JP7257285B2 - Biological information measuring device - Google Patents

Description

TECHNICAL FIELD The present invention relates to a biological information measuring device, and more particularly to a biological information measuring device to which a plurality of cuffs are connected.

Conventionally, a non-invasive blood pressure (NIBP) type blood pressure and pulse wave measuring device is known as a biological information measuring device to which a plurality of cuffs are connected (for example, Patent Document 1). This blood pressure and pulse wave measuring device attaches cuffs, which are bag-shaped belt bodies connected to each other, to the upper limbs or lower limbs of a subject to measure blood pressure, and measures subclinical arteriosclerosis that causes arteriosclerotic cardiovascular disease. detect disease.

In the biological information measuring device of Patent Literature 1, a plurality of cuffs are connected to corresponding pipe branching mechanisms, and the pipe branching mechanisms are connected to components such as pumps, valves, and pressure sensors. The pipe branching mechanism constitutes a measuring unit for measuring blood pressure and pulse wave using the corresponding cuff together with the pump, valve and pressure sensor.

The end of the pipe branching mechanism is open, and the open end is inserted into and closed by a holding portion provided in the holder of the measurement unit when the measurement unit is arranged in the apparatus main body.

JP 2009-235858 A

As described above, in the conventional blood pressure pulse wave measuring device, when fixing the pipe branching mechanism to the device main body, the opening at the end of the pipe branching mechanism is attached to the device main body side for each pipe branching mechanism. Work to insert it into the holding part is required.
For this reason, if there are a plurality of connectable cuffs, when attaching the pipe branching mechanism to the apparatus main body, each pipe branching mechanism corresponding to the number of cuffs must be attached to the holding portion of the holder. It was necessary to insert it into the body, and it took time and effort to assemble it. Further, if the number of pipe branching mechanisms increases, the number of holding portions will also increase accordingly, which may increase the number of parts and complicate the structure.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a biological information measuring apparatus which has a simple structure, can be easily assembled, and can suitably control the pressure of a plurality of cuffs.

The biological information measuring device according to the present invention is
a plurality of cuff connection portions to which the plurality of cuffs are respectively connected;
each having a combination of an air supply, an exhaust, and a manifold connecting the air supply, the exhaust and a corresponding one of the cuff connections, wherein the air supply and the exhaust connect the manifold a plurality of cuff pressure control units that respectively control the pressure of the corresponding one of the cuffs via
an apparatus main body fixed in a state in which the plurality of cuff pressure control units are aligned;
has
The manifold is
a manifold main body that opens at one end in the direction in which the cuff pressure control units are arranged;
a lid portion capable of opening and closing the opening and forming a closed state of the opening when the corresponding one of the cuff pressure control portions is fixed to the apparatus main body;
has
At least two of the manifolds in the plurality of cuff pressure control units are adjacent to each other such that the other end of one of the manifold main bodies keeps the opening closed by the lid of the other manifold. Take the configuration that is arranged.

ADVANTAGE OF THE INVENTION According to this invention, it can be assembled easily by a simple structure and can control the pressure of several cuffs suitably.

1 is an external perspective view of a biological information measuring device according to an embodiment of the present invention; FIG. 1 is a front perspective view showing a configuration of a main part on a lower case in a biological information measuring device according to an embodiment of the present invention; FIG. FIG. 2 is a rear perspective view showing the main configuration on the lower case of the biological information measuring device according to the embodiment of the present invention; 1 is an exploded view showing a unit body of a biological information measuring device according to an embodiment of the present invention; FIG. It is a rear perspective view of a unit body. 4 is an exploded view of a unit body showing a measurement unit; FIG. It is a rear perspective view of the branch manifold part in a measurement unit. FIG. 4 is a front perspective view of a branch manifold section in the measurement unit; FIG. 4 is a front view of a branch manifold section in the measurement unit; FIG. 4 is a front perspective view showing a state in which a lid portion of a branch manifold portion of the measurement unit is removed; FIG. 10 is a rear view showing a state in which the lid portion of the branch manifold portion of the measurement unit is removed; FIG. 4 is a perspective view showing a state in which branch manifold parts are connected;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

