JPH07308296A - Blood pressure measuring device of toilet installation type provided with stored cuff - Google Patents

Abstract

PURPOSE:To provide a blood pressure measuring device of toilet installation type in which a cuff can be held cleanly, which is used conveniently and in which any cuff of different size can be used selectively. CONSTITUTION:The hemodynamometer unit 56 of a blood pressure measuring device is installed in housings 18/20 placed on the side of a seat. The hemodynamometer unit 56 is provided with two sliders 70 and cuffs 62 of different sizes are attached to these sliders respectively. When blood pressure is measured, the sliders are released and the cuffs are made projected from the housing. When this blood pressure measuring device is not used, the sliders are withdrawn and cuffs are stored in the housing. In another embodiment of the practice, pleural swinging arms are provided in the housing and the cuffs are attached to respective swinging arms. In further embodiment of the practice, a rotating body is axis-supported in the housing, and of plural cuffs of different sizes are attached to the outer perimeter.

Description

Detailed Description of the Invention

[0001]

[Object of the Invention]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a toilet-installed blood pressure measuring device for measuring blood pressure in a toilet.

[0002]

2. Description of the Related Art With the aging of people's longevity, interest in health management is increasing. A variety of home-use health monitoring devices are provided to assist individuals in performing health checks at home, and a blood pressure monitor is one of them. Blood pressure generally fluctuates according to the time of day and the activity state of an individual, so it is meaningful to measure and record blood pressure under the same conditions (time, place) every day. Therefore, there has been proposed a toilet-installed blood pressure measurement device capable of measuring blood pressure using a toilet that is used regularly every morning.

A conventional toilet-installed blood pressure measuring device is disclosed, for example, in Japanese Utility Model Laid-Open No. 3-39003.
An armrest-shaped housing is provided on the side of the toilet seat, a finger sphygmomanometer is arranged in this housing, and the blood pressure is measured by engaging the finger of the subject with the cuff of the finger sphygmomanometer.

[0004]

In the conventional blood pressure measuring device, the cuff of the finger sphygmomanometer is made to project upward from the surface of the housing in order to allow a finger to pass through the cuff with the hand placed on the housing. is there. As a result, during normal use of the toilet (when the finger sphygmomanometer is not used), the cuff becomes an obstacle and it becomes an obstacle for cleaning the housing. Further, since the cuff is exposed in this way, there is a risk that the cuff will become dirty in an environment such as a toilet. The air bag (bladder) placed inside the cuff is difficult to clean once dirty.

The main object of the present invention is that it is easy to use,
An object of the present invention is to provide a toilet-installed blood pressure measurement device capable of keeping the cuff clean. Another object of the present invention is to provide a toilet-installed blood pressure measurement device that looks good and has a simple appearance.

Another problem with the prior art toilet-installed blood pressure measuring device is that it only has one size cuff. It is desirable that the toilet-installed blood pressure measurement device be commonly used by all members of the family. However, the thickness of the fingers is considerably different between adults and children, and also between men and women. Therefore, 1
It was difficult to measure blood pressure with high precision using only one size cuff.

Therefore, another object of the present invention is to provide a toilet-installed blood pressure measuring device having a cuff adapted to fingers of different thicknesses.

[0008]

[Constitution of the invention]

SUMMARY OF THE INVENTION Means for Solving the Problems and Outline of Action The present invention provides a toilet-installed blood pressure measurement which is provided with a housing installed on the side of a toilet seat of a toilet, and in which a cuff of a finger sphygmomanometer is arranged. In the device, a movable support member such as a slider, a swing arm, and a rotating body is provided in the housing, and the movable support member supports the cuff so that the cuff can move in and out of the housing. The feature is that the cuff is retracted into the housing when not in use.

As described above, since the cuff is retracted and stored in the housing when not in use, the cuff does not become dirty, and the cuff does not interfere with normal use and cleaning of the toilet. Therefore, the toilet-installed blood pressure measurement device of the present invention is easy to use. Further, since the cuff is housed in the housing when not in use, the housing has a neat appearance and a good-looking appearance.

