`is a support (A}, and 77 is a support (B).
`
`SAshows a state in which the latch mechanismis locked, and FIG. SB shows a state in which the
`latch mechanism is opened.
`
`in PRG, SA, the leaf spring 74 is temporarily hookedan the latchclaw75, and the support (B)is
`restricted from entering the support (4) 76.
`
`irs this state, in PIG. SA, the interval befhween the first arm 3i and the second arm 32 Js limited
`from being widened.
`
`That is, itis difficult to drop off the biological information detection apparatus that once
`sandwiches the Hving beady.
`
`[6064]
`
`Here, as shown in FIG. 3B, when the laich release butten 72 is pressed, the leaf spring 74
`restrained by the coil spring 73 opens in the direction of the arrow and is released framthelatch
`paw! 75,
`
`Whentheleaf spring 74 is released framthe latch claw 75, the support (B}) 77 can enter the
`support (A) 76.
`
`In this state, in FIG. GA, the piterval between the firstarm 31 and the secend arm OF is widened.
`
`Thatis, it becomes easy to remove the biological information detection apparatus that once
`sandwichedthe living body.
`
`11-12-2079
`
`15
`
`901
`
`901
`
`
`
`As described above, the living bady information detecting apparatus of the present tuventioancan
`adjust the distance between the other ends of the pair of arms bythe distance variable
`mechanism provided On the support shalt, and does nat widen the distance between the other
`ends. Due to the fernporarily restricting latch, the sensar attached ta the arm can be kept im close
`contact with the living body, so it can be mounted in an appropriate position with an apprepriate
`contact pressure corresponding to the difference in individual bodyshape. Thus, the biclogical
`information can be detectedstably.
`
`jo066|
`{Embodiment 3) The biological information detection apparatus according to the present
`embodient is an adjustment screw for mounting a sensor of an adjustment screw for mounting
`a sensor in the above-described biclagical information detection apparatus. Each of the first arm
`and the second arm has a function of adjusting one or both ofthe distance between the surface
`of thefirst arm and the surfaceof the first arrn andthe distance between the surface of the
`
`sensar and the secand arm. Or both.
`
`(0067)
`
`FIG. 44 is a front view of a configuration example of the biological information detection
`apparatus of the present embodiment, and FIG. 4B is aplan view of the conliguration example of
`the biological informatian detection apparatus of the present embodiment.
`
`In PNG. 4 andthe following drawings, some names are not shown in order to avoid complexity of
`the drawing.
`
`In the configuration example of the biological information detection apparatus shown in FIGS. 4A
`and 48, the biological information detection apparatus includes an adjustment screw 42 on the
`first arm S37 and a senser 33 mounted on the adjustment screw 42. The case where the space |
`interval of the sensor 33 with which the adjustment screw 42 and the sensor 34 with which the
`gnd arm324 is equipped is adjusted is shawn.
`
`in addition, itis arbitrary to provide a rotatian mechanismanca latch mechanism.
`
`(0068)
`
`11-12-2079
`
`916
`
`902
`
`902
`
`
`
`As amechanismof the adjusting screw42, a mechanism foradpusting the position of the sensor
`33 by rotating the screw and adjusting a distance between the sensor 323 and the sensor 34, ara
`mechanismfor adjusting the position of the sensor 33 by frictian and fixing it with a fixing
`screw, May be used to adjust the distance between the sensor 33 and the sensor 34.
`
`[O069)
`As described above, when the biclogical information detecting device of the present embodiment
`is attached to the trague of the auricle, for example, the distance between the sensor 33 and the
`sensor 34 is adjusted by an adjustment screwin response to Individual differences in the shape
`of the tragus. The sensor 33 and the sensor 34 can be attached te the tragus with an appropriate
`contact pressure.
`
`[OO7O|
`in the following embodiments, an auricle tragus will be described as an example of the
`protrusions of the human auricle,
`
`[0071
`
`enneel
`
`(Embodiment 4) FIG. & shows an example of mounting the biological mlormation detection
`device to the auricle.
`
`in FIG. S, the biological information detection device is attached to the tragus 1 so.as to bein
`cantact with both sides, the sensor 35 provided in the first arm 31 is outside the tragus 1, and
`the sensor 44 provided in. the second arni 32 is the tragus 1. It is attached in contact with the
`inside.