<Overall Configuration of Biological Information Measuring Device>
FIG. 1 is an external perspective view of a biological information measuring device 1 according to an embodiment of the present invention. FIG. 2 is a front perspective view showing the configuration of essential parts on the lower case 21a of the biological information measuring device 1 according to the embodiment of the present invention, and FIG. 3 is the biological information measuring device 1 according to the embodiment of the present invention. Fig. 11 is a rear perspective view showing the configuration of the main parts on the lower case 21a in Fig. 4 is an exploded view showing the unit body 40 of the biological information measuring device 1 according to the embodiment of the present invention, and FIG. 5 is a rear perspective view of the unit body 40. As shown in FIG. 6 is an exploded view of the unit body 40 showing the measurement unit 4. As shown in FIG.

A biological information measuring device 1 of the present embodiment shown in FIG. 1 is a blood pressure pulse wave measuring device as an example. The biological information measuring device 1 of the present embodiment is a device to which a plurality of cuffs can be connected, and four cuffs are connected. A biological information measuring device 1 has a device main body 2 and cuffs 3a, 3b, 3c, and 3d. Measure. The biological information measurement device 1 may be any device, such as a blood pressure measurement device that measures blood pressure, as long as it is connected to a plurality of cuffs and is capable of controlling the pressure of the connected cuffs. . Also, the biological information measuring device 1 may be connectable with two or more cuffs.

The cuffs 3a to 3d each have a double-breasted band-like pressurizing portion to be wrapped around the left and right arms and left and right ankles of the subject, and a hose portion connecting the pressurizing portion and the device main body 2. As shown in FIG.

The apparatus main body 2 has a hollow housing 21 and a plurality of measurement units 4 (4a to 4d), and the housing 21 is composed of upper and lower cases 21a and 21b.

As shown in FIGS. 2 and 3, the housing 21 accommodates the measuring units 4 (4a to 4d). A plurality of measurement units 4 (4a to 4d) are cuff pressure control sections that control cuff pressures of the corresponding cuffs 3a to 3d, respectively. Inside the housing 21, the number of measurement units 4a to 4d corresponding to the number of cuffs 3a to 3d are accommodated. In the biological information measurement device 1, the measurement unit 4 (4a to 4d) controls the cuff pressure of the connected cuff to measure the blood pressure or pulse wave at the attachment site of the cuff. 2 and 3 show the housing 21 with the upper case 21b removed.

The measurement unit 4 (4a-4d) of the present embodiment has four measurement units 4 (4a-4d) corresponding to the four cuffs 3a-3d. good. Measurement unit 4 (4a-4d) in this embodiment independently measures the blood pressure pulse waves of the lower and upper extremities measured by cuffs 3a-3d using cuffs 3a-3d connected thereto.

The measurement units 4 (4a to 4d) are arranged so that the cuff connection portions 61 are arranged side by side from one side of the housing 21 of the apparatus main body 2, and are placed on the control board 5 in the unit housing portion 22. are implemented side by side. By connecting the cuff connecting portion 61 to the hose portion of the cuff 3a, the measurement units 4 (4a to 4d) are connected to the corresponding cuffs 3a to 3d, respectively. In this embodiment, the plurality of measurement units 4 (4a to 4d) constitute one unit body 40 together with the control board 5. As shown in FIG.

