CN103654743B - A pulse tester - Google Patents

Abstract

The invention discloses a kind of pulse condition survey meter, pulse condition survey meter comprises the first probe, the second probe, the 3rd probe and bearing; First probe, the second probe are set up in parallel successively with the 3rd probe and structure is identical, and include sleeve pipe, air bag and sensor; Air bag and the equal adaptation of sensor are contained in sleeve pipe, and air bag is held between sleeve pipe and sensor, and air bag is used for inflation/deflation and is with dynamic sensor to slide in sleeve pipe; The surface of bearing is run through and is offered the first chute and the second chute, and the first probe is slidably connected in the first chute, and the second probe is slidably connected in the second chute, and the 3rd probe is fixedly connected on bearing.This pulse condition survey meter can manual adjustments first be popped one's head in and the second probe, to aim at the acupuncture points such as cun,guan,chi more simply.Pulse condition survey meter structure is simple, it is more convenient to operate, keep in repair and assemble, and volume is little, and wear light and handy, with low cost, can get arteries and veins for multiple crowd, universality is strong.

Description

Translated fromChinese

一种脉象测试仪A pulse tester

技术领域technical field

本发明涉及医疗器械领域，尤其涉及一种脉象测试仪。The invention relates to the field of medical equipment, in particular to a pulse condition tester.

背景技术Background technique

人体脉搏系统不仅是人体输送养料、传递能量和传播各种生理病理信息的重要途径，更是心血管系统的重要组成部分。因此，脉搏被认为是人体生命活动的交响乐，中医可通过观察和分析人体的脉象特征来诊断疾病和脏腑的活动规律—即脉诊，俗称“号脉”。The human pulse system is not only an important way for the human body to transport nutrients, transfer energy and disseminate various physiological and pathological information, but also an important part of the cardiovascular system. Therefore, the pulse is considered to be the symphony of life activities of the human body. Chinese medicine can diagnose diseases and the activity rules of viscera by observing and analyzing the characteristics of the pulse condition of the human body—that is, pulse diagnosis, commonly known as "pulse number".

中医寸口三部九候诊脉法是医生凭手指触觉病人桡动脉的寸、关、尺三部并按“沉、中、浮”压力可获知人体五脏六腑的病理变化。但由于传统脉诊的定性化和主观性大大影响了其精度与可行性，成为中医脉诊应用和发展中的制约因素。随着科学技术的发展和应用，以及生物医学、数学、生物力学、生物物理学、计算机技术等向中医领域的渗透，为脉诊研究提供有力的支持。、In Chinese medicine, the Cunkou three-part nine-waiting pulse method is that the doctor can know the pathological changes of the human body's internal organs by touching the Cun, Guan and Chi parts of the patient's radial artery with his fingers and pressing the "sinking, middle and floating" pressure. However, the qualitative and subjectivity of traditional pulse diagnosis have greatly affected its accuracy and feasibility, which has become a restrictive factor in the application and development of traditional Chinese medicine pulse diagnosis. With the development and application of science and technology, and the penetration of biomedicine, mathematics, biomechanics, biophysics, and computer technology into the field of traditional Chinese medicine, it provides strong support for pulse diagnosis research. ,

现有的脉象探测仪，采用的是三探头对三个取脉点进行同时采集。其缺点是获得的脉搏信号不够稳定，彼此之间易产生干扰，各个探头之间的距离固定，不能根据人手腕寸、关、尺之间的距离大小进行调整，对测量人群没有普遍性。另外，还有的脉象探测仪采用复杂的机械传动机构来实现模拟中医的三部取脉法。导致其结构复杂，体积大，不便于携带、不适合家庭或者社区使用。The existing pulse condition detector adopts three probes to simultaneously collect three pulse-taking points. Its disadvantage is that the obtained pulse signal is not stable enough, and it is easy to interfere with each other. The distance between each probe is fixed, and it cannot be adjusted according to the distance between the wrist, guan, and chi, and it is not universal for the measurement population. In addition, some pulse detectors use complex mechanical transmission mechanisms to simulate the three-part pulse-taking method of traditional Chinese medicine. Cause its complex structure, bulky, not easy to carry, not suitable for family or community use.