In another embodiment of the invention, the blood pressure measuring device is provided with at least two cuffs of different sizes. Each cuff is supported by a corresponding slider so that it can move in and out of the housing. In this way, it is possible to select the optimal cuff according to the thickness of the subject's finger, and it is possible to improve the blood pressure measurement accuracy while enjoying the advantages of the retractable cuff.

When a plurality of cuffs of different sizes are mounted on a plurality of sliders, it is preferable that each cuff be connected to a common single air pump via a shut-off valve that opens and closes in conjunction with the sliders. . If you do this,
Since the compressed air is supplied only to the bladder of the selected cuff, the bladder of the non-selected cuff is not inflated unnecessarily. Therefore, the durability of the air bag of the cuff can be improved.

When two or more sliders are provided, it is preferable that each slider is connected to an interlock mechanism so that only one of the cuffs is selectively allowed to project. By doing so, it is possible to positively prevent the pressurized air from being supplied to the cuff that is not selected.

In still another embodiment of the present invention, the housing is provided with a plurality of swing arms, and each swing arm is provided with a cuff.

In another embodiment, a rotating body is rotatably supported by the housing, and a plurality of cuffs having different sizes are mounted on the outer circumference thereof.

The above-mentioned features and effects of the present invention, as well as other features and advantages, will be more apparent according to the description of the following embodiments.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a blood pressure measuring device according to a first embodiment of the present invention will be described with reference to FIGS. Referring to FIGS. 1 and 2, a toilet 10 has a conventional flush toilet 12 to which a housing 14 is attached. As can be seen from FIG. 2, in this embodiment,
The housing 14 includes a frame 16 and an upper casing 1.
8 and left and right lower casings 20 and 22, which are integrally fastened to each other by screws or the like. The toilet bowl 12 is provided with a pair of toilet seat mounting holes 28 between the bowl portion 24 and the cistern mounting portion 26, and two T bolts are provided on the lower surface of the frame 16 as disclosed in Japanese Utility Model Publication No. 63-6291. The housing 14 is attached to the toilet bowl 12 by attaching the T-groove 30 to the toilet seat attachment hole 28, inserting these T bolts into the toilet seat attachment holes 28, and fastening the corresponding nuts 32.
Fixed to.

In the illustrated embodiment, this housing 14
Is a central portion 34 that extends transversely to the toilet bowl 12.
And left and right side portions 36 and 38 extending forward from both ends of this central portion. In this embodiment, a central bidet device 40, known as the Washlet ™, a warm air dryer 42, and an ozone deodorizer 44 are housed within the central portion 34 of the housing. Toilet seat 4
6 and the toilet lid 48 are rotatably mounted on the central portion 34 of the housing. The power supply circuit 50 of the bidet device 40 and the operation panel 52 can be arranged in the right side portion 38 of the housing.

The finger sphygmomanometer unit 56 of the blood pressure measuring device 54 of the present invention is arranged utilizing the left side portion 36 of the housing. Therefore, an opening 58 is formed in the frame 16 so that the sphygmomanometer unit 56 can be mounted. An opening 60 is formed in the upper casing 18 of the housing 14 so that the cuff 62 of the sphygmomanometer unit 56 can enter and exit. Control unit 6 for operating blood pressure monitor unit 56 and outputting measurement results
4 can be installed on either side wall of the toilet. The control unit 64 can be provided with an operation switch, a liquid crystal display unit for displaying or outputting a measurement result and a trend, and a printer.

In the first embodiment, the sphygmomanometer unit 56 is provided with cuffs 62 of two sizes, large and small, and each cuff is designed to move in and out through the opening 60 of the housing by the slider mechanism. Referring to FIGS. 3 and 4, the sphygmomanometer unit 56 includes a case 68 with a mounting flange 66, and is fixed to the frame 16 of the housing 14 with screws or the like. As shown in FIG. 4, two sliders 70 to which the cuffs 62 are fixed are slidably attached to the case 68. In the illustrated embodiment, two guide plates 72 and 74, which act as guide rails for the slider 70, are fixed to the case 68 with screws to guide the sliding movement of each slider 70 and to reduce the stroke of the slider. It is regulated. Therefore, the guide plates 72 and 7
4 is formed with a shallow recess 78 for guiding the four elastic legs 76 of each slider 70. Further, each slider 70 is provided with a step portion 80, and when the step portion abuts the upper edge 82 of the recess 78, the slider 7
The stroke of 0 is fixed.

