TW200803787A - Wrist-type blood pressure monitor - Google Patents

Abstract

A wrist-type blood pressure monitor (150A) includes a wrap part wrapped around an upper arm (210), and a tongue (165) disposed to axially project toward the upper arm (210) from the wrap part for the purpose of temporarily holding. The structure of the tongue (165) is projected toward an elbow (215) after the write-type blood pressure monitor (150A) is put on the forearm (210) and is kept at an inner side of the elbow (215) by a forearm (220) and the upper arm (210) while wearing the wrist-type blood pressure monitor. Given such structure, the wrist-type blood pressure monitor can be easily put on an upper arm.

Description

200803787 IX. Description of the Invention: [Technical Field] The present invention relates to a wristband for a blood pressure monitor that is wound around an upper arm when blood pressure is measured by a sphygmomanometer. [Prior Art] In recent years, sphygmomanometers have been widely used for the early detection of lifestyle-related diseases caused by hypertension and blood pressure management. When measuring blood pressure, the wristband wrapped in a fluid bag for compressing the artery is usually wound around the surface of the body, and the wound fluid bag is expanded and contracted, and the arterial pressure wave generated in the artery is detected. Blood pressure was measured. Here, the wristband is a belt-like structure having a lumen, which means that it can be wound around a body to be measured (for example, an upper arm or a wrist, etc.), and refers to injecting a fluid such as a gas or a liquid into the lumen, thereby determining the upper side. Arterial pressure of the lower extremities. Thus, a wristband is a vocabulary that includes a fluid bag and a entanglement member for wrapping the fluid bag around the body, sometimes referred to as a cuff or a manchette, to be worn on the upper arm. The wristband is usually provided with an exterior member such that the interior of the decorative member accommodates the air bladder as a fluid bag, and the outer member is provided with a locking member for winding and fixing the upper arm. Japanese Unexamined Patent Publication No. Hei 7-24304 (Patent Document 1), JP-A-62-2 1 3730 (Patent Document 2), and JP-A-2004-159968 (Patent Document 3) and the like. Further, a surface fastener is generally used as the locking member. The circumference of the upper arm varies depending on the subject. Therefore, if the surface fastener is used, the circumferential end portions of the wound outer member can be locked to the upper arm at any position, so that the upper arm can be fixed to the upper arm. After that, the wristband is worn on the upper arm of the 200803787 without a gap. The wristband for sphygmomanometer to be wrapped around the upper arm is preferably: the wristband is positioned and wound around the upper arm such that the airbag is in the direction of the upward arm, that is, the long side of the wristband in the unfolded state of the wristband. The central portion of the direction is located directly above the superior aorta of the upper arm. In the case where the wristband is properly positioned and wound around the upper arm, it is the most inflated portion in the thickness direction, that is, the central portion of the airbag in the longitudinal direction. This portion is disposed close to the upper aorta, so air can be used. The sac effectively and positively compresses the upper aorta and blocks blood flow. Therefore, blood pressure sputum can be measured with high precision. However, since the air bladder is housed inside the exterior member, it is extremely difficult to position the central portion in the longitudinal direction of the airbag and wrap around the upper arm as described above. Therefore, a wristband which solves this problem is known, and a positioning mark is attached to the surface of the exterior member. The wristband is intended to be worn by the subject in the upper arm so that the symbol is located on the extension of the middle finger of the arm around the wristband. Here, the upper aorta is usually located on the trunk side of the upper arm (i.e., the chest side), so that the central portion of the air bag in the longitudinal direction is disposed apart from the mark previously provided on the above-described exterior member by a predetermined distance. Patent Document 1: Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. Problem to solve] However, in the conventional wristband for sphygmomanometer, in order to wrap the wristband when wearing, the subject pulls one end of the wristband, and the wristband rotates on the upper arm 200803787 to face fasteners. When the card is stuck, the force is not smoothly transmitted to the wristband, and the carding becomes difficult, which causes troubles in the wearing work. Therefore, if you are not familiar with the subject you are wearing, there will be a gap between the wrist strap and the upper arm after the upper arm is wound and fixed, and sometimes the correct wearing condition cannot be obtained. If the measurement is performed in such a state, the air bladder cannot be used to uniformly press the upper arm, which may cause an influence of poor measurement accuracy. Further, in the above-described wristband for a blood pressure monitor having a positioning symbol as described above, the operation of winding the wristband around the upper arm is still troublesome. That is, in the case where the subject himself or herself wears the wristband on the upper arm, even if the wristband is attached to the upper arm in advance, the wristband is still wound to fix the wristband, and the subject pulls one end of the wristband. The wristband rotates on the upper arm, causing a positional shift. Therefore, it is necessary to make the following adjustments: after the winding is fixed, the wristband is rotated on the upper arm so that the mark is placed at the desired position, so it can be said that the wearing work itself is not easy. Accordingly, the present invention has been made in order to solve the above problems, and an object of the invention is to provide a wristband for a blood pressure monitor that is easy to work on the upper arm. Further, another object of the invention is to provide a wristband for a blood pressure monitor in which an air bladder enclosed in an exterior member can be surely positioned on an upper arm. [Means for Solving the Problem] The wristband for a blood pressure monitor of the present invention is a wristband for a belt sphygmomanometer, which is provided with a fluid bag for pressing the upper arm and a bladder-like outer member that encloses the fluid bag, and is wound around the upper arm The utility model comprises: a winding portion which is wound to surround the upper arm in a state where the sphygmomanometer wristband is worn on the upper arm; and a temporary holding protrusion portion which is worn after the sphygmomanometer wristband is worn on the upper arm In the state, it is set to protrude from the winding portion toward the axial direction of the upper arm. According to the configuration described above, when the wristband is worn, the temporary holding projection can be temporarily held at a predetermined portion on the arm side of the wristband, thereby preventing the blood pressure gauge wristband from rotating and facilitating the wearing operation. Preferably, the wristband for a blood pressure monitor according to the present invention is characterized in that the protruding portion is constituted by a protruding tongue which is elastically deformable. By forming the protruding portion by the elastically deformable protruding tongue as described above, it is easy to temporarily hold the protruding portion, and it is possible to more reliably prevent the rotation of the blood pressure monitor wristband during wearing. In the wristband for a blood pressure monitor according to the present invention, it is preferable that the exterior member has a space defined by two boundary portions between the corresponding portion of