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WO2018221061A1 - Dispositif de chauffage - Google Patents

Dispositif de chauffage Download PDF

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Publication number
WO2018221061A1
WO2018221061A1 PCT/JP2018/016179 JP2018016179W WO2018221061A1 WO 2018221061 A1 WO2018221061 A1 WO 2018221061A1 JP 2018016179 W JP2018016179 W JP 2018016179W WO 2018221061 A1 WO2018221061 A1 WO 2018221061A1
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WO
WIPO (PCT)
Prior art keywords
metabolic rate
unit
sole
heating device
acquisition unit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/JP2018/016179
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English (en)
Japanese (ja)
Inventor
本村 博久
齋藤 隆
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Denso Corp
Original Assignee
Denso Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Denso Corp filed Critical Denso Corp
Publication of WO2018221061A1 publication Critical patent/WO2018221061A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F7/00Heating or cooling appliances for medical or therapeutic treatment of the human body
    • A61F7/02Compresses or poultices for effecting heating or cooling
    • A61F7/03Compresses or poultices for effecting heating or cooling thermophore, i.e. self-heating, e.g. using a chemical reaction
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H33/00Bathing devices for special therapeutic or hygienic purposes
    • A61H33/06Artificial hot-air or cold-air baths; Steam or gas baths or douches, e.g. sauna or Finnish baths

Definitions

  • This disclosure relates to a heating device configured to heat a user's sole.
  • the heater device for shoes disclosed in International Publication No. 2008/006731 is incorporated in the insole.
  • This apparatus includes a battery such as a lithium secondary battery, a flexible resistance element, a temperature sensor, and a microprocessor.
  • the present disclosure provides a configuration that is more sophisticated than the conventional one in a heating device that heats the user's sole.
  • the heating device is configured to heat the sole of the user.
  • This heating device A heating member configured to heat the sole by generating heat by energization in a use state opposite to the sole;
  • the heat generating member is configured to generate an output corresponding to biological information other than body temperature in the user by facing the skin of the user's foot in the use state facing the sole.
  • a biosensor It has.
  • the heat generating member faces the sole in the use state of the heating device.
  • the heat generating member generates heat by energization to heat the sole.
  • the living body sensor generates the output corresponding to the living body information by facing the skin of the user's foot in the use state. Thereby, it is possible to acquire the biological information different from the body temperature.
  • the acquired biological information can be used to control the energization state of the heat generating member. Therefore, according to such a configuration, an appropriate heating state can be realized in accordance with the biological information of the user.
  • the heating device is configured to heat the soles of the passengers of the vehicle occupant.
  • This heating device A heating member configured to heat the sole by generating heat by energization in a use state opposite to the sole;
  • the heat generating member is configured to generate an output corresponding to biological information other than body temperature in the user by facing the skin of the user's foot in the use state facing the sole.
  • a biosensor; With It is comprised so that it may operate
  • the heating device is mounted on the vehicle in the use state.
  • the heat generating member faces the sole of the user who is the occupant of the vehicle.
  • the heat generating member generates heat by energization to heat the sole.
  • the living body sensor generates the output corresponding to the living body information by facing the skin of the user's foot in the use state. Thereby, it is possible to acquire the biological information different from the body temperature.
  • the acquired biological information can be used to control the energization state of the heat generating member. Therefore, according to this configuration, an appropriate warming state can be realized in accordance with the biological information of the user who is the occupant of the vehicle.
  • the heating device operates by being fed through the wireless power feeding unit provided on the vehicle side. According to such a configuration, an excellent wearing feeling and / or durability can be obtained by simplifying as much as possible the configuration on the side of the heating device facing the user's foot.
  • FIG. 1 It is a schematic block diagram of the vehicle carrying the heating apparatus which concerns on embodiment. It is a block diagram which shows the schematic function structure of the heating apparatus shown by FIG.
  • FIG. 1 schematically shows a configuration around the foot P1 of the occupant P when the occupant P appears in the driver's seat of the vehicle 10.
  • FIG. 1 The concepts of “upper”, “lower”, “front”, and “rear” are as indicated by arrows in FIG. Further, in FIG. 1, it is assumed that the right foot P ⁇ b> 1 of the pair of left and right feet P ⁇ b> 1 in the occupant P is shown for simplification of illustration.
  • a floor carpet 12 is placed on the floor panel 11.
  • a floor mat 13 is placed on the floor carpet 12.
  • the vehicle 10 includes a footrest 14, a pedal 15, a seat 16, and a navigation device 17.
  • the footrest 14 is configured so that the foot P1 of the occupant P can be placed thereon.
  • the pedal 15 is an accelerator pedal or a brake pedal, and is provided so as to be operated by a foot P1 of an occupant P seated on a seat 16 that is a driver's seat.
  • the navigation device 17 is disposed in the passenger compartment of the vehicle 10.
  • a holder (not shown) for temporarily fixing the mobile terminal 20 such as a smartphone brought in by the passenger P is provided in the vehicle interior of the vehicle 10.
  • the navigation device 17 and the portable terminal 20 are configured to display various information for the occupant P and to accept various operations by the occupant P.
  • the various operations by the occupant P are operations for inputting personal information such as the name, gender, age, etc. of the occupant P, for example.
  • the mobile terminal 20 is configured to be able to transmit and receive information to and from the navigation device 17 by short-range wireless communication such as TransferJet (registered trademark).
  • TransferJet registered trademark
  • the shoe 30 covering the foot P1 of the occupant P has an outsole 31, a heel part 32, an upper part 33, and an insole 34.
  • the outsole 31 is formed in a substantially flat plate shape with synthetic rubber or the like.
  • the heel part 32 is formed in a substantially block shape by synthetic rubber or the like.
  • the heel portion 32 is fixed by bonding or the like at one end portion in the longitudinal direction of the outsole 31, that is, a position corresponding to the heel P2 of the foot P1.
  • the upper part 33 of the shoe 30 is provided so as to cover the instep P3.
  • the upper 33 is made of synthetic leather or the like.
  • the lower end portion of the upper portion 33 is fixed to the outer edge portion of the outsole 31 by bonding or sewing.
  • the insole 34 as the foot placement portion is formed of a foaming synthetic resin or the like.
  • the insole 34 is disposed at the bottom of the inner space of the shoe 30 surrounded by the outsole 31 and the upper portion 33. Specifically, the insole 34 is placed on the outsole 31 so as to face and contact the sole P4 when the occupant P wears it.
  • the insole 34 has a low load portion 35 and a high load portion 36.
  • the low load portion 35 is a portion formed thicker than the high load portion 36, and is provided at a position corresponding to the arch P5.
  • the high load portion 36 is a portion corresponding to a portion other than the arch P5 in the sole P4, and has a substantially uniform thickness.
  • the upper surface 37 that is the surface of the insole 34 is a surface on which the foot P1 of the occupant P is placed and is provided so as to be in close contact with the sole P4 of the occupant P.
