JP2007185351A - Sphygmomanometer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a low-cost sphygmomanometer which enables a user to intuitively identify an operating means for every using condition without misidentifying and can easily be operated. <P>SOLUTION: The sphygmomanometer 1 has a cuff 5 worn around a measuring site and an operation section 10 constituted of various kinds of switches. The operation section 10 has a power A switch 11, a power B switch 12, and a memory call out switch 15. A switch cover 50 in which "father" is shown as a using condition identifying means with an intrincic name (a constituting unit name in a household) and a switch cover 51 similarly in which "mother" is shown are detachably secured to the switch 11 and the switch 12 respectively. The sphygmomanometer 1 can be used for the father or for the mother when the user (the father or the mother) pushes on the switch 11 or the switch 12. The measured data of the person is read out from a memory and shown in a display 7 when the user push a memory call out switch 15 while the power source is ON. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a sphygmomanometer (particularly an electronic sphygmomanometer) that measures blood pressure by attaching a cuff (arm band) to an arm (particularly the upper arm), wrist, finger, or the like.

In recent years, the importance of blood pressure management has been focused, and home blood pressure has been emphasized among them, and the use of blood pressure monitors at home has increased. When a single blood pressure monitor is used by a plurality of people in a family or the like, correct blood pressure management cannot be performed if stored measurement results are mixed. Therefore, selection of a storage area for measurement results is important, and the identification means is required to be simple and easy to understand. Conventional user identification means include the following.
1) In order to securely store the measurement results in the storage area of the person, a means for switching between the identification symbol and the identification symbol is provided, and when the measurement value or stored value is displayed, the identification symbol is displayed together with the measurement result and the storage value. A sphygmomanometer configured to light up and blink (see, for example, Patent Document 1).
2) In the home health management system, each processing mode is displayed sequentially, and each processing mode can be selected by the user in sequence, and a scanner for reading characters is provided, and the contents of the member's health insurance card A home health management system configured to easily register a user by reading the image with a scanner (see, for example, Patent Document 2).
3) Based on the identification data, after searching from the vital information that accumulated the current and past vital information of the corresponding examinee, logical operation is performed using the retrieved vital information as an input condition to determine advice to the examinee. A health condition determination apparatus configured to present the retrieved vital information and the advice (see, for example, Patent Document 3).
JP 2002-272686 A JP-A-9-140748 JP-A-10-118037

However, in such conventional user identification means,
1) Since the identification symbols are abstract such as “A”, “B”, “M1”, and “M2”, it is difficult for each user to intuitively recognize which identification symbol is used. Yes, by selecting the wrong identification symbol at the time of measurement, the measurement result of the principal and the measurement result of another person are mixed.
2) The operation such as reading the contents of the health insurance card with a scanner and registering members is complicated, and the scale of the system such as a scanner and software for reading and registration is large, resulting in high costs.
3) Includes both problems 1) and 2).
The following problems occur.

  Therefore, the present invention has been made paying attention to such problems, and the user can specify the operation means for each use mode intuitively and without misidentification, and is easy to operate and low cost. An object is to provide a sphygmomanometer.

  In order to achieve the above object, the sphygmomanometer according to the present invention comprises an arm band attached to a blood pressure measurement site, pressurizing / depressurizing means for adjusting pressure applied to the arm band, and pressure detection for detecting pressure in the arm band. Means, measurement data calculation means for calculating measurement data including a blood pressure value from the signal obtained by the pressure detection means, storage means for storing the calculated measurement data, display means for displaying the measurement data, and various operations Provided with an operating means for performing the operation, the usage means specifying means for specifying the usage mode from among the plurality of usage modes of the operating means is detachably provided in the operating means or in the vicinity of the operating means. A unique name that specifically expresses the usage mode is given to the specifying means, and the measurement data is stored in a storage unit so as to be readable for each usage mode specified by the usage mode specifying means. To.

  In this sphygmomanometer, it is preferable that the measurement data stored in the storage unit is read out for each usage mode according to the operation of the operating mode specified by the usage mode specifying unit and displayed on the display unit.