A plunger 84 extending downward is provided on each slider 70 by integral molding or the like, and the plunger 84 moves up and down in a spring guide 86. Coil springs 88 are arranged outside the spring guides 86 to bias the respective sliders 70 upward.

Each of the sliders 70 is latched to the retracted position when the cuff 62 is pushed down, and when the cuff 62 is pushed again, the latch is released, and the coil spring 88 acts to cause the cuff 6 to move.
2 is projected from the housing 14. For this reason, a push-back type latch mechanism marketed by Nifco Co., Ltd. under the name of “embossing latch” (trademark) is used, and each slider 70 is provided with a striker 90 of this latch mechanism. A bush 92 for latching the striker 90 is fixed to the bottom of the case 68. This latching mechanism is well known and need not be described in detail. As shown in FIG. 3, an interlock mechanism 94 is provided at the rear of the case 68 to prevent the two cuffs 62 from jumping out at the same time.
The interlock mechanism 94 is shown in FIGS.
It will be described later based on 1. A circuit board 96 on which a control circuit (not shown) of the sphygmomanometer unit 56 is mounted is screwed to the front of the case 68.

The cuff 62 of the sphygmomanometer unit 56 will be described with reference to FIGS. 5 and 6. Two cuffs 62
Are almost identical to each other and the only major difference is their size, so only one will be described. Figure 5
Referring to FIG. 2, the bladder 98 of the cuff 62 is formed by folding a rectangular polyurethane sheet along the fold line 100 and high-frequency welding the outer sheet and the inner sheet along the three sides 102. be able to.
The outer sheet and the inner sheet are further welded along, for example, three seams 104. On the outer sheet of the air bag 98, three flexible fixing bands 106 made of a polyurethane strip are joined by welding seams 108. Each fixing band 106 is provided with a hole 110 so that the air bag 98 can be detachably attached to the case 112 of the cuff 62. An air joint 114 for connecting to a hose from an air pump (described later) is welded to the outer sheet of the air bladder 98 so that the air bladder 98 is inflated by the introduction of pressurized air.

Referring to FIG. 6, the case 11 of the cuff 62.
2 is a half body 116A and 116B in which a cylinder is divided into two
And fixing rings 118A and 118B at both ends. Each half has an air bag fixing band 106
A protrusion 120 corresponding to the hole 110 is provided. As shown by the chain line in FIG. 6, the ends of the fixing band 106 are folded back, the holes 110 of the fixing band 106 are engaged with the protrusions 120, the two halves are tied together, and the fixing rings 118 are snapped at both ends. By fitting, Case 1
12 is assembled and the air bag 98 is detachably fixed to the case.

The assembly of the case 112 and the air bladder 98 thus assembled is the cuff base 122 and the cover 1.
24 is releasably fixed to the slider 70.
For this reason, notches 126 are provided on the sides of the case halves 116A and 116B, and the cuff base 122 is also provided.
The cover 124 is provided with protrusions 128 that snap fit into these notches. When an excessive force acts on the cuff 62, such as when the user suddenly stands up with his / her finger through the cuff 62, the protrusion 128 is provided with the notch 12.
Since it is easily detached from 6, the finger injury and the damage of the cuff 62 can be prevented. Each cuff 62 is fixed to the slider 70 by fastening the cuff base 122 to the slider 70 with a screw or the like.

The cuff base 122 is provided with a light projecting element 130 such as a near infrared light emitting diode and a light receiving element 132 such as a photo sensor, and a case light emitting / receiving window 134 is formed in the case half body 116. The air bag 98 with the user's finger (preferably the second finger) inserted through the cuff 62.
When the light projecting element 130 is driven while compressing the finger arteries by supplying pressurized air to the finger, the light from the light projecting element 130 is an air bag 98 made of a translucent polyurethane sheet.
After passing through, the finger is irradiated and the transmitted light is incident on the light receiving element 132. A signal from the light receiving element is sent to a photoelectric pulse wave meter (not shown) mounted on the circuit board 96, and blood pressure is measured by the volume vibration method. The obtained result can be sent to the control unit 64 by wire communication and visually displayed.