  • a bottom surface 38 which is the back surface of the insole 34 is provided so as to be in close contact with the outsole 31.
  • the warming device 40 is configured to heat the sole P4 of the passenger P, who is the user, in use.
  • the “use state” means a state in which the insole 34 faces the sole P4 when the occupant P wears the shoes 30 and the shoes 30 are in contact with a predetermined region on the floor mat 13. The significance of the “predetermined area” will be described later.
  • the heating device 40 is supported by a shoe 30 as a support, more specifically, by an insole 34.
  • the heating device 40 includes a heat generating member 41, a biological sensor 42, a temperature sensor 43, a measurement electrode 44, a main control unit 45, an internal communication unit 46, a memory unit 47, a battery 48, and a wireless power receiving unit. 49.
  • the heat generating member 41 is configured to heat the sole P4 by generating heat when energized in a use state.
  • the heat generating member 41 is a well-known flexible resistor, and is formed by providing a resistor thin film on a synthetic resin film.
  • the heat generating member 41 is provided corresponding to both the pair of left and right legs P1.
  • the heat generating member 41 is fixedly supported by a portion corresponding to the foot tip portion P6 in the high load portion 36.
  • the “foot tip part P6” is a tip side of the foot P1 and is a region surrounded by the toes, the toes and the little toes.
  • the heat generating member 41 is provided on the upper surface 37 side of the insole 34. Specifically, the heat generating member 41 is disposed so as to be in direct contact with the sole P4 by being flush with the upper surface 37 of the insole 34.
  • the biosensor 42 is fixedly supported on the insole 34.
  • the living body sensor 42 is configured to generate an output corresponding to living body information other than body temperature by facing the skin of the foot P1 of the occupant P in the use state.
  • the living body sensor 42 is a blood flow sensor and has a configuration capable of measuring a blood flow based on the Doppler effect of laser light.
  • the biosensor 42 is provided on the upper surface 37 side of the low load portion 35 so as to face the arch P5 on the sole P4.
  • the biosensor 42 is provided corresponding to one of the pair of left and right legs P1, specifically, the right leg P1.
  • the temperature sensor 43 is fixedly supported on the insole 34.
  • the temperature sensor 43 is configured to generate an output corresponding to the temperature in the shoe 30, specifically, the surface temperature of the sole P4.
  • the temperature sensor 43 is provided at a position corresponding to the toe portion P6. Further, it is provided corresponding to one of the pair of left and right feet P1, specifically, the right foot P1.
  • the measurement electrode 44 is fixedly supported on the insole 34 on the upper surface 37 side so as to be in close contact with the heel P2 of the sole P4.
  • the measurement electrode 44 is provided corresponding to both the pair of left and right feet P1 in order to acquire bioelectrical impedance, which is a parameter related to the basal metabolic rate of the occupant P.
  • the main control unit 45 is provided corresponding to one of the pair of left and right feet P1, specifically, the right foot P1.
  • the main control unit 45 is a so-called microcomputer chip including a CPU, a ROM, a RAM, and a non-volatile RAM, and is configured to execute overall operation control of the heating device 40.
  • the non-volatile RAM is, for example, a flash ROM.
  • the main control unit 45 is configured such that various control operations can be realized by the CPU reading and executing the program from the ROM or the nonvolatile RAM.
  • various data used in executing the program is stored in advance in the ROM or the nonvolatile RAM.
  • Various types of data include, for example, initial values, lookup tables, and the like.
  • the main control unit 45 is fixedly supported by the low load unit 35. A detailed functional configuration of the main control unit 45 will be described later.
  • the internal communication unit 46 is fixedly supported by the insole 34 on the bottom surface 38 side of the low load unit 35.
  • the internal communication unit 46 is provided so as to transmit information acquired or generated by the heating device 40 to an external device and receive various types of information from the external device.
  • the internal communication unit 46 is configured to be able to transmit and receive information to and from the vehicle 10 by short-range wireless communication such as TransferJet (registered trademark).
  • the internal communication unit 46 has a memory unit 47.
  • the memory unit 47 is a nonvolatile RAM, and is configured to store transmission / reception information by the internal communication unit 46 in a rewritable manner.
  • the battery 48 is provided so as to supply driving power to the heat generating member 41, the biological sensor 42, the temperature sensor 43, the measurement electrode 44, the main control unit 45, the internal communication unit 46, and the memory unit 47.
  • the battery 48 is embedded in the low load portion 35.
  • the battery 48 is a secondary battery such as a lithium ion battery, and is provided so as to be rechargeable via the wireless power receiving unit 49.
  • the wireless power receiving portion 49 is a power receiving side coil in the wireless power feeding mechanism, and is fixedly supported by the high load portion 36 on the bottom surface 38 side. Specifically, the wireless power receiving unit 49 is provided at a position corresponding to the foot tip part P6 so as to be closest to the floor mat 13 in the use state.
  • a wireless power feeding unit 51 is provided in the external system 50 that is a vehicle-side system.
  • the wireless power feeding unit 51 is a power supply side coil in the wireless power feeding mechanism, and is configured to supply power to the wireless power receiving unit 49 by electromagnetic induction.
  • the wireless power feeding unit 51 has the floor mat 13 on the upper surface side so as to face the wireless power receiving unit 49 in the vertical direction across the outsole 31 of the shoe 30 in use. Is fixedly supported. That is, the heating device 40 is configured to operate by being supplied with power through the wireless power supply unit 51 provided on the vehicle 10 side.
  • the external system 50 includes a detection switch 52, an external communication unit 53, a load sensor 54, a camera 55, and an electronic control unit 56 in addition to the wireless power feeding unit 51.
  • a detection switch 52 for convenience of illustration, the camera 55 and the electronic control unit 56 are illustrated at positions different from actual positions.
  • the detection switch 52 is fixedly supported on the floor mat 13 on the upper surface side so that it can be determined whether the use state is established or not. That is, the detection switch 52 changes its output from OFF to ON when the occupant P wearing the shoes 30 equipped with the heating device 40 gets on the vehicle 10 and the shoes 30 come into contact with a predetermined area in the floor mat 13. It is comprised so that it may switch.
  • the “predetermined area” is an area in which power can be exchanged between the wireless power receiving unit 49 and the wireless power feeding unit 51 and short-range wireless communication between the internal communication unit 46 and the external communication unit 53 is possible. .
  • the detection switch 52 is a push button switch that outputs an ON signal when a load of a predetermined value or more is applied from above, and is OFF when the load is less than the predetermined value. It is configured to output a signal.
  • the external communication unit 53 is fixedly supported on the floor mat 13 on the upper surface side.
  • the external communication unit 53 is configured to be able to transmit and receive information to and from the internal communication unit 46 by short-range wireless communication. That is, the external communication unit 53 is disposed at a position facing the internal communication unit 46 in the vertical direction in use.
  • the load sensor 54 is embedded in the seat 16.
  • the load sensor 54 is a pressure-sensitive sensor that also serves as a seating sensor, and is configured to generate an output corresponding to the weight of the passenger P seated on the seat 16.