the winding portion and a corresponding portion of the protruding tongue. In this case, it is preferable that: in the two spaces, the fluid bag provided in the space corresponding to the winding portion accommodates the fluid bag, and the space provided in the corresponding portion of the protruding tongue receives the flexible elastic plate . According to this configuration, the protruding elastic piece can be easily elastically deformed by the flexible elastic plate. Preferably, the wristband for a sphygmomanometer according to the present invention further includes a curved elastic plate which is housed in the outer member and disposed on the outer side of the fluid bag, and is placed in a state in which the wristband for the sphygmomanometer is worn on the upper arm. , for the above fluid bag to be pressed onto the upper arm. In this case, it is preferable that at least a part of the protruding tabs include a portion extending continuously from the curved elastic plate. With such a configuration, it is possible to form a part of the curved elastic plate so that the protruding tongue is easily elastically deformed. Further, since one portion of the protruding tab is formed by the curved elastic plate for pressing the fluid bag against the upper arm, an additional elastic plate is not required, and the number of parts can be reduced. 200803787 The wristband for a blood pressure monitor according to the present invention is preferably such that the protruding portion protrudes toward the elbow side of the arm wearing the wristband in a state in which the wristband for the blood pressure monitor is worn on the upper arm, in which case, When the wristband is worn, it is preferable that the protruding portion can be held by the forearm and the upper arm inside the elbow of the arm that wears the wristband. With this configuration, the protruding portion can be held inside the elbow of the arm wearing the wristband by the forearm and the upper arm, so that the rotation of the blood pressure monitor wristband can be surely prevented from being worn. In the wristband for a blood pressure monitor according to the present invention, it is preferable that the protruding portion protrudes toward the shoulder side on the arm side on which the wristband is worn, in a state in which the wristband for the blood pressure monitor is worn on the upper arm. In this case, When the wristband is worn, it is preferable that the protruding portion can be held by the upper arm and the trunk on the arm side of the wristband. With this configuration, the protruding portion can be held by the upper arm and the trunk on the arm side of the wristband, so that the rotation of the blood pressure monitor wristband can be surely prevented. In the above-described wristband for a blood pressure monitor of the present invention, it is preferable that the protruding portion protrudes toward the elbow side of the arm on which the wristband is worn, in a state in which the wristband for the blood pressure monitor is worn on the upper arm, in which case it is preferable. To form: when the wristband is worn, the above-mentioned protrusion covers the outside of the elbow of the arm worn by the wristband. According to this configuration, the elbow of the arm of the wristband can be pressed against the table surface such as a table, and the protruding portion can be pressed and held on the table surface. Therefore, the rotation of the blood pressure monitor wristband can be surely prevented. Preferably, the wristband for a blood pressure monitor according to the present invention further includes a symbol for positioning when worn on the upper arm. 200803787 Because of this configuration, it is easy to position the wristband on the upper arm with the mark when the wristband is temporarily held. Moreover, the wristband does not rotate on the upper arm when the wristband is fastened after positioning, so the correct wearing position is maintained. Therefore, the positioning at the time of wearing can be made easy and the blood pressure sputum can be measured with high precision. [Effect of the Invention] According to the present invention, it is possible to provide a wristband for a blood pressure monitor that facilitates the wearing operation of the upper arm. Further, it is also possible to provide a wristband for a sphygmomanometer in which the airbag enclosed in the outer member can be surely positioned on the upper arm. [Embodiment] [Best Mode for Carrying Out the Invention] Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. Further, in the embodiment shown below, the present invention is applied to an oscillating weight wristband equipped with an oscillometric upper arm type sphygmomanometer to be used as a measurement site of the left arm. Case. [Embodiment 1] Fig. 1 is a perspective view showing the appearance of a sphygmomanometer according to an embodiment of the present invention. First, the appearance structure of the embodiment sphygmomanometer will be described with reference to this figure. As shown in Fig. 1, the sphygmomanometer 100 of the present embodiment mainly includes a device body 110 and a wrist band 150A. The apparatus body 110 has a display unit 114 and an operation unit 115. The display unit 1 1 4 displays the measurement result of the blood pressure 、, the measurement result of the pulse rate, and the like in a visually recognizable manner using a number 値, a graph, or the like. For example, a liquid crystal panel or the like is used as the display portion 1 14 . For example, a power button, a measurement start button, and the like are disposed in the operation unit 117. The wristband 150A is a wristband that is wrapped around the upper arm of the subject's left arm and has a band shape. The wristband 150A has an air bladder 151 (refer to Figs. 2, 4, 5, and 8 and the like) for compressing the upper arm as a fluid bag - 10, 200803787, and for using the air bladder 1 5 1 A bladder-like covering 160 that is wound and fixed to the upper arm as an exterior member. The air bag 151 is housed in a space provided inside the bladder cover 160. Moreover, the detailed structure of the wristband 150A will be described later. The wrist strap 150A and the apparatus body 110 are connected by an air tube 140 as a connecting tube. The air tube 140 is composed of a flexible tube, and one end thereof is connected to a blood pressure measurement air system unit 131 (refer to Fig. 2) provided in the apparatus main body 110 to be described later, and the other end is connected to the air bladder 151 of the wrist strap 150A. Fig. 2 is a functional block diagram showing the configuration of the sphygmomanometer of the present embodiment. Next, the main functional block configuration of the present embodiment of the sphygmomanometer will be described with reference to this figure. As shown in Fig. 2, a blood pressure measurement air system unit 131 is provided inside the main body 11 of the sphygmomanometer 100, and supplies air to the air bladder 151 or the air contained in the wristband 150A through the air tube 140. discharge. The air pressure measuring air system unit 13 1 includes a pressure sensor 1 32 that is a pressure detecting portion for detecting the pressure in the air bladder 115, and a pump 1 34 and a valve 135 for making the air bladder 151 Expansion and contraction expansion and contraction mechanism 133. Further, inside the apparatus main body 110, an oscillation circuit 125, a pump drive circuit 126, and a valve drive circuit 127 are provided in association with the blood pressure measurement air system unit 131. Further, the device body 110 is provided with a CPU (Central Processing Unit) 122 for centrally controlling and monitoring each part, and a memory unit 231 for storing various programs for making the CPU 122 a predetermined action, and measuring blood pressure and the like. Information; display unit 1 1 4 for displaying various information including blood pressure measurement results; operation unit 1 1 5 for operation to input various instructions for measurement; and power supply unit -11-200803787 124 for