A plurality of cuffs 3a to 3d are connected to the cuff connection part 61 facing the outside on one side of the housing 21 of the apparatus main body 2, and each of them can be measured. By synchronizing the measurement of blood pressure and/or pulse wave by unit 4 (4a-4d), blood pressure and pulse wave can be measured simultaneously. Therefore, it is possible to measure the ABI (upper-lower extremity blood pressure ratio), PWV (pulse wave velocity), PWT (pulse wave time), etc. of the same subject. For example, the cuff 3a is attached to the right upper arm, the cuff 3b is attached to the right ankle, the cuff 3c is attached to the left upper arm, and the cuff 3d is attached to the left ankle. Measure waves and/or blood pressure. In addition, blood pressure and pulse waves can be measured simultaneously at each of these sites. Measurement units 4 (4a to 4d) can measure blood pressure and pulse waves through connected cuffs 3a to 3d, whether used singly or in combination.

<Apparatus body 2>
As shown in FIGS. 2 to 4, the device main body 2 has a unit accommodating portion 22 inside a housing 21 for accommodating the measuring units 4 (4a to 4d). The unit housing portion 22 forms a space having a volume capable of housing the unit body 40 (specifically, the plurality of measurement units 4a to 4d).

The unit housing portion 22 is provided on the inner bottom surface of the lower case 21a in this embodiment. The unit housing portion 22 is configured in a concave shape having a width substantially the same as the width of the unit body 40 . The unit accommodating section 22 accommodates the measurement units 4 (4a to 4d) in a state of being uniformly arranged with almost no gaps between them.

In this embodiment, the unit housing portion 22 is made of sheet metal processed to have a concave section. The unit housing part 22 is arranged on the bottom surface of the lower case 21a by the processed sheet metal, and the bottom part where the measurement unit 4 is arranged, and one end side of the bottom part are bent to stand up from the bottom part. and a regulating wall portion 25 configured as follows. In the present embodiment, the sheet metal is bent at the other end of the bottom surface to constitute the shield 27 of the power supply section 70 arranged adjacent to the unit body 40 .
In other words, in the present embodiment, the sheet metal forming the unit accommodating portion 22 has a function of accommodating the measurement units 4 (4a to 4d) and also a function as a shield covering the power supply portion . The unit housing section 22 fixes the power supply section 70 together with the unit body 40 having the measurement units 4 (4a to 4d).

The regulating wall portion 25 is one branch manifold portion 8 ( In this embodiment, it is arranged adjacent to the lid portion 88 (see FIGS. 2, 3 and 7 to 11) of the branch manifold portion 8 of the measurement unit 4d).
In this embodiment, the restricting wall portion 25 has an adjacent plate portion 26 protruding from the body portion of the restricting wall portion 25 toward one end of the measuring unit 4 . It adjoins the lid portion 88 of the branch manifold portion 8 on the side. Adjacent here means that the adjacent plate portion 26 and the branch manifold portion 8 may be in contact with each other, or may be separated from each other. When separated, the adjacent plate portion 26 is positioned so that the one end portion 8a is kept closed by the lid portion 88 of the branch manifold portion 8 facing the adjacent plate portion 26 . The separation distance is preferably within 1 mm, and may be, for example, 0.2-0.6 mm.

The adjacent plate portion 26 is adjacent to the lid portion 88 that closes the opening of the one end portion 8 a of the branch manifold portion 8 with the lid portion 88 .
As a result, the regulation wall portion 25, specifically, the branch manifold portion 8 adjacent to the adjacent plate portion 26 does not open the opening of the one end portion 8a of the branch manifold portion 8 by the regulation wall portion 25. The closed state of the opening of the portion 8a is maintained. Details of the branch manifold section 8 will be described later.

A control board 5 (see FIG. 4) for mounting the bottom portion of the unit body 40, that is, the measurement units 4 (4a to 4d) is provided on the bottom surface of the unit accommodating portion 22. As shown in FIG.

A unit body 40 (specifically, the measurement units 4a to 4d) is fixed in the unit accommodating portion 22 with a fixing member such as a screw.

<Configuration of unit body 40 and measurement unit 4 (4a to 4d)>
The unit body 40 shown in FIGS. 4 to 6 has a plurality of measurement units 4 (4a to 4d), a control board 5, a unit holder 28, a cuff connection holder 62, and an upper pump holder 288. FIG.

