JP2018175831A - Arrangement structure of biological sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an arrangement structure of a biological sensor for correctly and easily detecting biological information.SOLUTION: A seat 10 on which a person is seated is provided with non-contact type biological sensors 1, 2 for detecting biological information by an electromagnetic wave, and the biological sensors 1, 2 are arranged in the seat 10 at positions that avoid members A1, A2, A3 (22, 32) for preventing the passage of an electromagnetic wave among members constituting the seat 10. Thus, the members A1, A2, A3 (22, 32) for preventing the passage of an electromagnetic wave hardly prevent the irradiation of the electromagnetic wave by the biological sensors 1, 2 so that biological information can be correctly and easily detected.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an arrangement structure of a biosensor.

  When the driver's condition of driving the vehicle is deteriorated, there is a possibility that the driving of the vehicle may be adversely affected. Therefore, it is desirable to detect the deterioration of the condition in advance and take some measures. As such measures, biological information such as blood flow and blood pressure is estimated based on measurement results of pulse waves and the like by non-contact type blood flow sensors provided so as to be embedded in the seat and back of the seat There is known a technology for grasping a driver's health condition (see Patent Document 1).

JP, 2016-168177, A

  By the way, although the noncontact type which irradiates electromagnetic waves to a living body and detects living body information from the reflected wave from a living body is known as a living body sensor, the electromagnetic waves irradiated toward the living body are, for example, It is difficult to pass through various metals including iron, copper and aluminum. Therefore, the electromagnetic wave irradiated from the living body sensor provided in the sheet may be disturbed by the metal part incorporated in the sheet, and it may be difficult to detect living body information correctly.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide an arrangement structure of a biological sensor which can easily detect biological information.

In order to solve the above problems, the invention according to claim 1 is provided with a non-contact type biometric sensor for detecting a person's biometric information by an electromagnetic wave on a seat on which a person sits.
The living body sensor is disposed on the sheet at a position avoiding a member that blocks the passage of an electromagnetic wave among members constituting the sheet.

The invention according to claim 2 is the arrangement structure of the biosensor according to claim 1,
The seat is characterized in that it is provided in a vehicle capable of traveling by switching between automatic driving and manual driving.

The invention according to claim 3 is the arrangement structure of the biosensor according to claim 1 or 2.
The living body sensor is characterized in that the irradiation center of the electromagnetic wave emitted from the living body sensor is disposed at a position avoiding the member in the sheet.

The invention according to claim 4 is the arrangement structure of the biosensor according to claim 1 or 2,
The living body sensor is disposed at a position where the member does not enter within the irradiation range of the electromagnetic wave irradiated from the living body sensor in the sheet.

The invention according to claim 5 is the arrangement structure of the biosensor according to any one of claims 1 to 4,
The biological sensor is characterized in that the sheet is disposed at a position closer to a person than the member.

In the invention according to claim 6, in the arrangement structure of the biosensor according to claim 5,
An installation plate made of resin is attached to the member so as to be disposed at a position closer to a person than the member, and the biosensor is disposed on the installation plate. Do.

The invention according to claim 7 is the arrangement structure of the biosensor according to any one of claims 1 to 4,
An opening is formed in the member,
The living body sensor is disposed at a position farther from a person than the member in the sheet and is disposed corresponding to the position of the opening.

The invention according to claim 8 is the arrangement structure of a biosensor according to any one of claims 1 to 7,
The members are disposed within the sheet so as to have a difference in density and density.
The living body sensor is characterized in that the living body sensor is disposed at a place where the density of the member is low.

The invention according to claim 9 is the arrangement structure of a biosensor according to any one of claims 1 to 8,
The seat comprises a cushioning pad covered by a skin,
The cushion pad is characterized in that a part of the cushion pad is configured to be removable, and a recess that accommodates the biological sensor at a position corresponding to the part.

The invention according to claim 10 is the arrangement structure of a biosensor according to any one of claims 1 to 8,
The seat comprises a cushioning pad covered by a skin,
The cushion pad may be formed in a state in which the living body sensor is embedded.

The invention according to claim 11 is the arrangement structure of a biosensor according to any one of claims 1 to 10,
The living body sensors are characterized in that they are disposed apart from each other at at least two places in the sheet.

The invention according to claim 12 is the arrangement structure of a biosensor according to claim 11.
The seat includes a seat cushion that supports the buttocks and thighs of a person, and a seat back whose lower end is supported by the seat cushion.
The biological sensor is provided on both the seat cushion and the seat back.

The invention described in claim 13 is the arrangement structure of the biosensor according to claim 12.
The living body sensor provided on the seat back may be disposed corresponding to a position of a human heart.

The invention according to claim 14 is the arrangement structure of a biosensor according to claim 12 or 13.
The living body sensor provided on the seat cushion may be disposed to correspond to the central part of the left and right ischia in the buttocks of a person.

The invention according to claim 15 is the arrangement structure of a biosensor according to any one of claims 12 to 14:
The living body sensor provided on the seat cushion may be disposed corresponding to the position of the thigh.

  According to the first aspect of the present invention, since the biological sensor is disposed at a position avoiding a member that blocks the passage of the electromagnetic wave among the members constituting the sheet, the biometric sensor blocks the passage of the electromagnetic wave. The member hardly interferes with the irradiation of the electromagnetic wave by the biological sensor, and the biological information can be easily detected accurately.