`
`Since a part of the second arm 32 and the sensor 34 are inside the tragus 1, they are indicated
`by broker fines.
`
`[OO72)
`
`As described above, when the biological information detection device according to the present
`embatiment is worn on both sides of a part of the ving bady, for example, the tragus | of the
`
`11-12-2019
`
`47
`
`903
`
`903
`
`
`
`auricle, it detecis individual differences in the shape of the tragus 1. Then, the position af the
`sensor 35 and the sensor 34 can be adjusted by the distance variable mechaniam 40or the
`rotation mechanism 41, and the sensor 33 and the serisor 34 can be attached ta the appropriate
`position af the trasus |b inant appropriate contact state.
`
`In addition, it is arbitrary to provide a rotation mechanism and a latch mechanism,
`
`[0073
`
`(Embodiment 5) The biclagical information detection apparatus of this Embodiment is a case
`where the above-mentioned biological information detection apparatus is further provided with
`an ear hook that goes around the root of the auricle.
`
`PIG. GA shows a configuration exarnple of the biological information detection apparatus of the
`present embodiment, and FIG. GB shaws a mounting state of the configuration example af the
`biclogical information detection apparatus of the present embodiment on the auricle.
`
`in the case of the conliguration exainple of the biological inforniation detection apparatus shown
`in FIG GA. the first arm S17 is provided with an ear hook mechanism 45, and the ear hock,
`mechanism 46 is connected to the auricle as shawn in FIG. It has a mechanism that goes around
`the base of the ear ring 5 from the base, goes around the base of the pinna, and fixes the
`biological information detecting device te the pinna.
`
`The shape of the ear hook may be a ring shape along the pinna.
`
`Alternatively, a structure may be adopted in which the ring goes around along the base of the
`auricle and the ring is closed by a clasp.
`
`Further, the tightness of the closedring may be adjusted witha stopper.
`
`11-12-2079
`
`918
`
`904
`
`904
`
`
`
`[OO75)
`
`The material for the ear hock may be a plastic metal, solder alloy, zine alloy, brass, copper alloy,
`aluminum alloy, stainless steel, Ni alloy, tin alloy, or shape memory alloy.
`
`The resin system may be plastic, vinyl chloride resin, acrylic resin, ABS resin, MC nylon,
`flavroresin (PTFE), polycarbonate, pelypropylene, polyethylene silicane resin, polyurethaneresin,
`or natural rubber,
`
`Byselecting such a material, individual differences such as the size of the subject's pinna can he
`absorbed.
`
`(0076)
`
`Asdescribed above, the living body information detection apparatus of the present embodiment
`farther includes the ear hooking mechanism 46 that wraps around the base of the auricle and
`suspends it on the auricle, Deviation from the tragus position of the device duc to the above cari
`he prevented.
`
`For this reason, a biological information detection apparatus is stably fixed to the auricle, and
`biological information can be detected more stably.
`
`(0077)
`itis also pussible ta make the ear-hooking mechanismdetachable from the main body althe
`biological information apparatus and select an ear-hooking mechanism having a size suitable for
`the subject.
`
`(0078)
`(Embodiment 6} The living berly information detertion. device of this embodiment is the above-
`described living bodyinformation detection device, the cushion provided on the auricle side of
`the arn arranged on the auricle side of the pair ef arms, This is a case of further inchiding a
`magnet provided on at least one of the arm provided with a cushion and the ear hook, anda
`
`14-12-2079
`
`919
`
`905
`
`905
`
`
`
`muignet ora magnetic body provided on the ather.
`
`(0079)
`
`PIG. 7 ds.a dlagram showing astate in whichthe biological Information detecting device of the
`present embodiment is attachedto the auricle, and the auricle is a cross section by a herizantal
`plane in the vicinity af the tragus 1 viewed from above the head afthe living body. The livirig
`body Information collecting device is.a schematic view showing a state where the Hving body is
`2
`re
`<
`atiached to the living body as viewed from above the head of the living body, and a combination
`
`af both.
`
`in FIG, 7, the cushion 45 is disposed outside the second arm$2, the cushion 44 includes a
`magnet 47 at a pasition in cantact with the auricie, and the ear hooking mechanism 46is ina
`position in contact with the auricle on the backside of the auricle. Is provided with a magnet 48.