  The operation means whose usage mode is specified by the usage mode specifying unit is, for example, a power on / off switch, a memory recall switch, a measurement start / stop switch, and a selection switch for storing / not storing a measured value.

  Furthermore, the proper name is, for example, a person name (Taro, Jiro, Kenji, Yuri, Hanako, Kyoko, etc.), a family unit name (grandfather, grandmother, father, mother, brother, brother, sister, sister, etc.), measurement conditions (Morning, night, before meals, after meals, after getting up, before going to bed, before exercise, after exercise, before taking, after taking, etc.).

  Here, the use mode in the present invention is a user (name identifying each user such as the father, mother, Kenji, and lily) or measurement conditions (the morning, night, before meal, after meal, etc.) This means a plurality of different modes such as a subject specifying the time or time when the measurement is performed.

According to the present invention, the following effects can be obtained.
(1) Since the usage mode specifying means to which the unique name is assigned is provided in the operating means or in the vicinity of the operating means, the user can intuitively specify the operating means for each usage mode and there is no risk of erroneous operation. . Therefore, it is possible to reliably store and manage the measurement data for each usage mode, and to reliably call the stored measurement data for each usage mode.
(2) By providing the usage mode specifying means, the effect of the above (1) can be obtained at low cost while maintaining the configuration of the conventional blood pressure monitor.
(3) Since the usage mode specifying means is detachable, the usage mode can be easily changed.
(4) Since the unique name is given to the usage mode specifying means, it can be applied to various usage modes, and versatility is enhanced.

  Hereinafter, the present invention will be described based on embodiments.

  FIG. 1 shows an external perspective view of a sphygmomanometer (particularly an electronic sphygmomanometer) according to the embodiment.

  This sphygmomanometer 1 has a main body 2 and a cover 3 attached to the main body 2 so as to be openable and closable. The hook 3a of the cover 3 is engaged with and disengaged from the engagement hole 2a of the main body 2 so that the cover 3 is 2 is opened and closed. The main body 2 stores a cuff 5 wound around, for example, an arm (particularly the upper arm) as a measurement site, a display 7 for displaying the highest blood pressure, the lowest blood pressure, a pulse, and the like, and a plurality of switches as operation means for performing various operations. And an operation unit 10 is provided.

  In this embodiment, the operation unit 10 includes a power supply A switch 11, a power supply B switch 12, a measurement / stop switch (measurement start / stop switch) 13, a clock setting switch 14, and a memory recall switch 15.

  The power source A switch 11 and the power source B switch 12 are a switch for turning on / off the power source and the sphygmomanometer 1 from the power source on until the switch 11 or 12 is operated again and the power source is turned off. It also serves as a switch that is set to be used for B or B. By providing a power switch (switches 11 and 12) for each of a plurality of users (users A and B), it is possible to specify which user is used from the plurality of users. For example, when the memory recall switch 15 is pressed in a state where the power source A switch 11 is operated and the power source is turned on, the past measurement data regarding the user A (maximum blood pressure, minimum blood pressure, pulse, measurement month, date, Hour, minute, etc.) is read from the memory 31 described later and displayed on the display 7.

  The measurement / stop switch 13 is for starting or stopping the measurement, and the clock setting switch 14 is for setting or changing the current month, day, hour, and minute. The memory recall switch 15 reads and displays the past measurement data stored in the memory 31 from the latest one of only the user A or B designated by the power supply A switch 11 or the power supply B switch 12 for each operation. This is for displaying on the device 7.

  In FIG. 1, the power supply A switch 11 and the power supply B switch 12 are not given specific names that specifically represent the usage mode, but specific examples of the specific names will be described later.