  According to the second aspect of the present invention, since the seat is provided in a vehicle capable of traveling by switching between automatic driving and manual driving, it is possible to detect the biological information of the driver sitting on the seat. Thereby, for example, when the driver's health condition is deteriorated, this can be detected in advance, so that the safety during automatic driving or manual driving can be improved.

  According to the third aspect of the present invention, since the biosensor is disposed at a position at which the radiation center of the electromagnetic wave emitted from the biosensor in the sheet avoids the member that blocks the passage of the electromagnetic wave, It becomes possible to detect biological information by the biological sensor while being affected by a member that obstructs passage.

  According to the invention as set forth in claim 4, since the biological sensor is disposed at a position where the member does not enter the irradiation range of the electromagnetic wave irradiated from the biological sensor in the sheet, the member which obstructs the passage of the electromagnetic wave It becomes possible to detect biological information by the biological sensor without being affected by the

  According to the fifth aspect of the present invention, since the biological sensor is disposed at a position closer to a person than the member that blocks the passage of the electromagnetic wave, the biological sensor is affected by the member that blocks the passage of the electromagnetic wave. It becomes difficult.

  According to the invention as set forth in claim 6, the bio-sensor is disposed on the resin mounting plate attached so as to be disposed at a position closer to a person than the member to the member blocking the passage of the electromagnetic wave. Therefore, even if the biological sensor is disposed in the vicinity of the member that blocks the passage of the electromagnetic wave, it becomes less susceptible to the member that blocks the passage of the electromagnetic wave.

  According to the seventh aspect of the present invention, the living body sensor is at a position farther from the person than the member that blocks the passage of the electromagnetic wave and is an opening formed in the member that blocks the passage of the electromagnetic wave. Therefore, even if the biosensor is placed at a position farther from the person than the member that blocks the passage of the electromagnetic wave, the biological sensor is affected by the member that blocks the passage of the electromagnetic wave. It becomes difficult.

  According to the invention as set forth in claim 8, the member that impedes the passage of the electromagnetic wave is disposed inside the sheet so as to have a difference in density, and the density of the member at which the biological sensor impedes the passage of the electromagnetic wave. Since it is disposed at a rough location, it becomes less susceptible to the influence of the component that impedes the passage of electromagnetic waves than when it is disposed at a location where the density of members that impede the passage of electromagnetic waves is high.

  According to the invention as set forth in claim 9, the cushion pad in the seat is configured such that a part of the cushion pad can be removed, and the recess corresponding to the part is provided with the recess for accommodating the biosensor. Because of this, it is possible to secure a space for placing the biosensor in the sheet.

  According to the invention as set forth in claim 10, since the cushion pad in the seat is formed in the state in which the biosensor is embedded, the sheet installation operation can be performed in the state in which the biosensor is embedded in the cushion pad. You will be able to do it and it will be efficient.

  According to the invention as set forth in claim 11, since the biosensors are disposed at least at two places in the sheet, being separated from each other, it is possible to detect the bio-information from at least two places of the human body. Thereby, the precision in the case of calculating a person's health condition from the detected biometric information can be raised.

  According to the twelfth aspect of the present invention, since the biological sensor is provided on both the seat cushion and the seat back, the biological information on the upper body side and the lower body side of the human body can be detected. Thereby, the precision in the case of calculating a person's health condition from the detected biometric information can be raised.

  According to the invention as set forth in claim 13, since the biosensor provided on the seat back is disposed corresponding to the position of the human heart, it is possible to grasp the blood flow state of the thoracic aorta. Therefore, for example, biological information can be detected more easily than when biological information is detected using a thin blood vessel having a small blood flow rate.

  According to the invention as set forth in claim 14, since the biosensor provided on the seat cushion is disposed corresponding to the central part of the left and right ischia in the buttocks of the person, the biosensor is placed in a position where the ischius does not hit. It can be arranged and does not impair the comfort when sitting on the seat.

  According to the invention as set forth in claim 15, since the biological sensor provided on the seat cushion is disposed corresponding to the position of the thigh, the blood flow state of the popliteal artery can be grasped. Therefore, for example, biological information can be detected more easily than when biological information is detected using a thin blood vessel having a small blood flow rate.

It is a perspective view which shows the sheet | seat in which the sheet | seat heater was incorporated. It is a top view which shows the structure of a seat cushion. It is a front view showing composition of a seat back. It is a figure explaining the electromagnetic wave and the physical relationship of the member which disturbs this. It is a perspective view showing a seat in which a spring member was built in a seat cushion. It is a top view which shows a spring member. It is sectional drawing of the seat cushion in which the spring member was incorporated. It is a perspective view showing a sheet provided with a lumbar support device.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, although various limitations preferable for carrying out the present invention are given to the embodiments described below, the technical scope of the present invention is limited to the following embodiments and the illustrated example. Absent.

  Reference numeral 10 in FIG. 1 denotes a seat on which a person is seated. The seat 10 is provided in a vehicle such as a car, and in the present embodiment, it is assumed that the seat 10 is provided in a vehicle capable of traveling by switching between automatic driving and manual driving.

  The seat 10 includes a seat cushion 11 for supporting the buttocks and thighs of a person, a seat back 14 whose lower end is supported by the seat cushion 11 to be a backrest, and a seat back 14 for supporting a person's head And a head rest 17.

