Source: https://patents.google.com/patent/JP6051732B2/en
Timestamp: 2020-07-03 21:26:52
Document Index: 86245118

Matched Legal Cases: ['art 61', 'art 79', 'art 47', 'art 55', 'art 63', 'art 71', 'art 81', 'art 83', 'art 95', 'art 97', 'art 99', 'art 100', 'art 103', 'art 105']

JP6051732B2 - Cuff for blood pressure information measuring device and blood pressure information measuring device - Google Patents
Cuff for blood pressure information measuring device and blood pressure information measuring device Download PDF
JP6051732B2
JP6051732B2 JP2012211137A JP2012211137A JP6051732B2 JP 6051732 B2 JP6051732 B2 JP 6051732B2 JP 2012211137 A JP2012211137 A JP 2012211137A JP 2012211137 A JP2012211137 A JP 2012211137A JP 6051732 B2 JP6051732 B2 JP 6051732B2
JP2012211137A
JP2014064664A5 (en
JP2014064664A (en
寛子 吉野
直美 松村
角田　亘
2012-09-25 Application filed by オムロンヘルスケア株式会社 filed Critical オムロンヘルスケア株式会社
2012-09-25 Priority to JP2012211137A priority Critical patent/JP6051732B2/en
2014-04-17 Publication of JP2014064664A publication Critical patent/JP2014064664A/en
2015-12-17 Publication of JP2014064664A5 publication Critical patent/JP2014064664A5/ja
2016-12-27 Publication of JP6051732B2 publication Critical patent/JP6051732B2/en
230000036772 blood pressure Effects 0.000 title claims description 100
238000003466 welding Methods 0.000 claims description 49
The present invention relates to a cuff for a blood pressure information measuring device and a blood pressure information measuring device.
The blood pressure information measuring apparatus acquires blood pressure information such as a subject's pulse wave and blood pressure value. When blood pressure information is measured by the blood pressure information measuring device, first, a cuff containing a fluid bag that compresses an artery inside the living body is wound around the body surface of the living body. Next, the fluid bag in the wound cuff is pressurized and depressurized, and the pulse wave of the arterial pressure generated in the artery is detected. Various blood pressure values are detected based on the detected pulse wave.
Here, the cuff means a band-like structure having a lumen, which can be wound around a part of a living body, and an artery of the upper and lower limbs by injecting a fluid such as gas or liquid into the lumen. It is used for pressure measurement. Therefore, the cuff indicates a concept including a fluid bag and a winding means for winding the fluid bag around the living body.
The cuff for the blood pressure information measuring device is provided with a bag-like cover body that encloses an air bag as a fluid bag. This bag-like cover body is usually formed into a bag shape by superimposing two sheet-like members composed of an inner cover and an outer cover and joining the peripheral edges thereof. Such a cuff structure containing an air bag is disclosed in, for example, Patent Documents 1 and 2.
In the cuff for a blood pressure information measuring device disclosed in Patent Literature 1 and Patent Literature 2, an air bag to be included is manufactured as follows. That is, two opposing sides (long sides) of one end of a rectangular resin sheet are overlapped and welded to form a cylindrical shape, and the cylindrical resin sheet is flattened and opened at both ends. Weld each side (short side). Thereby, the air bag of the structure where the peripheral end was obstruct | occluded is obtained.
Japanese Unexamined Patent Publication No. 4-67837 JP 2003-52651 A
As shown in FIG. 12A, the cuff having the above structure has the air bag 1 formed in an elongated shape. The two sides 3 and 3 which are the long sides of the air bag 1 are formed by bending a single resin sheet. Therefore, when an external force in the direction of arrow A is applied to the air bag 1, the air bag 1 easily rolls in the direction in which the external force acts, causing a lateral shift. That is, the long side 3 of the air bag 1 is extended in the direction a1 that receives the external force or degenerated in the direction a2, as shown in the PP cross section of FIG. 12A in FIG. Thus, the position in the direction of arrow A changes.
When the lateral displacement occurs in the air bag 1, the compression point to the measurement site on the body surface is shifted, and the loss of the compression force occurs, making it difficult to apply a sufficient compression force to the measurement site. As a result, it may be difficult to obtain accurate blood pressure information.