CPU 122 and Each function square supplies power. The CPU 122 is also used as a blood pressure calculation unit for calculating blood pressure. The pressure sensor 132 detects the pressure in the air bladder 151 (hereinafter referred to as "wrist strap pressure"), and outputs a signal corresponding to the detected pressure to the oscillation circuit 125. The pump 134 supplies air to the air bladder 151. The valve 135 is opened and closed when the pressure in the air bladder 151 is maintained constant or when the air in the air bladder 151 is discharged. The oscillation circuit 125 outputs a signal of the oscillation frequency corresponding to the output 値 of the pressure sensor 132 to the CPU 122. The pump drive circuit 126 controls the drive of the pump 134 based on control signals supplied from the CPU 122. The valve drive circuit 127 performs opening and closing control of the valve 1 35 based on a control signal supplied from the CPU 122. Fig. 3 is a flow chart showing the procedure of blood pressure measurement processing of the present embodiment. Next, the procedure of the blood pressure measurement processing of this embodiment of the sphygmomanometer will be described with reference to this figure. The program to be executed in accordance with this flowchart has been previously stored in the memory unit 123 shown in Fig. 2, and the CPU 122 reads and executes the program from the memory unit 123, thereby performing blood pressure measurement processing. As shown in Fig. 3, when the subject operates the operation button of the sphygmomanometer 1 00 operation unit 1 1 5 to turn on the power, the sphygmomanometer 100 is initialized (step S1). Next, when it becomes a measurable state, the CPU 122 starts the driving of the pump 134 to gradually increase the wrist band pressure of the air bladder 151 (step S2). In the process of slowly increasing the wristband pressure, when the wristband pressure reaches a predetermined level necessary for blood pressure measurement, the CPU 122 stops the pump 134, and then slowly opens the closed valve 135 to bring the air bladder 151 The air is slowly discharged, and the wristband pressure is slowly lowered (step S3), and the wristband pressure is detected during the micro-speed decompression of the wristband pressure. -12- 200803787 Next, the CPU 122 calculates blood pressure 値 (the highest blood pressure 最低, the lowest blood pressure 値) by a known procedure (step S4). Specifically, during the slow decompression of the wristband pressure, the CPU 122 extracts the pulse wave information based on the oscillation frequency obtained from the oscillation circuit 125. Next, the blood pressure 値 is calculated by the extracted pulse wave information. When the blood pressure 値 is calculated in step S4, the calculated blood pressure 値 is displayed on the display unit 114 (step S5). Further, the measurement method described above is a method of calculating blood pressure 检测 after detecting a pulse wave at the time of decompression of the air bag, that is, a method of performing a pressure reduction measurement method, but of course, it is also possible to calculate a pulse wave when the air bag is pressurized. The blood pressure is sputum, that is, the pressure measurement method is used. Fig. 4 is a view showing the unfolded state of the wristband for the sphygmomanometer of the present embodiment, and Fig. 5 is a cross-sectional view of the wristband for the sphygmomanometer along the V-V line shown in Fig. 4. Hereinafter, the structure of the wristband for a blood pressure monitor of the present embodiment will be described in detail with reference to the drawings. As shown in Figs. 4 and 5, the wristband 150A for sphygmomanometer of the present embodiment has an air bladder 151 connected to the air tube 140, and a saclike shape as a decorative member for enclosing the air bladder 150. Cover 1 60. As shown in Fig. 4, in the unfolded state of the wristband 150A, the air bladder 151 has a slightly rectangular outer shape, and the bladder covering body 160 has a slightly rectangular strip-like outer shape in which the air bladder 151 is enclosed. The wristband 150A is provided with a winding portion 161 that surrounds and covers the upper arm in a state of being wound around the upper arm, and a protruding tongue 165 as a protruding portion that is provided to protrude the winding portion 161. The winding portion 161 is a belt-like portion that accommodates the air bladder 151 in the wrist strap 150A, and is a portion that contributes to the winding of the upper arm in a state after the wristband 150A is worn. The protruding tongue 165 is worn in the wristband 150A in the state where the wristband 150A is wound around the upper arm in the axial direction of the upper arm (that is, the direction in which the upper arm extends and the height of the wristband is -13-200803787). In the state behind the left arm, it is arranged to protrude the winding portion 161 toward the elbow side of the left arm. The protruding tab 165 is a portion for temporarily holding the forearm and the upper arm inside the elbow of the left arm on which the wristband 150A is to be worn when the wristband 150A is worn on the upper arm. As shown in Fig. 5, the air bladder 115 is preferably composed of a bladder member formed using a resin sheet. The air bag 151 is to be positioned on the body side of the upper arm in a state where the wrist band 150A is wound around the upper arm, and to be positioned outside the sheet member 152 in a state where the wrist band 150A is wound around the upper arm. The sheet-like members 153 are superposed, and the peripheral edges thereof are welded to form a capsule shape, and the inside has a expansion and contraction space 154. The expansion and contraction space 154 is connected to the air tube 140 described above. As the material of the resin sheet constituting the air bladder 151, any material can be used as long as it is stretchable and does not leak from the expansion and contraction space 1 54 after welding. From this point of view, as a preferred material of the resin sheet, for example, ethylene-vinyl acetate copolymer (EVA), soft polyvinyl chloride (PVC), polyurethane (PU), polyamine (PA), raw rubber Wait. As shown in Fig. 5, the bladder-like covering body 160 is disposed on the inner side of the upper arm in the state of being worn on the upper arm, and is placed on the upper arm in the state of being worn by the air bladder 1 5 1 The outer cover member 163 is located on the side opposite to the upper arm side, and the inner cover member 162 and the outer cover member 163 are superposed on each other, and the peripheral edges thereof are joined to form a bag shape. The bladder-like covering body 160 is preferably formed of a fabric composed of synthetic fibers such as polyamide (PA) or polyester, and is welded, stitched, or the like for bonding of the inner covering member 162 and the outer covering member 163. Further, the inner covering member 1 62 of the bladder-like covering body 14-200803787 1 60 is preferably composed of a member having excellent stretchability, and the outer covering member 163 of the bladder-shaped covering body 160 is preferably composed of the inner covering member 1 62. It is composed of components that have low flexibility. As shown in Fig. 4, a ring 168 is attached to one end of the longitudinal direction of the bladder cover 160. The ring 168 is used as an auxiliary device when the sphygmomanometer wristband 150A is wound around the upper arm, and the other end of the capsule cover 160 is inserted into the ring 168 and then folded back, thereby using the wrist of the sphygmomanometer. The belt 150A is wound around the upper arm. Further, a surface fastener 1 64 is provided on the outer peripheral surface of the outer periphery of the end portion of the bladder-like covering body 160 to which the end portion of the ring 168 is attached. The surface fastener 1 64 is locked to a predetermined position on the outer circumferential surface of the bladder cover 160 in a state where the wristband 150A is worn on the upper arm. That