  A block diagram of the configuration of the sphygmomanometer 1 is shown in FIG. The cuff 5 includes a pressure sensor 21 that detects the pressure of the cuff 5 through an air flow path (tube) 20, a pump 22 that sends air to the cuff 5, and a valve 23 that supplies and exhausts the cuff 5. It is connected. The pressure sensor 21 is connected to the CPU 30 via the oscillation circuit 24, and a pressure detection signal is taken into the CPU 30. The pump 22 is connected to the CPU 30 via the pump drive circuit 25 and is driven by the pump drive circuit 25 based on a command from the CPU 30. The valve 23 is connected to the CPU 30 via the valve drive circuit 26 and is driven by the valve drive circuit 26 based on a command from the CPU 30. The display device 7 is, for example, an LCD, and displays measurement data such as systolic blood pressure, diastolic blood pressure, and pulse and other necessary information according to a command from the CPU 30. The CPU 30 has a function of calculating measurement data such as systolic blood pressure, diastolic blood pressure, and pulse from the cuff pressure signal obtained by the pressure sensor 21. The memory (RAM) 31 stores measurement data such as a calculated blood pressure value and a statistical value based on the blood pressure value so as to be readable for each usage mode.

  Next, the blood pressure measurement process of the sphygmomanometer 1 configured as described above will be described. FIG. 3 is a general flowchart showing the measurement process, and FIG. 4 is a flowchart showing the process when the memory recall switch 15 is turned on while the power is on.

  In the flowchart of FIG. 3, when the user (assuming user A) wears the cuff 5 on his arm and presses the power A switch 11, the power is turned on. Thereby, this sphygmomanometer 1 is for the user A.

  First, when the user A presses the measurement / stop switch 13 in step ST1, initialization is performed in step ST2. In step ST3, the valve 23 is closed and air is supplied to the cuff 5 by driving the pump 22. Start cuff pressurization. When the cuff pressure reaches a predetermined pressure by this pressurization, in step ST4, the pump 22 is stopped, the valve 23 is gradually opened, and the cuff pressure reduction for decreasing the cuff pressure at a constant speed is started. In the next step ST5, a pulse wave waveform is extracted from the change in the cuff pressure during the cuff decompression process, and the maximum blood pressure and the minimum blood pressure are calculated based on this.

  When the measurement is completed, the valve 23 is completely opened and the cuff 5 is quickly exhausted. Thereafter, in step ST6, the calculated systolic blood pressure, diastolic blood pressure, and pulse are displayed on the display unit 7 together with the month, day, hour, and minute at the time of measurement. , The hour and minute are stored in the memory 31 and the measurement is terminated. At the time of storage, since the sphygmomanometer 1 is for the user A, the measurement data such as the maximum blood pressure, the minimum blood pressure, the pulse, the month, the day, the hour, and the minute are handled as the user A.

  The blood pressure measurement process is not particularly different from a conventional processing method performed with this type of electronic blood pressure monitor. In the description of the blood pressure measurement process, the measurement is performed in the cuff depressurization process. However, the measurement may be performed in the cuff pressurization process.

  Next, the memory call process will be described with reference to the flowchart of FIG. The usage mode here is user A. In step ST11, when the power source A switch 11 is operated and the power source is turned on, when the user A presses the memory recall switch 15, in step ST12, as described above, the latest data on the user A (the latest data) High blood pressure, diastolic blood pressure, pulse rate, month, day, hour, minute) are called from the memory 31 and the latest data called is displayed on the display 7 in step ST13.

  In the next step ST14, it is determined whether or not the user A further presses the memory recall switch 15. If this determination is YES, the past (previous) data is read from the memory 31 in step ST15, and the read past data is displayed on the display unit 7 in step ST13. Through these steps ST13 to ST15, every time the memory recall switch 15 is pressed, the past data is sequentially read from the memory 31 (updated to the past data) and displayed on the display unit 7. On the other hand, when the determination in step ST14 is NO, the process ends.

  The measurement data stored in the memory 31 is, for example, as shown in FIG. According to the storage data configuration of the memory shown in FIG. 5, in one measurement (step ST7 in FIG. 3), SBP (maximum blood pressure), DBP (minimum blood pressure), PLS (pulse), month, day, hour at the time of measurement , Minutes are stored, and these measurement data are accumulated in order from the latest data to the past data for each measurement (SBP1, DBP1, PLS1, month 1, day 1, hour 1, minute 1,..., SBPm, DBPm, PLSm, month m, day m, hour m, minute m). In this case, in the measurement data, the month, day, hour, and minute are related to the measurement condition as a unique name. For example, when “morning” or “night” is selected as the measurement condition described later, The measurement data of the time zone related to “Night” is read out. Details of this will be described later as another embodiment.