Accordingly, an object of the present invention is to provide a cuff for a blood pressure information measuring device and a blood pressure information measuring device capable of applying a sufficient compression force to a measurement site with a simple configuration.
(1) A blood pressure information measurement cuff that has a belt-like cuff body and a fluid bag that is attached to the cuff body and expands and contracts when fluid enters and exits, and is used by being wound around a subject.
The fluid bag is formed into a rectangular bag shape in which the cylindrical resin sheet is flattened and the both open ends are sealed,
Partial welding in which the resin sheet is folded and welded to a part of at least one of the opposing sides of the pair of opposing sides that intersects the sides of the sealed both ends and extends along the winding direction of the subject. Part is formed,
The partial welded portion is a blood pressure information measurement cuff formed on both sides of the opposite side with respect to a central region in the winding direction of the fluid bag .
(2) A blood pressure information measurement cuff having a belt-like cuff body and a fluid bag attached to the cuff body and inflating and contracting when fluid enters and exits, and used by being wound around a subject,
The partial weld portion is a blood pressure information measurement cuff formed on both of the pair of opposing sides.
(3) A blood pressure information measurement cuff having a belt-like cuff body and a fluid bag attached to the cuff body and expanding and contracting when fluid enters and exits, and used by being wound around a subject,
The cuff body has a curved shape in which one of the pair of long sides in a band shape is longer than the other,
The partial welded portion is a blood pressure information measurement formed only on the opposite side of the pair of opposite sides of the fluid bag accommodated in the cuff body, which is disposed on the longer long side of the cuff body. For cuff.
(4) a cuff body for measuring blood pressure information having a belt-like cuff body and a fluid bag attached to the cuff body and expanding and contracting when fluid enters and exits, and is used by being wound around a subject,
Of the pair of opposing sides of the fluid bag accommodated in the cuff body, the partial weld portion has a welding area of the opposing side disposed on the longer long side of the cuff body on the other side. A cuff for measuring blood pressure information that is larger than the welding area of the opposite side that is disposed on the side.
(5) the blood pressure information measurement cuff;
A blood pressure information acquisition unit for acquiring blood pressure information;
A blood pressure information measuring device.
ADVANTAGE OF THE INVENTION According to this invention, sufficient compression force can be made to act on a to-be-measured site | part by simple structure, and a highly accurate blood pressure measurement is realizable.
It is a figure for demonstrating embodiment of invention, and is a whole block diagram which shows the structure of a blood-pressure information measuring apparatus. It is a functional block diagram of a blood pressure information measuring device. It is a top view which shows a cuff main body. It is sectional drawing of a cuff main body. (A)-(D) are explanatory drawings which show the manufacturing method of a fluid bag. It is a top view of the air bag in the 1st example of composition. It is sectional drawing between typical QQ of the air bag shown in FIG. (A)-(D) are top views which show the variation of the shape of a partial welding part. It is a top view which shows the partial weld part in the 2nd structural example. It is a top view which shows the partial weld part in the 3rd structural example. It is a top view which shows the cuff main body in the 4th structural example. (A) (B) is explanatory drawing which shows the problem of the cuff of a conventional structure.
FIG. 1 is a diagram for explaining an embodiment of the present invention, and is an overall configuration diagram showing a configuration of a blood pressure information measuring device.
The blood pressure information measurement device (hereinafter, abbreviated as a sphygmomanometer) 100 mainly includes a device body 11 as a blood pressure information acquisition unit and a sphygmomanometer cuff (hereinafter abbreviated as a cuff) 13. The illustrated sphygmomanometer 100 is a wrist blood pressure information measuring device that measures blood pressure information such as a blood pressure value in a state where the cuff 13 is worn on the wrist of a subject.
The blood pressure information includes a blood pressure value, a pulse wave waveform, a heart rate, etc., and a maximum blood pressure value, a minimum blood pressure value, a pulse rate, a pulse wave amplitude, an AI (Augmentation Index) value calculated from them, TR (Time of Reflection) value and the like are included.