is, the surface fastener 164 corresponds to a locking member for winding and fixing the wrist strap 150A to the upper arm. Further, at a predetermined position in the longitudinal direction of the capsule cover 160, a mark 167 extending in the direction corresponding to the width direction of the capsule cover 160 is provided. This symbol 167 is a mark for positioning when the wristband 150A is worn on the upper arm, and is arranged to be displaced in a predetermined direction, and is disposed in the width direction of the central portion of the airbag 151 which is enclosed in the bladder cover 160 in the longitudinal direction. Cut the center line 1 5 8 to the predetermined offset Y. As shown in Fig. 4, the joint portion 166a formed by joining the inner cover member 162 and the outer cover member 163 is located on the entire circumference of the periphery of the bladder cover 160. Here, a portion of the joint portion 166a is disposed along the outer edge of the protruding tab 165. Further, the joint portion 166c formed by the combination of the inner cover member 162 and the outer cover member 163 is located at the boundary portion between the winding portion 161 of the capsule cover 160 and the projecting tongue 165. Further, in a predetermined position in the longitudinal direction of the wound portion 161 -15-200803787 of the capsular covering 160, a combination of extending in the width direction of the capsular covering 160 (that is, a direction orthogonal to the longitudinal direction) is provided. Part 166 b. As shown in FIGS. 4 and 5, in the three spaces in which the inside of the bladder-like covering body 160 formed by the joint portions 166a to 166c are provided, a space is formed in the corresponding portion of the protruding tongue piece 165, and accommodated. The elastic plate 1 7 1. Further, in the remaining two spaces formed in the corresponding portions of the winding portion 161, the space on one side of the ring 168 accommodates the air bladder 151. The material of the elastic plate 171 accommodated in the space formed in the corresponding portion of the protruding tab 165 is preferably made of a material such as polypropylene (PP) to have appropriate flexibility. The shape of the elastic plate 171 is preferably such that the main surface is curved in a predetermined direction so as to be applied to the arm root on the elbow side when the wrist band 150A is worn on the upper arm. Fig. 6 is a view of the sphygmomanometer of the present embodiment when the wristband is positioned on the upper arm of the left arm, and Figs. 7 and 8 are used to illustrate the positioning of the sphygmomanometer with the wristband around the left arm after positioning. A diagram of the winding action of the upper arm. Further, Fig. 8 is a view showing a broken section viewed from the distal side toward the central side in the extending direction of the upper arm. Hereinafter, the operation of wearing the wristband for a blood pressure monitor of the present embodiment on the upper arm will be described in detail with reference to the drawings. As shown in Fig. 6, when the sphygmomanometer wristband 150A having the above configuration is worn on the upper arm 200 of the left arm 200, the left arm 200 is extended, and the elbow is not bent, and the symbol 167 of the capsule cover 160 is recognized by the side. The wristband 150A is adjusted to the wearing position of the upper arm 210 such that the mark 167 is located on the extension line X of the middle finger 231 of the left hand 230. Next, as shown in Fig. 7, the above-mentioned mark 167 is maintained on the extension line X of the middle finger 231 while bending the elbow 215 of the left arm 200 and using the forearm 2 20 and the upper arm 210 to bend the wrist band 15 0A - 16 - 200803787 Pieces 165 clip temporarily held. Next, the inner side of the elbow 2 15 is maintained in a state in which the protruding tongue 1 65 is temporarily held, and as shown in Fig. 8, the end of the capsular covering 160 passing through the ring 168 and folded back toward the arrow in the figure The direction of A is stretched, and the state in which the capsule cover 160 is wound around the upper arm 210 is maintained, and the face fastener 164 is locked to the outer peripheral surface of the capsule cover 160 wound around the upper arm 210. In this way, the wristband 150A is wound and fixed on the upper arm 210. After the winding is fixed, the bent elbow 215 is stretched to release the temporary holding of the protruding tab 165. As described above, in the wristband 150A for sphygmomanometer of the present embodiment, when the elbow 215 is bent inside the elbow 215 at the time of wearing, the protruding tongue 165 provided to protrude the winding portion 161 can be temporarily held. Therefore, even if one end of the wrist band 150A is stretched to wrap around the wrist band 150A, the wrist band 150A can be prevented from rotating on the upper arm 210 in the circumferential direction of the upper arm 210. That is, as shown in Fig. 8, the rotation of the wristband 150A winding portion 161 which is produced at one end of the stretched wristband 150A in the direction of the arrow B in the figure is restricted by the above-described temporary holding. Therefore, the force for winding is smoothly transmitted to the wrist band 150A, so that the winding and fixing work of the wrist band 150A becomes easy. As a result, it is possible to make a wristband for a blood pressure monitor that is easy to wear on the upper arm 210. Further, in the wristband 150A for sphygmomanometer of the present embodiment, the positional alignment of the wristband 150A which is previously positioned on the upper arm 210 using the symbol 167 is maintained constant even during the winding operation. Therefore, after winding, the wristband 150A can be fixed in a state of being initially positioned after the upper arm 210. Here, the offset Y of the mark 167 with respect to the center line 158 of the air bag 151 is determined in advance based on the empirically obtained distance from the central axis of the upper arm 210 to the upper aorta 2 1 2 As shown in Fig. 8, in the above-mentioned wearing state -17-200803787, the central portion of the longitudinal direction of the air bladder 151 is located directly above the upper aorta 212. Therefore, the central portion of the air bag 151 which is the most inflated in the thickness direction and the upper arm aorta 212 are disposed close to each other, and the upper arm aorta 212 is sandwiched by the central portion of the air bag 151 and the upper arm bone 211. As a result, at the time of measurement, the upper aorta 2 2 2 was efficiently and reliably pressed by the air bag 115 to prevent blood flow, so that blood pressure sputum can be measured with high precision. Further, in the wristband 150A for sphygmomanometer of the present embodiment, it is preferable that the protruding tongue 165 is formed in a shape that is easily held by the inner side of the elbow 215. Therefore, the outer shape of the protruding tab 165 is preferably adjusted so that the length L1 of the longitudinal direction shown in FIG. 4 is in the range of 10 cm ± 5 cm, and the size D1 in the width direction shown in Fig. 4 is 3 cm ± 1 . 