`
`[OGRO}
`The magnet 47 and the magnet 48 are on both sides of te pinion 4 of the auricle, and are
`installed with polarities in which a magnetic force acts on each other, The magnet 47 and the
`magnet 48 are fixed in. contact withthe auricle.
`
`[O08 1)
`
`As described above, by providing the cushion 45, even when the arm of the biclogical
`informationdetection device is formed af a hard material, i can be worn for a long time without
`causing pain to the subject.
`
`The living body information detection apparatus of the present embodiment further Includes a
`magnet that exerts a magnetic farce on the side where the cushion 45 comes into cantact with
`the auricle andthe side where the ear hooking mechanism 46 comes into contact with the
`auricle, and detects living bodyinformation. The apparatus can be more comfortably fixed to the
`auricle and biemetric infornation can be detected mare stably.
`
`[O082)
`
`11-12-2079
`
`20
`
`906
`
`906
`
`
`
`in FIG. 7, two miagnets 47 and 48 are used, but one may be a magnet and the ather may be a
`tragnietio body.
`
`Purther, the magnet 47 or the magnet 48 may be installed inside the cushion 45 or the ear hook
`mechanism 46, respectively.
`
`{OO83}
`As describedabove, the living bady information detecting device of the present embodinient is a
`small and light weight that can be attached to a living bead more comfortably at an appropriate
`pasition with an appropriate contact pressure corresponding te a difference in individual bady
`shape. Thus, it is possible to detect biolagical information more stably and continuously.
`
`[0084]
`(Embodiment. 7} In the biological information detection device of this embodiment, the main body
`
`right pinna of the human horly, and the pair of arms and the 1 This ts a case that further includes
`a bridge that connects the auricles to which the pair of arms are not mounted, and a pawer
`supply unit thatis arranged inthe middle ofthe bridge and drives the sensor.
`
`[O085)
`
`FIG. & shows a wearing state of the biological information detection apparatus of the present
`embodiment.
`
`in FIG, 8, 30is a biological information detectian apparatus, 80 is a bridge | bridging, 82 is a
`power supply part.
`
`in the configuration example of the biological information detection device shown in FIG. 8, the
`main body of the biological information detection device described aboveis attached to one of
`the left and right pinna of the human body, andthe pair of arms andthe pair of arms A power
`supply unit for driving the sensor is arranged on the bridge that connects the auricles to which
`the sensor is not attached via the hack of the haman bady.
`
`11-12-2079
`
`24
`
`907
`
`907
`
`
`
`in the case where the pair of arms is provided with a cull, a pump for supplying and exhausting
`the cul? together with the power supply unit may be disposed.
`
`(0088)
`
`‘The cross-linking material may be a plastic metal, solder alloy, zinc alloy, brass, copperalloy,
`aluminum alloy, stainless steel, Ni alloy, tin alloy, ar shape memory alley.
`
`The resin system may be plastic,vinyl chloride resin, acrylic resin, ABS resin, MC nylon,
`fuororesin (PTFE), polycarbonate, polypropylene, polyethylene silicane resin, or polyurethane
`resin,
`
`Byselecting such a material, individual differences such as the size of the subject's head can be
`absorbed.
`
`(0087)
`
`itp. also possible to make the bridge removable from the biological information device main
`bodyarel select a bridge having asize suitable for the subject.
`
`itis also possible to make the bridge stretchable so as to match the size of the subject's head.
`
`in FIG. 8. the bridge is routed through the back of the head, but may be routed throughthe tap of
`the head or under the chin.
`
`Byarranging the power stepply unit on the head, iis possible fo easily carry and manage the
`biological information detection apparatus.
`
`4-12-2019
`
`22
`
`908
`
`908
`
`
`
`in addition, by dispasing the pump on the head,becarnes easier to fix the pipe, and noise can
`be reduced when detecting biological information.
`
`(0089)&
`
`As described above, the biological information detection device can be stably attached to the
`auricles by providing a bridge across the leff and right auricles.
