CN209610026U - A kind of nano-meter far infrared health insoles and the shoes using the insole - Google Patents

Abstract

The utility model discloses a kind of nano-meter far infrared health insoles and use the shoes of the insole, the insole includes insole body, nano-far-infrared ceramic heating plate, temperature sensor, controller and battery, nano-far-infrared ceramic heating plate is installed in the Yongquan acupoint position on insole body and corresponding to human foot, controller includes circuit board, circuit board is equipped with charging circuit and constant temperature control circuit, nano-far-infrared ceramic heating plate, temperature sensor and charging circuit are electrically connected with constant temperature control circuit respectively, temperature sensor is mounted on nano-far-infrared ceramic heating on piece, charging circuit is electrically connected with the charging connector of battery and installing on circuit boards respectively.The good health care effect of the utility model, low-voltage, use is safe, zero magnetic field, and the thermal efficiency and emissivity are high, can be realized constant temperature warming, has anti-freezing and heat-insulating healthcare function.

Description

A kind of nano-meter far infrared health insoles and the shoes using the insole

Technical field

The utility model relates to footwear technical fields, are to be related to a kind of nano-meter far infrared health insoles more specifically And the shoes using the insole.

Background technique

Human Sole has many acupuncture points, such as Yongquan acupoint, in human health-preserving, diseases prevention, cures the disease, the various aspects such as health care It plays an important role.And far infrared can cause the atom and molecular resonance of human body cell after penetrating into human body (i.e. light moxibustion), and Make the Marjoram Extract of human body, and then reach activation histocyte, accelerate blood circulation, prevent histocyte aging, reinforces people The purpose of the immune system of body.

Currently, common health insoles mainly have Chinese medicine dipping insole, Magnetotherapeutic insole, scented shoe-pad etc. in the market, still Its health effect is unsatisfactory, it is therefore necessary to by far infrared technical application into insole.

Utility model content

The purpose of the utility model is to overcome drawbacks described above in the prior art, a kind of good health care effect, low electricity are provided Pressure, using safe, zero magnetic field, the thermal efficiency and emissivity it is high, can constant temperature warming, the nanometer with anti-freezing and heat-insulating healthcare function it is remote Infrared ray health insoles and the shoes for using the insole.

To achieve the above object, the first aspect of the utility model provides a kind of nano-meter far infrared health insoles, packet Include insole body, nano-far-infrared ceramic heating plate, temperature sensor, controller and battery, the nano-far-infrared ceramics Fever tablet is installed in the Yongquan acupoint position on insole body and corresponding to human foot, and the controller includes circuit board, described Circuit board is equipped with charging circuit and constant temperature control circuit, the nano-far-infrared ceramic heating plate, temperature sensor and charging Circuit is electrically connected with constant temperature control circuit respectively, and the temperature sensor is mounted on nano-far-infrared ceramic heating on piece, described Charging circuit is electrically connected with the charging connector of battery and installing on circuit boards respectively.

As preferred embodiment, the constant temperature control circuit include thermostatic control chip U1, resistance R5, capacitor C5, The 1st pin connection battery of resistance R7, resistance R8, metal-oxide-semiconductor Q1 and capacitor C4, the thermostatic control chip U1, the constant temperature The 13rd pin of control chip U1 is connected with one end of resistance R5, capacitor C5 and temperature sensor respectively, the resistance R5's The other end of the 11st pin of other end connection thermostatic control chip U1, the capacitor C5 and temperature sensor is grounded respectively, institute The one end for stating resistance R7 is connected with the 5th pin of thermostatic control chip U1, and the other end of the resistance R7 is separately connected metal-oxide-semiconductor The grid of Q1 and one end of resistance R8, the source electrode of the metal-oxide-semiconductor Q1 and the other end of resistance R8 are grounded respectively, the capacitor C4 and The drain electrode of one end connection metal-oxide-semiconductor Q1 of nano-far-infrared ceramic heating plate, the capacitor C4 and nano-far-infrared ceramic heating plate The other end connect battery.

As preferred embodiment, the charging circuit includes charging chip U2, resistance R0, resistance R1, resistance R2, electricity It hinders R3, resistance R4, switch K and capacitor C1, the resistance R2 and is connected on the 1st pin and thermostatic control chip U1 of charging chip U2 The 3rd pin between, the switch K be connected on charging chip U2 the 2nd pin and thermostatic control chip U1 the 2nd pin it Between, the 2nd pin of the charging chip U2 is grounded, and the 1st of the 3rd pin connection thermostatic control chip U1 of the charging chip U2 the 4th pin of pin and battery, the charging chip U2 is separately connected one end of resistance R0, resistance R3 and capacitor C1, described The other end of resistance R0 connects charging connector, and the 4th pin of the other end connection thermostatic control chip U1 of the resistance R3 is described The other end of capacitor C1 is grounded, and the 4th pin of one end connection thermostatic control chip U1 of the resistance R4, the resistance R4's is another One end ground connection, the 5th pin of one end connection charging chip U2 of the resistance R1, one end ground connection of the resistance R1.