The unit holder 28 holds the measurement units 4 (4a-4d). The unit holder 28 is housed in the unit housing portion 22 inside the housing 21 . In the present embodiment, the unit holder 28, together with the upper pump holder 288 and the cuff connection holder 62, holds a plurality of measurement units 4 (4a to 4d) uniformly with the cuff connection 61 facing the same direction. They are held together in an aligned state.
The unit holder 28 has a lower pump holder 282 , a plate-like holder bottom portion 284 and a valve holder 286 .

The lower pump holder 282 is provided so as to protrude from the holder bottom surface portion 284 on one end side of the holder bottom surface portion 284 (on the back side when the cuff connection portion holder 62 is positioned at the front). An air supply portion (air supply portion) 42 is mounted on the lower pump holder 282 . In this embodiment, since the air supply portion 42 has a cylindrical shape, the upper surface of the lower pump holder 282 has an arc-shaped depression in a direction orthogonal to the direction in which the air supply portions 42 are arranged (the width direction in this embodiment). It is provided so as to extend in the front-rear direction (in the present embodiment). By placing the air supply section 42 in this depression, the measurement units 4 (4a to 4d) are restricted from moving in the adjacent direction (width direction).

In the lower pump holder 282, the measurement units 4 (4a to 4d) are arranged in a similar configuration on the holder bottom surface 284 in the same number as the measurement units 4 (4a to 4d). .
A valve holder 286 is provided on the other end side (front side) of the holder bottom surface portion 284 .
The valve holder 286 holds the exhaust section of the measurement unit 4 (the constant exhaust valve (flow rate control valve) 44 and the rapid exhaust valve (rapid exhaust valve) 45 in this embodiment).
Similar to the lower pump holder 282, the valve holder 286 has the measurement units 4 (4a to 4d) arranged on the holder bottom surface 284 in the same direction as the number of the measurement units 4 (4a to 4d). They are connected in a configuration.

A control board 5 to which the measurement unit 4 is connected is arranged on the holder bottom surface portion 284 . The control board 5 is mounted with a CPU (not shown), a memory (not shown), a pressure sensor 41, a ROM, a RAM, an interface circuit, and other electric circuits used for blood pressure pulse wave measurement. Each component of the measurement unit 4 (4a to 4d) is mounted on the control board 5, and the control board 5 is equipped with a CPU, a ROM, a RAM, an interface circuit, etc., and measures known blood pressure and pulse. The CPU drives according to the wave measurement program. Based on the detection signal from the pressure sensor 41 , the CPU outputs drive signals to the air supply unit 42 , the constant exhaust valve (flow control valve) 44 and the rapid exhaust valve (rapid exhaust valve) 45 . The overall control of the blood pressure and pulse wave measuring device 1 by the measurement program is conventionally well known, so detailed description thereof will be omitted here.

The cuff connection holder 62 is attached to the housing 21 to hold the cuff connection 61 of the measurement unit 4 (4a to 4d). The upper pump holder 288 is attached so as to cover the air supply section 42 and holds the air supply section 42 together with the lower pump holder 282 .

In this embodiment, the upper pump holder 288 is formed so as to cover each of the air supply sections 42 of the plurality of measurement units 4a to 4d at once. As a result, the plurality of measurement units 4a to 4d attached to the lower pump holder 282 are integrated to facilitate handling.

The measurement unit 4 (4a to 4d) includes a branch manifold that connects an air supply portion 42 as an air supply portion, a constant discharge valve 44 and a rapid discharge valve 45 as an exhaust portion, and a corresponding one cuff connection portion 61. , respectively. The measurement units 4 (4a to 4d) control the pressure of one corresponding cuff 3 through the branch manifold section 8 by the air supply section 42, the constant exhaust valve 44 and the rapid exhaust valve 45, respectively.
Specifically, the measurement unit 4 (4a to 4d) includes a pressure sensor 41, an air supply section 42, a check valve 42a, a branch manifold section 8, a constant exhaust valve 44, a quick exhaust valve 45, a tube 48, a cuff connection It has a part 61 .

