CN100450433C - Pulse condition detection device - Google Patents

Abstract

The present invention discloses a pulse manifestation detection device which is composed of a data acquisition device 1, a signal conduction device 2, a data management analysis storage device 3, a keyboard input device 4, a printer 5 and a display 6. The device of the present invention is further provided with an elbow forearm combination fixing device 7. The pulse manifestation detection device of the present invention can omnidirectionally describe the pulse information of patients and diagnoses the properties of diseases and the diseased region of the patients. The device of the present invention can reflect various pulse manifestation parameters reflected by the existing pulse manifestation instrument, and can exactly reflect the integral dynamic change of the pulse by an integral pulse-pulse body space-time complex chart, an integral pulse-pulse potential space-time complex chart and an integral pulse-pulse flow space-time complex chart, thereby, the position, the count, the shape and the potential of the pulse manifestation are integrally embodied.

Description

A kind of pulse condition detection device

Invention field

The present invention relates to a kind of medical diagnostic equipment, particularly a kind of pulse condition detection device.

Background technology

People carry out the pulse condition research history of existing decades that objectifies, and study of pulse condition has been done many useful explorations, have invented many pulse condition detection devices.Basically all be to use the sensor pulse information, convert pulse signal to the signal of telecommunication, make arteries and veins figure according to the signal of telecommunication of gained then, and it is carried out analyzing and processing, show at last and record.

Present various pulse condition detection devices are only fixedly eliminated external interfering signals such as sound, vibration in the aspect from pick off emphatically, require the testee to keep absolutely quiet and resting state, interference is arranged slightly, promptly generation has a strong impact on to arteries and veins figure, and then the accuracy of influence detection, so be difficult to promote.And the data analysis of present various pulse condition detection devices, it mainly is reflection pulse-arteries and veins position trendgram, the vibration trend in certain arteries and veins single point such as pressure-arteries and veins position trendgram or cross section, can not reflect the traditional Chinese medical science needed each parameter of feeling the pulse according to traditional Chinese medical science needs comprehensively and accurately, can not reflect the dynamic change of each integral body of pulse simultaneously; Though some pulse condition detection device can be depicted the form sketch map of sering, simple static three-dimensional arteries and veins figure is to tcm diagnosis and dialectical nonsensical.Facts have proved that present pulse condition detection device can not be used to instruct tcm clinical practice.So pulse condition detection device must improve data harvester and data analysis set-up.

Summary of the invention

The purpose of this invention is to provide a kind of comprehensive pulse condition detection device.

This pulse condition detection device is made up of data acquisition unit 1, signal conduction device 2, Data Management Analysis storage device 3, finger-impu system 4, printer 5, display 6; Wherein data acquisition unit 1 is connected with signal conduction device 2 by data cable; Signal conduction device 2 is made up of analog switch, signal amplification circuit, filter circuit and A/D change-over circuit, signal amplification circuit, filter circuit and A/D change-over circuit are connected with Data Management Analysis storage device 3 after being connected successively earlier again in the signal conduction device 2, finger-impu system 4 is connected with Data Management Analysis storage device 3 by data cable, and display 6 is connected with Data Management Analysis storage device 3 by data cable respectively with printer 5.

Data acquisition unit 1 is made up of 3 sensor groups 1a, 1b and 1c, and each sensor groups is integrated by the miniature pulse transducer 1d of array.

Elbow forearm associating fixture 7 drags 7a, wrist to drag 7b and slide rail 7c to form by elbow.

The length of each sensor groups of the present invention is 5～10mm, width 4～8mm, height 5～15mm; And each sensor groups is relatively independent, moves freely.Each sensor groups integrates the contact surface level of each pick off 1d and skin by the independent separately miniature pulse transducer 1d that can not relatively move of array; The measured area of single-sensor 1d is (0.5-2) * (0.5-2) mm ²

The preferred 7mm of length of the sensor group 1a, 1b, 1c, the preferred 6mm of width; Preferred 0.5 * the 0.5mm of the measured area of miniature pulse transducer 1d ², 0.8 * 0.8mm ², 1 * 1mm ², 1.5 * 1.5mm ²Or 1.6 * 1.6mm ², in each sensor groups, the spacing 0～0.5mm of miniature pulse transducer 1d equidistant arrangement longitudinally is 0～0.3mm along the spacing of laterally equidistantly arranging.The number of placing microsensor in above-mentioned each sensor groups is 9-320.