The apparatus main body 11 and the cuff 13 are integrally formed, and the apparatus main body 11 and the cuff 13 are connected from an air connection port provided on the cuff 13 side to the apparatus main body via an air channel (not shown). .
The apparatus main body 11 is provided with a display unit 19 for displaying information and an input operation unit 21 for inputting various information. The display unit 19 displays the blood pressure value, the measurement result of the pulse rate, and the like visually using numerical values, graphs, and the like. For example, a liquid crystal panel or the like is used as the display unit 19. The input operation unit 21 is provided with a power button, a measurement start button, and various buttons for inputting information on the subject.
The entire cuff 13 is formed in a band shape, and is used by being wound around the wrist of the subject. The cuff 13 has an air bag 23 which is a fluid bag for pressing the wrist, and a bag-like cover body 25 as a cuff body for wrapping the air bag 23 around the wrist of the subject.
FIG. 2 is a functional block diagram of the blood pressure information measuring device shown in FIG .
The apparatus main body 11 is provided with an air system component 27 for blood pressure measurement for supplying or discharging air to / from an air bag 23 contained in the cuff 13. The blood pressure measurement air system component 27 includes a pressure sensor 29 that detects the pressure in the air bladder 23, and a pump 33 and a valve 35 that are expansion / contraction mechanisms 31 that inflate / deflate the air bladder 23. An oscillation circuit 37, a pump drive circuit 39, and a valve drive circuit 41 are provided in the apparatus main body 11 in association with the blood pressure measurement air system component 27.
The apparatus main body 11 stores a CPU (Central Processing Unit) 43 as a control unit that controls and monitors each unit intensively, and various information such as a program for causing the CPU 43 to perform a predetermined operation and a measured blood pressure value. The memory unit 45, the display unit 19 and the input operation unit 21 described above, and a power source unit 47 that supplies power as a power source to the CPU 43 are provided. The CPU 43 also functions as blood pressure value calculation means for calculating blood pressure values.
The pressure sensor 29 detects the pressure in the air bladder 23 (hereinafter referred to as “cuff pressure”), and outputs a signal corresponding to the detected cuff pressure to the oscillation circuit 37. The pump 33 supplies air to the air bag 23. The valve 35 opens and closes when maintaining the pressure in the air bladder 23 or exhausting the air in the air bladder 23. The oscillation circuit 37 outputs a signal having an oscillation frequency corresponding to the output value of the pressure sensor 29 to the CPU 43. The pump drive circuit 39 controls the drive of the pump 33 based on a control signal given from the CPU 43. The valve drive circuit 41 performs opening / closing control of the valve 35 based on a control signal given from the CPU 43.
FIG. 3 is a plan view of the cuff 13. The cuff 13 has an air bag 23 and a bag-like cover body 25. The bag-like cover body 25 is formed in a bag shape by superimposing two sheet-like members composed of an inner cover and an outer cover and joining the peripheral edges thereof. On the outside of the cuff 13 and the air bag 23, a surface fastener 51 made of, for example, Velcro (registered trademark) is provided.
FIG. 4 is a cross-sectional view showing a state where the cuff 13 is wound around the wrist of the subject. In the cuff 13, a curler 53 may be interposed between the air bag 23 and the bag-like cover body 25. The curler 53 is made of a flexible member configured to be elastically deformable in the radial direction by being wound in an annular shape. The curler 53 is bonded and fixed to the outer peripheral surface of the air bag 23 via an adhesive member such as a double-sided tape (not shown), and is configured to follow the wrist by maintaining its own annular shape. The curler 53 is intended to make it easier for the subject to attach the cuff 13 to the wrist, and to urge the air bag 23 toward the inside of the wrist when the cuff 13 is attached to the wrist. . The curler 53 is formed of a resin member such as polypropylene (PP) so as to exhibit a sufficient elastic force.
Next, the manufacturing method of said air bag 23 is demonstrated.
5A to 5D are explanatory views showing a method for manufacturing the air bag 23. FIG. As a manufacturing procedure of the air bag 23, first, as shown in FIG. 5A, one rectangular resin sheet 55 is prepared. The resin sheet 55 is a flexible sheet made of, for example, ethylene-vinyl acetate copolymer (EVA), soft vinyl chloride (PVC), polyurethane (PU), natural rubber (NR), or the like. A hole 57 for attaching the connection pipe 17 is formed in a part of the resin sheet 55.