In each of the measurement units 4 (4a to 4d), the pressure sensor 41, the air supply section 42, the check valve 42a, the branch manifold section 8, the constant discharge valve 44, the rapid discharge valve 45 and the cuff connection section 61 (4a to 4d) are arranged in a straight line in a direction orthogonal to the direction in which they are arranged. The direction orthogonal to the direction in which the measurement units 4 (4a to 4d) are arranged is the connection direction (front-rear direction) of the cuffs 3a to 3d in the cuff connection portion 61 in the present embodiment.

The air supply unit 42 supplies pressurized air to the corresponding cuffs 3a to 3d, and is, for example, a rotary pump.

The air supply unit 42 has an intake port and an exhaust port arranged vertically, and a pump tube 46 is connected to each of them. A tube 46 connected to the exhaust (supply) port is connected to the branch manifold section 8 via a check valve 42a. An air filter 46a for a pump is attached to the tube 46 connected to the intake port, and the air supply section 42 takes in air through the air filter 46a. In the air supply portion 42, the air supply direction from the air supply portion 42 is linear in the order of the tube 46 of the exhaust port, the check valve 42a, the branch manifold portion 8, the air filter 47, the tube 48, and the cuff connection portion 61. are connected so that The cuff connection part 61 is fixed to the cuff connection part holder 62 via a nut or the like. The air supply portion 42 is held by the upper pump holder 288 and positioned in the lower pump holder 282 .

The constant discharge valve 44 discharges the air supplied from the air supply portion 42 to the cuffs 3a to 3d at a constant flow rate, and the rapid discharge valve 45 rapidly discharges the air supplied from the air supply portion 42 to the cuffs 3a to 3d. It is a valve for exhaust. The constant exhaust valve 44 and the rapid exhaust valve 45 are held by valve holders 286, respectively.

Here, the branch manifold section 8 will be described in detail.
The branch manifold part 8 is connected to components used in blood pressure pulse wave measurement (in the present embodiment, the pressure sensor 41, the constant exhaust valve 44, the rapid exhaust valve 45, the air filter 47, etc.), and the components to be connected distributes air to A branch manifold section 8 is provided in each of the measurement units 4 (4a to 4d).

The branch manifold portion 8 of the present embodiment is made of an elastic material such as a styrene-based elastomer, for example. The branch manifold section 8 is preferably transparent. If the branch manifold part 8 is transparent, it can be visually recognized when dust such as burrs is generated inside.
The branch manifold portions 8 of the measurement units 4 (4a to 4d) are arranged in a line adjacent to each other in the direction in which the measurement units 4a to 4d are arranged.

FIG. 7 is a rear perspective view of the branch manifold section in the measurement unit, FIG. 8 is a front perspective view of the branch manifold section, and FIG. 9 is a front view of the branch manifold section. 10 is a front perspective view showing a state in which the cover portion 88 of the branch manifold portion 8 is removed, and FIG. 11 is a rear view showing a state in which the cover portion 88 of the branch manifold portion is removed. .

7 to 11, the branch manifold section 8 has a manifold body section 81 and a plurality of first to fifth branch pipes 82 to 86 branched from the manifold body section 81. As shown in FIGS. The manifold main body 81 and the first branch pipe 82 to the fifth branch pipe 86 are integrally constructed in a state in which the inside thereof communicates in a gas-tight manner. Each of the branch pipes 82 to 86 is arranged on a straight line to be connected.

The manifold main body 81 extends in a direction perpendicular to the flow direction of pressurized air, and is formed in a bottomed tubular shape with one end 8a open. That is, one end portion 8a of the manifold main body portion 81 is an open end portion. A tongue portion 87 protruding from the manifold main body portion 81 is provided at the open end portion so as to be bendable in the direction of the arrow shown in FIG. 7 to 9 show a bent state.
A tip of the tongue portion 87 is formed so as to be connected to a lid portion 88 capable of opening and closing the opening of the one end portion 8a.