5cm range. Further, the outer diameter of the wrap portion 161 of the wristband 150A for sphygmomanometer is preferably such that the entire length in the longitudinal direction is formed in the range of 46 cm ± 20 cm, and the full width in the width direction (excluding the portion in which the protruding tab 165 is formed) It is formed in the range of 14 cm ± 5 cm. If it is within the above-mentioned size, the male tongue, the female, the adult, the sorghum, etc. can use the inner side of the elbow 215 to temporarily hold the protruding tongue 165 while wearing the wristband 150A. [Embodiment 2] Fig. 9 is a perspective view showing the appearance of a wristband for a blood pressure monitor according to an embodiment of the present invention, and Fig. 10 is a cross-sectional view in the width direction. Further, Fig. 12 and Fig. 2 are diagrams showing the winding operation of the blood pressure monitor of the present embodiment when the wristband is wound around the upper arm of the left arm. Further, Fig. 12 is a view showing a state in which the cross section is viewed from the distal side toward the central side in the extending direction of the upper arm. In the ninth to twelfth drawings, the same portions as those of the wristband for sphygmomanometer according to the above-described first embodiment are denoted by the same reference numerals, and the description thereof will not be repeated. -18-200803787 As shown in Fig. 9, the wristband 150B of the sphygmomanometer according to the present embodiment is similar to the wristband 150A for sphygmomanometer according to the first embodiment, and the winding portion 161 is wound around The upper arm is surrounded by the upper arm; and the protruding tongue 165 is disposed to protrude the winding portion 161. The protruding tongue 165 is in a state in which the wristband 150B is wound around the upper arm, in the axial direction of the upper arm (that is, in the direction in which the upper arm extends and in the width direction of the wristband), and the wristband 150B is worn on the left arm. Next, the winding portion 161 is protruded toward the elbow side of the left arm. The protruding tab 165 is a portion temporarily held by the forearm and the upper arm on the inner side of the elbow of the left arm on which the wristband 150B is worn when the wristband 150B is worn on the upper arm. As shown in Fig. 9 and Fig. 10, the wristband 150B of the present embodiment is provided with a collar 172 as a curved elastic plate in addition to the air bag 151 and the capsule cover 160. The collar 172 is enclosed in the bladder cover 160 and disposed on the outer side of the air bladder 115. The collar 172 is formed into a cylindrical shape by attaching an upper arm, and is formed of a flexible member that can be elastically deformed in the radial direction by being wound into a ring shape. The collar 172 is fixed to the outer circumferential surface of the airbag 115 by an adhesive member such as a double-sided tape (not shown), and is maintained in the annular shape of the airbag. The collar 172 is used to allow the subject to wear the wristband 150B to the upper arm, and to press the air bladder 151 toward the upper arm side while the wristband 150B is worn on the upper arm. This collar 172 is formed of, for example, a resin member such as polypropylene (PP) to exhibit sufficient elasticity. The collar 172 has a standing portion 173 that protrudes from a corresponding portion of the wrap portion 161 of the wrist band 150B toward the width direction thereof. The erecting portion 173 is integrally formed on the collar 172, and is accommodated in a space inside the protruding tab 165 to form a portion of the tab 165. Further, the shape of the vertical portion 173 is preferably such that the main surface thereof is formed in a shape curved in a predetermined direction to conform to the arm root on the elbow side when the wrist band 150 B is worn on the upper arm. Further, unlike the sphygmomanometer wristband 150A of the first embodiment, the wristband 150B for a sphygmomanometer according to the present embodiment is not provided with a ring 168 as an auxiliary tool for winding operation. Therefore, one end of the wristband 150B in the longitudinal direction is not folded back and is wound around the upper arm. Therefore, the surface fastener 1 64 is provided on the outer peripheral surface near one end of the inner side wristband 150B after winding. When the sphygmomanometer wristband 150B having the above-described configuration is worn on the upper arm of the left arm, similarly to the case of the sphygmomanometer wristband 150A of the first embodiment, the elbow is not bent, the left arm is straightened, and the wristband 150 is adjusted. B is in the wearing position of the upper arm such that the mark 167 provided on the outer peripheral surface of the bladder cover 160 of the wrist band 150 B is located on the extension line of the left middle finger. Here, in the wristband 150B for a blood pressure monitor of the present embodiment, since the collar 172 is accommodated inside the bladder cover 160, the loop shape of the collar 172 allows the wristband 150B to be mounted to the upper arm. It's easy. Further, as shown in FIG. 11, the state in which the symbol 1 67 is located on the extension line of the middle finger of the left hand 230 is maintained, and the elbow 215 of the left arm 200 is bent, and the protruding tongue 165 of the wrist strap 150B is clamped by the forearm 20 and the upper arm 210. Stay temporarily. Next, the state in which the protruding tab 165 is temporarily held by the inner side of the elbow 215 is maintained, and as shown in FIG. 2, one end portion of the bladder-like covering body 160 is stretched in the direction of the arrow C in the figure to make the face buckle The piece 164 is locked to the inner circumferential surface of the bladder-like covering body 160 wound around the upper arm 210, and becomes a state in which the bladder-like covering body 160 is tightened to the upper arm 210. In this manner, the winding of the wristband 150B to the upper arm 210 is completed. After the winding is fixed, the bent elbow 2 1 5 is straightened, and the temporary holding of the protruding tongue 165 is released by -20-200803787. In the case of the sphygmomanometer wristband 150B as shown in the present embodiment, the same effect as in the case of the above-described first embodiment sphygmomanometer wristband 150A is obtained. That is, when worn, the elbow is bent toward the inner side of the elbow, thereby temporarily holding the protruding tab 165 provided as the protruding winding portion 161, thereby preventing the wrist strap 150B from being on the upper arm 210 along the arrow D in FIG. Since the direction is rotated, the winding work of the wrist strap 150B becomes easy. As a result, it is possible to make a wristband for a blood pressure monitor that facilitates the wearing operation of the upper arm 210. Moreover, the alignment of the wristband 150B previously positioned on the upper arm 210 is maintained after the winding operation. Therefore, during the measurement, the upper aorta 2 1 2 is efficiently and reliably pressed by the air bladder 115 to prevent blood flow, thereby enabling Blood pressure sputum is measured with high precision. Further, in the wristband 150B for blood pressure monitor of the present embodiment, one of the protruding tabs 165 is constituted by the vertical portion 173 of the collar 172, so that the protruding tabs 165 can be easily elastically deformed. Therefore, the number of parts can be reduced without the need for an additional elastic plate. [Embodiment 3] Fig. 1 is a view showing a state in which the wristband for a blood pressure monitor according to the third embodiment of the present invention is deployed. Further, Fig. 14 is a view for explaining the winding operation when the wristband of the present embodiment is wound and fixed to the upper arm of the left arm. In addition, the wristband for a sphygmomanometer of the present embodiment has a configuration similar to that of the sphygmomanometer wristband of the first embodiment, and therefore the same portion as the wristband for the sphygmomanometer of the first embodiment is shown. The same symbols are attached to the same, and the description thereof will not be repeated here. As shown in Fig. 13, the wristband 150C for a sphygmomanometer according to the present embodiment includes a winding portion 161 that surrounds the upper arm in a state of being wound around the upper arm, and is provided to protrude from -21-200803787 and the protruding tongue 165. Winding portion 161. The protruding tongue 165 is in a state in which the wristband 150C is wound around the upper arm, and the axial direction of the upper arm (that is, the direction in which the upper arm extends and is in the width direction of the wristband) is worn on the left arm in the wristband 150C. Next, the