Data Management Analysis storage device 3 is PCs that the Data Management Analysis storage control program has been installed; Wherein after Data Management Analysis storage device 3 is received the signal acquisition instructions, the data message that collects is encoded: according to exerting pressure and getting the different of arteries and veins position, carry out the signal numbering separately according to the two-dimensional space position at miniature pulse transducer place and the power that applies, detect 50 above cardiac cycles, obtain the slow number of pulse frequency and the ligament of arteries and veins rule; After signal behind the coding is accepted program through storage and signal, draw out t more than or equal to the arteries and veins figure in the cardiac cycle scope; Arteries and veins figure comprises that the arteries and veins figure of central point analysis is or/and the arteries and veins figure of unitary analysis; The arteries and veins figure of unitary analysis comprises that whole pulse-arteries and veins body space-time complex chart, whole pulse-arteries and veins gesture space-time complex chart are or/and whole pulse-arteries and veins stream space-time complex chart.

Draw the relevant output function of arteries and veins figure among the present invention:

F (z, t)=(z-is to be measured, t ∈ R for z ⁺) (1)

X(t)＝x _iy _j ^Δ·t(i∈N；j∈N；t∈R ⁺) (2)

Y(t)＝x _iy _j ^Δ·t(i∈N；j∈N；t∈R ⁺) (3)

T(t)＝x _iy _j ^Δ·t(i∈N；j∈N；t∈R ⁺) (4)

Pulse frequency, arteries and veins rule is chosen the arbitrfary point original position and is vibrated and represent; According to this function the data of 50 above cardiac cycles of every arteries and veins collection are directly drawn out original arteries and veins figure more than or equal to a cardiac cycle.

Wherein obtain the image data of every arteries and veins synchronization according to above-mentioned relevant output function, difference according to the pick off position, along laterally projecting to respectively on the same view, the whole time dependent whole pulse-arteries and veins body space-time complex chart of affectionately fighting more than or equal to every portion of a cardiac cycle is drawn out in smooth connection; Longitudinally project to respectively on the same view, draw out every portion whole time dependent whole pulse-arteries and veins gesture space-time complex chart of affectionately fighting; Project to respectively on the same view along normal direction, and with each point of maximum intensity of beating that makes progress, smooth connection is represented the size of the power of beating with live width, draws out every portion whole time dependent whole pulse-arteries and veins stream space-time complex chart of affectionately fighting.

The function expression formula that the present invention draws whole arteries and veins figure is as follows:

Get synchronization on same the arteries and veins in whole pulse-arteries and veins body space-time complex chart, the maximum of each point on the cross section is made the whole time dependent figure of this arteries and veins arbitrarily.That is:

$F(x,z,t)=Z_{{\max }_{\left(t\left(X_i\left(\begin{array}{c}{y}_1\\ \·\\ \·\\ \·\\ y_j\\ \·\\ \·\\ \·\\ y_n\end{array}\right)\right)\right)}}(i\∈N,j\∈N,n\∈N,t\∈R^{+})$

Wherein t is in the scope more than or equal to a cardiac cycle;

Get synchronization on same the arteries and veins in whole pulse-arteries and veins stream space-time complex chart, the maximum of each point on any cross section, project on the corresponding two-dimensional space position of this point, represent this point measurement value size with the same ratio line thickness, institute's invocation point is seamlessly transitted according to the measured value size, make the whole time dependent figure of this arteries and veins.That is:

$F(x,y,t)=Z_{{\max }_{\left(t\left(X_i\left(\begin{array}{c}{y}_1\\ \·\\ \·\\ \·\\ y_j\\ \·\\ \·\\ \·\\ y_n\end{array}\right)\right)\right)}}(i\∈N,j\∈N,n\∈N,t\∈R^{+})$

Wherein t is in the scope more than or equal to a cardiac cycle;

Get synchronization on same the arteries and veins in whole pulse-arteries and veins gesture space-time complex chart, the maximum of each point on the longitudinal section is made the whole time dependent figure of this arteries and veins arbitrarily.That is:

$F(y,z,t)=Z_{{\max }_{\left(t\left(y_j\left(\begin{array}{c}{X}_1\\ \·\\ \·\\ \·\\ X_i\\ \·\\ \·\\ \·\\ X_n\end{array}\right)\right)\right)}}(i\∈N,j\∈N,n\∈N,t\∈R^{+})$

Wherein t is in the scope more than or equal to a cardiac cycle.

Elbow forearm associating fixture 7 also further is set in apparatus of the present invention, and elbow forearm associating fixture 7 drags 7a, wrist to drag 7b and slide rail 7c to form by elbow.Wherein to drag 7a be the arc groove of " L " shape to elbow, is fixed on slide rail 7c one end; It is the arc groove of level that wrist drags 7b, is installed on the slide rail 7c other end, can move freely.