The lid portion 88 closes the opening of the one end portion 8a. In this embodiment, the lid portion 88 is provided with a projection portion 89 that fits inside the opening of the one end portion 8a. By bending the tongue portion 87 and pushing the protrusion 89 into the opening of the one end portion 8a, the opening of the one end portion 8a is closed.
When assembled, the branch manifold portion 8 is used in a state in which the opening of the one end portion 8a is closed by the lid portion 88 to prevent the air in the manifold body portion 81 from leaking from the opening of the one end portion 8a. It is
In this embodiment, the tongue portion 87 is provided so as to protrude from the manifold main body portion 81 toward the bottom side of the device main body portion 2 . As a result, when or after the branch manifold section 8 is assembled into the measurement unit 4, the closed state of the opening can be visually confirmed by the lid section 88, for example, the state in which the projection section 89 is not completely fitted into the opening can be confirmed. . If the opening of the one end portion 8a can be closed by the lid portion 8 by bending, the tongue portion 87 projects in which direction from the manifold main body portion 81 when the opening of the one end portion 8a is opened before assembly. may be configured to

Further, in the branch manifold portion 8 of the present embodiment, the cover portion 88 is integrally formed with the tongue portion 87 interposed therebetween. As a result, the number of components can be reduced without manufacturing the lid portion 88 as a separate component. In addition, since the lid portion 88 is provided integrally with the branch manifold portion 8, there is no need to forget to attach the lid portion 88 to the opening of the one end portion 8a, and the closed state of the opening can be easily confirmed.
Note that the lid portion 88 may be configured in any manner as long as it closes the opening of the one end portion 8a. The lid portion 88 has a structure that completely closes the opening without the protrusion 89, for example, a cap-like member that covers the opening, or a surface contact member that can hold the closed state of the opening so as not to come off from the one end portion 8a. may be formed with

In the branch manifold portion 8 , the plurality of first branch pipes 82 to the fifth branch pipes 86 are provided so as to protrude in a direction intersecting the extending direction of the manifold main body portion 81 .
The first branch pipe 82 extends from the central portion of the manifold main body 81 to the cuff side (cuff connecting portion 61) while bending toward the upstream side (air supply portion 42 side). is connected to the check valve 42a.

The second branch pipe 83 extends downstream with respect to the direction of air flow toward the cuff, and its open end is connected to the constant discharge valve 44 .

The third branch pipe 84 extends downstream with respect to the air flow direction, and its open end is connected to the air filter 47 , which is connected to the cuff connection portion 61 via the tube 48 . The third branch pipe 84 is provided so as to protrude in the opposite direction to the first branch pipe 82 .

The fourth branch pipe 85 extends downstream with respect to the direction of air flow toward the cuff, and its open end is connected to the quick discharge valve 45 . The fifth branch pipe 86 extends downward (on the control board 5 side) orthogonal to the air flow direction, and its open end is connected to the pressure sensor 41 mounted on the control board 5 . The fifth branch pipe 86 is provided between the first branch pipe 82 and the third branch pipe 84 and perpendicular to the axial direction of the manifold body portion 81 .

Since the measurement unit 4 (4a to 4d) having the branch manifold section 8 is configured in this way, the branch manifold section 8 receives the air pressure-fed from the air supply section 42 through the first branch pipe 82, and the manifold It is branched and distributed to a second branch pipe 83 , a third branch pipe 84 , a fourth branch pipe 85 and a fifth branch pipe 86 through the main body portion 81 .