  • the weight of the occupant P is a parameter related to the basal metabolic rate of the occupant P.
  • the camera 55 is attached to the interior of the vehicle 10 (for example, a room mirror).
  • the camera 55 is provided so that the occupant P seated on the seat 16 can be photographed.
  • the camera 55 includes an image sensor such as a CCD or a CMOS, and has a resolution that allows the electronic control device 56 to recognize the external features of the occupant P.
  • CCD Charge Coupled Device.
  • CMOS is an abbreviation for Complementary MOS.
  • the appearance characteristics of the occupant P are, for example, a face, a sitting height, and the like.
  • Sitting height is a parameter related to height.
  • the height is a parameter related to the basal metabolic rate of the occupant P.
  • the electronic control unit 56 includes a power supply unit 57, an external control unit 58, and a communication control unit 59.
  • the power supply unit 57 is provided to supply drive power to the wireless power feeding unit 51, the detection switch 52, the external communication unit 53, the load sensor 54, the camera 55, the external control unit 58, and the communication control unit 59. That is, the power supply unit 57 is configured to supply power to the wireless power supply unit 51 under the control of the external control unit 58.
  • the external control unit 58 is a so-called microcomputer chip similar to the main control unit 45, and includes a CPU, a ROM, a RAM, and a nonvolatile RAM.
  • the external control unit 58 is configured to execute overall operation control of the external system 50.
  • the external control unit 58 determines whether the use state is established or not based on the output of the detection switch 52.
  • the external control unit 58 estimates the weight of the occupant P seated on the seat 16 based on the output of the load sensor 54.
  • the external control unit 58 processes the image acquired by the camera 55 to acquire the seat height of the occupant P, and estimates the height of the occupant P based on the acquired seat height. That is, the external control unit 58 can estimate a standard height from the acquired sitting height. Further, the external control unit 58 specifies the person of the occupant P by processing the image acquired by the camera 55 and recognizing the face. The external controller 58 controls the amount of current supplied to the wireless power feeder 51.
  • the communication control unit 59 is provided to control short-range wireless communication between the internal communication unit 46 and the external communication unit 53. That is, the communication control unit 59 performs short-range wireless communication between the internal communication unit 46 and the external communication unit 53 when the external control unit 58 determines that the use state is established based on the output of the detection switch 52. It is supposed to start. The communication control unit 59 performs short-range wireless communication between the internal communication unit 46 and the external communication unit 53 when the external control unit 58 determines that the use state is not established based on the output of the detection switch 52. It is supposed to be terminated.
  • the main control unit 45 includes a metabolic rate acquisition unit 451, a parameter acquisition unit 452, a target value acquisition unit 453, and an energization control unit 454 as functional configurations. Yes. As described above, the main control unit 45 is fixedly supported by the low load unit 35. Therefore, the metabolic rate acquisition unit 451, parameter acquisition unit 452, target value acquisition unit 453, and energization control unit 454 are fixedly supported by the low load unit 35.
  • the metabolic rate acquisition unit 451 is provided to receive the output signal of the biological sensor 42. That is, the metabolic rate acquisition unit 451 acquires the blood flow volume that is the biological information of the occupant P based on the output of the biological sensor 42. The metabolic rate acquisition unit 451 acquires the metabolic rate of the occupant P based on the acquired blood flow rate. Furthermore, the metabolic rate acquisition unit 451 transmits the acquired blood flow rate and metabolic rate to the navigation device 17 and / or the mobile terminal 20 via the internal communication unit 46, the external communication unit 53, and the electronic control unit 56. It has become.
  • the parameter acquisition unit 452 is provided to acquire parameters related to the basal metabolic rate of the passenger P. Specifically, the parameter acquisition unit 452 acquires the bioelectrical impedance of the occupant P using the measurement electrode 44. The parameter acquisition unit 452 is configured to receive various data such as appearance characteristics, sex, and weight of the occupant P from the electronic control unit 56 via the internal communication unit 46 and the external communication unit 53. .
  • the target value acquisition unit 453 is provided so as to acquire the target metabolic rate based on the parameter acquired by the parameter acquisition unit 452. Specifically, the target value acquisition unit 453 is configured to estimate the basal metabolic rate in the occupant P based on the parameters acquired by the parameter acquisition unit 452. In addition, the target value acquisition unit 453 is configured to calculate a target metabolic rate based on the estimated basal metabolic rate.
  • the energization control unit 454 is provided so as to control the energization state in the heat generating member 41 based on the metabolic rate acquired by the metabolic rate acquisition unit 451. Specifically, the energization control unit 454 converts the temperature acquired by the output of the temperature sensor 43, the metabolic rate acquired by the metabolic rate acquisition unit 451, and the target metabolic rate acquired by the target value acquisition unit 453. Based on this, the heat generation state in the heat generating member 41 is controlled.
  • the energization control unit 454 calculates a target temperature for matching the metabolic rate acquired by the metabolic rate acquisition unit 451 with the target metabolic rate, and uses the temperature acquired by the output of the temperature sensor 43 and the target temperature.
  • the amount of heat generated in the heat generating member 41 is controlled by the feedback control. Further, the energization control unit 454 can exchange various information with the electronic control unit 56 via the internal communication unit 46 and the external communication unit 53.
  • the output of the detection switch 52 is turned on. Then, the external control unit 58 in the electronic control unit 56 determines whether the use state is established.
  • the external control unit 58 determines that the use state is established, the external control unit 58 controls the communication control unit 59 to start short-range wireless communication between the internal communication unit 46 and the external communication unit 53. Then, the establishment of the use state is transmitted from the electronic control unit 56 to the energization control unit 454 in the main control unit 45 via the external communication unit 53 and the internal communication unit 46. As a result, the heating device 40 can be energized to the heat generating member 41.
  • the output of the detection switch 52 is turned off. Then, the external control unit 58 in the electronic control unit 56 determines that the use state is not established. The failure of the use state is transmitted from the electronic control unit 56 to the energization control unit 454 in the main control unit 45 via the external communication unit 53 and the internal communication unit 46. Thereby, the short-range wireless communication between the internal communication unit 46 and the external communication unit 53 ends. Further, in the heating device 40, it is impossible to energize the heat generating member 41.
  • the foot tip part P6 is a terminal part of the blood flow in the foot P1, and is a part where the blood flow tends to stagnate. For this reason, by heating the toe part P6 in the sole P4, effects such as improvement of blood flow in the toe part P6 which is the terminal part and promotion of blood circulation of the entire body of the occupant P are expected.
  • the heat generating member 41 faces the sole P4 of the foot P1 of the occupant P in use. In this use state, the heat generating member 41 heats the sole P4 by generating heat by energization under the control of the main control unit 45.
  • the living body sensor 42 generates an output corresponding to biological information other than the body temperature of the occupant P (for example, a blood flow state) by facing the skin of the foot P1 of the occupant P in the use state. Thereby, the biometric information different from the body temperature of the occupant P is acquired.