`
`Further, by making the pawer supply unit separate fromthe armside, the armside can be
`reduced,
`
`[O090}
`
`(Embodiment 8} The biological information detection apparatus according to the present
`embodiment is the same as the shove-lescribed biological information detection apparatus, as
`shownin FIGS, SA and OB, for example, id the sensor 33 shown in FIG. Instead, a support 57 is
`provided, a cuff 56 is providedinstead of the sensor 34, alight emitting element 61 and a light
`receiving element G2 are provided in the culf 5G, and the cuff 56 is previded with an air pipe 36
`for supplying air .
`
`Here, FIG. SB is an enlarged view of the support S7 and the caff $6 in a state where the
`biological informatian detecting device of FIG. QA is attached to the tragus 1, and to avaid the
`complexity atthe drawing. In addition, the light emitting element 61 and the light receiving
`element cuff 62 ave nat shawin the cuff 56 shown in FIG.
`
`By incorporating the light emitting element and the light receiving element as sensors into the
`cull, it is possible ta acquire hiclogical information on the living body part pressed bythe cuff.
`
`[ooo
`GAand 98, the support 57 is disposed on the first arm 31 and the cuff56 is disposed on the
`secand arm G2. However, the suppart 57is dispased on the second arm 32. The cul S56 may be
`
`14-12-2019923
`
`909
`
`909
`
`
`
`disposed on the first arm 31,
`
`[90921
`
`The light emitting element 61 and the light receiving element. 62 In the cufY S6 shawnin FIG. OB
`forma reflection type pulse wave detection systemte detect a pulse wave.
`
`in the processof detecting the pulse wave as describedabove, the blaod pressure can also be
`measuredby applying pressure to the tragus L with the cuff 56.
`
`(O09!
`{Embodiment 9} A biological information detection apparatus according to the present
`
`ane end of each of the pair of arms, and the support shaft A distance variable mechanism that
`adjuststhe distance between the ather ends of the pair of arms, and the other end. of at least one
`armof the pair of arms on the opposite side of the pair of arms. Anattached cuff that presses
`against the living borly, ancin a state whereair is exhausted from the cuff, an arm to which the
`cuff is attached or a frame surrounding the periphery of the cuff abuts on the living body, and air
`is applied to the cull. The cuffis in contact with thesurfaceofthe living body and presses the
`tragus.
`
`[6094
`
`FIG, 10 shows a configuration example of the biological information detection apparatus of the
`present embodiment.
`
`In PIG. 10.1] is a tragus, 31 is a first arm, 32 is a second arm, 35 is a support shaft, 55 is a cuff,
`and S6 is a cuff. In FIG. 10, a cuff 55 is disposed inside the tip of the first army 31 that has an
`arcuate or bow! shape. Rather than pinching the tragus 1 with the cdf 55, the binlogical
`information detecting device is fixed at the position ofthe tragus surface at the tip of the arm
`around the culf 55, and the cuff 45 is supplied with theair te the cuff 45 for the first time: A
`pressure is appliedto the tragus | in contact with the surface of1.
`
`11-12-2019
`
`24
`
`910
`
`910
`
`
`
`(0095)
`
`With such a configuration, when thecuffis being exhausted, the cuff surface does not com: inte
`contact with the tragus surface, so that it is possible to prevent pressure from being applied to a
`site where biological infurmation is actually obtained. For this reason, it is passihle to remove the
`measurement error factor due to the pressure applied ta the surface of the tragus rather than
`bringing the culfitself inte contact with the tragus from the beginning and fixing the bicalogical
`information detection device.
`
`(0096)
`
`in FIG, 10, the cuff $5 is disposed on the first arm31 andthecuff 56is disposed on the second
`arm 32, but the same configuration may be adopted even when thecuff is dispased on only ane
`atrn. H can. Moreaver, in FIG. 10. although the front-end | tip part of the Istarm 31 or the 2nd
`arm 32 has become bow shape er bow! shape. it is sot limitedto these shapes. In is sufficient that
`the insideof the cylindrical shape. the square cylindrical shape, the cone shape, or the lke is
`hallow. The armitselfis notlimited to such a shape. A frame surrounding the culf maybe
`attached to the arm,
`
`(0097)
`As described above, the arm to which the culf is attached abuts the tragus when air is exhausted
`from the coff, and the cuff contacts the tragus surface while air is supplied to the cuff. By using a
`living badyinformation detection device that cornpresses the tragus. it is possible to eliminate a
`theasuremert error factot due ta pressure applied to the cuff.