Next, referring to FIGS. 7 and 8, the pressure air supply system for the air bag 98 will be described. A valve case 136 is screwed to the lower surface of the case 68. An air pump 140 such as a swash plate type diaphragm pump driven by a motor 138 is mounted on. The pressurized air from the air pump 140 is sent to the T joint 144 via the hose 142. An air passage 146 connected to the T joint 144 and extending in the longitudinal direction is formed in the valve case 136, and an elbow 148 is connected to the other end of the air passage 146.

The valve case 136 is formed with a bore 150 aligned with the plunger 84 of each slider 70, and each bore 150 incorporates a pair of Y packings 154 separated by a collar 152. As can be seen from FIG. 8, each plunger 84 has
A transverse air passage 156 parallel to the air passage 146 of the valve case 136 and an air passage 158 extending in the axial direction of the plunger 84 are formed, and the axial passage 158 is fitted to the air joint 114 of the air bladder 98. In order to do so, it communicates with a nipple 160 formed on the upper portion of the slider 70. The plunger 84 and the valve case 136 cooperate with each other to form a shutoff valve 162 that controls the supply of the pressurized air to the air bladder 98 of the cuff 62 in accordance with the vertical movement of the slider 70. Therefore, the transverse passage 156 of the plunger 84 is aligned with the air passage 146 of the valve case 136 when the slider 70 moves up.

Due to such a constitution, when the cuff 62 is projected as shown on the left side of FIG.
Pressure air from 0 is supplied to the bladder 98 of the cuff 62 to inflate the bladder, and as shown in the right side of FIG.
When 2 is retracted, the air supply is cut off. In the illustrated embodiment, the inner diameters of the two cuffs 62 are each about 23 m.
m and about 27 mm, and the aspect ratio (ratio of the length L to the diameter D of the cuff 62) of each cuff 62 is set to L / D.apprxeq.1.2 according to the recommendation of the American Heart Association. Large diameter cuffs can be used when the fingers are thick as in men, and small diameter cuffs can be selected in the case of women and children.

An exhaust valve 164 is also connected to the T joint 144 via a hose (not shown) so that the pressure in the cuff 62 is released. Further, the elbow 148 is a pressure sensor 166 fixed to the circuit board 96.
(Fig. 3) via a hose (not shown),
It is designed to detect cuff pressure. The exhaust valve 164 is controlled by a sphygmomanometer unit control circuit provided on the circuit board 96. This control circuit, like a general finger sphygmomanometer, controls the cuff 6 after the artery of the finger of the subject is blocked.
Two airs can be programmed to exhaust at a slow rate. Alternatively, the blood pressure may be measured during the process of increasing the cuff pressure, and the cuff pressure may be rapidly exhausted when the measurement is completed.

Next, the interlock mechanism 94 will be described with reference to FIGS. 9 to 11. Sphygmomanometer unit 56
A base plate 168 is fastened to the case 68 with screws, and a pair of left and right rack assemblies 1 is attached to the base plate 168 by a pair of upper and lower rack holders 170.
72 is mounted so as to be slidable up and down. A rack 174 is fixed to each rack assembly 172. Each rack assembly 172 includes a window 1 on the case 68.
A protrusion 178 protruding into the case 68 via 76 is fixed, and the lower edge 180 (FIG. 4) of the step portion 80 of the slider 70 is engaged with the protrusion 178 when the slider 70 is pushed down into the case 68. It is supposed to do.

The base plate 168 includes a rack 174.
A pair of pinions 182 meshing with each other and an interlock lever 184 that rotates integrally with these pinions are pivotally mounted and covered by a cover 186. Since the pinion 182 and the interlock lever 184 work together, the interlock lever 184 rotates when the rack 174 moves up and down. Each interlock lever 1
84 is biased in the opposite direction by a return spring 188. A pin 190 is provided on the lower portion of each interlock lever 184, and a hook 192 that can be engaged with the mating pin 190 is provided.

