WO2011054158A1

WO2011054158A1 - Electronic sphygmomanometer capable of indicating correct measurement position

Info

Publication number: WO2011054158A1
Application number: PCT/CN2009/074871
Authority: WO
Inventors: 亢海生; 刘治军; 王任大
Original assignee: 天津九安医疗电子股份有限公司
Priority date: 2009-11-09
Filing date: 2009-11-09
Publication date: 2011-05-12

Abstract

An electronic sphygmomanometer capable of indicating correct measurement position comprises a sleevelet part and a main body part. The main body is provided with a optical mark for showing sphygmomanometer measurement position information. The optical mark may be a laser label, a prism or a raster. During the blood pressure measurement, the person whose blood pressure is measured can lift or lower his forearm through observing indicated information (DOWN, UP, OK) on the optical mark to adjust the angle between his forearm and upper arm and finally locate his forearm in the position substantially aligned with his heart, so as to implement accurate blood pressure measurement. The electronic sphygmomanometer can accurately and clearly indicate the correct measurement position without using a special mechanical mechanism or circuit. The electronic sphygmomanometer is low-cost and portable.

Description

Electronic sphygmomanometer capable of indicating correct measurement position

The utility model relates to an electronic sphygmomanometer, in particular to an electronic sphygmomanometer capable of indicating a correct measurement position to obtain a more accurate measurement value. Background technique

Blood pressure is an important indicator of human health. With the improvement of people's quality of life, more and more people hope to monitor their blood pressure in time and accurately to take corresponding countermeasures. Electronic sphygmomanometers are also increasingly entering the ordinary family.

Current electronic sphygmomanometers fall into two main categories. One type is a wrist electronic blood pressure monitor. One type is an arm sphygmomanometer. Especially for wrist-type electronic sphygmomanometers, in order to achieve accurate measurement of blood pressure, in addition to the performance of the electronic sphygmomanometer itself, whether the subject uses the correct measurement method, especially whether the height of the wrist is flush with the heart, is also the effect One of the reasons for the accuracy of blood pressure measurement.

According to the basic principle of blood pressure measurement, in the blood pressure measurement using the wrist sphygmomanometer, in order to achieve accurate measurement, the wrist of the subject is required to be in a position flush with the heart. However, in the measurement process, the above-mentioned requirements may not be met because the subject does not have the above-mentioned common sense or some other reason in the measurement process, thus affecting the accuracy of blood pressure measurement.

When measuring blood pressure, the posture of the subject is generally that the upper body is kept still and the upper arm is naturally drooping. At this time, the angle of the forearm and the upper arm determines whether the wrist of the subject is substantially flush with the heart. The purpose of adjusting the height of the wrist to the level with the heart can be achieved by measuring the angle of the forearm and the upper arm and prompting the subject to change the angle of the forearm and the upper arm. In current electronic sphygmomanometers, there are two ways to achieve the function of indicating the measurement position: gravity sensor type and heavy hammer type.

Gravity sensor type: Install a gravity sensor on the sphygmomanometer. According to the mechanics principle, when the forearm and the upper arm of the subject are at different angles, the component value of the gravity in the x and y directions is also changed due to the change of the angle. The change, wherein the X direction is a direction parallel to the forearm of the subject, and the y direction is another component of gravity perpendicular to the X direction. In the sphygmomanometer, a certain set of gravity component values is preset as a standard value, that is, when the gravity component value falls within the range of the standard value range, the wrist of the test subject is regarded as being substantially flush with the heart, thereby realizing Indicates the function of correctly measuring the position.

Heavy hammer type: Install a hammer and a dial and pointer on the sphygmomanometer. When the subject's forearm is at a different angle from the upper arm, since the weight is always vertically downward, it also points to a different area on the dial. Then, a specific area can be previously marked on the dial as a standard area, and when the pointer points to the area, the wrist of the subject is regarded as being substantially flush with the heart, thereby realizing the function of indicating the correct measurement position.