`
`[0098]
`(Embodiment 10) A biological information detection apparatus according to the present
`embodiment inchides a pair of opposed arms, a spindle that connects the pair of arms at one end
`of the pair of arms, and the spindle A distance variable mechanism that adjusts the distance
`between the other ends of the pair of arnis, and the other end of at least one arm of the pair of
`arms on the apposite side of the pair af arms, And a cullfor pressing the living body, and at least
`the culf is detachable from an arm to which the culf is attached.
`
`(0099)
`
`11-12-2079
`
`925
`
`911
`
`911
`
`
`
`FIG. LA is a front view of a configuration example of the biological information detection
`apparatus of this embadintent, and FIG. 11B is a plan viewof the conliguration example of the
`biological information detection apparatus of the present invention,
`
`LiAand LIB. Ai is a first arm, 35 is a cuff, are] 86 is a-sealing material.
`
`in FRG 11 (A) and FIG. 11 (8), the cuff canbe exchanged by extracting the armtip provider] with
`the culf 55 in the direction ofthe arrow, In the configuration example ofthe bialegical
`information detection apparatus shown in FIGS, L1A and 118, the arm tip and the arm body are
`made of rubber so that there is no air leakage from the pipe that supplies and exhausts air to the
`cuff 55, It is necessary to install a scaling material 86 such as packing orsilicon.
`
`f(OL00Seemed,
`
`FIG, 124 is a front viewof another configuration example of the biological information detection
`
`apparatus of this embodiment, and F
`IG. 128 isa plan viewof another configuration example of
`the biological information detection apparatus of the present invention. 12A and 12B, Slisa
`first arin, 33 is a semor, 55 is a-cufl,arul 86 is a sealing material In FIG. 1ZAand Fb. 1 2B, the
`cuff can be exchanged by extracting the arm tip provided with the cuff 55 in the directian of the
`arrow. Inthe case of the configuration example of the biological information detection apparatus
`shows in FIGS. 12A and 128, the cuff $8 inchides the sensor 33 inside, and thus air fs supplied to
`the cuff 55 including the support base of the sensor 33. It is necessary to attacha sealing
`material 86 such as rubber packing or silicon belween the arm dp and the arm bady so that
`there is no air leakage from the exhaust pipe.
`
`[O101)
`
`The cuff and support mechanism that touches the tragus are easily solled by wax, sebum, etc,
`and is subject to wear, so the caff can be easily removed from the arm by cleanine the cuff. Or
`replacing it can prevent cul? leakage andreduced permeability. In addition, disposing the cuff
`and the support mechanism has an advantage that hygiene management becomes easy.
`
`io102|
`
`T1-1e-2019
`
`26
`
`912
`
`912
`
`
`
`{Embodiment 11) A living body information detection apparatus according to an embadiment af
`the present invention includes a pair of opposed arros, a support shaft that connects the pair of
`arms at each end of the pair of arms, and the suppart shaft A distance variable mechanismthat
`adjusts the distance between the ofher ends of the pair of arms, and the other endof at least one
`arm of the pair of arms on the oppasite side of the pair of arms. And a cuff that presses. against
`the living body, and at least ane of the cuffs can change a direction in contact with the living
`body.
`
`10103)
`
`FIG. 13 shows a configuration example of the biological information detection apparatus of this
`embadinient,
`
`In FIG. 13, 41isa first arm, 35 is a support shaft, 55 ts a cuff, 56 is a cuff, and 88 is a culf
`rotation mechanism. in FIG. 13, the cuff 45 has a cuff rotation mechanism $8 that can change
`the direction in which the cuff'55 contacts the tragus. If the first arm 31 is an arm arranged
`ouiside the tragus, the cuff 55 comes into contact with the outside ofthe iragns.