Next, after attaching the connecting pipe 17 to the hole 57 provided in the resin sheet 55, as shown in FIG. 5 (B), the other outer surface 59, 59 on one side of the resin sheet 55 is opposite to the other outer surface. The inner surfaces of the two are overlapped with each other so that the inner surfaces are in contact with each other, and the overlapping portions are welded by a high frequency welder or the like. Thereby, the resin sheet 55 becomes a cylindrical body, and the 1st welding part 61 along the axial direction of a cylindrical body is formed.
Next, as shown in FIG. 5C, the cylindrical body processed in FIG. 5B is crushed into a flat shape. The flattened resin sheet 55 has both ends 63, 63 of the cylindrical body open. As shown in FIG. 5D, the open ends 63 and 63 are welded by a high frequency welder or the like to form second welded portions 65 and 67. The air bag 23 manufactured as described above has a rectangular shape in plan view, and the cuff 13 has a long side portion in the circumferential direction when wound around the wrist and a short side portion in the longitudinal direction perpendicular to the circumferential direction. Housed inside. The length of the long side part is, for example, 100 mm or more and 220 mm or less, and the length of the short side part can be, for example, 40 mm or more and less than the length of the long side part. The air bag 23 can be formed in a square shape or other polygonal shapes.
Next, the air bag which carried out the further process with respect to the air bag 23 manufactured by the said procedure and made it hard to produce a lateral shift is demonstrated in detail. In the following description, the same reference numerals are assigned to the same members and parts, and the description is omitted or simplified.
FIG. 6 is a plan view of the air bag in the first configuration example. The air bag 23A of this configuration example has a pair of opposing sides along the winding direction of the subject, long sides 71 and 73, and a pair of short sides 75 and 77 along the direction orthogonal to the winding direction, as viewed in plan view. It is formed in a rectangular shape. The air bag 23A is formed with the aforementioned first welded portion 61 and second welded portions 65, 67.
In addition to the first welded portion 61 and the second welded portions 65 and 67, the air bag 23A has partial welded portions 79A and 79B in which the resin sheet 55 is folded up and down on a part of the long sides 71 and 73 and welded. , 81A, 81B are formed. The partial welds 79A and 79B are formed on the long side 71 side, and the partial welds 81A and 81b are formed on the long side 73 side.
That is, the air bag 23A is formed in a rectangular bag shape in which a cylindrical resin sheet is flattened and both open ends are sealed. Of the long sides 71, 73 is a pair of opposing sides along intersecting this sealed end portions of the side in the winding direction around the subject, at least one part of the long sides of (both in the present configuration example) Partially welded portions 79A, 79B, 81A, 81B are formed by folding and welding the resin sheets.
The partial welds 79A, 79B, 81A, 81B are discretely formed on both sides of the long sides 71, 73 with respect to the central region 83 in the winding direction of the air bag 23A.
More specifically, the air bag 23A is formed in a rectangular shape having a pair of opposing sides as long sides and a pair of opposing sides along a direction orthogonal to the winding direction as short sides. Parts welded portion 79A is formed in a first end region A L1 that serves as one side end of the central region 83 on the long sides 71, parts welded portion 79B, the second end region A is the other side side Formed in R1 . The partial welding portion 81A is formed in a first end region A L2 that serves as one side end of the central region 83 on the long sides 71, parts welded portion 81B includes a second end which is the other side side It is formed in region AR2 .
In this configuration example, partial welding portion 79A, the boundary position between the central region 83 and the first end region A L1, partial weld portion 79B is the boundary position between the central region 83 and the second end region A R1 It is formed. The partial welded portion 81A is formed at the boundary position between the central region 83 and the first end region AL2, and the partial welded portion 81B is formed at the boundary position between the central region 83 and the second end region AR2 .
Moreover, each partial welding part 79A, 79B, 81A, 81B is formed alternately along the winding direction (direction along a long side). As described above, the partial welded portions 79A, 79B, 81A, 81B are formed at positions that are biased near both ends except for the central region 83 of the long sides 71, 73 so that the measurement site can be compressed with sufficient force. Is done.