<Assembly method>
According to the biological information measuring device 1, the biological information measuring device 1 may be assembled by individually arranging each of the plurality of measuring units 4 (4a to 4d) in the unit housing section 22. In this embodiment, the unit body 40 having a plurality of measurement units 4 (4a to 4d) can be assembled and housed in the unit housing section 22. FIG.
For example, each component constituting the measurement unit 4a, for example, the air supply unit 42, the pump tube 46, the air filter 46a, the check valve 42a, the constant discharge valve 44, the quick discharge valve 45, and the cuff connection part 61 are connected. to attach it to the holder 28 and the cuff connection holder 62 and hold it. The control board 5 is fixed to the holder 28 with fixing members such as screws. Also, the air supply unit 42 is attached to the lower pump holder 282, the constant exhaust valve 44 and the quick exhaust valve 45 are attached to the valve holder 286, and the tube 46, the air filter 46a, the check valve 42a, the constant The exhaust valve 44, the rapid exhaust valve 45, the air filter 47, the tube 48, and the branch manifold portion 8 are connected respectively. The branch manifold portion 8 closes the opening of the one end portion 8a with the cover portion 88 and connects with each portion. Then, the next measuring unit 4b is mounted on the control board 5 in the same manner as the previous measuring unit 4a to assemble the unit body 40. As shown in FIG. In addition, a plurality of branch manifold portions 8 are in a state of being connected to the cuff connection portion 61 held by the cuff connection portion holder 62 via the air filter 47 and the tube 48, respectively, and are connected to other components. It is good also as a structure which carries out.

In this way, in the unit body 40, as shown in FIG. 12, in the measurement units 4 (4a to 4d), the lid portion 88 for closing the opening of the one end portion 8a in each branch manifold portion 8 is arranged on the one end portion 8a side. The closed state is maintained by being adjacent to the other end 8b of the branch manifold section 8 of the other measuring unit 4 which is connected to the measuring unit 4. As shown in FIG. Adjacent here means that the adjacent ends may be in contact with each other or may be separated from each other. When separated, the other end 8b is positioned so that the lid 88 keeps the one end 8a closed. The separation distance is preferably within 1 mm, and may be, for example, 0.2-0.6 mm. In this embodiment, the protrusion 89 of the lid portion 88 of the one end portion 8a of one branch manifold portion 8 is removed from the closed opening by the other end portion 8b of the other branch manifold portion 8 adjacent on the one end side. Directional movement is blocked.
One end portion 8a of the branch manifold portion 8 (specifically, the one end portion 8a of the branch manifold portion 8 of the measurement unit 4d) that is not adjacent to another measurement unit 4 on the one end side is a restricting wall of the unit accommodating portion 22. By being adjacent to the portion 25 (specifically, the adjacent plate portion 26), the movement of the lid portion 88 in the removal direction is regulated, and the lid portion 88 is held in a closed state.

In each measurement unit 4 (4a to 4d), the movement in the direction in which the closed state of the lid portion 88 that closes the opening of the one end portion 8a in each branch manifold portion 8 is released, is arranged on the one end portion 8a side. is regulated by the other end portion 8b of the branch manifold portion 8 of the measurement unit 4 or the regulating wall portion (specifically, the adjacent plate portion 26). In the present embodiment, the cover 88 is prevented from coming off and the closed state of the opening of the one end 8a is not released, and is regulated and prevented from coming off.

As a result, even if vibration or the like occurs due to the driving of the air supply portion 42, the lid portion 88 does not come off from the opening of the one end portion 8a in terms of layout, and air leakage in the branch manifold portion 8 can be prevented.

Further, in the unit accommodating portion 22, at the other end portion 8b of the manifold body portion 81 adjacent on the one end side, the opening of the predetermined one end portion 8a of the manifold body portion 81 is kept closed by the lid portion 88. , the length of the manifold body portions 81 of the plurality of branch manifold portions 8 (the total length of the manifold body portions 81 arranged in a straight line) is the width of the unit accommodating portion 22, specifically, the restriction wall portion 25 and the side surface of the power supply unit 70 . That is, the continuous length of the plurality of manifold main body portions 81 is such that one end portion 8a of the manifold main body portion 81 at the one end side is adjacent to the regulation wall portion 25 (specifically, the adjacent plate portion 26) of the unit accommodating portion 22. It is formed to be long enough to In this embodiment, the manifold body 81 located closest to one end corresponds to the manifold body 81 of the branch manifold 8 of the measurement unit 4d. As a result, if the lid portion 88 does not completely close the opening of the one end portion 8a and is in a halfway closed state, the branch manifold portion 8 of another measurement unit 4 cannot be attached. The lid portion 88 can be urged to close the opening of the one end portion 8a.