发明内容Contents of the invention

本发明所要解决的技术问题在于，提供一种脉象探测仪，对测量人群具有普遍性，且结构简单。。The technical problem to be solved by the present invention is to provide a pulse condition detector which is universal to the measurement crowd and has a simple structure. .

为了解决上述技术问题，本发明提供了一种脉象探测仪，所述脉象探测仪包括第一探头、第二探头、第三探头及支座；所述第一探头、第二探头和第三探头依次并列设置且结构相同，且均包括套管、气囊和传感器；所述气囊和所述传感器均适配收容于所述套管内，且所述气囊夹持于所述套管和所述传感器之间，所述气囊用于充放气而带动所述传感器在所述套管内滑动；所述支座的表面贯穿开设第一滑槽和第二滑槽，所述第一探头滑动连接于所述第一滑槽内，所述第二探头滑动连接于所述第二滑槽内，所述第三探头固定连接于所述支座上。In order to solve the above-mentioned technical problems, the present invention provides a pulse condition detector, which includes a first probe, a second probe, a third probe and a support; the first probe, the second probe and the third probe Arranged side by side in sequence with the same structure, and all include a sleeve, an air bag and a sensor; the air bag and the sensor are both adapted to be accommodated in the sleeve, and the air bag is clamped between the sleeve and the sensor During the period, the airbag is used to inflate and deflate to drive the sensor to slide in the casing; the surface of the support runs through a first chute and a second chute, and the first probe is slidably connected to the In the first chute, the second probe is slidably connected in the second chute, and the third probe is fixedly connected to the support.

其中，所述传感器为聚偏氟乙烯压电式薄膜传感器或压阻式传感器，所述传感器与人体的尺、关、寸三脉的接触面均为圆形，所述圆形的直径约1～1.5cm，所述传感器经连接导线连接至外界脉象仪。Wherein, the sensor is a polyvinylidene fluoride piezoelectric film sensor or a piezoresistive sensor, and the contact surfaces between the sensor and the human body's chi, guan, and cun pulses are all circular, and the diameter of the circle is about 1 ~1.5cm, the sensor is connected to an external pulse monitor through a connecting wire.

其中，所述气囊经气管连接至外界气源，所述支座上开设埋线槽，所述气管和所述连接导线均收容于所述埋线槽内。Wherein, the air bag is connected to an external air source through a trachea, and a thread embedding groove is provided on the support, and the air pipe and the connecting wires are both accommodated in the thread embedding groove.

其中，所述气囊的材质为薄膜塑料，所述气囊充气膨胀时呈圆柱体状，所述气囊的两端部分别粘接所述套管和所述传感器。Wherein, the material of the airbag is thin film plastic, and the airbag is in the shape of a cylinder when it is inflated, and the two ends of the airbag are bonded with the sleeve and the sensor respectively.

其中，所述脉象探测仪还包括均呈T型的第一滑座和第二滑座；所述第一滑槽的内壁设第一台阶结构，所述第一滑座与所述第一台阶结构滑动连接，第一螺钉紧固所述第一滑座与所述第一探头的所述套管；所述第二滑槽与所述第一滑槽的结构相同，所述第二滑槽内壁设第二台阶结构，所述第二滑座与所述第二台阶结构滑动连接，第二螺钉紧固所述第二滑座与所述第二探头的所述套管。Wherein, the pulse detector also includes a T-shaped first slide seat and a second slide seat; the inner wall of the first slide groove is provided with a first step structure, and the first slide seat and the first step The structure is slidingly connected, and the first screw fastens the first sliding seat and the sleeve of the first probe; the structure of the second sliding groove is the same as that of the first sliding groove, and the second sliding groove The inner wall is provided with a second step structure, the second sliding seat is slidably connected with the second step structure, and the second screw fastens the second sliding seat and the casing of the second probe.

其中，第三螺钉紧固所述第三探头的所述套管于所述支座上。Wherein, the third screw fastens the sleeve of the third probe on the support.