  An example of data stored in the memory 31 shown in FIG. 5 is stored as measurement data of the user A in the user A storage area 31A as shown in FIG. 7, and the measurement data of the corresponding user B is shown in FIG. It may be stored in the B storage area 31B. The latest stored data call in step ST12 and the update (call) of the stored data in step ST15 are performed from the user A storage area 31A in FIG. 7 for the user A and in FIG. 7 for the user B. The necessary data may be read from the user B storage area 31B.

  FIG. 6 shows another example of storing measurement data. In this stored data configuration of the memory, in one measurement, in addition to SBP (maximum blood pressure), DBP (minimum blood pressure), PLS (pulse), a code indicating the user A or the user B related to the use mode specifying means Is memorized. However, the memory numbers 1, 2,..., M are assigned in order for each measurement regardless of the users A and B. In this case, when the memory recall switch 15 is pressed, only the data relating to the user A or B is read out and displayed on the display unit 7 according to the pressed one of the power supply A switch 11 or the power supply B switch 12. .

  That is, when the user A presses the memory recall switch 15 with the power source A switch 11 turned on, the latest data relating to the user A, SBP1, DBP1, and PLS1, are read and displayed on the display 7. When the memory recall switch 15 is pressed once more, SBP3, DBP3, and PLS3, which are the previous data related to the user A, are read and displayed on the display 7. On the other hand, when the user B presses the memory recall switch 15 with the power supply B switch 12 turned on, the latest data relating to the user B, SBP2, DBP2, and PLS2, are read and displayed on the display 7. When the memory recall switch 15 is pressed once again, SBP5, DBP5, and PLS5, which are the previous data related to the user B, are read and displayed on the display 7.

  Furthermore, another example of storing measurement data is shown in FIG. In the storage data configuration of this memory, dedicated storage areas 31A and 31B are prepared in advance in the memory 31 for each user A and B as described above, and measurement data of the user A is stored in the user A storage area 31A. The measurement data of user B is accumulated in the user B storage area 31B. In this case, when the user A presses the memory recall switch 15 with the power supply A switch 11 turned on, the latest data is read from the user A storage area 31A and displayed on the display unit 7, When the user B presses the memory recall switch 15 with the power supply B switch 12 turned on, the latest data is read from the user B storage area 31B and displayed on the display unit 7. Of course, each time the switch 11 or 12 is pressed, past data is sequentially read from each storage area 31A or 31B and displayed on the display 7.

  Next, a specific example of the usage mode specifying means provided detachably in the operation unit 10 or in the vicinity of the operation unit 10 will be described. In FIG. 1, a power supply A switch 11 and a power supply B switch 12 are provided, and “A” and “B” are respectively displayed. In the case of assigning a unique name that specifically represents the usage mode, for example, the following is performed.

  FIG. 8 shows a switch cover as a use mode specifying means with a unique name that is detachably attached to the switches 11 and 12. In the example shown in FIG. 8A, the shaft portion 55 protruding from the back side of the switch cover 50 is fitted into the insertion hole 41 formed in the switch (power switch) 40, so that FIG. In the example shown in FIG. 2, the switch cover 50 is detachably attached to the switch 40 by sticking to the switch 40 with the adhesive 56 provided on the back surface of the switch cover 50. However, although not shown in FIG. 8, the surface of the switch cover 50 is described with a unique name that specifically expresses the usage mode as described later.

  9A shows a state before the switch cover 50 shown in FIG. 8 is attached, and FIG. 9B shows a state after the attachment. However, on the side of the display 7 is provided a user distinction display portion 7a for displaying which one of the power supply A switch 11 and the power supply B switch 12 is selected (pressed). In response to this, “A” or “B” is displayed (in the figure, “A” is displayed).