2 explanation elbow forearms are united fixtures 7 with reference to the accompanying drawings.

Elbow forearm associating fixture 7 drags 7a, wrist to drag 7b and slide rail 7c to form by elbow.Wherein to drag 7a be the arc groove of " L " shape to elbow, is fixed on slide rail 7c one end; It is the arc groove of level that wrist drags 7b, is installed on the slide rail 7c other end, can move freely.

It is 200～300mm that elbow drags 7a horizontal part L1, and wide W1 is 100～200mm, and high h1 is 25～40mm, and the internal recess radius is 70～150mm, and the high h2 of groove is 20～30mm, and groove is-3 °～-10 ° inclination angles in horizontal plane, preferred-5 °; The long L2 of the groove of vertical portion is 100～200mm, and wide W2 is 50～100mm, and high h3 is 100～200mm, and the groove radius is 70～150mm, and the high h4 of groove is 20～30mm, is 35 °～90 ° inclination angles, preferred 45 ° in horizontal plane; It is 10～15mm that there is long L3 the both sides in centre position, horizontal part postmedian position, wide W3 is 5～10mm, the strap of thick 5～20mm, clamping plate one side has threaded rod and female nut to link together, the nut head has a spill annular groove, be embedded with pad, in the horizontal part outside, make nut rotate and to move up and down and can not move forward and backward spacers;

It is 200～300mm that wrist drags the long L4 of 7b, and wide W4 is 100～200mm, and high h5 is 25-40mm, the groove radius is 70～150mm, it is 20～30mm that the high h6 of groove equals h2, and wrist drags the 7b bottom that one groove is arranged, and the width W 4 that the width at two ends, the groove outside equals the inboard two ends of slide rail 7c is 150-180mm; Wrist drags 7b arc groove inner bottom part embedding one that the pad of certain rigidity is arranged, and long L5 is 70～150mm, and wide W5 is 20～50mm, and thickness 10～30mm is such as arteries and veins pillow etc.;

Slide rail 7c is that a long L6 is 200～300mm, and the wide W6 in the outside is 200～300mm, and inboard wide W7 is the groove of 150-180mm; Slide rail 7c and elbow drag 7a for being rigidly connected welding or adhesion; Wrist drags between 7b and the slide rail 7c and moves forward and backward by sliding friction, its move left and right of indentation limitations that its underpart is parallel with slide rail 7c.

The comprehensive pulse condition detection device of the present invention can be omnibearing description patient's pulse information, diagnosis disease of patient character and diseased region, the measured area of single-sensor is more little when wherein measuring, and can reflect the dynamic change of pulse more.This device not only can reflect the various pulse parameters that electropulsograph reflected in the past, by whole pulse-arteries and veins body space-time complex chart, whole pulse-arteries and veins gesture space-time complex chart, whole pulse-arteries and veins stream space-time complex chart, can also reflect accurately that the pulse overall dynamics changes, make " position, number, shape, the gesture " of pulse condition obtain on the whole embodying.

Another advantage of the present invention is the elbow forearm associating fixture 7 in this device, testee's forearm and ancon is united fixing, makes it more can effectively resist the interference of foeign elements such as sound, vibration to pulse transducer; The wrist of wrist below drags 7b that fixation is not only arranged simultaneously, and the more approaching actual traditional Chinese medical science of placement of hands when measuring is felt the pulse.

Description of drawings:

Accompanying drawing 1: system block diagram of the present invention

Accompanying drawing 2: elbow forearm associating fixture 7 perspective view of the present invention

Accompanying drawing 3: the front view of elbow forearm associating fixture 7

Accompanying drawing 4: the side view of elbow forearm associating fixture 7

Accompanying drawing 5: the vertical view of elbow forearm associating fixture 7

Sensor groups and single portion pick off scattergram among accompanying drawing 6: the embodiment 1

Accompanying drawing 7: Data Management Analysis Stored Procedure figure

Accompanying drawing 8: during the central point feeling the pulse lightly original arteries and veins figure, i.e. pulse-arteries and veins position trendgram and pressure pulse waveform figure

Accompanying drawing 9: when getting in the central point original arteries and veins figure, i.e. pulse-arteries and veins position trendgram and pressure pulse waveform figure

Accompanying drawing 10: during the central point taking the pulse heavily original arteries and veins figure, i.e. pulse-arteries and veins position trendgram and pressure pulse waveform figure

Accompanying drawing 11: the whole pulse when getting in the GUAN spot-arteries and veins body space-time complex chart