其中，所述第一滑座在远离所述套管的端面上设第一凸起，所述第一凸起与所述第一滑座呈一体结构；所述第二滑座在远离所述套管的端面上设第二凸起，所述第二凸起与所述第二滑座呈一体结构。Wherein, the first sliding seat is provided with a first protrusion on the end face far away from the sleeve, and the first protrusion and the first sliding seat are in an integral structure; the second sliding seat is far away from the A second protrusion is provided on the end surface of the casing, and the second protrusion is integrally structured with the second sliding seat.

其中，所述支座的材质为塑料，所述支座在长度方向上设刻度，所述支座的长度为8～10cm，所述支座的宽度为4～5cm，所述第一探头和所述第二探头在所述支座长度的方向上滑动。Wherein, the material of the support is plastic, the support is provided with scales in the length direction, the length of the support is 8-10 cm, the width of the support is 4-5 cm, the first probe and The second probe slides in the direction of the length of the mount.

其中，所述脉象探测仪还包括袖带，所述袖带固定于所述支座的长边上，所述袖带套设于人体挠动脉上，且用于依次固定所述第一探头、所述第二探头和所述第三探头于人体的尺、关、寸三脉上。Wherein, the pulse detector also includes a cuff, the cuff is fixed on the long side of the support, the cuff is set on the radial artery of the human body, and is used to fix the first probe, The second probe and the third probe are placed on the chi, guan and cun vessels of the human body.

其中，所述袖带的材质为尼龙、橡胶或塑料。Wherein, the material of the cuff is nylon, rubber or plastic.

本发明实施提供了的便携袖带式的所述脉象探测仪，可手动调节所述第一探头和所述第二探头，以更加简易地对准寸、关、尺等穴位。所述脉象探测仪结构简单、操作、维修和组装较方便，体积小，佩带轻巧，成本低廉，可针对多种人群取脉，普遍性强。从而解决了不同测量人群手腕的寸、关、尺相对距离不同，导致测量不便的问题。还解决了以往采用复杂的机械传动机构的脉象设备的结构复杂、体积大、操作不便等问题。所述脉象探测仪适合家庭或者社区使用、加快促进了医疗产业进入家庭低成本健康服务的脚步，带来了不可估量的社会和经济价值。The portable cuff-type pulse condition detector provided by the implementation of the present invention can manually adjust the first probe and the second probe to more easily align with acupuncture points such as Cun, Guan and Chi. The pulse detector has a simple structure, convenient operation, maintenance and assembly, small size, light and easy to wear, and low cost. Thus, the problem of inconvenient measurement caused by the different relative distances of the wrists of the wrists of different measurement groups is solved. It also solves the problems of complex structure, large volume, inconvenient operation and the like of the conventional pulse condition equipment using complex mechanical transmission mechanism. The pulse detector is suitable for use in families or communities, accelerates the pace of the medical industry entering low-cost health services for families, and brings immeasurable social and economic value.

附图说明Description of drawings

为了更清楚地说明本发明实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动性的前提下，还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are only These are some embodiments of the present invention. For those skilled in the art, other drawings can also be obtained according to these drawings without any creative effort.

图1是本发明实施例提供的脉象探测仪的第一视角结构示意图；Fig. 1 is the structural representation of the first viewing angle of the pulse condition detector that the embodiment of the present invention provides;

图2是本发明实施例提供的第一探头与所述支座的连接结构图；Fig. 2 is a connection structure diagram of the first probe provided by the embodiment of the present invention and the support;

图3是本发明实施例提供的脉象探测仪的第二视角结构示意图；Fig. 3 is a second view structural schematic diagram of the pulse condition detector provided by the embodiment of the present invention;

图4是本发明实施例提供的脉象探测仪的第三视角结构示意图；Fig. 4 is a schematic structural diagram of a third viewing angle of a pulse condition detector provided by an embodiment of the present invention;

具体实施方式Detailed ways

下面将结合本发明实施例中的附图，对本发明实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅仅是本发明一部分实施例，而不是全部的实施例。基于本发明中的实施例，本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例，都属于本发明保护的范围。The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of the present invention.