The seat cushion 11 mainly includes a seat cushion frame serving as a skeleton, a cushion pad 12 provided on the seat cushion frame, and a skin 13 covering the seat cushion frame and the cushion pad 12 (FIG. 2) reference).
The seat cushion 11 of the present embodiment further includes a seat heater 20 provided between the cushion pad 12 and the skin 13.

  An elongated groove 12 a is formed on the upper surface of the cushion pad 12 in the left-right direction of the seat 10. Two grooves 12 a are provided on the upper surface of the cushion pad 12 so as to divide the upper surface of the cushion pad 12 in the front-rear direction. That is, the upper surface of the cushion pad 12 is divided into the front side, the center side, and the rear side.

The seat back 14 mainly includes a seat back frame as a skeleton, a cushion pad 15 provided on the seat back frame, and a skin 16 covering the seat back frame and the cushion pad 15 (FIG. 3). reference).
The seat back 14 of the present embodiment further includes a seat heater 30 provided between the cushion pad 15 and the skin 16.

  A long groove 15 a is formed on the front surface of the cushion pad 15 in the left-right direction of the seat 10. Two grooves 15 a are provided on the front surface of the cushion pad 15 so as to divide the front surface of the cushion pad 15 in the vertical direction. That is, the upper surface of the cushion pad 15 is divided into the upper side, the center side, and the lower side.

  The seat heater 20 in the seat cushion 11 is a planar heating element for warming the seat cushion 11. As shown in FIG. 2, the sheet heater 20 is adhesively fixed to a planar base 21 made of a cloth material of polyester or the like. And a metal heater wire 22 (also referred to as a heating wire).

The heater wire 22 is adhesively fixed on the base material 21, and as shown in FIG. 2, the two heater wires 22 from the rear of the seat cushion 11 meander in a substantially parallel direction toward the front, Are linked at
In addition, although the heater wire 22 of this embodiment meanders substantially parallel to the front-back direction and is fixed on the base material 21, even if it is not limited to this, even if it changes arrangement | positioning of the heater wire 22 suitably good. Further, although the heater wire 22 is fixed on the substrate 21 by an adhesive, the heater wire 22 may be fixed so as to be folded inside the substrate 21.

  As shown in FIG. 2, the heater wire 22 is located in the front heater wire 22 a located in the front section of the upper surface of the cushion pad 12, the central heater wire 22 b located in the center section, and the rear section The rear heater wire 22c, the front heater wire 22a, the central heater wire 22b, and the rear heater wire 22c are connected to each other, and the groove heater wire 23 is inserted into the groove 12a.

Similarly, the seat heater 30 in the seat back 14 is mainly composed of a base 31 and a heater wire 32.
Further, as shown in FIG. 3, the heater wire 32 is divided into an upper heater wire 32 a located in the upper section of the front surface of the cushion pad 15, a central heater wire 32 b located in the central section, and a lower section. The lower heater wire 32c located there is connected to the upper heater wire 32a, the central heater wire 32b, and the lower heater wire 32c, and the groove heater wire 33 is inserted into the groove 15a.

Such a seat 10 is provided on a vehicle capable of traveling by switching between automatic operation and manual operation as described above, and therefore, a form suitable for manual operation and a form not suitable for manual operation It is configured to be changeable.
Since the driver can also be in a relaxed state during automatic driving, the seat 10 is also changed to a form not suitable for manual driving. For example, the seat 10 in automatic driving can be repositioned toward the rear seat side or changed to a flat state.

In addition, although such a vehicle is not shown, the operation control unit that switches between automatic driving and manual driving, the above-described seat 10 that can be changed into a plurality of modes, and the operation of the seat 10 when changing the mode And a sheet control unit to control.
The driving control unit performs control to switch from automatic driving to manual driving, for example, when moving a vehicle from an expressway to a general road, or when approaching a road having a complicated shape. In such a case, if an abnormality occurs in the driver's health condition, it is not preferable to be forced to switch to the manual operation. Also, conversely, if the driver's health condition deteriorates during manual driving, it is conceivable to switch from manual driving to automatic driving, and in the above case it is necessary to grasp the health condition in advance There is.

  Therefore, as shown in FIG. 2 and FIG. 3, the biosensors 1 and 2 are provided on the seat 10 as means for grasping the driver's health condition. The biological sensors 1 and 2 in this embodiment are, for example, for measuring the blood flow state of a person who is a person to be measured, and may measure the blood flow at a position opposite to the skin surface of the measurement area. it can.

The biological sensors 1 and 2 according to the present embodiment are noncontact types that detect human biological information by electromagnetic waves, and are connected to the operation control unit so as to be capable of data communication.
The operation control unit switches between the automatic operation and the manual operation based on the data relating to the biological information transmitted from the biological sensors 1 and 2, and the sheet control unit appropriately changes the form of the sheet 10.

As described above, the biological sensors 1 and 2 in the present embodiment detect human biological information by electromagnetic waves.
Here, the term "electromagnetic wave" refers to electromagnetic waves in a broad sense including radio waves and microwaves of about 100 MHz, infrared light, visible light, ultraviolet light, X-rays and the like, and is preferably within a range that does not adversely affect the human body. Electromagnetic waves are used.
Such electromagnetic waves are characterized in that they do not easily pass through various metals such as iron, copper, aluminum and the like. Therefore, as shown in FIG. 4, the biological sensors 1 and 2 in the present embodiment are disposed at positions away from the sheet 10 with respect to the members A1 and A2 that may (possibly) block the passage of electromagnetic waves.