  • the acquired biological information can be used to control the energization state of the heat generating member 41. Therefore, according to such a configuration, an appropriate heating state can be realized in accordance with the biological information of the occupant P.
  • the biological sensor 42 which is a blood flow sensor generates an output corresponding to the blood flow volume of the foot P1 in the occupant P of the vehicle 10.
  • the blood flow rate in the foot P1 of the occupant P is acquired by the metabolic rate acquisition unit 451.
  • the acquired blood flow rate can be used to control the energization state of the heat generating member 41. Therefore, according to the present embodiment, an appropriate warming state can be realized in accordance with the blood flow state of the foot P1 in the passenger P of the vehicle 10.
  • the biosensor 42 is fixedly supported by the insole 34 on which the foot P1 is placed.
  • the biological sensor 42 generates an output corresponding to the biological information of the occupant P by facing the sole P4 of the occupant P in the use state. Therefore, according to this configuration, it is possible to easily obtain biological information.
  • the heating apparatus 40 includes a metabolic rate acquisition unit 451 and an energization control unit 454.
  • the metabolic rate acquisition unit 451 acquires the metabolic rate of the occupant P based on the biological information acquired from the output of the biological sensor 42.
  • the energization control unit 454 controls the energization state of the heat generating member 41 based on the metabolic rate acquired by the metabolic rate acquisition unit 451. Therefore, according to such a configuration, an appropriate heating state in accordance with the metabolism amount of the occupant P can be realized.
  • the metabolic rate acquisition unit 451 can acquire the metabolic rate based on, for example, a lookup table indicating the relationship between the blood flow rate and the metabolic rate, and the blood flow rate acquired by the output of the biosensor 42.
  • This look-up table is created based on the relationship between the blood flow rate and the metabolic rate obtained by experiments or the like, and can be stored in advance in the ROM or nonvolatile RAM of the main control unit 45.
  • the metabolic rate acquisition unit 451 can calculate the metabolic rate based on a plurality of detection values including the blood flow rate and a predetermined calculation formula. This calculation formula can also be stored in advance in the ROM or the nonvolatile RAM of the main control unit 45.
  • the heating device 40 includes a parameter acquisition unit 452 and a target value acquisition unit 453.
  • the parameter acquisition unit 452 acquires a parameter related to the basal metabolic rate of the occupant P in the use state.
  • the target value acquisition unit 453 acquires the target metabolic rate based on the parameter acquired by the parameter acquisition unit 452.
  • the energization control unit 454 controls the energization state of the heat generating member 41 so that the metabolic rate acquired by the metabolic rate acquisition unit 451 matches the target metabolic rate.
  • the parameter acquisition unit 452 acquires the gender and age of the occupant P.
  • the gender and age of the occupant P may be input by the navigation device 17 or the portable terminal 20.
  • the electronic control device 56 transmits the gender and age of the occupant P input by the operation of the navigation device 17 or the portable terminal 20 to the parameter acquisition unit 452.
  • the gender and age of the occupant P may be stored in the navigation device 17 or the external control unit 58 while being associated with the image recognition result using the camera 55.
  • the electronic control device 56 specifies the person of the occupant P by processing the image acquired by the camera 55 by the external control unit 58 and recognizing the face.
  • the electronic control device 56 reads out the gender and age of the occupant P corresponding to the person identification result, and transmits the read information to the parameter acquisition unit 452. In other words, in this case, when the parameter acquisition unit 452 acquires the parameters, the input operation by the occupant P can be favorably omitted.
  • the gender and age of the occupant P may be stored in the mobile terminal 20 in advance.
  • the electronic control device 56 reads the gender and age of the occupant P from the portable terminal 20 brought into the vehicle interior of the vehicle 10 by the occupant P, and transmits the read information to the parameter acquisition unit 452. Also in this case, when the parameter acquisition unit 452 acquires the parameter, the labor of the input operation by the occupant P can be favorably omitted.
  • the parameter acquisition unit 452 acquires the bioelectric impedance of the occupant P using the measurement electrode 44.
  • the parameter acquisition unit 452 acquires the weight of the passenger P estimated by the external control unit 58 based on the output of the load sensor 54 from the external control unit 58.
  • the parameter acquisition unit 452 acquires the height of the occupant P estimated by the external control unit 58 based on the image recognition result using the camera 55 from the external control unit 58. Also in this case, when the parameter acquisition unit 452 acquires the parameter, the labor of the input operation by the occupant P can be favorably omitted.
  • the target value acquisition unit 453 estimates the basal metabolic rate in the occupant P based on the parameters acquired by the parameter acquisition unit 452. Specifically, the target value acquisition unit 453 calculates the lean mass based on the height, weight, and bioelectrical impedance acquired by the parameter acquisition unit 452. In addition, the target value acquisition unit 453 estimates the basal metabolism amount in the occupant P based on the calculated lean body mass and the age and sex acquired by the parameter acquisition unit 452.
  • the method for estimating the basal metabolic rate is well known. For this reason, in this specification, description is abbreviate
  • the basal metabolic rate is the minimum amount of energy metabolism that is consumed to maintain life in a resting state. Therefore, the metabolism amount of the occupant P in the vehicle 10 is necessarily larger than the basal metabolism amount. Specifically, the physical activity intensity during sleep is about 0.9 METs, which roughly corresponds to the basal metabolic rate. On the other hand, the physical activity intensity when the automobile is not driven is 1.0METS, and the physical activity intensity when the automobile is driven is 1.5 to 2.0METS. METS stands for Metallic Equivalents.
  • the configuration of the present embodiment by stimulating the sole P4 of the occupant P by the heat generating member 41, it is possible to increase the metabolism amount of the occupant P during the driving of the vehicle 10. It is.
  • the increased metabolic rate of the occupant P after the increase is as large as possible within a range that does not place an excessive burden on the occupant P among values corresponding to 1.5 to 2.0 METS. It is preferable that the value is large.
  • the target value acquisition unit 453 calculates the target metabolic rate based on the estimated basal metabolic rate. Specifically, for example, the target value acquisition unit 453 calculates the target metabolic rate by multiplying the estimated basal metabolic rate by a predetermined coefficient.
  • the predetermined coefficient has an initial value of 1.5, for example, and can be appropriately changed by a learning function.
  • the energization control unit 454 calculates a target temperature for making the metabolic rate acquired by the metabolic rate acquisition unit 451 coincide with the target metabolic rate. Further, the energization control unit 454 controls the amount of heat generated in the heat generating member 41 by feedback control using the temperature acquired by the output of the temperature sensor 43 and the target temperature.
  • the metabolism of the occupant P who is driving the vehicle 10 is increased to an appropriate value based on the basal metabolism of the occupant P, thereby favorably promoting the metabolism of the occupant P. Can do. Therefore, the basal metabolic capacity of the passenger P can be improved satisfactorily.
  • the heating device 40 includes a temperature sensor 43.