下面参考附图对本发明的实施例进行描述。参见图1，为本发明中实施例提供的脉象探测仪100的结构示意图。所述脉象探测仪100采用生物传感技术、机械、人体力学等技术实现对手腕的寸、关、尺三部的脉象信息进行浮中沉取脉。而后采用一脉象仪和一外界电脑监控软件，对所述脉象探测仪100所采集的数据进行检测、压力控制和分析。Embodiments of the present invention will be described below with reference to the accompanying drawings. Referring to FIG. 1 , it is a schematic structural diagram of a pulse condition detector 100 provided by an embodiment of the present invention. The pulse condition detector 100 adopts technologies such as biosensing technology, machinery, and human mechanics to realize the floating and sinking of the pulse condition information of the three parts of the wrist, namely inch, guan, and chi. Then a pulse conditioner and an external computer monitoring software are used to detect, control and analyze the data collected by the pulse condition detector 100 .

所述脉象探测仪100包括第一探头10、第二探头20、第三探头30、支座40及袖带50；还包括第一滑座60和第二滑座70。The pulse detector 100 includes a first probe 10 , a second probe 20 , a third probe 30 , a support 40 and a cuff 50 ; it also includes a first sliding seat 60 and a second sliding seat 70 .

参见图2，所述第一探头10、第二探头20和第三探头30依次并列设置且结构相同，且均包括套管10a、气囊10b和传感器10c。Referring to FIG. 2 , the first probe 10 , the second probe 20 and the third probe 30 are arranged side by side in sequence and have the same structure, and all include a sleeve 10a, an airbag 10b and a sensor 10c.

所述气囊10b和所述传感器10c均适配收容于所述套管10a内，且所述气囊10b夹持于所述套管10a和所述传感器10c之间，所述气囊10b用于充放气膨胀时带动所述传感器10c在所述套管10a内滑动。Both the airbag 10b and the sensor 10c are adapted to be accommodated in the sleeve 10a, and the airbag 10b is sandwiched between the sleeve 10a and the sensor 10c, and the airbag 10b is used for filling and discharging When the air expands, the sensor 10c is driven to slide in the casing 10a.

其中，所述传感器10c为聚偏氟乙烯（简称PVDF）压电式薄膜传感器或压阻式传感器。所述传感器10c经连接导线连接(图中未示出)至外界所述脉象仪（图中未示出）。此类型的传感器10c灵敏度高、抗干扰能力腔、可靠性高、寿命长。另外，根据中医理论，寸关尺等穴位的尺寸较小，因而采用的所述传感器10c与人体的尺、关、寸三脉的接触面均为圆形，所述圆形的直径约1～1.5cm。以更加类似于指尖取脉方式。Wherein, the sensor 10c is a polyvinylidene fluoride (PVDF for short) piezoelectric film sensor or a piezoresistive sensor. The sensor 10c is connected (not shown in the figure) to the external pulse monitor (not shown in the figure) through a connecting wire. This type of sensor 10c has high sensitivity, strong anti-interference ability, high reliability and long service life. In addition, according to the theory of traditional Chinese medicine, the size of acupoints such as Cunguan Chi is relatively small, so the contact surfaces between the sensor 10c and the Chi, Guan, and Cun pulses of the human body are all circular, and the diameter of the circle is about 1-20mm. 1.5cm. In a way that is more similar to fingertip pulse taking.

所述气囊10b的材质为薄膜塑料。所述气囊10b充气膨胀时呈圆柱体状，所述气囊10b的两端部分别粘接所述套管10a和所述传感器10c。所述气囊10b经气管（图中未标示）连接至外界气源。所述传感器10c设于所述套管10a内，以防止所述传感器10c掉出或左右移动。当所述气囊10b充放气带动所述传感器10c滑动时，模拟中医诊脉的手指用力过程，从而达到浮、中、沉取脉的效果。The airbag 10b is made of film plastic. The airbag 10b is in the shape of a cylinder when it is inflated, and the two ends of the airbag 10b are bonded to the sleeve 10a and the sensor 10c respectively. The airbag 10b is connected to an external air source through a trachea (not shown in the figure). The sensor 10c is disposed in the casing 10a to prevent the sensor 10c from falling out or moving left and right. When the airbag 10b is inflated and deflated to drive the sensor 10c to slide, it simulates the forceful process of fingers in TCM pulse diagnosis, so as to achieve the effect of floating, centering and sinking to take the pulse.