For the central region 83 defined at equal distances from the center line Lc indicating the center of the long side of the air bag 23A toward both short sides 75 and 77, a partial welded portion is formed in the central region 83. By avoiding, the expansion of the central portion of the air bag 23A is not hindered. In this configuration example, since the partial welded portions 79A, 79B, 81A, 81B are provided in the vicinity of the central region 83 that avoids the central region 83, it is possible to sufficiently secure the compression area for the portion of the subject that is most desired to be compressed.
The partial welds 79A and 79B in this configuration example are formed with a distance La from the center line Lc, and the partial welds 81A and 81B are formed with a distance Lb longer than the distance La from the stop line or Lc. . The central region 83 is defined in a trapezoidal shape, and a long side 73 serving as the longer base is disposed on the proximal side (side closer to the trunk) of the subject. Further, the shorter long side 71 is arranged on the distal side of the subject (the side far from the trunk).
Therefore, when the measurement site is pressed by inflating the air bag 23A by inflating the air, the partial welded portions 79A, 79B, 81A, 81B prevent lateral displacement along the short sides 75, 77 of the air bag 23A. As shown in a schematic Q-Q sectional view of the air bag 23A in FIG. 7, even if an external force A is applied to the air bag 23A, the partial welded portion 79B extends in the direction a1 shown in FIG. The partial welded portion 81B prevents degeneration in the direction a2 shown in FIG.
Therefore, when the air bag 23A is inflated, a sufficient compression force can be stably applied without deviating from the measurement site. This lateral slip prevention effect can be obtained both in the period from when air is supplied to the air bag 23A until the air bag 23A starts to inflate until the inflating is completed, and in the period in which the air bag 23A is kept in the inflated state.
The welding margin width W3 in the direction orthogonal to the outer edge sides ( long sides 71 and 73) of the air bag 23A is the welding margin width W1 from the edge portion of the first welding portion 61, the second welding portion 65, It is preferable that the welding allowance width W2 from the edge portion 67 is narrower. By narrowing the welding allowance width W3, the influence on the inflation of the air bag 23A can be minimized.
The shape of the partially welded portions 79A, 79B, 81A, 81B is not limited to the rectangular shape in the illustrated example, but may be other shapes.
8A to 8D are plan views showing variations in the shape of the partially welded portion. (A) is a square partial weld portion 85A, (B) is a partial weld portion 85B having a shape including a semicircular portion, (C) is a partial weld portion 85C having a shape with the base of (B) widened, and (D) is This is a case of the trapezoidal partial weld portion 85D.
The partial welded portion can obtain the above effects regardless of the shape. Further, when the semicircular portion 87 shown in FIG. 8B, the skirt portion 89 shown in FIG. 8C, and the trapezoid hypotenuse 91 shown in FIG. 8D are formed, the shape shown in FIG. The stress concentration during expansion of the air bag 23A at the corner 93 shown can be relaxed, and the durability of the air bag 23A can be further improved.
When the cuff 13 is attached to the part to be measured, the partial welds having various shapes are alternately formed along the winding direction on the long sides 71 and 73 that are a pair of opposite sides of the air bag 23A. That is, the center position of each partial welded portion is disposed at a different position with respect to the directions of the short sides 75 and 77 when the air bag 23A is viewed in plan. Thereby, it is possible to prevent wrinkles from occurring in the air bag 23A when the air bag 23A is inflated.
The arrangement position and size of the partial weld portion can be exemplified as follows for the partial weld portion shown in FIG. 6, for example. Assuming that the central region 83 of the air bag 23A corresponding to the region to be most compressed of the subject is within a range of 60 mm near the center line Lc of the air bag 23A, the partially welded portions 79A, 79B. 81A and 81B can be about 3 mm in the circumferential direction (long side direction) when wound around the subject and about 1 mm in the short side direction orthogonal to the circumferential direction. Further, these rectangular partial welds 79A, 79B, 81A, 81B can be alternately formed along the long sides 71, 73, for example, at an interval of 8 mm at the center of the weld.