As described above, since the latch mechanism 90/92 (FIG. 4) of each slider 70 is of a push-back type, when the slider 70 is latched, the latch is released unless the cuff 62 is pushed down once. Can not do it. Therefore, as shown in FIG.
When both are in the retracted position and are latched by their respective push-back latching mechanisms 90/92, the tips 185 of the two interlock levers 184 abut each other and the two levers 184 rotate simultaneously. Therefore, even if the two cuffs 62 are pressed down at the same time, neither slider 70 can be released.

By depressing only one of the cuffs 62, the corresponding interlock lever 184 rotates as shown in FIG. 11 and allows the corresponding latch mechanism 90/92 to be released, so that the slider 70 is released. The cuff 62 pushed down and pushed out from the upper casing 18 of the housing. In this state, the user can insert his / her finger into the protruding cuff 62 and measure the blood pressure.
Further, in this state, as shown in FIG. 11, since the other interlock lever 184 is locked by the interlock lever 184 on the other side, the other cuff 62 cannot be pressed to pop out.

12 and 13 show a second embodiment of the blood pressure measuring device of the present invention. 12 and 13, components common to those of the above-described embodiment are designated by the same reference numerals, and description thereof will be omitted. In this embodiment, two parallel swinging arms 202 are pivotally connected to the frame 16 of the housing by a pivot 200, and a cuff 62 is attached to each swinging arm. Pressurized air to the cuff 62 is supplied from the air pump 140 via the hose 204, and the cuff pressure is transmitted to a pressure sensor (not shown) by the hose 208 connected to the branch pipe 206. As with the first embodiment, the two cuffs 62 have different sizes and are adapted to fit different sized fingers. The user is shown in phantom in FIG.
As shown by the solid line in FIG. 13, one of the swing arms 202 is swung to pull up the cuff from the housing to select the cuff 62 suitable for one's finger, and then insert the finger as shown in FIG. Blood pressure can be measured.

14 to 17 show a third embodiment of the blood pressure measuring device of the present invention. This embodiment has different sizes.
The feature is that three cuffs are attached to the rotating body. The same components as those of the first embodiment are designated by the same reference numerals, and the description will be omitted. 14-17, a pair of supports 300 and 302 are bolted to the frame 16 of the housing 14 to which the trunnions 306 and 30 of the rotating body 304 are attached.
8 are respectively supported.

The rotating body 304 has a substantially triangular cross section, and
It has one outer surface 310, 312 and 314. Front support 300 has a ball 318 biased by spring 316 to lock rotor 304 in an angular position such that its outer surface is aligned with opening 60 in upper housing 18. Corresponding to, three hemispherical notches 320 engaging with the ball are formed on the end surface of the rotating body 304.
Is formed.

A large diameter cuff 322 is attached to the outer surface 312 of the rotating body 304, and a small diameter cuff 324 is attached to the outer surface 314. Since the manner of mounting each cuff is the same, a shallow groove 326 is formed in the outer surface 312 so that only one cuff 322 will be described, so that the base of the cuff 322 fits into this groove. Has become. The cuff 326 is associated with, for example, four spring-loaded balls 328 (only two of which are shown in FIG. 16) and four hemispherical notches 330 (also only two of which are shown). It is attached to the rotating body 304 so that it can be released, and the cuff is attached to the rotating body 30 when an excessive force is applied.
It is supposed to come off from 4.

As can be seen from FIG. 16, the lead wire from the light emitting diode 130 and the phototransistor 132.
Lead wires extending from the inside of the rotating body 304, and a pair of terminals 332 and 334 provided on the end surface of the rotating body 304.
Connected to each. As shown in FIG. 17, the front support 300 is provided with two pairs of fixed contacts 336 so that when the rotary body 304 is rotated to a predetermined angular position, it contacts the respective terminals 332 and 334 of the pair. Has become.