In the example illustrated in FIG. 4, the biosensor 1 provided on the seat cushion 11 is disposed at a position where the member A1 does not enter the irradiation range R of the electromagnetic wave emitted from the biosensor 1 in the sheet 10.
That is, in the case where the biosensor 1 is provided on the sheet 10, the fact that the interfering member A1 does not fall within the irradiation range R of the electromagnetic wave emitted from the biosensor 1 can be used to accurately detect the biological information. It becomes one condition.

In the example shown in FIG. 4, the biosensor 2 provided on the seat back 14 is disposed at a position on the sheet 10 where the irradiation center C of the electromagnetic wave emitted from the biosensor 2 avoids the member A2.
That is, when the biological sensor 2 is provided on the sheet 10, the irradiation center C of the electromagnetic wave emitted from the biological sensor 2 may be within the irradiation range R as long as it avoids the interfering member A2. Absent. This point is also one of the conditions for making it easy to detect biological information.

In the example illustrated in FIG. 4, the biological sensor 1 is disposed at a position closer to a person than the member A3 that blocks the passage of electromagnetic waves. That is, it is preferable that the biological sensors 1 and 2 are disposed at a position closer to a person than the member (for example, the member A3) which blocks the passage of the electromagnetic wave in the sheet 10.
As in the above-mentioned obstructing members A1 and A2, even if they are arranged closer to a person than the biosensors 1 and 2, biological information can be detected, but the members A1 and A2 obstructing the biosensors 1 and 2 It is desirable to be placed closer to a person than A2 because it is naturally less likely to be disturbed by electromagnetic waves. This point is also one condition for detecting biological information correctly.

The members A1, A2 and A3 that block the passage of electromagnetic waves have different positioning with respect to the biological sensors 1 and 2, but none of the members A1, A2 and A3 completely block the passage of electromagnetic waves, May be adopted. However, when more accurate detection of biological information is required, the positioning of the member A3 is optimum, and the positioning of the member A1 is also preferable. It is not impossible to position the member A2.
Moreover, FIG. 4 is an example of the state which looked at the sheet | seat 10 from the side supplementarily, even if it positions the members A1, A2 and A3 near the biosensors 1 and 2 in the side view, It is preferable to shift the arrangement in the left and right direction because it is difficult to disturb the passage of electromagnetic waves.

More specifically, in the present embodiment, the members A1, A2 and A3 that block the passage of electromagnetic waves are metal heater wires 22 and 32 in the seat heaters 20 and 30, as shown in FIGS. The biosensors 1 and 2 are disposed at positions away from the heater wires 22 and 32 in the sheet 10.
The biological sensors 1 and 2 are disposed at least at two places on the sheet 10 so as to be separated from each other. More specifically, the biological sensors 1 and 2 are provided on both the seat cushion 11 and the seat back 14.

  The living body sensor 1 provided on the seat cushion 11 is disposed, as shown in FIG. 2, in correspondence with the central part of the left and right ischia in the buttocks of a person in order to improve the sitting comfort. In other words, the living body sensor 1 is disposed at a central portion of the seat cushion 11 at the position where the buttocks ride.

In the present embodiment, although the biosensor 1 is thus arranged to correspond to the central part of the left and right ischiums, it is not limited to this. For example, the biological sensor 1 provided on the seat cushion 11 may be disposed corresponding to the position of the thigh.
That is, in FIG. 2, reference signs P 1 and P 2 indicate places where the biosensor 1 is to be placed, and the places P 1 and P 2 indicating candidates correspond to the positions of the thighs of a person seated on the seat 10. There is.
A popliteal artery passes through the thigh and is suitable for measuring the blood flow state by the biological sensor 1.

As shown in FIG. 3, the biosensor 2 provided on the seat back 14 is disposed corresponding to the position of the human heart. A chest aorta passes through the chest with the heart, which is suitable for measuring the blood flow state by the biological sensor 2.
In other words, the heater wire 32 of the seat heater 30 provided on the seat back 14 arranges the living body sensor 2 and places it away from the position of the human heart in order to improve the measurement accuracy by the living body sensor 2 It will be done. That is, the heater wire 32 (22), which impedes the passage of electromagnetic waves, is disposed within the sheet 10 so as to have a difference in density, and the biological sensor 2 has a coarse density of the heater wire 32 (22). It is in the state of being placed at the place. The temperature of the portion where the density of the heater wire 32 (22) is high tends to be high.
In the present embodiment, although the biosensor 2 is disposed corresponding to the position of the heart, the present invention is not limited to this, and it is a position suitable for measuring the blood flow state. Be good.

  Using the data related to the blood flow state in the popliteal artery and thoracic aorta obtained by measurement by the biological sensors 1 and 2, it is incorporated in advance in the above operation control unit (may be an external device such as another computer). The pulse wave propagation velocity and the arteriosclerosis degree can be determined by the calculated calculation program. Furthermore, the operation control unit can calculate the blood pressure (arterial pressure) of the person to be measured based on the pulse wave velocity and the arteriosclerosis degree.