The above two electronic sphygmomanometers, although capable of performing the function of indicating the correct measurement position, exist The following disadvantages are as follows: First, the structure is complicated. The former requires a specific sensor signal conversion circuit and a discriminating unit circuit to perform related functions, and the latter requires a specific rotatable mechanical mechanism to perform related functions, which naturally brings about an increase in cost; Second, the large size affects the portability and miniaturization of the sphygmomanometer, which brings inconvenience in use. Summary of the invention:

The technical problem to be solved by the present invention is to provide an electronic sphygmomanometer which is simple in structure and can succinctly indicate the height of the subject to adjust the wrist to the height of the heart, thereby achieving accurate measurement.

For some optical marks, such as laser tags, gratings, etc., a certain process can be adopted to make it have the following properties: that is, when viewed at different angles, different information displayed on the laser tag or on the grating, such as a pattern, can be observed. , text, etc. If these patterns or characters have corresponding indication information, then the optical identifications are placed at specific positions on the electronic sphygmomanometer, and the positioning function can be realized accordingly.

In order to solve the above technical problem, an electronic sphygmomanometer capable of indicating a correct measurement position includes a cuff portion and a main body portion; and the cuff portion includes a gas component for charging and discharging gas, The body portion includes a display screen and an operation unit; an optical identifier is disposed on the body of the sphygmomanometer, and the optical indicator can observe different indication information when viewed at different angles; when performing measurement, the subject can Observing the indication information on the optical identifier; when the subject's forearm and the upper arm are at different angles, the subject observes that the indication information on the optical identifier is different, and the subject can adjust the forearm and the upper arm accordingly. Angle, adjust the wrist to the position flush with the heart for more accurate measurements.

As a preferred structure of the present application, an accommodating portion may be disposed on the main body of the electronic sphygmomanometer, and the optical marker is installed in the accommodating portion. It is also possible to cover a transparent material on the accommodating portion in such a state to form a transparent window structure. The above two preferred structures can better realize the portability of the sphygmomanometer, and make the indication accurate and durable.

As another preferred structure of the present application, the indication information on the optical identifier may be a pattern or a text to directly indicate how the subject should adjust the angle of the forearm and the upper arm to adjust the wrist. To the purpose of being flush with the heart. When measuring, when the height of the wrist of the subject is lower than the height of the heart, the optical mark observed by the subject displays the pattern "IT" indicating the upward direction, or the character "UP", which means the subject At this time, the angle between the forearm and the upper arm is too large, and the forearm should be lifted upwards; when the height of the wrist of the subject is higher than the heart, the optical logo observed by the subject shows a downward pattern or a text "DOWN"", meaning that the angle of the forearm and the upper arm is too small at this time, the lower forearm should be lowered downwards; when the height of the wrist of the subject is flush with the height of the heart, the optical sign observed by the subject shows "OK" means that the exact position is found and can be measured. As another preferred structure of the present application, the optical identification may be a laser tag containing indication information, or a grating containing indication information, or the optical identification may be composed of a set of prisms and indication information.

Compared with the above two electronic sphygmomanometers for indicating the measurement position, the utility model has the advantages that the indication is accurate, concise and clear, and the function of indicating the correct measurement position can be realized without special mechanical mechanism or circuit, and the utility model is reduced. Cost, but also better portability. DRAWINGS

Figure 1 is a schematic illustration of an electronic sphygmomanometer optically identified as a laser tag or grating.

Figure 2 is a schematic illustration of an electronic sphygmomanometer optically identified as a prism.

3 is a schematic view of an embodiment of the present invention in a measurement process.

4 is a schematic view of another embodiment of the present invention in a measurement process. detailed description

An electronic sphygmomanometer capable of indicating a correct measurement position is shown in FIG. 1. On the main body of the display unit 1, a housing portion 2 is disposed on the lower housing of the display unit 1 so that the laser label 3 is flatly disposed in the housing. Set inside part 2. In order to better protect the laser tag without affecting the measurement, a transparent material may be covered on the accommodating portion 2 to form a transparent window structure.