Accompanying drawing 12: the whole pulse when getting in the GUAN spot-arteries and veins gesture space-time complex chart

Accompanying drawing 13: the whole pulse when getting in the GUAN spot-arteries and veins stream space-time complex chart

Accompanying drawing 14: the pulse-arteries and veins position trendgram and the pressure pulse waveform figure of the right hand CUN central point when certain utilizes this electropulsograph taking the pulse heavily slowly

Accompanying drawing 15: the pulse-arteries and veins position trendgram of left hand CUN central point and pressure pulse waveform figure when patients with uterine myoma Lee utilizes this electropulsograph feeling the pulse lightly

Accompanying drawing 16: the pulse-arteries and veins position trendgram of left hand GUAN spot central point and pressure pulse waveform figure when patients with uterine myoma Lee utilizes this electropulsograph feeling the pulse lightly

Accompanying drawing 17: the pulse-arteries and veins position trendgram and the pressure pulse waveform figure of left hand chi portion central point when patients with uterine myoma Lee utilizes this electropulsograph feeling the pulse lightly

Accompanying drawing 18: patients with uterine myoma Lee utilizes the whole pulse-arteries and veins body space-time complex chart of left hand GUAN spot when getting in this electropulsograph

Accompanying drawing 19: patients with uterine myoma Lee utilizes the whole pulse-arteries and veins stream space-time complex chart of left hand GUAN spot when getting in this electropulsograph

The specific embodiment of the invention is as follows:

Embodiment 1:

The various piece that connects apparatus of the present invention in conjunction with the accompanying drawings by cable: 1, data acquisition unit; 2, signal conduction device; 3, Data Management Analysis storage device; 4, finger-impu system; 5, printer; 6, display.Wherein the pick off in the data acquisition unit can be selected the miniature pulse transducer of PVDF that Tsing-Hua University makes for use, or the micro pressure sensor of 1/16 inch of the XCQ-062 of York company series diameter (i.e. 1.6 * 1.6mm ²); Keyboard can be selected the LX-2311 of association for use; Display can be selected the L151S of Digital China for use; Printer can be selected Dell for use ^TMColor jet-ink multi-function printer 942.

3 sensor groups are arranged in the data acquisition unit 1, and each sensor groups is with 13 1 * 1mm ²Miniature pulse transducer integrates, horizontal spacing 0.2mm, and longitudinal pitch 0.3mm equidistantly arranges with 5,3,1 along the axis; Sensor groups moves by base, the top of base joins through column and support, sensor groups is equipped with on the support and base recess corresponding section, sensor groups is relatively independent, top and sidepiece X-axis knob, Y-axis knob, Z axle knob by being contained in support, locking knob regulates its position and change applies power, the base independent stationary; Plus-minus jaconet pad makes testee's forearm and ancon lie on elbow naturally and drags 7a and wrist to drag on the 7b below testee's ancon, regulates clamping plate ancon is fixed.The simultaneously whole sensor groups of adjusting, the perhaps a certain sensor groups of independent control, the touching, pressing and searching with fingers for pulse feeling when realizing getting arteries and veins and floating, in, the variation of getting arteries and veins of taking the pulse heavily and branch.Pulse signal is by signal conduction device 2, and pulse signal is by the distortionless Data Management Analysis storage device 3 that is transmitted to; In Data Management Analysis storage device 3, appoint and get its time dependent pulse-arteries and veins position trendgram of a point-rendering and pressure pulse waveform figure, calculate the rhythm and pace of moving things and the frequency of pulse; With the image data of every arteries and veins synchronization, according to the difference of pick off position, along laterally projecting to respectively on the same view, every portion whole time dependent whole pulse-arteries and veins body space-time complex chart of affectionately fighting is drawn out in smooth connection; Longitudinally project to respectively on the same view, draw out every portion whole time dependent whole pulse-arteries and veins gesture space-time complex chart of affectionately fighting; Project to respectively on the same view along normal direction, and with each point of maximum intensity of beating transversely, smooth connection is represented the size of the power of beating with live width, draws out every portion whole time dependent whole pulse-arteries and veins stream space-time complex chart of affectionately fighting.