As described above, the seat 10 in the present embodiment is provided in a vehicle capable of traveling by switching between automatic driving and manual driving. Therefore, in order to improve the safety, the biological sensors 1 and 2 may be used in combination with a camera (not shown) for capturing an image of a person sitting on the seat 10. If the biometric sensors 1 and 2 are used in combination with the camera, the person who is seated but has no hand on the steering wheel H may not only see if his health condition has deteriorated or not, but may he merely snooze Can be determined.
Alternatively, a microphone may be used to collect the voice of a person sitting on the seat 10, and the biological sensors 1 and 2 and the microphone may be used in combination to check the presence or absence of consciousness. That is, the person who is seated on the seat 10 is urged to speak, and when there is no response, it is determined that the user is not conscious.

  According to the present embodiment as described above, the biosensors 1 and 2 are disposed in the sheet 10 at positions away from the members A1, A2 and A3 which block the passage of electromagnetic waves among the members constituting the sheet 10 Since the members A1, A2 and A3 obstruct the passage of the electromagnetic waves, the irradiation of the electromagnetic waves by the biological sensors 1 and 2 is less likely to be interrupted, and the biological information can be easily detected accurately.

  Further, since the seat 10 is provided in a vehicle capable of traveling by switching between automatic driving and manual driving, it is possible to detect the biological information of the driver sitting on the seat. Thereby, for example, when the driver's health condition is deteriorated, this can be detected in advance, so that the safety during automatic driving or manual driving can be improved.

  Further, since the living center C of the electromagnetic wave emitted from the living body sensor 2 in the sheet 10 is disposed at a position avoiding the member A2 which blocks the passing of the electromagnetic wave, the living body sensor 2 prevents the passing of the electromagnetic wave. Even under the influence of the member A2, the biological information can be detected by the biological sensor 2.

  Further, since the biological sensor 1 is disposed at a position where the member does not enter the irradiation range R of the electromagnetic wave emitted from the biological sensor 1 in the sheet 10, the influence of the members A1 and A3 obstructing the passage of the electromagnetic wave Detection of biological information by the biological sensor 1 can be performed.

  Further, since the biological sensor 1 is disposed at a position closer to a person than the member A3 that blocks the passage of the electromagnetic wave in the sheet 10, the biological sensor 1 is less susceptible to the member A3 that blocks the passage of the electromagnetic wave.

  In addition, since the biosensors 1 and 2 are disposed apart from each other at at least two places in the sheet, the biological information can be detected from at least two places of the human body. Thereby, the precision in the case of calculating a person's health condition from the detected biometric information can be raised.

  Further, since the biological sensors 1 and 2 are provided on both the seat cushion 11 and the seat back 14, the biological information on the upper body side and the lower body side of the human body can be detected. Thereby, the precision in the case of calculating a person's health condition from the detected biometric information can be raised.

  Further, since the biosensor 2 provided on the seat back 14 is disposed corresponding to the position of the human heart, the blood flow state of the thoracic aorta can be grasped. Therefore, for example, biological information can be detected more easily than when biological information is detected using a thin blood vessel having a small blood flow rate.

  In addition, since the biosensor 1 provided on the seat cushion 11 is disposed corresponding to the central part of the left and right ischia in the buttocks of a person, the biosensor 1 can be arranged at a position where the ischia does not hit. Not impair the comfort of

  Further, since the biosensor 1 provided on the seat cushion 11 is disposed corresponding to the position of the thigh, the blood flow state of the popliteal artery can be grasped. Therefore, for example, biological information can be detected more easily than when biological information is detected using a thin blood vessel having a small blood flow rate.

[Modification]
The embodiment to which the present invention can be applied is not limited to the above-described embodiment, and can be appropriately changed without departing from the spirit of the present invention. Hereinafter, modified examples will be described. The following modifications may be combined as much as possible.

[Modification 1]
The seat 40 in the present modification incorporates a seat frame 41 as shown in FIG. The seat frame 41 has a cushion frame 42 constituting a seat cushion and a seat back frame 43 constituting a seat back.
The cushion frame 42 and the seat back frame 43 are provided with cushion pads 42a, respectively, and the outer skin 42b is further covered to form a seat 40.

The cushion frame 42 includes a pair of side frames 44 extending longitudinally and being spaced apart from each other, and a pan frame 45 formed of a sheet metal connecting front ends of the pair of side frames 44, and a pair of side frames 44. A connecting pipe 46 is formed of a metal pipe that connects the rear ends of the side frames 44, and is configured in a frame shape in plan view.
A seat spring 47 is provided between the pan frame 45 and the connection pipe 46.

The seat spring 47 is composed of four spring members 47A to 47D which extend longitudinally and are arranged side by side, and resin connecting members 48A to 48D which connect the spring members 47A to 47D.
Each spring member 47A to 47D is formed by bending a metal wire, and a hook portion 47Aa to 47Da for hooking on the connection pipe 46 is formed at the rear end, and extends forward from the hook portion 47Aa to 47Da It is bent in a zigzag. The front ends of the respective spring members 47A to 47D are connected to the pan frame 45 as shown in FIG. 5 to prevent positional deviation of the respective spring members 47A to 47D.