wound portion 161 is protruded toward the shoulder side toward the left arm side. The protruding tongue 165 is a portion for being temporarily held by the upper arm 210 and the trunk 240 at the lower side of the left arm side on which the wristband 150C is worn when the wristband 150C is worn on the upper arm. As shown in Fig. 3, in the sphygmomanometer wristband 150C of the present embodiment, the sphygmomanometer wristband 150A of the above-described embodiment 1 is also provided in the capsule cover 160. Bonding portions 166 a to 166 c. The space formed by the joint portions 166a to 166c is located in three spaces inside the bladder-like covering body 160, and the space formed in the corresponding portion of the projecting tongue piece 165 accommodates the elastic plate 177. Further, it is formed in the remaining two spaces of the corresponding portion of the winding portion 161, and the space on one side of the ring 168 accommodates the air bladder 151. As the elastic plate 171 accommodated in the space formed in the corresponding portion of the protruding tab 165, a material made of a material such as polypropylene (PP) is preferably selected to have moderate flexibility. The shape is preferably such that the main surface is curved in a predetermined direction to be applied to the upper arm of the shoulder when the wristband 1 50 C is worn on the upper arm. When the sphygmomanometer wristband 150C having the above-described configuration is worn on the upper arm of the left arm, similarly to the case of the sphygmomanometer wristband 150A of the first embodiment, the elbow is not bent, the left arm is straightened, and the wristband 150C is adjusted. The position of the upper arm relative to the upper arm is such that the mark 1 67 provided on the outer peripheral surface of the sac tape 150 of the wrist band 150 C is located on the extension line of the left middle finger. Next, as shown in FIG. 3, the state in which the symbol 1 67 is located on the extension line of the middle finger 23 1 is kept constant, and the upper arm 210 and the trunk 240 are used at the armpit of the left arm 200 side to be the -22-200803787 wristband 150C. The protruding tabs 165 are clamped for temporary retention. Next, the state in which the protruding tabs 1 65 are temporarily held by the underarms is maintained constant, and the face fasteners 164 provided near the ends of the bladder-like coverings 160 are locked to the bladder-like coverings wound around the upper arms 210. 160 outer peripheral surface. In this way, the winding of the wristband 150C with respect to the upper arm 210 is completed. After the winding is fixed, the temporary holding of the protruding tabs 165 at the crotch is released. When the sphygmomanometer wristband 150 C shown in the cost embodiment is used, the same effect as that of the sphygmomanometer wristband 150A of the above-described first embodiment can be obtained. That is, when the squat is raised when worn, the upper arm 210 and the trunk 240 can be temporarily held at the crotch to temporarily hold the protruding tab 165 which is provided to protrude the hem 161. As a result, the wristband 150C is prevented from being on the upper arm 210. Rotation in the circumferential direction of the upper arm 210 makes it easy to wind and fix the wrist band 150 C. As a result, it is possible to make a wristband for a blood pressure monitor which is easy to wear with respect to the upper arm 210. Moreover, since the alignment of the wristband 150C previously positioned on the upper arm 210 is maintained constant after the winding operation, the upper aorta 2 1 2 is efficiently and reliably pressed by the air bladder 151 to prevent blood flow during measurement, thereby enabling High-precision blood pressure measurement. Further, in the wristband 150 C for a blood pressure monitor of the present embodiment, it is preferable that the protruding tongue 165 has a shape that is easily held temporarily by the crotch. Therefore, the outer shape of the protruding tongue piece 165 is preferably adjusted so that the length L2 of the longitudinal direction shown in Fig. 13 is 20 cm ± 10 cm, and the width direction D2 shown in Fig. 13 is 3 cm ± 1. 5 cm range. [Embodiment 4] Fig. 15 is a perspective view showing the appearance of a wristband for a blood pressure monitor according to an embodiment of the present invention. Further, Fig. 16 is a view showing the sphygmomanometer of the present embodiment wound with a wristband -23-200803787 fixed to the upper arm of the left arm. Further, since the wristband for a blood pressure monitor of the present embodiment has a configuration similar to that of the wristband for a blood pressure monitor of the first embodiment, the same portion as the wristband for the blood pressure monitor of the first embodiment is shown in the drawing. The same symbol is attached, and the description thereof will not be repeated here. As shown in Fig. 15, the wristband 150D for a blood pressure monitor of the present embodiment is provided with a winding portion 161, which surrounds the upper arm in a state of being wound around the upper arm, and a protruding tongue 165 which is provided to protrude the winding portion. 16b protruding tongue 165 is in the state in which the wristband 150D is wound around the upper arm, the axial direction of the upper arm (that is, the direction in which the upper arm extends and the width direction of the wristband), and the wristband 150D is worn on the left arm. In the state, it is set to protrude the winding portion 161 toward the elbow side of the left arm. Here, in the wristband 150D for sphygmomanometer of the present embodiment, the protruding tab 165 is formed to cover the outer side of the left arm elbow of the wearing wristband 150D when the wristband 150D is worn. When the sphygmomanometer wristband 150D is worn on the upper arm, the protruding tongue 165 is a portion pressed by the left arm elbow of the wristband 150D toward the table top such as a table, and the protruding tongue inside the capsule cover 160 The space corresponding to the portion 165 is preferably: accommodating the elastic plate. As the elastic plate accommodated in the space corresponding to the portion of the protruding tab 165 in the inner portion of the bladder-like covering member 160, it is preferable to select a material made of a material such as polypropylene (PP) to have appropriate flexibility. When the sphygmomanometer wristband 150D having the above-described configuration is worn on the upper arm of the left arm, similarly to the case of the sphygmomanometer wristband 150A of the first embodiment, the elbow is not bent, the left arm is straightened, and the wristband is adjusted. The wearing position of the 150D with respect to the upper arm is such that the mark 1 67 provided on the outer peripheral surface of the sac-like covering body 160 of the wrist band 150D is located on the extension line of the left middle finger. Further, as shown in Fig. 16, the state in which the symbol 1 67 is located on the extension line of the middle finger is kept constant, and the elbow 215 of the left arm 200 is pressed through the protruding tab 165 of the wristband 15 0D at the same time from -24 to 200803787. On the table top 300 such as a table, the protruding tabs 165 of the wrist strap 150D are temporarily held by the table top 300 such as the elbow 215 and the table. Then, the state in which the protruding tab 165 is pressed against the table top 300 such as a table by the elbow 215 is maintained constant, and the surface fastener 164 provided near the end of the bladder cover 160 is locked to the upper arm. The outer surface of the capsular cover 160 of 210. In this way, the winding of the wrist strap 150D with respect to the upper arm 210 is completed. After the winding is fixed, the elbow 215 can also be released to press the protruding tab 165 against the table top 300 such as a table. In the case of the wristband 1 50D for the sphygmomanometer shown in the cost-executing mode, the same effect as in the case of the wristband 150A for the