  9A, the power supply A switch 11 or the power supply B switch 12 is left as it is, and no use form specifying means with a unique name is provided. However, FIG. The switch cover 50 in which “Father” (user is father) is displayed as the structural unit name in the family, and the switch cover 51 in which “Mother” (user is the mother) is displayed are switched. By attaching to the switch 12, the switches 11 and 12 are specified exclusively for "father" and "mother". Accordingly, the user (father) can easily recognize the switch 11 on the display side of “Father”, and the user (mother) can easily recognize the switch 12 on the display side of “Mother”. When the switch 11 is operated, the sphygmomanometer is dedicated to “father”, and when the switch 12 with the switch cover 51 is operated, the sphygmomanometer is dedicated to “mother”, and each measurement data is stored in each storage area. . In FIG. 9B, when the user (father) presses the switch 11 on the “father” display side, “A” is displayed on the user distinction display portion 7a.

  Thus, “A” of the user A is displayed as “Father”, “B” of the user B is displayed as “Mother”, for example, and the distinction of the user is indicated by a unique name. This is one of the major features. As a result, the user does not mistakenly operate the operation unit 10 at the time of measurement, and each measurement data is reliably stored in the storage area of the user.

  FIG. 10A shows still another embodiment. Here, the power supply A switch 11 and the power supply B switch 12 are provided on the top and bottom, and the switch 11 is shown in the figure for the “father” by inserting the switch card 60 as shown in the figure into the switches 11 and 12 so as to be removable. However, the switch 12 is for the “mother”. In FIG. 10B, the switch 40 is used for “grandmother” by detachably inserting the switch card 65 into the insertion groove 43 of the switch 40. The names of “Father” and “Grandmother” displayed on the switch cards 60 and 65 may be entered in advance, or may be entered by the user with a sign pen or the like.

  FIG. 11 shows still another embodiment. In (a) of FIG. 11, there is no usage mode specifying means with a unique name, that is, only “A” is displayed on the power supply A switch 11 and “B” is displayed on the power supply B switch 12. However, the usage mode of the switches 11 and 12 is more clearly specified by sticking the seals 70 and 71 with the unique names on the switches 11 and 12 as shown in FIG. That is, since “Kenji” is displayed as the personal name on the seal 70 and “Yuri” is displayed on the seal 71, the switch 11 is for “Kenji” and the switch 12 is for “Yuri”. Here too, the user may enter the personal name on the seals 70 and 71 with a sign pen or the like.

  The switch covers 50 and 51 shown in FIG. 9 in the above embodiment, the switch cards 60 and 65 in FIG. 10, and the seals 70 and 71 in FIG. 11 are predicted to be used in advance by a father, mother, husband, wife, grandfather, grandmother, For the eldest son, eldest daughter, etc., printed items (switch covers, switch cards, stickers, etc.) are attached to each product, and the purchaser such as Kenji, Yuri, ... etc. in the example of FIG. It is better to attach a plurality of bearers for those that change depending on the situation.

  FIG. 12 shows still another embodiment. In FIG. 12, the switches 11 and 12 are arranged vertically as in FIG. 10, but the switch card 80 displaying “morning” as the measurement condition is detachably inserted into the switch 11 and “night” is displayed. The switched switch card 81 is removably inserted into the switch 12. As a result, the user can store and manage measurement data separately for different measurement conditions in the morning and night.

  In the memory recall process in this case, as shown in FIG. 12, the power supply A switch 11 is set for “morning” and the power supply B switch 12 is set for “night”, so the switch 11 or 12 is turned on. In this state, when the memory recall switch 15 is pressed, the latest measurement data relating to “morning” or “night”, SBP, DBP, PLS, month, day, hour, minute, as described above with reference to FIG. It is read out and displayed on the display unit 7. Each time the memory recall switch 15 is further pressed, SBP, DBP, PLS, month, day, hour, and minute relating to the past “morning” or “night” are sequentially read and displayed on the display unit 7.

  In this case, even if the storage data structure of the memory is as shown in FIG. 6 or FIG. 7, when the morning measurement is performed, the power source A switch 11 set for “morning” is pressed, and when measuring at night, it is used for “night”. As the user presses the set power supply B switch 12, the user selects a switch for each measurement condition and stores the measurement result, whereby the measurement result with different measurement conditions can be managed by one sphygmomanometer.