参见图3和图4，所述支座40的材质为塑料。轻巧且便于加工成型。所述支座40用于支撑所述第一探头10、所述第二探头20和所述第三探头30。所述支座40在长度方向上设刻度，以利于调节设置在所述支座40上的所述第一探头10、所述第二探头20和所述第三探头30。所述支座40的长度为8～10cm，所述支座40的宽度为4～5cm。Referring to Fig. 3 and Fig. 4, the material of the support 40 is plastic. Lightweight and easy to process and shape. The support 40 is used to support the first probe 10 , the second probe 20 and the third probe 30 . The support 40 is provided with scales in the length direction to facilitate adjustment of the first probe 10 , the second probe 20 and the third probe 30 disposed on the support 40 . The length of the support 40 is 8-10 cm, and the width of the support 40 is 4-5 cm.

所述支座40的表面贯穿开设第一滑槽41和第二滑槽42。所述第一探头10对应感测尺脉，且滑动连接于所述第一滑槽41内。所述第二探头20对应感测关脉，且所述第二探头20滑动连接于所述第二滑槽42内。所述第三探头30对应感测寸脉，且所述第三探头30固定连接于所述支座40上。采取以上的连接结构是由于，寸部的穴位较易识别，因而，将所述第三探头30直接线对准寸穴位。而尺部和关部的穴位较难对准，因而，所述第一探头10和所述第二探头20可移动，从而调节至适当位置。在其他的实施方式中，也可采用所述第一探头10固定连接，而所述第二探头20和所述第三探头30滑动连接的方式，只要达到所述第一探头10、所述第二探头20和所述第三探头30的相对位置可调节即可。A first sliding slot 41 and a second sliding slot 42 run through the surface of the support 40 . The first probe 10 is corresponding to sense the chi pulse, and is slidably connected in the first chute 41 . The second probe 20 is corresponding to sense Guan pulse, and the second probe 20 is slidably connected in the second sliding groove 42 . The third probe 30 is corresponding to sensing Cun pulse, and the third probe 30 is fixedly connected to the support 40 . The reason for adopting the above connection structure is that the acupoints on the Cun portion are easier to identify, therefore, the third probe 30 is directly aligned to the Cun acupoints. However, it is difficult to align the acupoints of the ruler and the guan, so the first probe 10 and the second probe 20 can be moved to adjust to proper positions. In other embodiments, the first probe 10 can also be fixedly connected, and the second probe 20 and the third probe 30 are slidably connected, as long as the first probe 10, the third probe 30 The relative positions of the second probe 20 and the third probe 30 can be adjusted.

所述第一探头10和所述第二探头20在所述支座40长度的方向上滑动。所述支座40上开设埋线槽43，所述气管和所述连接导线均收容于所述埋线槽43内，以便于所述气管和所述连接导线的隐藏和放置。The first probe 10 and the second probe 20 slide in the direction of the length of the support 40 . A thread embedding groove 43 is provided on the support 40, and the air tube and the connecting wires are accommodated in the thread embedding groove 43, so as to facilitate the hiding and placement of the air pipe and the connecting wires.