Get synchronization on same the arteries and veins in whole pulse-arteries and veins body space-time complex chart, the maximum of each point on the cross section is made the whole time dependent figure of this arteries and veins arbitrarily.That is:

$F(x,z,t)=Z_{{\max }_{\left(t\left(X_i\left(\begin{array}{c}{y}_1\\ \·\\ \·\\ \·\\ y_j\\ \·\\ \·\\ \·\\ y_5\end{array}\right)\right)\right)}}(i,j\∈\mathrm{1,2,3,4,5},t\∈R^{+})$

Wherein t is in the scope more than or equal to a cardiac cycle;

Get synchronization on same the arteries and veins in whole pulse-arteries and veins stream space-time complex chart, the maximum of each point on any cross section, project on the corresponding two-dimensional space position of this point, represent this point measurement value size with the same ratio line thickness, institute's invocation point is seamlessly transitted according to the measured value size, make the whole time dependent figure of this arteries and veins.That is:

$F(x,y,t)=Z_{{\max }_{\left(t\left(X_i\left(\begin{array}{c}{y}_1\\ \·\\ \·\\ \·\\ y_j\\ \·\\ \·\\ \·\\ y_5\end{array}\right)\right)\right)}}(i,j\∈\mathrm{1,2,3,4,5},t\∈R^{+})$

Wherein t is in the scope more than or equal to a cardiac cycle;

Get synchronization on same the arteries and veins in whole pulse-arteries and veins gesture space-time complex chart, the maximum of each point on the longitudinal section is made the whole time dependent figure of this arteries and veins arbitrarily.That is:

$F(y,z,t)=Z_{{\max }_{\left(t\left(y_j\left(\begin{array}{c}{X}_1\\ \·\\ \·\\ \·\\ X_i\\ \·\\ \·\\ \·\\ X_5\end{array}\right)\right)\right)}}(i,j\∈\mathrm{1,2,3,4,5},t\∈R^{+})$

Wherein t is in the scope more than or equal to a cardiac cycle.

Single-point floating, in, original arteries and veins figure during taking the pulse heavily, i.e. pulse-arteries and veins position trendgram and pressure pulse waveform figure.It demonstrates this fluctuation variation in a period of time, gives expression to frequency and the rhythm and pace of moving things and this oscillation amplitude change of pulse.It is the basis of comprehensively describing pulse condition.General electropulsograph all has this function.Central point floating, in, original arteries and veins figure during taking the pulse heavily, promptly pulse-arteries and veins position trendgram and pressure pulse waveform figure see accompanying drawing 8～10.

Whole pulse when getting in the GUAN spot-arteries and veins body space-time complex chart, it reflects arteries and veins length, the arteries and veins body of GUAN spot under same pulse pressure, the variation of arteries and veins power, and the dynamic change situation of arteries and veins length, arteries and veins body, arteries and veins power under this pressure.See accompanying drawing 11.

Whole pulse when getting in the GUAN spot-arteries and veins gesture space-time complex chart, it reflects arteries and veins body, pulsewidth, the arteries and veins stream of GUAN spot under same pulse pressure, the variation of arteries and veins power, and the form and the situation of change of arteries and veins gesture under this pressure.See accompanying drawing 12.

Whole pulse when getting in the GUAN spot-arteries and veins flows the space-time complex chart, represents the wave amplitude of corresponding point with line thickness.It reflects arteries and veins length, the pulsewidth of GUAN spot under same pulse pressure, the dynamic change of arteries and veins power, and the form and the dynamic change situation of arteries and veins stream under this pressure.See accompanying drawing 13.

The pulse of single-point-arteries and veins position trendgram and pressure pulse waveform figure, whole pulse-arteries and veins body space-time complex chart, whole pulse-arteries and veins gesture space-time complex chart, whole pulse-arteries and veins stream space-time complex chart four figure have reflected that the overall dynamics of pulse changes, comprehensively having embodied the sick position and the characteristic of disease of disease, is medical diagnosis on disease and from the dialectical basis of arteries and veins.

Embodiment 2:

Xu's certain (health), the original arteries and veins figure of right hand CUN central point, i.e. pulse-arteries and veins position trendgram and pressure pulse waveform figure during electropulsograph taking the pulse heavily by embodiment 1.See accompanying drawing 14.

Embodiment 3:

Patients with uterine myoma Lee, the original arteries and veins figure of electropulsograph feeling the pulse lightly left hand CUN, GUAN spot and chi portion by embodiment 1, the pulse-arteries and veins position trendgram and the pressure pulse waveform figure of three arteries and veins.See accompanying drawing 15～17.Whole pulse when getting in the left hand GUAN spot by unitary analysis is got-arteries and veins body space-time complex chart is seen accompanying drawing 18; Reach the whole pulse-arteries and veins stream space-time complex chart when getting in the left hand GUAN spot, see accompanying drawing 19.