  • the temperature sensor 43 generates an output corresponding to the surface temperature of the sole P4.
  • the energization control unit 454 controls the energization state of the heat generating member 41 based on the temperature acquired by the output of the temperature sensor 43 and the metabolic rate acquired by the metabolic rate acquisition unit 451. Therefore, according to such a configuration, an appropriate heating state in accordance with the metabolism amount of the occupant P can be realized.
  • the temperature sensor 43 is fixedly supported by the insole 34.
  • the temperature sensor 43 generates an output corresponding to the temperature of the sole P4 by facing the sole P4 in the use state. That is, the energization control unit 454 controls the energization state in the heat generating member 41 based on the temperature of the sole P4 acquired by the output of the temperature sensor 43 and the metabolic rate acquired by the metabolic rate acquisition unit 451. Therefore, according to such a configuration, an appropriate warming state can be realized in accordance with the temperature of the sole P4 and the metabolic rate in the occupant P.
  • the heating device 40 includes an internal communication unit 46.
  • the internal communication unit 46 transmits information acquired or generated on the heating device 40 side to the navigation device 17 and / or the mobile terminal 20 via the external communication unit 53. Thereby, the navigation apparatus 17 and / or the portable terminal 20 can perform various processes based on the received information.
  • the navigation device 17 and / or the mobile terminal 20 can display the blood flow state in the occupant P based on the blood flow obtained on the heating device 40 side.
  • the navigation device 17 and / or the mobile terminal 20 can display the metabolic state of the occupant P based on the metabolic rate acquired on the heating device 40 side.
  • the internal communication unit 46 includes a memory unit 47 that stores information in a rewritable manner.
  • the memory unit 47 stores the information acquired or generated on the heating device 40 side so as to be rewritable. Therefore, according to such a configuration, even when the navigation device 17 and / or the mobile terminal 20 is powered off, the information is satisfactorily transmitted to the navigation device 17 and / or the mobile terminal 20 after the power is restored. Is possible. Further, the information received from the navigation device 17 and / or the mobile terminal 20 can be favorably retained even when the use state is not established.
  • the main control unit 45, the internal communication unit 46, and the battery 48 are fixedly supported by the low load portion 35 corresponding to the arch P5 in the foot P1 of the occupant P. That is, the main control unit 45, the internal communication unit 46, and the battery 48 are not provided in the high load unit 36 to which a large load is applied by the sole P4 of the occupant P at the insole 34.
  • the heating device 40 can be obtained. Specifically, when the main control unit 45, the internal communication unit 46, and the battery 48 are built in the insole 34, it is possible to suppress as much as possible that the wearing comfort is impaired. Moreover, the occurrence of a failure of the heating device 40 due to application of a high load can be suppressed as much as possible.
  • the heating device 40 operates by being supplied with power through the wireless power supply unit 51 provided on the vehicle 10 side. According to such a configuration, an excellent wearing feeling and / or durability can be obtained by simplifying the configuration of the heating device 40 facing the foot P1 of the occupant P as much as possible.
  • the floor carpet 12 can be omitted.
  • the function of transmitting various information to the occupant P in the navigation device 17 or the mobile terminal 20 is not particularly limited as long as it is a mode that appeals to the five senses of the occupant P.
  • at least one of character display, graphic display, color display, audio notification, vibration notification, and the like can be selected as appropriate.
  • the warming device 40 may be configured to operate in a seat 16 other than the driver's seat. That is, the heating device 40 can be applied well to passengers in passenger seats, that is, passengers P in the passenger seat or the rear seat.
  • All or part of the heating device 40 may be provided on the outsole 31 of the shoe 30.
  • the battery 48 when the battery 48 is provided in the heating device 40, the battery 48 can be embedded in the heel portion 32.
  • all or part of the heating device 40 may be provided on a midsole disposed between the outsole 31 and the insole 34 of the shoe 30.
  • the heating device 40 may be provided on the floor mat 13 instead of the shoes 30. In this case, each part fixedly supported by the insole 34 in the above embodiment is taken into the floor mat 13 side. . In this case, the use state corresponds to a state in which the foot P1 of the occupant P is placed in a predetermined area of the floor mat 13. Similarly, the heating device 40 may be provided on the footrest 14 or the pedal 15.
  • the heat generating member 41 may be configured to be heated by an induction heating coil provided outside (for example, the floor mat 13).
  • the heat generating member 41 may be provided in a portion other than the portion corresponding to the foot tip portion P6 in the high load portion 36. Alternatively, the heat generating member 41 can also be provided in the low load portion 35 within a range that does not interfere with other components.
  • the biological sensor 42 is not limited to the one that measures blood flow. That is, the biological sensor 42 may acquire biological information such as a heart rate, blood oxygen concentration, and sweating amount. As is well known, the blood flow rate, heart rate, and blood oxygen concentration are non-invasively determined by an optical method using a light emitting diode that emits light toward a living body and a light receiving element that receives transmitted light or reflected light. Can be acquired. A plurality of biological sensors 42 may be provided corresponding to a plurality of different pieces of biological information. That is, there is no particular limitation on the type and number of biosensors 42.
  • the biological sensor 42 and / or the temperature sensor 43 may be provided corresponding to both the pair of left and right legs P1. The same applies to the main control unit 45, the internal communication unit 46, and the memory unit 47.
  • the biosensor 42 and / or the temperature sensor 43 may be provided on the upper portion 33 of the shoe 30.
  • the temperature sensor 43 can be omitted.
  • the measurement electrode 44 can be omitted.
  • the basal metabolic rate can be calculated using a predetermined calculation formula based on body weight, height, age, and sex.
  • the basal metabolic rate BEE can be calculated using the following Harris-Benedict formula based on body weight WT [kg], height HT [cm], age AG, and sex.
  • Male: BEE M1 + M2, WT + M3, HT-M4, AG
  • Female: BEE F1 + F2, WT + F3, HT-F4, AG
  • the heating device 40 may be configured to be able to control the heating state of the left foot P1 and the heating state of the right foot P1 separately.
  • the heat generating member 41, the biological sensor 42, the temperature sensor 43, the measurement electrode 44, the main control unit 45, the internal communication unit 46, the memory unit 47, the battery 48, and the wireless power receiving unit 49 are both of the pair of left and right legs P1. It is provided corresponding to.
  • the sex and age of the occupant P can be estimated by processing an image acquired by the camera 55.
  • the main control unit 45 may be provided in the navigation device 17 or the mobile terminal 20.
  • the energization control unit 454 determines the energization state of the heat generating member 41 based on the blood flow rate in the foot P1 of the occupant P acquired using the biometric sensor 42 and the blood flow rate target value set based on age and sex. You may come to control.
  • Near field communication between the navigation device 17 and the mobile terminal 20 may be NFC, EFIR, or the like.
  • near field communication between the internal communication unit 46 and the external communication unit 53 may be NFC, EFIR, or the like.
  • NFC is an abbreviation for Near Field Communication.