As preferred embodiment, the charging circuit is set as 5V charging circuit, and the battery is 3.7V electric power storage Pond, the charging connector are set as USB charging connector.

As preferred embodiment, the controller further includes controller housing, and the circuit board is installed in controller The inside of shell.

As preferred embodiment, the buffer protection set made of plastic material, institute are installed on the insole body It states nano-far-infrared ceramic heating plate and temperature sensor is installed in the inside of buffer protection set.

As preferred embodiment, the battery is arranged in the rear heel position of insole body.

As preferred embodiment, the heating temperature of the nano-far-infrared ceramic heating plate is 40 DEG C~50 DEG C.

As preferred embodiment, the far infrared wavelength that the nano-far-infrared ceramic heating plate issues is 4 μm~ 16μm。

The second aspect of the utility model provides a kind of shoes, including shoes body, and the inside of the shoes body is installed with State nano-meter far infrared health insoles described in technical solution.

Compared with prior art, the utility model has the beneficial effects that:

The nano-far-infrared ceramic heating plate of the utility model can to launch nanometer remote the Yongquan acupoint position to human foot Infrared ray enables human foot to enjoy the long-term physiotheraping effect of far infrared, to improve the microcirculqtory system of human body, promotes human body Metabolism, increase cell viability, improve immune function of human body, prevent and treat various diseases, and carry out anti-inflammation detumescence sterilizing etc., together When nano-far-infrared ceramic heating plate can constant temperature warming, there is the performance of good anti-freezing and heat-insulating in arctic weather, this is practical Novel good health care effect, low-voltage, use is safe, zero magnetic field, and the thermal efficiency and emissivity are high, has anti-freezing and heat-insulating health care function Energy.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is this Some embodiments of utility model, for those of ordinary skill in the art, without creative efforts, also Other drawings may be obtained according to these drawings without any creative labor.

Fig. 1 be nano-meter far infrared health insoles provided by the embodiment of the utility model structural schematic diagram (circuit board from When being taken apart in controller shell body)；

Fig. 2 is the circuit block diagram of nano-meter far infrared health insoles provided by the embodiment of the utility model.

Fig. 3 is the circuit diagram of nano-meter far infrared health insoles provided by the embodiment of the utility model；

Fig. 4 is the working principle block diagram of nano-meter far infrared health insoles provided by the embodiment of the utility model.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

Embodiment one

Referring to FIG. 1, the embodiments of the present invention one provide a kind of nano-meter far infrared health insoles, the insole packet Including insole body 1, nano-far-infrared ceramic heating plate 2 (i.e. nano-far-infrared potsherd), temperature sensor 3, (i.e. temperature-sensitive is visited Head), controller 4 and battery 6, nano-far-infrared ceramic heating plate 2, controller 4 and battery 6 be respectively installed in insole body On 1, each component part of the present embodiment is described in detail with reference to the accompanying drawing.

In the present embodiment, insole body 1 can be using insole body made of any material.

Preferably, position of the nano-far-infrared ceramic heating plate 2 on insole body 1 corresponds to the Yongquan acupoint of human foot Position, naturally it is also possible to be arranged at the acupuncture point of human foot.In the present embodiment, the type of nano-far-infrared ceramic heating plate 2 Number/specification can be preferably 34MM.

As depicted in figs. 1 and 2, controller 4 includes controller housing 41 and circuit board 42, and circuit board 42 is installed in controller The inside of shell 41, circuit board 42 be equipped with charging circuit 44 and constant temperature control circuit 43, nano-far-infrared ceramic heating plate 2, Temperature sensor 3 and charging circuit 44 are electrically connected with constant temperature control circuit 43 respectively, and temperature sensor 3 is mounted on nano-far-infrared On ceramic heating plate 2, charging circuit 44 is electrically connected with battery 6 and the charging connector being installed on circuit board 42 5 respectively, charging Connector 5 is located at the aperture position of controller housing 41.

In the present embodiment, charging circuit 44 can be preferably arranged to 5V charging circuit, and charging circuit 44 can be electric power storage Pond 6 is charged, and has many advantages, such as that low-voltage and use are safe, charging connector 5 can be preferably arranged to USB charging connector.