  FIG. 13 shows still another embodiment. In FIG. 13, in addition to the power supply A switch 11 and the power supply B switch 12, a memory recall A switch 15a and a memory recall B switch 15b are provided for memory recall (memory read). Instead of displaying “A” and “B” on the switch 15b, switch cards 90 and 91 displaying “father” and “mother” are detachably attached to the switches 15a and 15b [(( b)].

  In this case, if the user A is a father, the power supply A switch 11 is pushed to turn on the power, and the memory recall A switch 15a is pushed to check his / her measurement data. In FIG. 13, a clock change switch 16 is provided.

  FIG. 14 shows still another embodiment. In FIG. 14, there is one power switch (not shown), but as a selection switch for storing / not storing the measured value, a storage write / recall A switch 15a that combines storage write and recall (read), A memory write / call B switch 15b is provided, and switch cards 92 and 93 with "father" and "mother" are detachably attached to the switches 15a and 15b (FIG. 14B).

  In this case, after the measurement, when the measurement write / call A switch 15a or the storage write / call B switch 15b is pressed while the measurement data is displayed on the display unit 7, the displayed measurement data is displayed by the user. It is stored in the memory 31 as a record of a father or mother. When the storage write / call A switch 15a or the storage write / call B switch 15b is pressed when the measurement data is not displayed on the display unit 7, the measurement data of the father or mother stored in the memory 31 is displayed. Displayed on the display 7.

  Note that, without providing the power switch, the function of the power switch may be shared by the measurement / stop switch 13, the memory write / call A switch 15a, or the memory write / call B switch 15b. In this case, for example, the power supply may rise and measurement may be started simply by pressing the measurement / stop switch 13. Further, when the measurement data is not displayed on the display 7, the power is turned on simply by pressing the memory write / call A switch 15 a or the memory write / call B switch 15 b, and the father or mother stored in the memory 31. The measurement data may be displayed on the display 7.

  FIG. 15 shows still another embodiment. In FIG. 15, there is one power switch (not shown), but a measurement / stop A switch 13a and a measurement / stop B switch 13b that also serve as a memory call are provided, and “father” and “mother” are provided in the switches 13a and 13b. The attached switch cards 94 and 95 are detachably attached [(b) of FIG. 15].

  In this case, at the time of measurement, if the user A is “father”, the measurement / stop A switch 13a is pressed. If the user B is “mother”, the measurement / stop B switch 13b is pressed to start measurement. The measurement data of the users A and B are automatically stored in the memory 31 as a record of the father and mother. Further, when the users A and B read out their own measurement data, if the measurement / stop A switch 13a or the measurement / stop B switch 13b is pressed and held, the user A or B (father or Mother's measurement data is displayed on the display 7.

  Also in this embodiment, the function of the power switch may be shared by the measurement / stop A switch 13a and the measurement / stop B switch 13b without providing the power switch. In this case, simply by pressing the measurement / stop A switch 13a or the measurement / stop B switch 13b, the power is turned on to start measurement, or the measurement data of the user A or B (father or mother) stored in the memory 31 is stored. It may be displayed on the display device 7.

  In the above embodiment, the usage modes specified by the usage mode specifying means are two types (Father-Mother, Kenji-Yuri, Morning-Night), but there may be three or more types. As the number of usage modes increases, the measurement data can be stored and managed for each of the many usage modes.