`
`(O104]
`Since the cuff 35 that contacts the outside of the tragus has a degree of freedomof rotation, if
`the distance between the cuffs is adjusted ta a length that matches the tragus shape of the
`subject, the angle of the culfis strictly Even iit does not adjust, since the rotation angle of the
`cuff SS is determined with respect to the tragus so as to followthe tragus shape, the case of
`wearing is improved,
`
`[0105]
`The cuffrotation mechanism 88 may have a structure that can change the directionof contact
`withthe tragus within one plane, butif the structure that can change the direction of contact
`withthe tragus within two planes, the cull contacts the tragus. Making it eveneasier.
`
`[0106
`in FIG. 13, only the caff $5 disposed on the first arm 31 has a structure capable of changing the
`direction, but only the cuff 56 disposed on the secondarm 32 has a structure capable of
`changing the direction. Alternatively, boththe cuff $5 and the cuff 56 may haveastructure
`capable of changing the direction.
`
`1-12-2019
`
`27
`
`913
`
`913
`
`
`
`[O107poms
`
`As descrihedabove, by providing the cull disposed on the arm with a structure that can change
`the direction, itis easy fo attach the biological information detecting device to the tragus.
`
`lo particular, since the ouffS5 that contacts the outside of the tragus has a degree of freedomof
`rotation, if the distance between the cuffs is adjusted to a length that matches the tragus shape of
`the subject, the angle of the cuff can be adjusted. Even if it is not strictly adjusted, it becames
`easyto attachto the tragus.
`
`[OLOR)
`{Embodiment 12) A biological information detection apparatus according to the present
`embodiment includes a pair of opposedarms, a support shaft that connects the pair of arms at
`each end of the pair of arms, and the support shaft A distance variable mechanism that adjusts
`the distance between the other ends of the pair of arms, and the other endof at least one armaf
`the pair of arms on the oppositeside of the pair of arnes. And a cuff that presses against the
`living body, and at least one of the cuffs can slide in a longitudinal direction of an arm to which
`the cult is attached.
`
`[OLO9}
`if che first arm 31 is an arni arranged outside the tragus, the cuff 55 cames into contact with the
`outside ofthetragus.
`
`[O110}
`
`PIG. 14 shows4 configuration example of the biciogical information detection apparatus
`according to the present embodiment.
`
`in FIG. 14, 37 is a first arm, 35 is a support shaft, 55 is a cuff, 56 is a caff, and 90 fs a cuff slide
`mechanism.
`
`11-12-2019
`
`28
`
`914
`
`914
`
`
`
`In FIG. 14. the cuff 55 has a cuff slide mechanism 90 that canslide in the long axis direction of
`the first arm 31, and by changing the position of the cuff 55, the cuff 55 can be brought inte
`contact with the Gagus in an optimal position..
`
`(O1t 1]
`
`As. shown in FIG. 14. avhena spring for pulling the aulf 55 to the tip ofthe first arm31 is
`provided, the cuff 55 settles at a stable point when the cuff 55 comes inte contact with the
`tragus.
`
`Further, a spring that extends to press the culf 55 apainstthetip of the first arm O17 may be used.
`
`fO112)
`Further, in FIG, 14, only the cuff 55 is configured to slide, but only the cuff 56 that contacts the
`inside of the tragus maybe configured to slide, or boththe cuff $5 andthe calf 56 may be
`configured to slide. You may comprise so that H mayslide.
`
`{OLLI
`fn FRG. 14, the cuff 55 is merely slid in the langitudinal direction of the first arm. However, if the
`structure in which the direction of contact with the tragus of the cuff 45 can be changed, the cuff
`becomes an optimal part of the tragus. Tt makes if easier to abut.
`
`(O11 4)
`As described above, the distance between the other ends of the pair of arms can be adjusted by
`the distance variable mechanism provided on the support shaft of theliving bodyinformation
`detection apparatus, and the cull is slid io he arranged ai the optimmmposition on the living
`body. be able to,
`
`[O113)
`
`{Embodiment 13} A living body information detection apparatus according to the present
`embatiment includes an ear haok for suspending a body of a living body information detection
`
`11-12-2019
`
`29
`
`915
`
`915
`
`
`
`apparatus mounted on a hurnan auricle at a roat of a humanear, and the ear hook. Anda power
`supply unit for driving the sensor on the head side behind the auricle.
`
`Furthermore, a pump for supplying and exhausting air te che calf may be provided.
`
`[O11]
`
`FIG. 15 showsa wearing state of the biclagical information detection apparatus of the present
`embodirent.