Pressurized air is supplied from the air pump 140 to the bladder 98 of the cuff 322 through a passage 338 formed in the rear support 302 and a passage 340 formed in the rotating body 304. A seal member 342 such as an O-ring is arranged on the rear end surface of the rotating body 304, and the passage 338 is provided.
And the passage 340 are hermetically connected. The rotating body 304 uses a spring 344 to compress the seal member 342.
Is biased backwards.

When not in use, the rotator 304 can be positioned in an angular position such that the cuff-free surface 310 is exposed, as shown in FIG. When measuring the blood pressure, the user rotates the rotating body 304 to select a cuff having a size suitable for the thickness of the finger, and causes the selected cuff to emerge from the housing as shown in FIG. 14 for use. be able to.

FIG. 18 shows a blood pressure measuring device according to a fourth embodiment of the present invention. Also in this embodiment, the cuff is mounted on the rotating body which is rotatably supported by the housing. Only the differences from the third embodiment will be described. In this embodiment, the rotating body 350 has a substantially rectangular cross section, and the rotating shaft 352 extends in the transverse direction. The three outer surfaces 354 of the rotor,
3 different sizes of cuffs 356 and 358
0, 362 and 364 are releasably mounted in the same manner as in the third embodiment. Rotating body 3 when used
Rotate 50 to select the appropriate size cuff. When not in use, the rotor is rotated until the fourth surface 366 of the rotor 350 is aligned with the top surface of the housing. In this state, all three cuffs are stored inside the housing.

Although a specific embodiment of the present invention has been described above, the present invention is not limited to this, and various modifications and changes can be added. For example, a cuff,
The number and structure of the slider and the swing arm can be changed appropriately. Also, the shape of the rotating body can be modified.

[0043]

As described above, according to the present invention, the cuff is attached to the slider 70, the swing arm 202 and the rotating body 304/350, and the cuff is housed in the housing 36 when not in use. The cuff can be kept clean for a long period of time, and the appearance of the housing can be refreshed. In addition, since the cuff is housed in the housing when not in use and does not interfere with normal use or cleaning of the toilet, the toilet equipped with the blood pressure measurement device of the present invention is convenient.

According to the embodiment of the present invention, when two or more cuffs having different sizes are provided, the optimum cuff can be selected according to the thickness of the finger of the subject, and the blood pressure measurement accuracy is improved. be able to.

When the cuff 62 is connected to the common single air pump 140 through the shutoff valve 162 which opens and closes in conjunction with the slider 70, the compressed air is supplied only to the cuff in use. The durability of the cuff air bag can be improved.

Further, when each slider is connected to the interlock mechanism 94 so that the projection of only one of the cuffs is selectively permitted, the pressurized air is supplied to the unused cuff. Can be actively prevented.

[Brief description of drawings]

FIG. 1 is a perspective view showing a blood pressure measurement device according to a first embodiment of the present invention installed in a toilet.

FIG. 2 is an exploded perspective view of the housing shown in FIG.

FIG. 3 is a cross-sectional view taken along the line III-III in FIG.

FIG. 4 is an exploded perspective view of a slider mechanism of the sphygmomanometer unit shown in FIGS. 2 and 3.

FIG. 5 is a development view of a cuff air bag.

FIG. 6 is an exploded perspective view of a cuff.

FIG. 7 is an exploded perspective view of an air supply system of the sphygmomanometer unit shown in FIGS. 2 and 3.

FIG. 8 is a cross-sectional view taken along the line VIII-VIII of FIG. 3, in which the cuff is schematically shown.

9 is an exploded perspective view of an interlock mechanism of the sphygmomanometer unit shown in FIGS. 2 and 3. FIG.

FIG. 10 is a schematic view in the direction of arrow XX in FIG. 9, showing each cuff in the retracted position.

FIG. 11 is a schematic view similar to FIG. 10 and shows one cuff protruding.

FIG. 12 is a sectional view similar to FIG. 3, showing a blood pressure measurement device according to a second embodiment of the present invention.

FIG. 13 is a perspective view of the second embodiment shown in FIG. 12, showing a state where one swing arm is pulled up.

FIG. 14 is a perspective view of a blood pressure measurement device according to a third embodiment of the present invention, showing a state where one cuff is made to emerge from a housing by rotating a rotating body.