Claims (11)

1, a kind of pulse condition detection device, this device is by data acquisition unit (1), signal conduction device (2), Data Management Analysis storage device (3), finger-impu system (4), printer (5), display (6) is formed, wherein data acquisition unit (1) is connected with signal conduction device (2) by data cable, signal conduction device (2) is by analog switch, signal amplification circuit, filter circuit and A/D change-over circuit are connected with Data Management Analysis storage device (3) after being connected successively earlier again, finger-impu system (4) is connected with Data Management Analysis storage device (3) by data cable, and display (6) is connected with Data Management Analysis storage device (3) by data cable respectively with printer (5); Data acquisition unit (1) in this device is made up of 3 sensor groups (1a, 1b, 1c), and each sensor groups is integrated by the miniature pulse transducer (1d) of array; It is characterized in that adding in this device elbow forearm associating fixture (7), elbow forearm associating fixture (7) drags (7a), wrist to drag (7b) and slide rail (7c) to form by elbow; Wherein elbow drags (7a) to be the arc groove of " L " shape, is fixed on slide rail (7c) end; Wrist drags (7b) to be the arc groove of level, is installed on slide rail (7c) other end, moves freely.

2, pulse condition detection device as claimed in claim 1 is characterized in that the length of each sensor groups in this device (1a, 1b, 1c) is 5～10mm, width 4～8mm, height 5～15mm; And each sensor groups is relatively independent, moves freely; Each sensor groups integrates the contact surface level of each pick off and skin by the independent separately miniature pulse transducer (1d) that can not relatively move of array; The measured area of single-sensor is (0.5～2) * (0.5～2) mm ²

3, pulse condition detection device as claimed in claim 2 is characterized in that the length 7mm of each sensor groups in this device (1a, 1b, 1c), width 6mm; The measured area of miniature pulse transducer (1d) is 0.5 * 0.5mm ², 0.8 * 0.8mm ², 1 * 1mm ², 1.5 * 1.5mm ²Or 1.6 * 1.6mm ², in each sensor groups, the spacing 0～0.5mm of miniature pulse transducer (1d) equidistant arrangement longitudinally is 0～0.3mm along the spacing of laterally equidistantly arranging.

4, as claim 2 or 3 described pulse condition detection devices, the number that it is characterized in that placement microsensor in each sensor groups is 9-320.

5, as pulse condition detection device as described in the claim 1,2 or 3, it is characterized in that Data Management Analysis storage device (3) is the PC that the Data Management Analysis storage control program has been installed; Wherein after Data Management Analysis storage device (3) is received the signal acquisition instructions, the data message that collects is encoded: according to exerting pressure and getting the different of arteries and veins position, carry out the signal numbering separately according to the two-dimensional space position at miniature pulse transducer place and the power that applies, detect 50 above cardiac cycles, obtain the slow number of pulse frequency and the ligament of arteries and veins rule; After signal behind the coding is accepted program through storage and signal, draw out t more than or equal to the arteries and veins figure in the cardiac cycle scope; Arteries and veins figure comprises that the arteries and veins figure of central point analysis is or/and the arteries and veins figure of unitary analysis; The arteries and veins figure of unitary analysis comprises that whole pulse-arteries and veins body space-time complex chart, whole pulse-arteries and veins gesture space-time complex chart are or/and whole pulse-arteries and veins stream space-time complex chart.

6, as pulse condition detection device as described in the claim 4, it is characterized in that Data Management Analysis storage device (3) is the PC that the Data Management Analysis storage control program has been installed; Wherein after Data Management Analysis storage device (3) is received the signal acquisition instructions, the data message that collects is encoded: according to exerting pressure and getting the different of arteries and veins position, carry out the signal numbering separately according to the two-dimensional space position at miniature pulse transducer place and the power that applies, detect 50 above cardiac cycles, obtain the slow number of pulse frequency and the ligament of arteries and veins rule; After signal behind the coding is accepted program through storage and signal, draw out t more than or equal to the arteries and veins figure in the cardiac cycle scope; Arteries and veins figure comprises that the arteries and veins figure of central point analysis is or/and the arteries and veins figure of unitary analysis; The arteries and veins figure of unitary analysis comprises that whole pulse-arteries and veins body space-time complex chart, whole pulse-arteries and veins gesture space-time complex chart are or/and whole pulse-arteries and veins stream space-time complex chart.