Specifically, as shown in figure 3, constant temperature control circuit 43 includes thermostatic control chip U1, the electricity of model HRL360 Hinder R5, capacitor C5, resistance R7, resistance R8, metal-oxide-semiconductor (i.e. field-effect tube) Q1 and capacitor C4, the 1st pin of thermostatic control chip U1 Connect battery 6, the 13rd pin of thermostatic control chip U1 respectively with resistance R5, capacitor C5 and temperature sensor 3 (institute i.e. in figure The RT1 shown) one end be connected, the 11st pin of the other end of resistance R5 connection thermostatic control chip U1, capacitor C5 and temperature The other end of sensor 3 is grounded respectively, and one end of resistance R7 is connected with the 5th pin of thermostatic control chip U1, resistance R7's The other end is separately connected the grid of metal-oxide-semiconductor Q1 and one end of resistance R8, and the source electrode of metal-oxide-semiconductor Q1 and the other end of resistance R8 connect respectively One end of the nano-far-infrared ceramic heating plate 2 (FR1 i.e. shown in figure) of ground, capacitor C4 and 10R connects the leakage of metal-oxide-semiconductor Q1 Pole, capacitor C4 connect battery 6 with the other end of nano-far-infrared ceramic heating plate 2.

As shown in figure 3, charging circuit 44 includes charging chip U2, resistance R0, the resistance R1, resistance of model TP4054 R2, resistance R3, resistance R4, switch K and capacitor C1, resistance R2 are connected on the 1st pin and thermostatic control chip of charging chip U2 Between the 3rd pin of U1, switch K is connected between the 2nd pin of charging chip U2 and the 2nd pin of thermostatic control chip U1, The 2nd pin of charging chip U2 is grounded, the 1st pin of the 3rd pin connection thermostatic control chip U1 of charging chip U2 and electric power storage Pond 6, the 4th pin of charging chip U2 are separately connected one end of resistance R0, resistance R3 and capacitor C1, the other end connection of resistance R0 Charging connector 5, the 4th pin of the other end connection thermostatic control chip U1 of resistance R3, the other end ground connection of capacitor C1, resistance R4 One end connection thermostatic control chip U1 the 4th pin, the other end ground connection of resistance R4, one end of resistance R1 connects charging chip The 5th pin of U2, one end ground connection of resistance R1.

Preferably, battery 6 can be arranged in the rear heel position of insole body 1, naturally it is also possible to be arranged in insole sheet At the other positions of body 1.In the present embodiment, battery 6 can be preferably arranged to 3.7V poly-lithium battery, small in size, Long service life.

As shown in Figure 1, can also be installed with the set of the buffer protection made of plastic material 7 on insole body 1, nanometer is far red Outer ceramic heating plate 2 and the mountable inside in buffer protection set 7 of temperature sensor 3, buffer protection set 7 can be remote to nanometer Infra-red china fever tablet 2 and temperature sensor 3 are protected, it is also ensured that the comfort level of insole.

As shown in figure 4, nano-far-infrared ceramic heating plate 2 can generate heat and after powered up to human body foot when work The Yongquan acupoint position in portion is launched nano-meter far infrared, and temperature sensor 3 being capable of real-time detection nano-far-infrared ceramic heating plate 2 Heating temperature and feed back to constant temperature control circuit 43, the thermostatic control chip U1 in constant temperature control circuit 43 is receiving temperature Sensor 3 feed back can control after the signal that comes being turned on or off of metal-oxide-semiconductor Q1 (i.e. when temperature is higher than preset value, metal-oxide-semiconductor Q1 is disconnected, and nano-far-infrared ceramic heating plate 2 stops fever, and when temperature is lower than preset value, metal-oxide-semiconductor Q1 is connected, and nanometer is far red Outer ceramic heating plate 2 generates heat), it works under temperature constant state to automatically control nano-far-infrared ceramic heating plate 2.Its In, the heating temperature of nano-far-infrared ceramic heating plate 2 may be controlled to 40 DEG C~50 DEG C (45 DEG C are preferably), far infrared wavelength 4 μm~16 μm received for human body the most.

Embodiment two

The embodiments of the present invention two additionally provide a kind of shoes, including shoes body, and the inside of the shoes body is installed with State nano-meter far infrared health insoles described in embodiment one.It should be noted that shoes body described in the present embodiment two It can be various types of shoes, such as leather shoes, slippers, high-heeled shoes, warming shoe.

In conclusion the utility model can enable human foot enjoy the long-term physiotheraping effect of far infrared, to improve The microcirculqtory system of human body promotes the metabolism of human body, increases cell viability, improves immune function of human body, prevents and treats various diseases Sick (such as neurasthenia, insomnia, hypertension, rhinitis, kidney trouble, lassitude in loin and legs), and anti-inflammation detumescence sterilizing etc. can be carried out, simultaneously Nano-far-infrared ceramic heating plate can constant temperature warming, there is the performance of good anti-freezing and heat-insulating in arctic weather, this is practical new The good health care effect of type, low-voltage, use is safe, zero magnetic field, and the thermal efficiency and emissivity are high (up to 89% or more), has antifreeze Heat-preserving health-care function.