As described above, according to the present embodiment, it is possible to easily assemble with a simple configuration, connect a plurality of cuffs, and preferably perform blood pressure pulse wave measurement using each cuff.

In this embodiment, the branch manifold portion 8 having the first to fifth branch pipes 82 to 86 is illustrated, but the present invention is not limited to this. Can be changed as appropriate. Further, as the present embodiment, the configuration in which the pressure sensor 41, the constant exhaust valve 44, the quick exhaust valve 45, and the cuff connection portion 61 are connected to each of the branch pipes 82 to 86 of the branch manifold portion 8 has been described. , but may be connected to at least one of the pressure sensor 41, the air supply unit 42, the constant exhaust valve 44, and the rapid exhaust valve 45, or other components.

The embodiments of the present invention have been described above. It should be noted that the above description is an illustration of preferred embodiments of the present invention, and the scope of the present invention is not limited thereto. In other words, the description of the configuration of the apparatus and the shape of each part is an example, and it is clear that various modifications and additions to these examples are possible within the scope of the present invention.

INDUSTRIAL APPLICABILITY The biological information measuring device according to the present invention can be easily assembled with a simple configuration, and even when a plurality of cuffs are connected, biological information can be preferably measured using each cuff. It is useful as a blood pressure pulse wave measuring device.

1 biological information measuring device 2 device main unit 3a, 3b, 3c, 3d cuff 4, 4a, 4b, 4c, 4d measurement unit (cuff pressure control unit)
5 control board 8 branch manifold section 21 housing 22 unit housing section 25 regulation wall section 26 adjacent plate section 27 shield 28 unit holder 40 unit body 41 pressure sensor 42 air supply section (air supply section)
44 constant exhaust valve (exhaust part)
45 quick exhaust valve (exhaust part)
46, 48 tube 46a, 47 air filter 61 cuff connection part 62 cuff connection part holder 70 power supply part 81 manifold body part 82, 83, 84, 85, 86 branch tube 87 tongue part 88 lid part 89 projection part

Claims (3)

a plurality of cuff connection portions to which the plurality of cuffs are respectively connected;
each having a combination of an air supply, an exhaust, and a manifold connecting the air supply, the exhaust and a corresponding one of the cuff connections, wherein the air supply and the exhaust connect the manifold a plurality of cuff pressure control units that respectively control the pressure of the corresponding one of the cuffs via
an apparatus main body fixed in a state in which the plurality of cuff pressure control units are aligned;
has
The manifold is
a manifold main body that opens at one end in the direction in which the cuff pressure control units are arranged;
a lid portion capable of opening and closing the opening and forming a closed state of the opening when the corresponding one of the cuff pressure control portions is fixed to the apparatus main body;
has
At least two of the manifolds in the plurality of cuff pressure control units are adjacent to each other such that the other end of one of the manifold main bodies keeps the opening closed by the lid of the other manifold. placed,
Biological information measuring device. The device main body has a regulation wall,
Among the plurality of cuff pressure control units, one of the manifolds, in which another manifold is not arranged on the one end side in the direction in which the cuff pressure control units are arranged, is configured so that the restricting wall portion of the device main body portion is formed by the lid portion. arranged adjacent to the regulation wall so as to maintain the closed state of the opening;
The biological information measuring device according to claim 1. The manifold has a tongue formed at the one end so as to protrude from the manifold main body and connect to the lid at its tip, and is bendable so as to form a closed state of the opening with the lid.
The biological information measuring device according to claim 1.

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