7, as claim 1,2,3 or 6 described pulse condition detection devices, horizontal part L1 is 200～300mm to it is characterized in that wherein elbow drags (7a), wide W1 is 100～200mm, high h1 is 25～40mm, the internal recess radius is 70～150mm, the high h2 of groove is 20～30mm, and groove is-3 °～-10 ° inclination angles in horizontal plane; The long L2 of the groove of vertical portion is 100～200mm, and wide W2 is 50～100mm, and high h3 is 100～200mm, and the groove radius is 70～150mm, and the high h4 of groove is 20～30mm, is 35 °～90 ° inclination angles in horizontal plane; It is 10～15mm that there is long L3 the both sides in centre position, horizontal part postmedian position, wide W3 is 5～10mm, the strap of thick 5～20mm, clamping plate one side has threaded rod and female nut to link together, the nut head has a spill annular groove, be embedded with pad, in the horizontal part outside, make nut rotate and to move up and down and can not move forward and backward spacers;

It is 200～300mm that wrist drags (7b) long L4, wide W4 is 100～200mm, high h5 is 25-40mm, the groove radius is 70～150mm, it is 20～30mm that the high h6 of groove equals h2, wrist drags (7b) bottom that one groove is arranged, and the width W 4 that the width at two ends, the groove outside equals the inboard two ends of slide rail (7c) is 150-180mm; Wrist drags (7b) arc groove inner bottom part embedding one that the pad of certain rigidity is arranged, and long L5 is 70～150mm, and wide W5 is 20～50mm, thickness 10～30mm;

Slide rail (7c) is that a long L6 is 200～300mm, and the wide W6 in the outside is 200～300mm, and inboard wide W7 is the groove of 150-180mm; Slide rail (7c) drags (7a) for being rigidly connected welding or adhesion with elbow; Wrist drags between (7b) and the slide rail (7c) and moves forward and backward by sliding friction, its move left and right of indentation limitations that its underpart is parallel with slide rail (7c).

8, pulse condition detection device as claimed in claim 4, horizontal part L1 is 200～300mm to it is characterized in that wherein elbow drags (7a), wide W1 is 100～200mm, high h1 is 25～40mm, the internal recess radius is 70～150mm, the high h2 of groove is 20～30mm, and groove is-3 °～-10 ° inclination angles in horizontal plane; The long L2 of the groove of vertical portion is 100～200mm, and wide W2 is 50～100mm, and high h3 is 100～200mm, and the groove radius is 70～150mm, and the high h4 of groove is 20～30mm, is 35 °～90 ° inclination angles in horizontal plane; It is 10～15mm that there is long L3 the both sides in centre position, horizontal part postmedian position, wide W3 is 5～10mm, the strap of thick 5～20mm, clamping plate one side has threaded rod and female nut to link together, the nut head has a spill annular groove, be embedded with pad, in the horizontal part outside, make nut rotate and to move up and down and can not move forward and backward spacers;

It is 200～300mm that wrist drags (7b) long L4, wide W4 is 100～200mm, high h5 is 25-40mm, the groove radius is 70～150mm, it is 20～30mm that the high h6 of groove equals h2, wrist drags (7b) bottom that one groove is arranged, and the width W 4 that the width at two ends, the groove outside equals the inboard two ends of slide rail (7c) is 150～180mm; Wrist drags (7b) arc groove inner bottom part embedding one that the pad of certain rigidity is arranged, and long L5 is 70～150mm, and wide W5 is 20～50mm, thickness 10～30mm;

Slide rail (7c) is that a long L6 is 200～300mm, and the wide W6 in the outside is 200～300mm, and inboard wide W7 is the groove of 150-180mm; Slide rail (7c) drags (7a) for being rigidly connected welding or adhesion with elbow; Wrist drags between (7b) and the slide rail (7c) and moves forward and backward by sliding friction, its move left and right of indentation limitations that its underpart is parallel with slide rail (7c).

9, pulse condition detection device as claimed in claim 5, horizontal part L1 is 200～300mm to it is characterized in that wherein elbow drags (7a), wide W1 is 100～200mm, high h1 is 25～40mm, the internal recess radius is 70～150mm, the high h2 of groove is 20～30mm, and groove is-3 °～-10 ° inclination angles in horizontal plane; The long L2 of the groove of vertical portion is 100～200mm, and wide W2 is 50～100mm, and high h3 is 100～200mm, and the groove radius is 70～150mm, and the high h4 of groove is 20～30mm, is 35 °～90 ° inclination angles in horizontal plane; It is 10～15mm that there is long L3 the both sides in centre position, horizontal part postmedian position, wide W3 is 5～10mm, the strap of thick 5～20mm, clamping plate one side has threaded rod and female nut to link together, the nut head has a spill annular groove, be embedded with pad, in the horizontal part outside, make nut rotate and to move up and down and can not move forward and backward spacers;