`
`in the configuration example of the biological information detection apparatus shown in FUG. 15,
`a power supply unit (not shown} for driving the sensor and a pump 84 for supplying and
`exhausting a cuff (not shown) are arranged in the ear hook mechanism46.
`
`Further, switches $3 may be arranged,
`
`(OL1L7)
`
`The material and structure of the crosslinking are the same as those described above.
`
`Byarranging the power supply unit in the ear hooking mechanism, it is possible to easily carry
`and manage the biological information detection device. By placing the power sapply unit on the
`ear hook, the burden on the arm can be reduced, and noise due to wiring vibration can be
`reduced, In addition, by disposing the pump on the head, it becomes easierto fix the pipe. and
`noise can be reduced when detecting biglagical infarmation.
`
`[O1L8}
`The biological information detection apparatus according fo the presentinvention can be used
`for blood pressure measurement, pulse wave measurement, and blood flow measurement for
`health and beauty.
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`1-12-2019
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`{A} is a front viewof the structural example of the biological information detection apparatus of
`this Embodiment, {(B} shows the top viewof the structural example of the biclagical information
`detection apparatus of this iuventian,
`
`fA} is a front viewofthe structural example of the biological information detection apparatus of
`this Embodiment, (B} shows the top view of thestructural example of the biological information
`detection apparatus of this invention. it is a Neure explaining the latch mechanism with which
`the biometric information detection apparatus of this Embodiment is provided. (A) is a front view
`of the structural example ofthe biological information detection apparatusof this Embodiment.
`{B) shows the top viewof the structural example of the biolagical information detection
`apparatus of this invention. It is a figure explaining the example of mounting | wearing with the
`pinna of the biometric information detection apparatus of this Embodiment (A} shows a
`configuration example of the biological information detection device of the present embodiment,
`and {B) shows a mounting state of the configuration example of the bialogical information
`detection device af the present embodiment on the auricle. [tis.a figure which shows the state
`which mounted | worn the biological information detection apparatus of this Embodimentto the
`said pinna. itis a figure which shows the mounting state of the biometric information detection
`apparatus of this Embodiment. (A) shows the example of a structure of the biometric information
`deteciion apparatus of this Embodiment, (8) is an enlarged view of the suppart body and the cnif
`part of the state which mounted | ware the fragus with the biometric information detection
`apparatus of (A)... [cis a figure which shows the structural example of the Mometric information
`detection apparatus of this Embodiment. (A) is a front viewof a configuration exampleof the
`biological information detection apparatus ofthe present embodiment, and (B) is a plan viewof a
`configuration example of the biological information detection apparatus ofthe present invention.
`(A) is a front viewof a configuration examples of the biological information detection apparatus of
`the present embodiment, and (8) is a plan view of a configuration example of the biological
`information detection apparatus of the present invention. It is a figute which shows the structural
`example of the biometric informationdetection apparatus of this Embodiment. It is a figure
`which shows the structural example ofthe biometric information detection apparatus of this
`Embadiment. 1is a igure which shows the mounting state af the biometric information detection
`apparatus ofthis Embodiment It is a figure explaining the name of each part of anauricle.
`
`Explanation af symbols
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`DESCRIPTION OF SYMBOLS 1 Tragus 2 Pair of beads 3 Ear concha 4 Pair of rings 5 Ear ring 6
`Pair af wheels 7 Ring ring & Rar cancha cavity 30 Biological information detection device 31 Ist
`arm 32 2nd arm 33 Sensor 34 Sensor 35 Suppart shaft 36 Air pipe 37 Signal line 46 Distance
`variable mechanism 41 Rotating mechanism 42 Adjustment screw 45 Custion 46 Ear hook
`mechanism 47 Magnet 48 Magnet 55 Cuff S6 Cuff 57 Support body 61 Light emitting element
`62Lightreceiving element 7Q Spring 71 Latch mechanism 72 Latch release bution 7S Cail
`spring 74 Leaf spring 75 Latch tab 76 Support bady (4) 77 Support borly (B} 8O Bridge: 82
`Power supply unit 82 Switches 84 Pump 86 Sealing material 88 Cull rotation mechanism SO
`Guslide mechanism
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