FIG. 9 shows a modification of the arrangement of the partial welds.
The partial welded portion may be arranged in the vicinity of the central region 83 of the air bag 23A. That is, the partial welds 95A and 95B shown in FIG. 9 are formed outside the central region 83, but the partial welds 97A and 97B are disposed in the central region 83 in the vicinity of the central region 83. Also good. In this case, the partially welded portions 95A, 95B, 97A, and 97B are formed by dividing the trapezoidal partially welded portion shown in FIG. 8D, and the trapezoidal oblique sides coincide with the boundary line of the central region 83.
According to the arrangement of the partial welded portions according to this modification, the long side width W4 of the welding allowance can be narrowed by placing the partial welded portions 95A, 95B, 97A, 97B in consideration of the taper of the trapezoid oblique sides.
FIG. 10 is a plan view of an air bag in the second configuration example. The air bag 23 </ b> B of this configuration example forms partial welded portions 99 </ b> A, 99 </ b> B, 101 </ b> A, 101 </ b> B continuous along the long sides 71, 73 on the long sides 71, 73 excluding the central region 83. One end of the partial weld 99A is connected to the second weld 65 on the long side 71 of the air bag 23B, and the other end extends continuously to the boundary with the central region 83. Similarly, the partial weld 99B is connected to the second weld 67 and extends continuously to the boundary with the central region 83.
Similarly, the partial welds 101 </ b> A and 101 </ b> B are connected to the second welds 65 and 67 and extend continuously to the boundary with the central region 83.
The welding allowance width W5 from the edge portions (71, 73) of these partial weld portions 99A, 99B, 101A, 101B is the welding allowance width W1, from the edge portion of the first weld portion 61, the second weld portion 65, It is formed narrower than the welding allowance width W2 from the edge of 67 .
In the partial welded portions 99A, 99B, 101A, and 101B of this configuration example, the welding allowance width W5 is set to be 70% to 90% of the welding allowance widths W1 and W2. Thereby, since a partial welding part can be formed in a simple process, a manufacturing man-hour is reduced and the air bag 23B can be manufactured at low cost.
Further, when the air bag 23B is inflated, the continuous partial welded portions 99A, 99B, 101A, and 101B can more reliably prevent the occurrence of lateral displacement, and a sufficient compression force can be applied to the measurement site.
FIG. 11 is a plan view showing a cuff in the third configuration example. The cuff 13A has a shape in which one long side 105 of the belt-like shape is curved longer than the other long side 107 in consideration of the state of being wound around the subject. When the cuff 13A is wound around the subject, the long side 105 is disposed on the proximal side (the side closer to the trunk) of the subject, and the shorter long side 107 is disposed on the distal side (the side far from the trunk). ).
The air bag 23C accommodated in the cuff 13A in this case forms the partial welded portions 103A and 103B only on the long side 73 disposed on the long side 105 side of the cuff 13A, and the partial weld on the opposite long side 107. Does not form part.
According to the above configuration, since the partial welded portion is disposed at the minimum necessary position, the inflation of the air bladder 23C is not hindered, and a sufficient compression force can be applied to the measurement site. The air bag 23 </ b> C may have a configuration in which a partial weld portion having a welding allowance narrower than the long side 105 is formed on the long side 107. For example, when the welding margin width from the edge of the partial welded portion 103A, 103B of the long side 105 is 1 mm, the welding margin width of the partial welded portion of the long side 107 is 0.8 mm, and the portion on the long side 105 side The welding area of the welded portion can be made relatively larger than the partial welded portion on the long side 107 side.
The present invention is not limited to the above-described embodiments, and the configurations of the embodiments may be combined with each other, or may be modified or applied by those skilled in the art based on the description of the specification and well-known techniques. The invention is intended and is within the scope of seeking protection. Although the above blood pressure information measurement device has been described by taking a wrist type as an example, the present invention is not limited to the wrist type, and may have a device configuration applicable to any of the four limbs.
Partial welding in which the resin sheet is folded and welded to a part of at least one of the opposing sides of the pair of opposing sides that intersects the sides of the sealed both ends and extends along the winding direction of the subject. Blood pressure information measurement cuff formed with a part.