sphygmomanometer of the above-described embodiment 1 can be obtained. That is, the protruding tab 165 provided as the protruding winding portion 161 is pressed against the table top 300 such as a table by the elbow 2 15 when worn, thereby preventing the wrist strap 150D from rotating on the upper arm 210 in the circumferential direction of the upper arm 210. Therefore, the winding work of the wristband 1 50D becomes easy. As a result, it is possible to make a wristband for a blood pressure monitor which is easy to wear with respect to the upper arm 210. Moreover, since the alignment of the wristband 150D previously positioned on the upper arm 210 is maintained constant after the winding operation, the upper aorta 2 1 2 is efficiently and reliably pressed by the air bladder 1 5 1 to prevent blood flow during measurement. It can measure blood pressure sputum with high precision. Further, in the wristband 150D for sphygmomanometer of the present embodiment, it is preferable that the protruding tab 165 has a shape in which the elbow 215 is easily pressed against the table top 300 such as a table. Therefore, the outer shape of the protruding tongue piece 165 is preferably adjusted so that the size L3 of the longitudinal direction shown in Fig. 15 is 10 cm ± 5 cm, and the size D3 of the width direction shown in Fig. 15 is 15 cm ± 5 cm. range. Further, the position of the protruding tab 165 of the capsule cover 160 is preferably such that the center position of the protruding tab 165 is located on the side of the surface fastener 164 of the capsule cover 160. The end is calculated to be in the range of 30 cm ± 10 cm. Further, in the wristband 150D for sphygmomanometer of the present embodiment, it is preferable that the protruding tongue piece 165 is configured to be rotatable or bendable with respect to the winding portion 161. In order to allow the protruding tabs 165 to be rotated relative to the winding portion 161, it is preferable to apply a hinge. Further, in order to make the protruding tongue piece 165 bendable with respect to the winding portion 161, the boundary portion between the protruding tongue piece 165 and the winding portion 161 can be made softer or thinner than the other portions. [Embodiment 5] Fig. 17 is a perspective view showing the appearance of a wristband for a blood pressure monitor according to an embodiment of the present invention. Further, Fig. 18 and Fig. 19 are views for explaining the winding operation when the wristband of the present embodiment is wound around the upper arm of the left arm. In addition, the wristband of the sphygmomanometer according to the present embodiment is a wristband for the sphygmomanometer according to the above-described embodiment 2, and the wristband of the sphygmomanometer according to the above-described embodiment 2 is used in the case where the cross-sectional view is viewed from the distal side toward the central side in the extending direction of the upper arm. The same components as those of the sphygmomanometer wristband of the above-described second embodiment are denoted by the same reference numerals, and the description thereof will not be repeated. As shown in Fig. 17, the sphygmomanometer wristband 150E of the present embodiment has a configuration similar to that of the sphygmomanometer wristband 150B of the above-described embodiment 2, and has a pair of arms 174 and a grip. Instead of the protruding tab 165, the holder 175 is formed of a holder. Each of the pair of arm portions 174 is disposed to be fixed to the collar 172 accommodated inside the bladder-like covering body 160, and protrudes from the winding portion 161 of the bladder-like covering body 160 toward the axial direction of the upper arm, respectively. The grip portion 175 is fixed to the top end of the pair of arm portions 174. Preferably, the arm portion 174 is made of a rigid body which does not substantially have flexibility of -26-200803787, and is preferably made of a metal member or a rigid plastic member. When the sphygmomanometer wristband 150E having the above configuration is worn on the upper arm of the left arm, as shown in Fig. 18, the upper arm 210 is inserted into the winding portion 161 of the wrist strap 150E, and the grip portion 175 is held by the left hand 230. Next, as shown in Fig. 19, the state in which the grip portion 175 is held by the left hand 230 is maintained constant, and at the same time, one end portion of the capsule cover 160 is stretched in the direction of the arrow C in the figure to be placed in the capsule. The surface fastener 160 is hooked to the inner circumferential surface of the bladder cover 160 wound around the upper arm 210. In the above, the wristband 150E is wound and fixed on the upper arm 210. After the winding is fixed, the holding of the grip portion 175 by the left hand 230 can also be released. In the case of the sphygmomanometer wristband 150E as in the present embodiment, the same effect as in the case of the sphygmomanometer wristband 150B of the above-described second embodiment can be obtained. That is, when worn, the grip portion 175 of the holder that protrudes from the winding portion 161 is gripped, thereby preventing the wrist strap 150E from rotating on the upper arm 210 in the direction of the arrow D in FIG. 19, thus the wrist strap The 150E winding work becomes easy. As a result, it is possible to make a wristband for a blood pressure monitor which is easy to wear in the upper arm 210. Further, even if the mark is not particularly provided, the relative positioning of the holder and the air bag 1 51 is performed in advance, so that the center of the longitudinal direction of the air bag 1 5 1 is always carried out in the holding state shown in Fig. 18. Partial alignment with the upper aorta 212. Therefore, at the time of measurement, the upper aorta 212 is efficiently and reliably pressed by the air bag 151 to block blood flow, so that blood pressure sputum can be measured with high precision. Moreover, depending on the subject, the distance from the upper arm 210 to the left hand 230 is different, so if the length of the arm portion 174 is made to be variably adjusted, the sphygmomanometer can be made more convenient to use. -27-200803787 . In the above-described embodiments 1 to 4, the wristband for a blood pressure monitor provided with the positioning symbol has been exemplified, but the present invention can be applied to the wristband for a blood pressure monitor in which the positioning symbol is not particularly provided. It is also a temporary holding protrusion for the wristband, which makes it easier to do the winding work when wearing. Further, in the above-described first to fifth embodiments, the temporary holding projection is exemplified in the shape of a tongue, but the shape of the protruding portion can be appropriately changed, and is not limited thereto. Further, in the above-described first to fifth embodiments, the wristband for sphygmomanometer intended to be worn on the upper arm of the left arm has been exemplified, but the present invention can also be applied to a wristband for a sphygmomanometer intended to be worn on the right arm. Further, in the above-described Embodiments 1 to 5, the case where the present invention is applied to the oscillometric sphygmomanometer wristband has been exemplified, but it is of course also possible to apply the present invention to the Korotkoff type sphygmomanometer. Wristband. As such, the various embodiments described above are illustrative in all respects and not restrictive. The technical scope of the present invention is defined by the scope of the patent application, and includes all modifications within the meaning and scope of the claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing the appearance of a blood pressure monitor according to an embodiment of the present invention. Fig. 2 is a functional block diagram showing the constitution of the sphygmomanometer according to the embodiment of the present invention. Fig. 3 is a flow chart showing the procedure of blood pressure measurement processing in the embodiment 