It is 200～300mm that wrist drags (7b) long L4, wide W4 is 100～200mm, high h5 is 25-40mm, the groove radius is 70～150mm, it is 20～30mm that the high h6 of groove equals h2, wrist drags (7b) bottom that one groove is arranged, and the width W 4 that the width at two ends, the groove outside equals the inboard two ends of slide rail (7c) is 150-180mm; Wrist drags (7b) arc groove inner bottom part embedding one that the pad of certain rigidity is arranged, and long L5 is 70～150mm, and wide W5 is 20～50mm, thickness 10～30mm;

Slide rail (7c) is that a long L6 is 200～300mm, and the wide W6 in the outside is 200～300mm, and inboard wide W7 is the groove of 150～180mm; Slide rail (7c) drags (7a) for being rigidly connected welding or adhesion with elbow; Wrist drags between (7b) and the slide rail (7c) and moves forward and backward by sliding friction, its move left and right of indentation limitations that its underpart is parallel with slide rail (7c).

10, pulse condition detection device as claimed in claim 7, horizontal part L1 is 200～300mm to it is characterized in that wherein elbow drags (7a), wide W1 is 100～200mm, high h1 is 25～40mm, the internal recess radius is 70～150mm, and the high h2 of groove is 20～30mm, and groove is-5 ° of inclination angles in horizontal plane; The long L2 of the groove of vertical portion is 100～200mm, and wide W2 is 50～100mm, and high h3 is 100～200mm, and the groove radius is 70～150mm, and the high h4 of groove is 20～30mm, is 45 ° of inclination angles in horizontal plane; It is 10～15mm that there is long L3 the both sides in centre position, horizontal part postmedian position, wide W3 is 5～10mm, the strap of thick 5～20mm, clamping plate one side has threaded rod and female nut to link together, the nut head has a spill annular groove, be embedded with pad, in the horizontal part outside, make nut rotate and to move up and down and can not move forward and backward spacers;

It is 200～300mm that wrist drags (7b) long L4, wide W4 is 100～200mm, high h5 is 25～40mm, the groove radius is 70～150mm, it is 20～30mm that the high h6 of groove equals h2, wrist drags (7b) bottom that one groove is arranged, and the width W 4 that the width at two ends, the groove outside equals the inboard two ends of slide rail (7c) is 150-180mm; Wrist drags (7b) arc groove inner bottom part embedding one that the arteries and veins pillow is arranged;

Slide rail (7c) is that a long L6 is 200～300mm, and the wide W6 in the outside is 200～300mm, and inboard wide W7 is the groove of 150-180mm; Slide rail (7c) drags (7a) for being rigidly connected welding or adhesion with elbow; Wrist drags between (7b) and the slide rail (7c) and moves forward and backward by sliding friction, its move left and right of indentation limitations that its underpart is parallel with slide rail (7c).

11, pulse condition detection device as claimed in claim 8 or 9, horizontal part L1 is 200～300mm to it is characterized in that wherein elbow drags (7a), wide W1 is 100～200mm, high h1 is 25～40mm, and the internal recess radius is 70～150mm, and the high h2 of groove is 20～30mm, groove is-5 ° of inclination angles in horizontal plane; The long L2 of the groove of vertical portion is 100～200mm, and wide W2 is 50～100mm, and high h3 is 100～200mm, and the groove radius is 70～150mm, and the high h4 of groove is 20～30mm, is 45 ° of inclination angles in horizontal plane; It is 10～15mm that there is long L3 the both sides in centre position, horizontal part postmedian position, wide W3 is 5～10mm, the strap of thick 5～20mm, clamping plate one side has threaded rod and female nut to link together, the nut head has a spill annular groove, be embedded with pad, in the horizontal part outside, make nut rotate and to move up and down and can not move forward and backward spacers;

It is 200～300mm that wrist drags (7b) long L4, wide W4 is 100～200mm, high h5 is 25-40mm, the groove radius is 70～150mm, it is 20～30mm that the high h6 of groove equals h2, wrist drags (7b) bottom that one groove is arranged, and the width W 4 that the width at two ends, the groove outside equals the inboard two ends of slide rail (7c) is 150-180mm; Wrist drags (7b) arc groove inner bottom part embedding one that the arteries and veins pillow is arranged;

Slide rail (7c) is that a long L6 is 200～300mm, and the wide W6 in the outside is 200～300mm, and inboard wide W7 is the groove of 150-180mm; Slide rail (7c) drags (7a) for being rigidly connected welding or adhesion with elbow; Wrist drags between (7b) and the slide rail (7c) and moves forward and backward by sliding friction, its move left and right of indentation limitations that its underpart is parallel with slide rail (7c).

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