The living body sensor 1 is provided to the cushion frame 42. In this modification, each spring member 47A-47D is a member which interrupts | blocks passage of electromagnetic waves, and the biosensor 1 is arrange | positioned in the position which avoided these each spring members 47A-47D.
If it demonstrates more concretely, as shown in FIG. 6, biometric sensor 1 will be provided with respect to connection member 48A-48D. The position corresponds to the central portion of the left and right ischia in the buttocks of a person or to the position of the thigh. If provided so as to correspond to the position of the thigh, the position of one thigh may be used, or it may be provided so as to correspond to the positions of both thighs.
The connecting members 48A to 48D are disposed at positions closer to the person than the respective spring members 47A to 47D, and the biological sensor 1 is provided on such connecting members 48A to 48D. In the measurement, the influence of the respective spring members 47A to 47D is reduced.
The connecting members 48A to 48D are provided so as to connect the respective spring members 47A to 47D, but like the other connecting members 48E shown in FIG. It may be provided to connect zigzag portions of ̃47D. The other connecting member 48E has a portion connecting the adjacent spring members 47A and 47B and a portion connecting the zigzag portions of the spring member 47A and is formed in a substantially L shape in a plan view. There is. And living body sensor 1 can be arranged also on such other connection member 48E.
The connecting members 48A to 48E described above are, in other words, a mounting plate having a plate-shaped portion whose upper surface is the installation surface of the biosensor 1. That is, in the present modification, the biological sensor 1 is arranged with respect to the connecting members 48A to 48E in this manner, but the present invention is not limited thereto, and is positioned below the cushion pad 42a and Alternatively, a plate-like body whose upper surface is the installation surface of the biological sensor 1 (that is, an installation plate having a form different from that of the connection members 48A to 48E) may be employed.

  In addition, although the biosensor 1 can be disposed on each of the above connecting members 48A to 48E, in the cushion pad 42a of the sheet 40, the portion positioned above the portion where the biosensor 1 is disposed. The recessed part 420 which can accommodate the biometric sensor 1 is formed. That is, as shown in FIG. 7, the recess 420 is formed to be recessed on the lower surface of the cushion pad 42a.

  Further, as described above, since the front ends of the respective spring members 47A to 47D are connected to the pan frame 45 and the positional deviation of the respective spring members 47A to 47D is prevented, the connection for connecting the respective spring members 47A to 47D The positional deviation of the biosensor 1 provided to the members 48A to 48D can also be suppressed.

Also, the biological sensor 1 may be disposed on the pan frame 45. The pan frame 45 is a member that blocks the passage of electromagnetic waves because it is made of a sheet metal as described above, and it is preferable that the pan frame 45 be disposed on the upper surface side when the biosensor 1 is disposed. That is, the biological sensor 1 is disposed at a position closer to a person than a member (pan frame 45) that blocks the passage of electromagnetic waves.
When the biosensor 1 is disposed on the upper surface of the pan frame 45, it may be a flat place on the center side of the pan frame 45 or an inclined place on the peripheral side.
However, as shown in FIG. 5, when the opening 45 a is formed in the pan frame 45 and corresponds to the position of the opening 45 a, the biosensor 1 is disposed at a position farther from the person than the pan frame 45. You may By arranging the living body sensor 1 in this manner, electromagnetic waves can be emitted toward a person through the opening 45a.

  Further, instead of the pan frame 45, the front end portions of the pair of side frames 44 may be connected to each other using a frame material or a pipe material (not shown), in which case the front ends of the respective spring members 47A to 47D It may be connected to a material or pipe material. And also to the frame material and pipe material provided instead of the pan frame 45 in this manner, the biosensor 1 may be disposed using a clip member or the like (not shown).

  Further, as shown in FIG. 7, the biosensor 1 may be provided so as to be embedded in a cushion pad 42 a provided on the cushion frame 42. When the biological sensor 1 is provided so as to be embedded in the cushion pad 42a, the cushion pad 42a itself may be provided by so-called insert molding in which the biological sensor 1 is formed in an embedded state. When the biological sensor 1 is provided to be embedded in the cushion pad 42a, a recess (not shown) for housing the biological sensor 1 is formed in the cushion pad 42a, and the biological sensor 1 is installed. It may be easy to do.

In addition, when the biosensor 1 is provided so as to be embedded in the cushion pad 42a, the present invention is not limited to the above insert molding, and the biosensor 1 can be embedded even after the cushion pad 42a is formed. Is desirable. That is, a configuration may be adopted in which part of the cushion pad 42a (removal portion 422 in FIG. 7) is configured to be removable, and a recess 421 for housing the biosensor 1 is formed at a position corresponding to the removal portion 422 .
That is, when the biometric sensor 1 is provided so as to be embedded in the cushion pad 42 a, the detachment portion 422 is removed, the biometric sensor 1 is accommodated in the recess 421, and the detachment portion 422 is fitted and returned to the original condition. Can be embedded in the cushion pad 42a.
In the present modification, the removal portion 422 is configured to be removable from the lower surface side of the cushion pad 42a, but may be removable from the upper surface side.
Further, in the cushion pad 42a, in addition to the biological sensor 1, a harness (not shown) for electrically connecting the biological sensor 1 and an external device (for example, a power generation element, a storage device, a control device, etc.) It is assumed that a space capable of wiring is formed.