  • EFIR is an abbreviation for Extremely Fast Infrared communication.
  • the short-range wireless communication method between the navigation device 17 and the portable terminal 20 and the short-range wireless communication method between the internal communication unit 46 and the external communication unit 53 may be the same or different. Also good.
  • the memory unit 47 may be provided separately from the internal communication unit 46. Alternatively, the function of the memory unit 47 can be replaced with a nonvolatile RAM in the main control unit 45.
  • the battery 48 can be omitted.
  • the wireless power feeding method between the wireless power receiving unit 49 and the wireless power feeding unit 51 is not limited to the electromagnetic induction method. That is, other methods such as a magnetic resonance method can be used.
  • the wireless power feeding unit 51, the detection switch 52, and the external communication unit 53 may be provided on the footrest 14. Alternatively, the wireless power feeding unit 51, the detection switch 52, and the external communication unit 53 may be provided on the pedal 15. Alternatively, the wireless power feeding unit 51, the detection switch 52, and the external communication unit 53 may be provided on the floor mat 13 and the footrest 14. Alternatively, the wireless power feeding unit 51, the detection switch 52, and the external communication unit 53 may be provided on the floor mat 13 and the pedal 15. Alternatively, the wireless power feeding unit 51, the detection switch 52, and the external communication unit 53 may be provided on the floor mat 13, the footrest 14, and the pedal 15.
  • the wireless power feeding unit 51, the detection switch 52, and the external communication unit 53 may be provided on the floor panel 11 or the floor carpet 12. In this case, the floor mat 13 can be omitted.
  • the configuration of the detection switch 52 is not limited to the push button switch.
  • the detection switch 52 may be a pressure sensitive switch such as a piezoelectric switch or a capacitance switch.
  • the electronic control device 56 may be provided in the navigation device 17 or the portable terminal 20.
  • the foot P1 of the occupant P is not limited to bare feet. That is, for example, socks or the like may be worn on the foot P1. In this case, for example, by providing an opening and / or a conductive part in socks or the like, or by selecting a material such as socks, biometric information including body temperature can be improved even when the socks are worn. It is possible to get.
  • crew P of this indication are not limited to blood circulation promotion and metabolism promotion. That is, for example, effects such as improvement of neck-shoulder arm syndrome (ie, stiff shoulders), lower back pain, improvement of metabolic syndrome, beauty improvement, physical condition management, etc. can be expected.
  • modified examples are not limited to the above examples. A plurality of modifications may be combined with each other. Furthermore, all or a part of the above-described embodiment and all or a part of the modified examples can be combined with each other.
  • the heating device (40) configured to heat the soles of the user includes: A heating member (41) configured to heat the sole by generating heat when energized in a use state opposite to the sole;
  • the heat generating member is configured to generate an output corresponding to biological information other than body temperature in the user by facing the skin of the user's foot in the use state facing the sole.
  • the heating member faces the sole in the use state.
  • the heat generating member generates heat by energization to heat the sole.
  • the living body sensor generates the output corresponding to the living body information by facing the skin of the user's foot in the use state. Thereby, it is possible to acquire the biological information different from the body temperature.
  • the acquired biological information can be used to control the energization state of the heat generating member. Therefore, according to such a configuration, an appropriate heating state can be realized in accordance with the biological information of the user.
  • the biological sensor includes a blood flow sensor.
  • the blood flow sensor generates an output corresponding to the blood flow state of the user. That is, the blood flow state of the user is acquired using the blood flow sensor.
  • the acquired blood flow state can be used to control the energization state of the heat generating member. Therefore, according to such a configuration, it is possible to realize an appropriate heating state in accordance with the blood flow state in the user.
  • the heating device includes a support (30) having a foot placement portion (34) facing the sole in the use state. It has. Moreover, in this warming device, the foot placement part has a low load part (35) corresponding to the arch and a high load part (36) corresponding to a part other than the arch.
  • the biosensor is fixedly supported on the support.
  • the heat generating member is fixedly supported by a portion corresponding to at least the toe portion in the high load portion.
  • the heat generating member faces at least the toe portion of the user's foot. Therefore, according to this structure, the terminal part of the blood flow in the said leg is heated favorably.
  • the biosensor in the warming device according to the third aspect, is fixedly supported by the foot placement unit.
  • the biological sensor generates an output corresponding to the biological information by facing the sole of the user in the use state. According to this configuration, the biological information can be easily obtained.
  • the heating apparatus includes a metabolic rate acquisition unit (451) and an energization control unit (454).
  • the metabolic rate acquisition unit is provided to acquire the metabolic rate of the user based on the biological information acquired from the output of the biological sensor.
  • the energization control unit is provided to control an energization state of the heat generating member based on the metabolic rate acquired by the metabolic rate acquisition unit.
  • the metabolic rate acquisition unit acquires the metabolic rate of the user based on the biological information acquired from the output of the biological sensor.
  • the energization control unit controls the energization state of the heat generating member based on the metabolic rate acquired by the metabolic rate acquisition unit. Therefore, according to such a configuration, an appropriate heating state in accordance with the metabolic amount of the user can be realized.
  • the heating device includes the temperature sensor (43) configured to generate an output corresponding to the temperature.
  • the energization control unit may be configured to use the temperature in the heat generation member based on the temperature acquired by the output of the temperature sensor and the metabolic rate acquired by the metabolic rate acquisition unit. It is provided to control the energization state.
  • the temperature sensor generates an output corresponding to the temperature, for example, a temperature related to the user's body temperature.
  • the energization control unit controls the energization state of the heat generating member based on the temperature acquired by the output of the temperature sensor and the metabolic rate acquired by the metabolic rate acquisition unit. Therefore, according to such a configuration, it is possible to realize an appropriate heating state in accordance with the metabolism amount of the user.
  • the temperature sensor is fixedly supported by the footrest.
  • the temperature sensor generates an output corresponding to the temperature of the sole by facing the sole in the use state. That is, the energization control unit, based on the temperature of the sole acquired by the output of the temperature sensor and the metabolic rate acquired by the metabolic rate acquisition unit, the energization state in the heat generating member To control. Therefore, according to this configuration, it is possible to realize an appropriate warming state in accordance with the temperature of the sole and the metabolic rate in the user.
  • the heating device transmits the information acquired or generated on the heating device side to the external device (20).
  • a communication unit (46) is provided.
  • the communication unit transmits the information acquired or generated on the heating device side to the external device. Accordingly, the external device can execute various processes based on the received information.
  • the external device receives the biological information acquired using the biological sensor, the metabolic amount acquired by the metabolic amount acquisition unit, and the like, and displays them to the user. It is possible. Alternatively, for example, the external device can acquire the metabolic rate or control the energized state based on the received biological information.
  • the communication unit includes a memory unit (47) for storing the information in a rewritable manner.
  • the memory unit stores the information acquired or generated on the heating device side in a rewritable manner. Therefore, according to such a configuration, even when a power interruption or the like occurs in the external device, the information can be satisfactorily transmitted to the external device after the power is restored.