1 of the present invention. Fig. 4 is a view showing a state in which the wristband for a blood pressure monitor according to the embodiment of the present invention is expanded -28-200803787. Fig. 5 is a cross-sectional view of the wristband for sphygmomanometer according to the embodiment of the present invention taken along line V - V in Fig. 4. Fig. 6 is a view showing a state in which the wristband for the sphygmomanometer according to the embodiment of the present invention is positioned on the upper arm of the left arm. Fig. 7 is a perspective view for explaining a winding operation when the wristband for a blood pressure monitor is wound and fixed to the upper arm of the left arm after positioning the wristband for the blood pressure monitor according to the first embodiment of the present invention. Fig. 8 is a cross-sectional view for explaining the winding operation when the sphygmomanometer wristband is wound around the upper arm of the left arm after positioning the wristband for the sphygmomanometer according to the first embodiment of the present invention. Fig. 9 is a perspective view showing the appearance of a wristband for a blood pressure monitor according to an embodiment of the present invention. Fig. 10 is a cross-sectional view showing the wristband of the sphygmomanometer according to the embodiment of the present invention in the width direction. Fig. 11 is a perspective view for explaining a winding operation when the wristband for a blood pressure monitor is wound and fixed to the upper arm of the left arm after positioning the wristband for the blood pressure monitor according to the second embodiment of the present invention. Figure 12 is a cross-sectional view for explaining the winding operation when the wristband for a blood pressure monitor is wound and fixed to the upper arm of the left arm after positioning the wristband for the blood pressure monitor according to the second embodiment of the present invention. Fig. 13 is a view showing the expanded state of the wristband for a blood pressure monitor according to the third embodiment of the present invention. Fig. 14 is a perspective view for explaining the operation of winding -29-200803787 when the sphygmomanometer wristband is wound and fixed to the upper arm of the left arm after positioning the wristband for the sphygmomanometer according to the third embodiment of the present invention. Fig. 15 is a perspective view showing the appearance of a wristband for a blood pressure monitor according to an embodiment of the present invention. Fig. 16 is a perspective view for explaining a winding operation when the wristband for a blood pressure monitor is wound and fixed to the upper arm of the left arm after positioning the wristband for the blood pressure monitor according to the fourth embodiment of the present invention. Fig. 17 is a perspective view showing the appearance of a wristband for a blood pressure monitor according to an embodiment of the present invention. Fig. 18 is a perspective view for explaining a winding operation when the wristband for a blood pressure monitor is wound and fixed to the upper arm of the left arm after positioning the wristband for the blood pressure monitor according to the fifth embodiment of the present invention. Fig. 19 is a cross-sectional view for explaining the winding operation when the wristband for a blood pressure monitor is wound and fixed to the upper arm of the left arm after positioning the wristband for the blood pressure monitor according to the fifth embodiment of the present invention. [Description of main components] 100 sphygmomanometer 110 device main body 114 display unit 115 operation unit 122 CPU 123 memory unit 124 power supply unit 125 oscillation circuit 126 pump drive circuit 127 valve drive circuit -30- 200803787 131 blood 132 pressure 133 expansion 134 pump 135 Valve 140 empty 150A~150 E blood 151 empty 152,153 piece 154 m 158 medium 160 capsule 161 wrapped 162 inner 163 outer 164 surface 165 protrusion 166a ~ 166c knot 167 note 168 ring 171 bomb 172 set 173 vertical 174 arm 175 grip pressure air System force sensor shrinkage mechanism tracheal pressure gauge wristband airbag-shaped member contraction space core-shaped covering body around side cover member side cover member fastener piece tongue piece joint plate rtm set part holding part -31- 200803787 200 Left arm 210 Upper arm 211 Upper arm bone 212 Upper arm aorta 215 Elbow 220 Forearm 230 Left hand 231 Middle finger 240 Torso 300 Table top - 32-

Claims (1)

200803787 X. Patent application scope: 1. A wristband for a blood pressure monitor, which is a wristband for a sphygmomanometer that is used around the upper arm, and has a fluid bag for pressing the upper arm, and a capsule containing the fluid bag. An outer decorative member, comprising: a winding portion wound around the upper arm in a state in which the wristband for wearing the blood pressure monitor is worn; and a temporary holding protrusion provided to the sphygmomanometer When the wristband is worn on the upper arm, the winding portion protrudes toward the axial direction of the upper arm. 2. The wristband for a sphygmomanometer according to the first aspect of the patent application, wherein the protruding portion is formed by a resiliently deformable protruding tongue. 3. The wristband for a sphygmomanometer according to the second aspect of the patent application, wherein the exterior member has two internal portions at a boundary portion between a corresponding portion of the winding portion and a corresponding portion of the protruding tongue. In the two spaces, the fluid bag is accommodated in a space provided in the corresponding portion of the winding portion, and the flexible elastic plate is accommodated in a space provided in the corresponding portion of the protruding tongue. 4. The wristband for a sphygmomanometer according to the second aspect of the patent application, further comprising a curved elastic plate which is enclosed in the exterior member and disposed on the outer side of the fluid bag, and the wristband for the sphygmomanometer is worn on the upper arm In the latter state, 'the fluid bag is pressed against the upper arm; at least a portion of the protruding tongue includes a portion extending continuously from the curved elastic plate. 5. The wristband for a sphygmomanometer according to the first aspect of the patent application, wherein the protruding portion is in a state in which the blood wristband is worn on the upper arm, and is directed toward the arm wearing the wristband of the blood pressure monitor. The elbow side is protruded; -33- 200803787 When the wristband for the blood pressure monitor is worn, the protruding portion is configured to be held by the forearm and the upper arm on the inner side of the elbow of the arm wearing the wristband for the blood pressure monitor. 6. The wristband for a sphygmomanometer according to the first aspect of the invention, wherein the protruding portion is in a state in which the wristband for wearing the blood pressure monitor is worn on the arm, and the arm side of the wristband for wearing the blood pressure monitor is worn The shoulder portion protrudes; when the wristband for the blood pressure monitor is worn, the protruding portion is configured to be held by the upper arm and the trunk on the arm side of the wristband for wearing the blood pressure monitor. 7. The wristband for a blood pressure monitor according to the first aspect of the patent application, wherein the protruding portion is in a state in which the wristband for wearing the blood pressure monitor is worn on the upper arm, and the arm is worn toward the wristband with the blood pressure monitor. The elbow side protrudes; when the wristband for the blood pressure monitor is worn, the protruding portion constitutes an outer side of the elbow covering the arm worn by the wristband for the blood pressure monitor. 8 • If the wristband for a sphygmomanometer in the first application of the patent scope is used, it is more suitable for positioning when worn on the upper arm. -34-