It is an external appearance perspective view of the blood pressure meter concerning an embodiment. It is a block diagram of the sphygmomanometer. It is a flow figure showing blood pressure measurement processing of the blood pressure monitor. It is a flowchart which shows the memory call process of the blood pressure monitor. It is a memory | storage data block diagram of an example which shows the content and the memory | storage form of the measurement data memorize | stored in the memory of the blood pressure monitor. It is a memory | storage data block diagram of another example which shows the content of the measurement data memorize | stored in the memory of the same blood pressure monitor, and a memory | storage form. It is the memory | storage data block diagram of another example which shows the content and storage form of the measurement data memorize | stored in the memory of the blood pressure monitor. It is the schematic sectional drawing (a) which shows an example of the switch cover attached to the power switch provided in the operation part of the blood pressure monitor, and the schematic sectional drawing (b) which shows another example. The main part enlarged plan view (a) which shows the state before attaching the switch cover of (a) or (b) of FIG. 8 to the power switch provided in the operation part of the blood pressure monitor, and the state after attachment It is a principal part enlarged plan view (b). The principal part enlarged plan view (a) which shows the state when attaching the switch card of one form to the power switch provided in the operation part of the blood pressure monitor which concerns on another embodiment, and the state when attaching the switch card of another form It is a partial enlarged plan view (b) shown. Furthermore, the principal part enlarged plan view (a) which shows the state before sticking a sticker to the power switch provided in the operation part of the blood pressure meter which concerns on another embodiment, and the principal part enlarged plan view (b) which shows the state after sticking ). It is a principal part enlarged plan view which shows the state after attaching the switch card of another form to the power switch provided in the operation part of the blood pressure meter which concerns on another embodiment. Furthermore, the principal part enlarged plan view (a) which shows the state before attaching a switch card to the memory call switch provided in the operation part of the blood pressure meter which concerns on another embodiment, and the principal part enlarged plan view which shows the state after attachment ( b). (A) Main part enlarged plan view showing a state before a switch card is attached to a memory writing / calling switch that serves both as memory writing and memory calling (reading) provided in an operation part of a sphygmomanometer according to another embodiment FIG. 4 is an enlarged plan view (b) of a main part showing a state after mounting. Furthermore, the principal part enlarged plan view (a) which shows the state before attaching a switch card to the measurement / stop switch which also serves as the memory call provided in the operation part of the blood pressure monitor which concerns on another embodiment, and the figure which shows the state after attachment It is a partial enlarged plan view (b).

Explanation of symbols

1 Blood Pressure Monitor 2 Body 3 Cover 5 Cuff (armband)
7 Display (display means)
10 Operation part (operation means)
11 power supply A switch (use mode specifying means)
12 power supply B switch (use mode specifying means)
13 (a, b) Measurement / stop switch 15 (a, b) Memory recall switch 30 CPU (measurement data calculation means)
31 Memory (storage means)
40 Power switch 50, 51 Switch cover (usage mode specifying means with unique name)
60, 65 switch card (usage mode specifying means with unique name)
70, 71 Seal (usage mode specifying means with unique name)
80, 81 Switch card (usage mode specifying means with unique name)
90-95 switch card (usage mode specifying means with unique name)

Claims (9)

The blood pressure value is obtained from the arm band attached to the blood pressure measurement site, the pressurizing / depressurizing means for adjusting the pressure applied to the arm band, the pressure detecting means for detecting the pressure in the arm band, and the signal obtained by the pressure detecting means. In a sphygmomanometer comprising measurement data calculation means for calculating the measurement data including, storage means for storing the calculated measurement data, display means for displaying the measurement data, and operation means for performing various operations,
A usage mode specifying means for specifying a usage mode from among a plurality of usage modes of the operating means is detachably provided in the operation means or in the vicinity of the operating means. A sphygmomanometer, characterized in that a name is given and the measurement data is stored in a readable manner in a storage unit for each usage mode specified by the usage mode specifying unit.   2. The measurement data stored in the storage means is read for each usage mode in accordance with an operation of the operating unit whose usage mode is specified by the usage mode specifying unit and displayed on the display unit. Sphygmomanometer.   The sphygmomanometer according to claim 1 or 2, wherein the operating means whose usage mode is specified by the usage mode specifying means is a power on / off switch.   The sphygmomanometer according to claim 1 or 2, wherein the operation means whose usage mode is specified by the usage mode specifying means is a memory recall switch.   The sphygmomanometer according to claim 1 or 2, wherein the operating means whose usage mode is specified by the usage mode specifying means is a measurement start / stop switch.   The sphygmomanometer according to claim 1 or 2, wherein the operating means whose usage mode is specified by the usage mode specifying means is a selection switch for storing / not storing a measured value.   The sphygmomanometer according to claim 1, wherein the unique name is a person name.   The sphygmomanometer according to claim 1, wherein the unique name is a name of a constituent unit within a family.   The sphygmomanometer according to claim 1, wherein the unique name is a measurement condition.

Images