(2) The blood pressure information measurement cuff of (1),
The partial welded portion is a blood pressure information measurement cuff formed on both sides of the opposite side with respect to a central region in the winding direction of the fluid bag.
(3) The blood pressure information measurement cuff according to (2),
The fluid bag is formed in a rectangular shape having the pair of opposed sides as long sides and the pair of opposed sides along a direction orthogonal to the winding direction as short sides,
The partial welded portions are cuffs for measuring blood pressure information that are respectively formed in a first end region on one side of the central region on the long side and a second end region on the other side. .
(4) The blood pressure information measurement cuff of (3),
The partial welded portion is a blood pressure information measurement cuff formed discretely in each of the first end region and the second end region.
(5) The blood pressure information measurement cuff according to (4),
The partial weld portion is a blood pressure information measurement cuff formed at a boundary position between the central region and the first end region and a boundary position between the central region and the second end region.
(6) The blood pressure information measurement cuff according to (3),
The partial welded portion is a blood pressure information measurement cuff that extends over the entire first end region and the second end region.
(7) The blood pressure information measurement cuff according to any one of (1) to (6) ,
The fluid bag is formed by flattening the cylindrical body with respect to the cylindrical body having the first welded portion where the edges of the pair of opposite sides of the rectangular resin sheet are overlapped, and the remaining bag opening. A cuff for measuring blood pressure information, which has a second welded portion in which two edge portions are welded, and is formed in a bag shape.
(8) The blood pressure information measurement cuff according to (7) ,
The partial welded portion is for measuring blood pressure information in which a welding margin width in a direction orthogonal to a side of an outer edge of the welded fluid bag is narrower than the welding margin width with respect to the first lateral bonding portion and the second welding portion. Cuff.
(9) The blood pressure information measurement cuff according to any one of (1) to (8),
(10) The blood pressure information measurement cuff according to (9),
The partial welded portions are blood pressure information measurement cuffs that are alternately formed on the pair of opposing sides along the winding direction.
(11) The blood pressure information measurement cuff according to any one of (1) to (10),
The partial welded portion is for blood pressure information measurement formed only on the opposite side disposed on the longer long side of the cuff body among the pair of opposite sides of the fluid bag accommodated in the cuff body. Cuff.
(12) The blood pressure information measurement cuff according to any one of (1) to (10),
Of the pair of opposing sides of the fluid bag accommodated in the cuff body, the partial welded portion has a welding area of the opposing side disposed on the longer long side of the cuff body on the other side. Blood pressure information measurement cuff larger than the welding area of the opposite side to be arranged.
(13) The blood pressure information measurement cuff according to any one of (1) to (12);
DESCRIPTION OF SYMBOLS 11 Apparatus main body 13 Sphygmomanometer cuff 23, 23A, 23B, 23C Air bag 27 Air pressure measurement air system component 29 Pressure sensor 31 Expansion mechanism 33 Pump 35 Valve 37 Oscillation circuit 39 Pump drive circuit 41 Valve drive circuit 43 CPU
45 Memory part 47 Power supply part 55 Resin sheet 61 First welding part 63 Both ends of cylindrical body 65, 67 Second welding part 71, 73 Long side 75, 77 Short side 79A, 79B Partial welding part 81A, 81B Partial welding part 83 Central region 85A, 85B, 85C, 85D Partial weld part 95A, 94B Partial weld part 97A, 97B Partial weld part 99A, 99B Partial weld part 100 Blood pressure information measuring device 101A, 101B Partial weld part 103A, 103B Partial weld part 105, 107 long side
A cuff body for measuring blood pressure information that has a band-shaped cuff body and a fluid bag that is attached to the cuff body and expands and contracts when fluid enters and exits, and is used by being wound around a subject,
Partial welding in which the resin sheet is folded and welded to a part of at least one of the opposing sides of the pair of opposing sides that intersects the sides of the sealed both ends and extends along the winding direction of the subject. Part is formed ,
The blood pressure information measurement cuff according to claim 1 ,
A blood pressure information measurement cuff according to claim 2 ,
A blood pressure information measurement cuff according to claim 3 ,
A blood pressure information measurement cuff according to any one of claims 1 to 5 ,
A blood pressure information measurement cuff according to claim 6 ,
The partial weld portion is for measuring blood pressure information in which a welding margin width in a direction orthogonal to a side of an outer edge of the welded fluid bag is narrower than the welding margin width with respect to the first welding portion and the second welding portion. Cuff.