FIG. 15 is a perspective view of a blood pressure measurement device according to a third embodiment of the present invention, showing the cuff retracted in the housing.

16 is a cross-sectional view taken along line XVI-XVI of FIG. 14, showing one cuff removed from the rotating body.

17 is a sectional view taken along line XVII-XVII in FIG.

FIG. 18 is a perspective view of a blood pressure measurement device according to a fourth embodiment of the present invention, in which the housing is partially cut away.

[Explanation of symbols]

36: Housing 46: Toilet seat 54: Blood pressure measuring device 56: Blood pressure monitor unit 62, 322, 324, 360, 362, 364: Cuff 70: Slider (movable support member) 94: Interlock mechanism 140: Air pump 162: Shut off Valve 202: Swing arm (movable support member) 304, 350: Rotating body (movable support member)

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Yoshiki Echida 2-1-1 Nakajima, Kokurakita-ku, Kitakyushu-shi, Fukuoka Prefecture Totoki Equipment Co., Ltd. (72) Keisuke Kanzaki 2 Nakajima, Kokurakita-ku, Kitakyushu, Fukuoka 1-2-1 Totoki Equipment Co., Ltd. (72) Inventor Kentaro Todoroki 2-1-1-1 Nakajima, Kokurakita-ku, Kitakyushu City, Fukuoka Prefecture Totoki Equipment Co., Ltd.

Claims (9)

[Claims] 1. A toilet-installed blood pressure measurement device comprising a housing installed on the side of a toilet seat of a toilet, and a cuff of a finger sphygmomanometer is arranged in the housing, wherein the housing is capable of moving in and out of the housing. A toilet-installed blood pressure measurement device characterized in that a movable support member for supporting the cuff is provided in the housing, the cuff is projected from the housing when in use, and the cuff is retracted into the housing when not in use. 2. The blood pressure measurement device according to claim 1, wherein the movable support member comprises a slider slidably mounted on a housing. 3. The blood pressure measurement device according to claim 1, wherein the movable support member comprises a swing arm pivotally attached to a front portion of the housing. 4. The blood pressure measurement device according to claim 1, wherein the movable support member is a rotating body rotatably supported by a housing. 5. A toilet-installed blood pressure measuring device comprising a housing installed on a side of a toilet seat of a toilet, and a cuff of a finger sphygmomanometer is arranged in the housing, wherein the blood pressure measuring devices have different sizes. First and second cuffs are provided, and first and second sliders, which respectively support the first and second cuffs so that they can move in and out of the housing, are provided in the housing, and when used, either cuff is removed from the housing. A toilet-type blood pressure measurement device characterized in that it is made to project and each cuff is retracted into the housing when not in use. 6. The blood pressure measuring device comprises a single air pump, and the first and second cuffs respectively have first and second shutoff valves which are respectively linked to the first and second sliders. Each shutoff valve is connected to the air pump via the air pump and connects the air pump and the cuff when the corresponding cuff projects, and shuts off the communication when the corresponding cuff retracts. A blood pressure measurement device according to claim 5. 7. The first and second sliders are connected to an interlock mechanism to selectively allow only one of the first and second cuffs to project. 5. The method according to claim 5, wherein
Based blood pressure measurement device. 8. A toilet-installed blood pressure measurement device comprising a housing installed on the side of a toilet seat of a toilet, wherein a cuff of a finger sphygmomanometer is arranged in the housing, the device being rotatably supported by the housing. A toilet-installed blood pressure measurement device, wherein the cuff is attached to a rotating body, the cuff is made to emerge from the housing when in use, and the cuff is stored in the housing when not in use. 9. A toilet-installed blood pressure measurement device comprising a housing installed on the side of a toilet seat, and a cuff of a finger sphygmomanometer is arranged in the housing, wherein a rotating body is rotatable in the housing. A plurality of cuffs of different sizes are arranged on the outer circumference of the rotating body, and by rotating the rotating body, the cuff of the optimal size appears from the housing when in use, and each cuff when not in use. The toilet-installed blood pressure measurement device is characterized in that the device is retracted into the housing.