  • the communication unit is fixedly supported by the low load unit. According to such a configuration, it is possible to satisfactorily suppress the occurrence of problems due to a high load applied to the communication unit in the use state.
  • This defect is, for example, a deterioration in wearing feeling. Or this malfunction is a failure of the element which comprises the said communication part, for example.
  • the energization control unit is fixedly supported by the low load unit. According to such a configuration, it is possible to satisfactorily suppress the occurrence of problems due to a high load applied to the energization control unit in the use state.
  • This defect is, for example, a deterioration in wearing feeling. Or this malfunction is a failure of the element which comprises the said electricity supply control part, for example.
  • the energization control unit matches the metabolic rate acquired by the metabolic rate acquisition unit with a target metabolic rate Therefore, it is provided to control the energization state of the heat generating member.
  • the energization control unit controls the energization state of the heat generating member so that the metabolic rate acquired by the metabolic rate acquisition unit matches the target metabolic rate. That is, in this configuration, the energization state of the heat generating member is controlled so that the metabolic rate of the user matches the target metabolic rate. Therefore, according to this structure, the metabolism promotion in the said user can be achieved favorably.
  • the heating apparatus includes a parameter acquisition unit (452) and a target value acquisition unit (453).
  • the parameter acquisition unit is provided to acquire a parameter related to the basal metabolic rate of the user.
  • the target value acquisition unit is provided to acquire the target metabolic rate based on the parameter acquired by the parameter acquisition unit.
  • the parameter acquisition unit acquires the parameter related to the basal metabolic rate of the user.
  • the target value acquisition unit acquires the target metabolic rate based on the parameters acquired by the parameter acquisition unit.
  • the energization control unit controls the energization state of the heat generating member so that the metabolic rate acquired by the metabolic rate acquisition unit matches the target metabolic rate.
  • the parameter is related to the basal metabolic rate of the user. Therefore, the target metabolic rate is a value related to the basal metabolic rate of the user.
  • the energized state of the heat generating member is controlled so that the metabolic rate at the user matches the target metabolic rate. Therefore, according to this configuration, the basal metabolic capacity of the user can be improved satisfactorily.
  • the parameter acquisition unit includes a camera (55) and / or a load sensor (54) provided in the vehicle (10). .
  • the parameter is acquired using the camera and / or the load sensor. Therefore, according to such a configuration, when the target metabolic rate is acquired, the input operation by the user can be omitted satisfactorily.
  • the heating device (40) configured to heat the soles of the passengers of the vehicle (10), which is a user,
  • a heating member (41) configured to heat the sole by generating heat when energized in a use state opposite to the sole;
  • the heat generating member is configured to generate an output corresponding to biological information other than body temperature in the user by facing the skin of the user's foot in the use state facing the sole.
  • the heat generating member faces the sole of the user who is the occupant of the vehicle.
  • the heat generating member generates heat by energization to heat the sole.
  • the biological information obtained using the biological sensor and different from the body temperature can be used to control the energization state of the heat generating member. Therefore, according to such a configuration, an appropriate heating state can be realized in accordance with the biological information of the user.
  • the heating device operates by being fed through the wireless power feeding unit provided on the vehicle side in the use state.
  • the wireless power feeding unit may include an induction coil provided to apply an induction current to the heat generating member.
  • the wireless power feeding unit may be configured to charge a secondary battery that supplies power to each part of the heating device including the heat generating member. According to such a configuration, an excellent wearing feeling and / or durability can be obtained by simplifying as much as possible the configuration on the side of the heating device facing the user's foot.
  • the user is the occupant of the vehicle. Specifically, at least one of the plurality of occupants in the vehicle may correspond to the user. That is, the user is not limited to the driver of the vehicle. Therefore, the user may be a passenger in a passenger seat in the vehicle, for example.
  • the biological sensor includes a blood flow sensor.
  • the blood flow sensor generates an output corresponding to the blood flow state of the user who is the occupant of the vehicle. That is, the blood flow state of the user is acquired using the blood flow sensor.
  • the acquired blood flow state can be used to control the energization state of the heat generating member. Therefore, according to this configuration, an appropriate warming state can be realized in accordance with the blood flow state of the user who is the occupant of the vehicle.
  • the heating device includes a support (30) having a foot placement portion (34) facing the sole in the use state. It has. Moreover, in this warming device, the foot placement part has a low load part (35) corresponding to the arch and a high load part (36) corresponding to a part other than the arch.
  • the biosensor is fixedly supported on the support.
  • the heat generating member is fixedly supported by a portion corresponding to at least the toe portion in the high load portion.
  • the heat generating member faces at least the toe portion of the user's foot. Therefore, according to this structure, the terminal part of the blood flow in the said leg of the said user who is the said passenger
  • the biosensor is fixedly supported by the footrest.
  • the biological sensor generates an output corresponding to the biological information by facing the sole of the user in the use state. According to this configuration, the biological information of the user who is the occupant of the vehicle can be easily obtained.
  • the heating device includes a metabolic rate acquisition unit (451) and an energization control unit (454).
  • the metabolic rate acquisition unit is provided to acquire the metabolic rate of the user based on the biological information acquired from the output of the biological sensor.
  • the energization control unit is provided to control an energization state of the heat generating member based on the metabolic rate acquired by the metabolic rate acquisition unit.
  • the metabolic rate acquisition unit may be provided in the vehicle, the support, or the external device (20). Specifically, for example, the metabolic rate acquisition unit may be provided in the low load unit in the foot placement unit.
  • the energization control unit may be provided in the vehicle, the support body, or the external device. Specifically, for example, the energization control unit may be provided in the low load portion of the foot placement unit.
  • the metabolic rate acquisition unit acquires the metabolic rate of the user based on the biological information acquired from the output of the biological sensor.
  • the energization control unit controls the energization state of the heat generating member based on the metabolic rate acquired by the metabolic rate acquisition unit. Therefore, according to this configuration, it is possible to realize an appropriate heating state in accordance with the metabolic rate of the user who is the occupant of the vehicle.
  • the heating device includes a temperature sensor (43) configured to generate an output corresponding to the temperature.
  • the energization control unit may be configured to use the temperature in the heat generation member based on the temperature acquired by the output of the temperature sensor and the metabolic rate acquired by the metabolic rate acquisition unit. It is provided to control the energization state.
  • the temperature sensor generates an output corresponding to the temperature, for example, a temperature related to the user's body temperature.
  • the energization control unit controls the energization state of the heat generating member based on the temperature acquired by the output of the temperature sensor and the metabolic rate acquired by the metabolic rate acquisition unit. Therefore, according to this configuration, it is possible to realize an appropriate heating state in accordance with the metabolic rate of the user who is the occupant of the vehicle.
  • the temperature sensor is fixedly supported by the footrest portion.