Above-described embodiment is the preferable embodiment of the utility model, but the embodiments of the present invention is not by above-mentioned The limitation of embodiment, it is made under other any spiritual essence and principles without departing from the utility model to change, modify, replacing In generation, simplifies combination, should be equivalent substitute mode, is included within the protection scope of the utility model.

Claims (10)

1. a kind of nano-meter far infrared health insoles, including insole body (1), it is characterised in that: further include nano-far-infrared pottery Porcelain fever tablet (2), temperature sensor (3), controller (4) and battery (6), nano-far-infrared ceramic heating plate (2) dress It is located on insole body (1) and corresponds to the Yongquan acupoint position of human foot, the controller (4) includes circuit board (42), institute Circuit board (42) are stated equipped with charging circuit (44) and constant temperature control circuit (43), the nano-far-infrared ceramic heating plate (2), Temperature sensor (3) and charging circuit (44) are electrically connected with constant temperature control circuit (43) respectively, temperature sensor (3) installation On nano-far-infrared ceramic heating plate (2), the charging circuit (44) respectively with battery (6) and be installed in circuit board (42) On charging connector (5) electrical connection.

2. nano-meter far infrared health insoles according to claim 1, it is characterised in that: the constant temperature control circuit (43) Including thermostatic control chip U1, resistance R5, capacitor C5, resistance R7, resistance R8, metal-oxide-semiconductor Q1 and capacitor C4, the thermostatic control core The 1st pin of piece U1 connects battery (6), the 13rd pin of the thermostatic control chip U1 respectively with resistance R5, capacitor C5 and One end of temperature sensor (3) is connected, the 11st pin of the other end connection thermostatic control chip U1 of the resistance R5, described The other end of capacitor C5 and temperature sensor (3) is grounded respectively, and one end of the resistance R7 is drawn with the 5th of thermostatic control chip U1 Foot is connected, and the other end of the resistance R7 is separately connected the grid of metal-oxide-semiconductor Q1 and one end of resistance R8, the metal-oxide-semiconductor Q1's The other end of source electrode and resistance R8 are grounded respectively, and the capacitor C4 connects MOS with one end of nano-far-infrared ceramic heating plate (2) The drain electrode of pipe Q1, the capacitor C4 connect battery (6) with the other end of nano-far-infrared ceramic heating plate (2).

3. nano-meter far infrared health insoles according to claim 2, it is characterised in that: the charging circuit (44) includes Charging chip U2, resistance R0, resistance R1, resistance R2, resistance R3, resistance R4, switch K and capacitor C1, the resistance R2 are connected on Between the 1st pin of charging chip U2 and the 3rd pin of thermostatic control chip U1, the switch K is connected on charging chip U2's Between 2nd pin and the 2nd pin of thermostatic control chip U1, the 2nd pin of the charging chip U2 is grounded, the charging chip The 1st pin and battery (6) of the 3rd pin connection thermostatic control chip U1 of U2, the 4th pin difference of the charging chip U2 One end of resistance R0, resistance R3 and capacitor C1 are connected, the other end of the resistance R0 connects charging connector (5), the resistance R3 Other end connection thermostatic control chip U1 the 4th pin, the other end ground connection of the capacitor C1, one end of the resistance R4 connects The 4th pin of thermostatic control chip U1 is connect, the other end ground connection of the resistance R4, one end of the resistance R1 connects charging chip The 5th pin of U2, one end ground connection of the resistance R1.

4. nano-meter far infrared health insoles according to claim 1 or 3, it is characterised in that: the charging circuit (44) It is set as 5V charging circuit, the battery (6) is 3.7V battery, and the charging connector (5) is set as USB charging connector.

5. nano-meter far infrared health insoles according to claim 1, it is characterised in that: the controller (4) further includes Controller housing (41), the circuit board (42) are installed in the inside of controller housing (41).

6. nano-meter far infrared health insoles according to claim 1, it is characterised in that: filled on the insole body (1) Equipped with the buffer protection set made of plastic material (7), the nano-far-infrared ceramic heating plate (2) and temperature sensor (3) It is installed in the inside of buffer protection set (7).

7. nano-meter far infrared health insoles according to claim 1, it is characterised in that: the battery (6) is arranged in The rear heel position of insole body (1).

8. nano-meter far infrared health insoles according to claim 1, it is characterised in that: the nano-far-infrared ceramics hair The heating temperature of backing (2) is 40 DEG C~50 DEG C.

9. nano-meter far infrared health insoles according to claim 1, it is characterised in that: the nano-far-infrared ceramics hair The far infrared wavelength that backing (2) issues is 4 μm~16 μm.

10. a kind of shoes, including shoes body, it is characterised in that: the inside of the shoes body is installed in claim 1 to 9 arbitrarily Nano-meter far infrared health insoles described in one.