In the above laser label, a pattern or a character is engraved on a label by a laser engraving plate, and a prism having a different angle is formed by hot pressing, so that different patterns or characters can be observed at different angles. When the subject is performing blood pressure measurement, the posture of the subject is generally that the upper body is kept still and the upper arm is naturally drooping. According to the blood pressure measurement principle, when the wrist sphygmomanometer is measured, the wrist of the test subject is required to be kept flush with the heart to obtain more accurate measurement data. Then, when the subject remains in the upper body and the upper arm naturally hangs down, the angle between the subject and the laser tag 3 disposed on the sphygmomanometer casing changes continuously as the angle of the forearm and the upper arm of the subject changes. The pattern or text on the laser tag 3 observed by the subject will also change accordingly. The subject can continuously change the angle of the forearm and the upper arm, and observe the pattern or text on the laser tag 3, since the patterns or characters contain information directly indicating the action that the subject should take, then the subject is accordingly The most accurate position to measure blood pressure can be found, which serves to indicate the correct measurement position. A specific pattern or text such as "ίΤ" or "UP", "OK", or "DOWN" can be designed in advance on the laser tag 3. When the angle between the forearm and the upper arm of the subject is too large, the subject observes the upward pattern "ΪΓ" or the text "UP", which means that the height of the wrist at this time is lower than the heart, and should be lifted upwards. When the angle between the forearm and the upper arm of the subject is too small, the subject observes the downward pattern or the text "DOWN", which means that the subject is at the height of the wrist at this time. When the degree is higher than the heart, the forearm should be lowered downwards. When the angle of the forearm and the upper arm of the subject is appropriate, the subject observes "οκ", which means that the height of the wrist of the subject is flush with the height of the heart. Can be measured.

The laser tag can also be replaced by a grating which can be made by converting the pattern or text by related software so that the pattern or text is displayed within a desired angular range, and then by techniques such as laser printing. The above pattern or text is printed on the back of the grating. As shown in Figure 1.

The laser tag may also be replaced by at least one set of prisms and indication information, and the indication information "tr" or "UP", "OK", "" or "DOWN" may be printed on the prism or printed on the volume The inner surface of the part. as shown in picture 2. The above is only a preferred embodiment of the present invention, and other equivalent changes within the inventive concept and scope of the present invention are included in the scope of the patent protection of the present invention.

Claims

An electronic sphygmomanometer capable of indicating a correct measurement position, comprising a cuff portion and a body portion; the cuff portion includes a gas component for charging and deflation thereof, the body portion including a display screen The operating unit is characterized in that: an optical identifier is arranged on the main body portion for indicating the position information of the sphygmomanometer.

The electronic sphygmomanometer according to claim 1, wherein a receiving portion is provided on a main body portion of the electronic sphygmomanometer, and the optical marker is mounted in the accommodating portion.

The electronic sphygmomanometer according to claim 2, wherein a transparent material is covered on the accommodating portion to form a transparent window structure.

The electronic sphygmomanometer according to any one of claims 1 to 3, wherein the optical signature includes a pattern indicating an upward direction, a pattern indicating a downward direction, and "OK" information.

The electronic sphygmomanometer according to any one of claims 1 to 3, wherein the optical identification includes "UP", "DOWN" and "OK" information.

The electronic sphygmomanometer according to any one of claims 1 to 5, wherein the optical marker is a laser tag containing indication information.

The electronic sphygmomanometer according to any one of claims 1 to 5, wherein the optical marker is a raster containing indication information.

The electronic sphygmomanometer according to any one of claims 1 to 3, wherein the optical marker is composed of at least one set of prisms and indication information, and the indication information is printed on a surface of the prism.

The electronic sphygmomanometer according to any one of claims 1 to 3, wherein: the optical marker is composed of at least one set of prisms and indication information, and the indication information is printed in the accommodating portion. surface.

The electronic sphygmomanometer according to claim 8 or 9, wherein the indication information includes a pattern indicating an upward direction, a pattern indicating a downward direction, and "OK" information.

The electronic sphygmomanometer according to claim 8 or 9, wherein the indication information includes "UP", "DOWN" and "OK" information.