As shown in FIG. 5, the seat back frame 43 is provided to extend between the upper end portions of a pair of side frames 43a which extend vertically and are spaced apart from each other, and a pair of side frames 43a. An upper frame 43b and a plate-like lower member 43c provided to bridge the lower ends of the pair of side frames 43a are provided. A seat spring 43d formed of a plurality of spring members is provided between the upper frame 43b and the lower member 43c so as to be bridged between the pair of side frames 43a.
The plurality of spring members constituting the seat spring 43d extend in the lateral direction and are bent in a zigzag in the vertical direction.
Also on the seat back frame 43 configured as described above, the biological sensor 2 can be provided similarly to the cushion frame 42 described above.
That is, the biosensor 2 may be provided for either one or both of the pair of side frames 43a. In that case, it may be attached to the inner surface of the side frame 43a, or may be attached to the outer surface.
In addition, the biological sensor 2 may be provided on the front surface of the lower member 43c. When the lower member 43c is made of metal and the biosensor 2 is disposed on the rear surface side of the lower member 43c, an opening (not shown) is formed in the lower member 43c, and the opening is positioned Arrange as corresponding.
Furthermore, the living body sensor 2 may be provided to the seat spring 43d. In that case, like the above-mentioned cushion frame 42 side, it may arrange in a connection member (not shown) which connects each spring member in seat spring 43d, and when each spring member has a coarse-dense difference. May be arranged at places where the density of each spring member is coarse.
Although not shown, a cushion pad is also provided on the front side of the seat back frame 43. However, as with the cushion frame 42 described above, the biosensor 2 is embedded in the cushion pad. It is also good.

According to the present modification, since the biological sensor 1 is disposed at a position away from the members 40A to 45D which obstruct the passage of electromagnetic waves among the members constituting the sheet 40, the electromagnetic wave can be transmitted. The interfering members 47A to 47D make it difficult for the radiation of the electromagnetic wave by the biological sensor 1 to be disturbed, and the biological information can be easily detected accurately.
In addition, since the biosensor 1 provided on the cushion frame 42 is disposed corresponding to the central part of the right and left ischia in the buttocks of the person, the biosensor 1 can be arranged at a position where the ischia does not hit, and the seat is seated Not impair the comfort of Furthermore, since the biosensor 1 provided on the cushion frame 42 is disposed corresponding to the position of the thigh, the blood flow state of the popliteal artery can be grasped. Therefore, for example, biological information can be detected more easily than when biological information is detected using a thin blood vessel having a small blood flow rate.
In addition, a resin installation plate (connecting member 48A) mounted so as to be disposed at a position closer to a person than the members 47A to 47D and 43d with respect to the members 47A to 47D and 43d that obstruct the passage of electromagnetic waves. Since the biological sensor 1 (2) is disposed at -48 E), even if the biological sensor 1 (2) is disposed in the vicinity of the members 47A to 47D and 43d that obstruct the passage of electromagnetic waves, the passage of the electromagnetic waves is interrupted It becomes hard to receive to the influence of the members 47A-47D and 43d.
Furthermore, the living body sensors 1 and 2 are members of the sheet 40 that are farther from the person than the members (pan frame 45, lower member 43c) that block the passage of electromagnetic waves, and the members 45 that block the passage of electromagnetic waves The biological sensors 1 and 2 are disposed at positions farther from the sheet 40 than the members 45 and 43c that block the passage of the electromagnetic waves, because the biological sensors 1 and 2 are disposed corresponding to the positions of the openings 45a formed in 43c. Even if it does, it becomes difficult to receive the influence of the members 45 and 43c which obstruct the passage of electromagnetic waves.
In addition, members 47A to 47D and 43d that block the passage of electromagnetic waves are disposed in the sheet 40 so as to have a difference in density, and the biological sensors 1 and 2 are members 47A that block the passage of electromagnetic waves. Since the density of ~ 47D and 43d is arranged at a rough place, the member which blocks the passage of electromagnetic waves as compared with the case where the members 47A to 47D and 43d which block the passage of electromagnetic waves are arranged at a high density It becomes less susceptible to the effects of 47A to 47D and 43d.
Moreover, the cushion pad 42 a in the seat 40 is configured such that a part (the removal part 422) of the cushion pad 42 a can be removed, and the recessed part 421 that accommodates the biosensor 1 at a position corresponding to the part 422 Therefore, the space for arranging the biosensor 1 can be secured in the sheet 40.
Moreover, since the cushion pad 42a in the sheet 40 is formed in the state in which the biosensor 1 is embedded, the sheet 40 can be installed in the state in which the biosensor 1 is embedded in the cushion pad 42a. Become efficient and efficient.

[Modification 2]
The seat 50 in the present modification incorporates a seat frame 51 as shown in FIG. The seat frame 51 has a cushion frame 52 which constitutes a seat cushion, and a seat back frame 53 which constitutes a seat back.
The cushion frame is provided on the cushion frame 52 and the seat back frame 53, and the seat 50 is configured by covering the outer skin.

The seat back frame 53 supports a lumbar support device LS which is a pressure receiving member. The seat back frame 53 includes a pair of sheet metal frames 54 disposed apart from each other on the left and right, and a pipe frame 55 connected to the upper ends of the pair of sheet metal frames 54 and formed by bending a pipe material into a U shape. Is equipped.
The seat back frame 53 has a lower frame 56 as a connecting member and a supporting portion for connecting lower portions of the sheet metal frame 54, and a bridging frame 57 as a bridging member for linking the left and right of the pipe frame 55.
Lower frame 56 is a member made of sheet metal having a cross-sectional shape in which the upper edge and the lower edge extend slightly forward, and the left and right ends are fixed by welding to the portions extending inward in the left and right of sheet metal frame 54 There is.