请再次参见图2，所述第一探头10与所述第一滑槽41，所述第二探头20与所述第二滑槽42，所述第三探头30与所述支座40，的具体的连接结构为：所述第一滑槽41的内壁设第一台阶结构41a。呈T型的所述第一滑座60与所述第一台阶结构41a滑动连接，第一螺钉62紧固所述第一滑座60与所述第一探头10的所述套管10a。在该结构下，可通过拨动所述第一滑座60，来拨动整个所述第一探头10。所述第二滑槽42与所述第一滑槽41的结构相同。同理，所述第二滑槽42内壁也设第二台阶结构（图中未标示），呈T型的所述第二滑座70与所述第二台阶结构滑动连接，第二螺钉紧固所述第二滑座70与所述第二探头20的所述套管10a。第三螺钉紧固所述第三探头30的所述套管10a于所述支座40上。Please refer to FIG. 2 again, the first probe 10 and the first chute 41, the second probe 20 and the second chute 42, the third probe 30 and the support 40, The specific connection structure is: a first step structure 41a is provided on the inner wall of the first sliding groove 41 . The T-shaped first sliding seat 60 is slidably connected with the first stepped structure 41 a , and the first screw 62 fastens the first sliding seat 60 and the casing 10 a of the first probe 10 . Under this structure, the entire first probe 10 can be moved by moving the first sliding seat 60 . The structure of the second chute 42 is the same as that of the first chute 41 . Similarly, the inner wall of the second chute 42 is also provided with a second step structure (not shown in the figure), the T-shaped second sliding seat 70 is slidingly connected with the second step structure, and the second screw is fastened The second sliding seat 70 and the casing 10 a of the second probe 20 . The third screw fastens the sleeve 10 a of the third probe 30 on the support 40 .

另外，为了便于拨动所述第一探头10，所述第一滑座60在远离所述套管10a的端面上设第一凸起61，所述第一凸起61与所述第一滑座60呈一体结构。通过拨动所述第一凸起61，即可实现拨动整个所述第一探头10的功能。同理，所述第二滑座70在远离所述套管10a的端面上设第二凸起71，所述第二凸起71与所述第二滑座70呈一体结构。In addition, in order to facilitate the movement of the first probe 10, the first sliding seat 60 is provided with a first protrusion 61 on the end surface away from the sleeve 10a, and the first protrusion 61 is in contact with the first sliding seat 60. The seat 60 is an integral structure. By turning the first protrusion 61 , the function of turning the whole first probe 10 can be realized. Similarly, the second sliding seat 70 is provided with a second protrusion 71 on the end surface away from the sleeve 10a, and the second protrusion 71 and the second sliding seat 70 form an integral structure.

所述袖带50固定于所述支座40的长边上，且所述袖带50的材质为尼龙、橡胶或塑料。所述袖带50套设于人体挠动脉上，且所述袖带50用于依次固定所述第一探头10、所述第二探头20和所述第三探头30于人体的尺、关、寸三脉上，防止手腕轻微晃动而导致所述第一探头10、所述第二探头20和所述第三探头30的位置发生移动而影响测量精度。The cuff 50 is fixed on the long side of the support 40 , and the material of the cuff 50 is nylon, rubber or plastic. The cuff 50 is sleeved on the radial artery of the human body, and the cuff 50 is used to sequentially fix the first probe 10, the second probe 20 and the third probe 30 on the ruler, gate, On the Cun Sanmai, prevent the slight shaking of the wrist from causing the positions of the first probe 10 , the second probe 20 and the third probe 30 to move and affect the measurement accuracy.

本发明实施提供了的便携袖带式的所述脉象探测仪100，可手动调节所述第一探头10和所述第二探头20，以更加简易地对准寸、关、尺等穴位。所述脉象探测仪100结构简单、操作、维修和组装较方便，体积小，佩带轻巧，成本低廉，可针对多种人群取脉，普遍性强。从而解决了不同测量人群手腕的寸、关、尺相对距离不同，导致测量不便的问题。还解决了以往采用复杂的机械传动机构的脉象设备的结构复杂、体积大、操作不便等问题。所述脉象探测仪100适合家庭或者社区使用、加快促进了医疗产业进入家庭低成本健康服务的脚步，带来了不可估量的社会和经济价值。The portable cuff-type pulse detector 100 provided by the implementation of the present invention can manually adjust the first probe 10 and the second probe 20 to more easily align the acupoints such as Cun, Guan and Chi. The pulse condition detector 100 is simple in structure, convenient to operate, maintain and assemble, small in size, light to wear, low in cost, can take pulse for various groups of people, and has strong universality. Thus, the problem of inconvenient measurement caused by the different relative distances of the wrists of the wrists of different measurement groups is solved. It also solves the problems of complex structure, large volume, inconvenient operation and the like of the conventional pulse condition equipment using complex mechanical transmission mechanism. The pulse detector 100 is suitable for use in families or communities, and has accelerated the pace of the medical industry entering low-cost health services for families, bringing immeasurable social and economic value.