A blood pressure information measurement cuff according to claim 8 ,
A blood pressure information measurement cuff according to any one of claims 1 to 11 ,
JP2012211137A 2012-09-25 2012-09-25 Cuff for blood pressure information measuring device and blood pressure information measuring device Active JP6051732B2 (en)
JP2012211137A JP6051732B2 (en) 2012-09-25 2012-09-25 Cuff for blood pressure information measuring device and blood pressure information measuring device
DE112013004679.2T DE112013004679T5 (en) 2012-09-25 2013-08-08 Blood pressure information cuff and blood pressure information meter
PCT/JP2013/071528 WO2014050325A1 (en) 2012-09-25 2013-08-08 Cuff for blood pressure information measurement apparatus, and blood pressure information measurement apparatus
CN201380049842.XA CN104661589B (en) 2012-09-25 2013-08-08 Cuff for blood pressure information measurement apparatus, and blood pressure information measurement apparatus
US14/644,962 US20150182138A1 (en) 2012-09-25 2015-03-11 Blood pressure information measurement apparatus cuff and blood pressure information measurement apparatus
US16/273,602 US20190167127A1 (en) 2012-09-25 2019-02-12 Blood pressure information measurement apparatus cuff and blood pressure information measurement apparatus
JP2014064664A JP2014064664A (en) 2014-04-17
JP2014064664A5 JP2014064664A5 (en) 2015-12-17
JP6051732B2 true JP6051732B2 (en) 2016-12-27
ID=50387739
JP2012211137A Active JP6051732B2 (en) 2012-09-25 2012-09-25 Cuff for blood pressure information measuring device and blood pressure information measuring device
US (2) US20150182138A1 (en)
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CN (1) CN104661589B (en)
DE (1) DE112013004679T5 (en)
WO (1) WO2014050325A1 (en)
USD806250S1 (en) * 2015-12-07 2017-12-26 Samsung Electronics Co., Ltd. Medical device
JPH0564631A (en) * 1991-09-06 1993-03-19 Sharp Corp Air bag of pressure cuff and bag for sphygmomanometer
JP2711421B2 (en) * 1991-12-04 1998-02-10 シャープ株式会社 Air bag for sphygmomanometer cuff band
CN1732842A (en) * 2004-08-11 2006-02-15 株式会社Tk Method for manufacturing air bag
JP2007054341A (en) * 2005-08-25 2007-03-08 Csp Kk Cuff for hemadynamometer, and manufacturing method of air bag for the cuff
JP3972148B2 (en) * 2005-12-28 2007-09-05 オムロンヘルスケア株式会社 Sphygmomanometer cuff
JP4685951B2 (en) * 2009-06-09 2011-05-18 シチズン・システムズ株式会社 Manufacturing method of cuff for blood pressure monitor
2012-09-25 JP JP2012211137A patent/JP6051732B2/en active Active
2013-08-08 DE DE112013004679.2T patent/DE112013004679T5/en active Pending
2013-08-08 CN CN201380049842.XA patent/CN104661589B/en active IP Right Grant
2013-08-08 WO PCT/JP2013/071528 patent/WO2014050325A1/en active Application Filing
2015-03-11 US US14/644,962 patent/US20150182138A1/en active Pending
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WO2014050325A1 (en) 2014-04-03
CN104661589A (en) 2015-05-27
JP2014064664A (en) 2014-04-17
CN104661589B (en) 2017-04-12
US20190167127A1 (en) 2019-06-06
DE112013004679T5 (en) 2015-08-13
US20150182138A1 (en) 2015-07-02
EP1566143B1 (en) 2016-04-20 Blood pressure monitor
KR100610390B1 (en) 2006-08-09 Pressure applicator devices particularly useful for non-invasive detection of medical conditions
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