  • the temperature sensor generates an output corresponding to the temperature of the sole by facing the sole in the use state. That is, the energization control unit, based on the temperature of the sole acquired by the output of the temperature sensor and the metabolic rate acquired by the metabolic rate acquisition unit, the energization state in the heat generating member To control. Therefore, according to such a configuration, an appropriate warming state can be realized in accordance with the temperature of the sole and the metabolic rate in the user who is the occupant of the vehicle.
  • the heating device transmits the information acquired or generated on the heating device side to the vehicle or the external device (20).
  • a communication unit (46) is provided.
  • the communication unit transmits the information acquired or generated on the heating device side toward the vehicle or the external device.
  • the vehicle or the external device can execute various processes based on the received information.
  • the vehicle or the external device can receive the biometric information acquired using the biometric sensor and display it to the user who is the occupant of the vehicle. .
  • the vehicle or the external device can acquire the metabolic rate or control the energized state based on the received biological information.
  • the communication unit has a memory unit (47) for storing the information in a rewritable manner.
  • the memory unit stores the information acquired or generated on the heating device side in a rewritable manner. Therefore, according to such a configuration, even if a power interruption or the like occurs in the vehicle or the external device, the information can be satisfactorily transmitted to the vehicle or the external device after the power is restored.
  • the communication unit is fixedly supported by the low load unit. According to such a configuration, it is possible to satisfactorily suppress the occurrence of problems due to a high load applied to the communication unit in the use state.
  • This defect is, for example, a deterioration in wearing feeling. Or this malfunction is a failure of the element which comprises the said communication part, for example.
  • the energization control unit is fixedly supported by the low load unit. According to such a configuration, it is possible to satisfactorily suppress the occurrence of problems due to a high load applied to the energization control unit in the use state.
  • This defect is, for example, a deterioration in wearing feeling. Or this malfunction is a failure of the element which comprises the said electricity supply control part, for example.
  • the energization control unit matches the metabolic rate acquired by the metabolic rate acquisition unit with a target metabolic rate. Therefore, it is provided to control the energization state of the heat generating member.
  • the energization control unit controls the energization state of the heat generating member so that the metabolic rate acquired by the metabolic rate acquisition unit matches the target metabolic rate. That is, in this configuration, the energization state of the heat generating member is controlled so that the metabolic rate of the user matches the target metabolic rate. Therefore, according to this structure, the metabolism promotion in the said user who is the said passenger
  • the heating device includes a parameter acquisition unit (452) and a target value acquisition unit (453).
  • the parameter acquisition unit is provided to acquire a parameter related to the basal metabolic rate of the user.
  • the target value acquisition unit is provided to acquire the target metabolic rate based on the parameter acquired by the parameter acquisition unit.
  • the parameter acquisition unit may be provided in the vehicle, the support body, or the external device. Specifically, for example, the parameter acquisition unit may be provided in the low load portion of the foot placement unit.
  • the target value acquisition unit may be provided in the vehicle, the support body, or the external device. Specifically, for example, the target value acquisition unit can be provided in the low-load portion in the foot placement unit.
  • the parameter acquisition unit acquires the parameter related to the basal metabolism in the user who is the occupant of the vehicle.
  • the target value acquisition unit acquires the target metabolic rate based on the parameters acquired by the parameter acquisition unit.
  • the energization control unit controls the energization state of the heat generating member so that the metabolic rate acquired by the metabolic rate acquisition unit matches the target metabolic rate.
  • the parameter is related to the basal metabolic rate of the user. Therefore, the target metabolic rate is a value related to the basal metabolic rate of the user.
  • the energized state of the heat generating member is controlled so that the metabolic rate at the user matches the target metabolic rate. Therefore, according to this structure, the improvement of the basal metabolic capacity in the said user who is the said passenger
  • the parameter acquisition unit includes a camera (55) and / or a load sensor (54) provided in the vehicle.
  • the parameter is acquired using the camera and / or the load sensor. Therefore, according to such a configuration, when the target metabolic rate is acquired, the labor of the input operation by the user who is the occupant of the vehicle can be favorably omitted.

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  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Veterinary Medicine (AREA)
  • General Health & Medical Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • Biomedical Technology (AREA)
  • Vascular Medicine (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Thermal Sciences (AREA)
  • Epidemiology (AREA)
  • Pain & Pain Management (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Rehabilitation Therapy (AREA)
  • Devices For Medical Bathing And Washing (AREA)
  • Measuring And Recording Apparatus For Diagnosis (AREA)

Abstract

La présente invention concerne un dispositif de chauffage (40) conçu de façon à chauffer la semelle (P4) d'un occupant de véhicule (P) qui est un utilisateur. Plus particulièrement, le dispositif de chauffage comprend un élément de production de chaleur (41) et un capteur biologique (42). L'élément de production de chaleur chauffe la semelle par production la chaleur par passage d'un courant dans un état d'utilisation dans lequel l'élément de production de chaleur est en regard de la semelle. Dans ledit état d'utilisation dans lequel l'élément de production de chaleur est en regard de la semelle, le capteur biologique s'oppose à la peau du pied (P1) de l'occupant du véhicule qui est l'utilisateur et produit ainsi une sortie correspondant à des informations biologiques, autres que la température corporelle, de l'occupant du véhicule.
PCT/JP2018/016179 2017-05-29 2018-04-19 Dispositif de chauffage Ceased WO2018221061A1 (fr)

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JP2017105868A JP6708169B2 (ja) 2017-05-29 2017-05-29 加温装置
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KR102313079B1 (ko) * 2020-12-09 2021-10-15 정지오 통신 단말 제어 기반의 발바닥 지압 장치

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005144106A (ja) * 2003-11-18 2005-06-09 Soriton Syst:Kk 健康診断用の人体着用装置
WO2008006731A1 (fr) * 2006-07-13 2008-01-17 Insalp S.R.L. Dispositif chauffant pour articles chaussants, gants et analogues
JP2013505068A (ja) * 2009-09-16 2013-02-14 ボード・オブ・リージエンツ,ザ・ユニバーシテイ・オブ・テキサス・システム 哺乳動物の身体における体温変化
JP2014113449A (ja) * 2012-11-14 2014-06-26 Ryuji Shiozaki 足を保護する靴
WO2017022627A1 (fr) * 2015-08-06 2017-02-09 株式会社デンソー Dispositif de chauffage

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005144106A (ja) * 2003-11-18 2005-06-09 Soriton Syst:Kk 健康診断用の人体着用装置
WO2008006731A1 (fr) * 2006-07-13 2008-01-17 Insalp S.R.L. Dispositif chauffant pour articles chaussants, gants et analogues
JP2013505068A (ja) * 2009-09-16 2013-02-14 ボード・オブ・リージエンツ,ザ・ユニバーシテイ・オブ・テキサス・システム 哺乳動物の身体における体温変化
JP2014113449A (ja) * 2012-11-14 2014-06-26 Ryuji Shiozaki 足を保護する靴
WO2017022627A1 (fr) * 2015-08-06 2017-02-09 株式会社デンソー Dispositif de chauffage

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