以上所述的实施方式，并不构成对该技术方案保护范围的限定。任何在上述实施方式的精神和原则之内所作的修改、等同替换和改进等，均应包含在该技术方案的保护范围之内。The implementation methods described above do not constitute a limitation to the scope of protection of the technical solution. Any modifications, equivalent replacements and improvements made within the spirit and principles of the above implementation methods shall be included in the protection scope of the technical solution.

Claims (9)

1. a pulse condition survey meter, is characterized in that, described pulse condition survey meter comprises the first probe, the second probe, the 3rd probe and bearing; Described first probe, the second probe are set up in parallel successively with the 3rd probe and structure is identical, and include sleeve pipe, air bag and sensor; Described air bag and the equal adaptation of described sensor are contained in described sleeve pipe, and described air bag is held between described sleeve pipe and described sensor, and described air bag is used for inflation/deflation and drives described sensor to slide in described sleeve pipe; The surface of described bearing is run through and is offered the first chute and the second chute, described first probe is slidably connected in described first chute, described second probe is slidably connected in described second chute, described 3rd probe is fixedly connected on described bearing, and described pulse condition survey meter also comprises the first all T-shaped slide and the second slide; The inwall of described first chute establishes first step structure, and described first slide and described first step structure are slidably connected, the described sleeve pipe that the first slide described in the first screw fastening and described first is popped one's head in; Described second chute is identical with the structure of described first chute, and described second chute inwall establishes second step structure, and described second slide and described second step structure are slidably connected, the described sleeve pipe that the second slide described in the second screw fastening and described second is popped one's head in.

2. pulse condition survey meter as claimed in claim 1, it is characterized in that, described sensor is polyunsymfluorethylepiezoelectric piezoelectric formula thin film sensor or piezoresistive transducer, the contact surface of the chi of described sensor and human body, pass, very little three arteries and veins is circle, the diameter of described circle is 1 ~ 1.5cm, and described sensor is connected to extraneous electropulsograph through connecting wire.

3. pulse condition survey meter as claimed in claim 2, it is characterized in that, described air bag is connected to extraneous source of the gas through trachea, and groove of sunkening cord offered by described bearing, sunkens cord in groove described in described trachea and described connection wire are all contained in.

4. pulse condition survey meter as claimed in claim 1, it is characterized in that, the material of described air bag is plastic film, is cylindrical shape when described airbag aeration expands, both ends bonding described sleeve pipe and the described sensor respectively of described air bag.

5. pulse condition survey meter as claimed in claim 1, is characterized in that, described in the 3rd screw fastening, the described sleeve pipe of the 3rd probe is on described bearing.

6. pulse condition survey meter as claimed in claim 1, is characterized in that, described first slide establishes the first projection on the end face away from described sleeve pipe, and described first projection is integrative-structure with described first slide; Described second slide establishes the second projection on the end face away from described sleeve pipe, and described second projection is integrative-structure with described second slide.

7. pulse condition survey meter as claimed in claim 1, it is characterized in that, the material of described bearing is plastics, described bearing establishes scale in the longitudinal direction, the length of described bearing is 8 ~ 10cm, the width of described bearing is 4 ~ 5cm, and described first probe and described second is popped one's head at the square upward sliding of described standoff length.

8. pulse condition survey meter as claimed in claim 1, it is characterized in that, described pulse condition survey meter also comprises cuff, described cuff is fixed on the long limit of described bearing, described cuff is located on human body C Pneumoniae, and for fixing described first probe successively, described second probe and the described 3rd is popped one's head in the chi of human body, pass, very little three arteries and veins.

9. pulse condition survey meter as claimed in claim 8, it is characterized in that, the material of described cuff is nylon, rubber or plastics.