The lumbar support device LS receives the force that the occupant leans on the seat back and transmits it to the seat back frame 53, and changes the shape of the portion that hits the occupant's waist to change the support state of the waist according to the occupant's preference. And attached to the seat back frame 53.
The lumbar support device LS includes a resin pressure receiving plate 60 that receives a load from the occupant's back via a cushion member (not shown), a support member 61 that supports the pressure receiving plate 60 and changes the shape of the pressure receiving plate 60. And a lower hooking portion 62 for fixing the lower portion of the support member 61 (the lumbar support device LS) to the lower frame 56, and a wire 63 for fixing the upper end portion of the support member 61 to the bridging frame 57. .

And living body sensor 2 is provided to lumbar support device LS. In the present modification, the metal component that constitutes the support member 61 is a member that blocks the passage of electromagnetic waves, and the biological sensor 2 is disposed at a position that avoids the metal component that constitutes the support member 61.
More specifically, the living body sensor 2 is provided on the surface of the pressure receiving plate 60 made of resin, or on a portion other than the metal parts constituting the supporting member 61. The position corresponds to the position of the human heart.

According to this modification, since the biological sensor 2 is disposed at a position avoiding the member 61 that blocks the passage of the electromagnetic wave among the members constituting the sheet 50 with respect to the sheet 50, the passage of the electromagnetic wave is blocked. The member 61 hardly interferes with the irradiation of the electromagnetic wave by the biological sensor 2, and the biological information can be easily detected accurately.
Further, since the biological sensor 2 provided in the lumbar support device LS on the seat back frame 53 side is disposed corresponding to the position of the human heart, it is possible to grasp the blood flow state of the thoracic aorta. Therefore, for example, biological information can be detected more easily than when biological information is detected using a thin blood vessel having a small blood flow rate.

A1 Member A2 that blocks the passage of electromagnetic waves A member that blocks the passage of electromagnetic waves A3 member that blocks the passage of electromagnetic waves R radiation range C radiation center 1 living body sensor 2 living body sensor 10 seat 11 seat cushion 12 cushion pad 12a groove 13 skin 14 seat Back 15 Cushion pad 15a Groove 16 Skin 17 Seatrest 21 Seat heater 21 Base 22 Heater line 22a Front heater line 22b Central heater line 22c Rear heater line 23 Groove heater line 30 Seat heater 31 Base 32 Heater line 32a Upper heater line 32b Center Heater wire 32c Lower heater wire 33 Groove heater wire

Claims (15)

For the seat on which a person sits down, a non-contact type biometric sensor that detects the person's biometric information by electromagnetic waves is provided,
The arrangement structure of a living body sensor, wherein the living body sensor is arranged at a position avoiding the member which blocks the passage of electromagnetic wave among the members constituting the sheet with respect to the sheet.   The arrangement structure of a biosensor according to claim 1, wherein the seat is provided in a vehicle capable of traveling by switching between automatic driving and manual driving.   The arrangement structure of the biosensor according to claim 1 or 2, wherein in the sheet, the irradiation center of the electromagnetic wave emitted from the biosensor is disposed at a position avoiding the member. .   The living body sensor according to claim 1 or 2, wherein the living body sensor is disposed at a position where the member does not enter the irradiation range of the electromagnetic wave emitted from the living body sensor in the sheet. Arrangement structure.   The arrangement structure of a biosensor according to any one of claims 1 to 4, wherein the biosensor is disposed at a position closer to a person than the member among the sheets.   An installation plate made of resin is attached to the member so as to be disposed at a position closer to a person than the member, and the biosensor is disposed on the installation plate. The arrangement structure of the biosensor according to claim 5. An opening is formed in the member,
The biological sensor according to any one of claims 1 to 4, wherein the biological sensor is disposed at a position farther from a person than the member among the sheets and corresponding to the position of the opening. The arrangement | positioning structure of the biometric sensor as described in a term. The members are disposed within the sheet so as to have a difference in density and density.
The arrangement structure of a biosensor according to any one of claims 1 to 7, wherein the biosensor is arranged at a place where the density of the member is coarse. The seat comprises a cushioning pad covered by a skin,
9. The cushion pad according to any one of claims 1 to 8, wherein a storage space for the biosensor, which is formed by a part of the cushion pad being removable, is provided therein. The arrangement | positioning structure of the biometric sensor as described in one. The seat comprises a cushioning pad covered by a skin,
The arrangement structure of a biosensor according to any one of claims 1 to 8, wherein the cushion pad is formed in a state in which the biosensor is embedded.   The arrangement structure of the biosensor according to any one of claims 1 to 10, wherein the biosensors are arranged at a distance from each other at at least two places in the sheet. The seat includes a seat cushion that supports the buttocks and thighs of a person, and a seat back whose lower end is supported by the seat cushion.
The arrangement structure of the biosensor according to claim 11, wherein the biosensor is provided on both the seat cushion and the seat back.   The arrangement structure of the biosensor according to claim 12, wherein the biosensor provided on the seat back is disposed corresponding to a position of a human heart.   The arrangement structure of a biosensor according to claim 12 or 13, wherein the biosensor provided on the seat cushion is disposed corresponding to the central part of the right and left ischia in the buttocks of a person.   The arrangement | positioning structure of the biosensor as described in any one of Claims 12-14 characterized by the said biosensor provided in the said seat cushion corresponding to the position of a thigh.

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