealing fluid capsule 20, in case fluid leaks.

Everyone goes out or will wear shoes when moving, and when wearing electronic pacing shoes with transmitter-receiver of the present invention, does not use other instruments, just can do the meter step at any time, weighs sb. and show the summary calory count that motion is so far consumed.Seize every minute and second at this and to grasp the epoch of information at any time, real is that the modern is gentle and graceful, the best sharp weapon of body-building.The numerical value that the present invention can be measured with shoes is sent to receiving circuit in addition, and modes such as receiving circuit can wrist-watch (bracelet), necklace are provided with, and the numerical value that more convenient user's observed quantity measures is rather convenient and practical.

Claims (7)

1. electronic pacing shoes with transmitter-receiver is characterized in that these stitching footwear comprise:

One footwear body has a vamp and a sole, and sole has an accommodation space;

One fluid cell places the accommodation space of sole, and fluid cell is full of liquid;

One pressure sensor contacts with liquid, with the pressure of senses flow kinetoplast, and produces a pressure voltage signal;

One temperature compensator communicates with liquid, with the temperature of senses flow kinetoplast, and produces a temperature voltage signal;

One radiating circuit places the accommodation space of sole, comprises one first power circuit, one first amplifying circuit, a change-over circuit, one first micro-control circuit and a radio transmitter circuit; First power circuit provides radiating circuit required power supply, first amplifying circuit is electrically connected pressure sensor and this temperature compensator, and after pressure voltage signal that it can be transmitted and the amplification of temperature voltage signal, reaching change-over circuit is converted to a frenquency signal and reaches first micro-control circuit again, through the counting of first micro-control circuit and a numerical value, be tuned as radio signals by radio transmitter circuit again and launch;

One receiving circuit separates setting with radiating circuit, comprises a second source, a signal receiving circuit, one second amplifying circuit, a detecting circuit and a reception control circuit; Second source provides receiving circuit required power supply, the signal receiving circuit can receive the radio signals from radiating circuit, and with after the radio signals demodulation of receiving, reaching second amplifying circuit amplifies, and after the detecting circuit detection, reach reception control circuit again, decode, control and demonstrate the numerical value that transmits by radiating circuit by reception control circuit; And

Described reception control circuit comprises one second micro-control circuit, a buzzer, a function control circuit and a liquid crystal display circuit, and liquid crystal display circuit comprises a LCD driver and a LCD; Described liquid crystal display circuit changes according to the state of function control circuit via the display mode of LCD; Wherein display mode is one when surveying the force value display mode of body weight, the numerical value that the pressure valve display mode is counted out via first microcontroller for the pressure voltage signal by pressure sensor pressurized institute sensing; Display mode is one during as the pressurized number of times display mode in meter step, this pressurized number of times display mode be by the numerical value that first microcontroller calculates rise and the decline degree for once, cumulative frequency like this; Display mode be one consume the calory count display mode time, the calory count display mode of this consumption be the product by force value and pressurized number of times, again this product be multiply by a constant and must the consumption calory count.

2. by the described electronic pacing shoes with transmitter-receiver of claim 1, it is characterized in that described first power circuit and second source circuit respectively are respectively equipped with one first switch and a second switch.

3. by the described electronic pacing shoes with transmitter-receiver of claim 1, it is characterized in that described first power circuit and second source circuit respectively are respectively equipped with a protecting component, these protecting components are germanium diode.

4. by the described electronic pacing shoes with transmitter-receiver of claim 1, it is characterized in that described first amplifying circuit comprises amplifier, an adjustment multiplying power element and a RZ element of plural number.

5. by the described electronic pacing shoes with transmitter-receiver of claim 1, it is characterized in that described change-over circuit comprises a converter at least, first micro-control circuit comprises one first microcontroller at least.

6. by the described electronic pacing shoes with transmitter-receiver of claim 1, it is characterized in that described radio transmitter circuit comprises a modulator, one first resonance circuit, a transmitting antenna and a frequency-modulation element.

7. by the described electronic pacing shoes with transmitter-receiver of claim 1, it is characterized in that described signal receiving circuit comprises filter noise element, a reception antenna, one second resonance circuit, one second amplifying circuit and a detecting circuit of plural number.

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