CN205338928U - Traditional chinese medical science pulse detection device - Google Patents

Traditional chinese medical science pulse detection device Download PDF

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Publication number
CN205338928U
CN205338928U CN201620030237.9U CN201620030237U CN205338928U CN 205338928 U CN205338928 U CN 205338928U CN 201620030237 U CN201620030237 U CN 201620030237U CN 205338928 U CN205338928 U CN 205338928U
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China
Prior art keywords
pulse
adjusting slider
direction adjusting
axis
traditional chinese
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Expired - Fee Related
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CN201620030237.9U
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Chinese (zh)
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王亨飞
王莉
刘生发
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Individual
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Abstract

The utility model discloses a traditional chinese medical science pulse detection device relates to medical care technical field, include the support of constituteing by base and vertical pole setting, the adjust the slider and the pressure adjust knob of space coordinate system X axle, Y axle, the three direction of Z axle, elasticity beam arm and pulse image detection mechanism, pulse image detection mechanism includes image sensor, probe, the probe includes printing opacity glass piece, curb plate and silica gel film and the seal chamber who encloses, be equipped with the inlet port on the curb plate, the inlet port is connected with aerating device. The utility model discloses being applied to traditional chinese medical science pulse with image sensor and detecting, the pulse signal that solution pressure sensor acquireed is difficult to reflect the problem of pulse manifestation information comprehensively to provide the adjusting device of space coordinate system X axle, Y axle, the three direction of Z axle, radial artery that more can accurate alignment testee, the CMOS camera combines to amplify the lens, and the cost is cheaper, and it is better that the effect is measured to the microspur.

Description

A kind of traditional Chinese medical science pulse detecting device
Technical field
This utility model relates to medical treatment and nursing technical field, especially a kind of traditional Chinese medical science pulse detecting device.
Background technology
So-called pulse-taking is that doctor's finger is cut by the radial artery position of patient, the pulse condition of feel pulse is visited with finger, plus some clinical experiences that feeling the pulse is understood for a long time, judge patient's state of an illness, judge the method for feeling the pulse of disease, pulse-taking is the clinical experience that checking is hoped, hears, asked, clinic obtains, and comprehensively analyzes, thus drawing the objective indicator of diagnosis complete, correct.In theory of Chinese medical science, pulse-taking carrys out identification pulse condition with doctors experience and finger subjective sensation entirely, it does not have a regulation objectified, and this grasps not only for abecedarian's difficulty or ease and understands, even if between the Chinese physician that clinical experience is abundant, sometimes also having different differentiations for same pulse condition.Traditional Chinese Medicine causes without the deed that objectifies cannot set up the unified difficulty judging pulse condition, and these factors cause the accuracy that pulse condition concept is general, fuzzy, pulse-taking is grasped, affected to difficulty or ease, the application of restriction pulse-taking and development.
Development and application along with science and technology, and the subject such as biology, mathematics, biophysics, computer science and technology develops to the infiltration in traditional Chinese medical science field, the carrying out that the research of objectification of pulse examination is like a raging fire, wherein pulse-taking instrument mainly replaces Chinese physician in the past and obtains pulse condition information with finger and be converted into and obtain pulse condition information with sensor, be currently used for detection pulse signal more common be pressure transducer.But pulse stirs the information not only sending pressure pulsation, also have the various information such as three-dimensional motion form of the volume of official jargon, the speed of blood flow and vascular, the formation of pulse signal is extremely complex, utilizes the pulse signal that pressure transducer obtains to be difficult to reflect pulse condition information comprehensively.
Utility model content
For the problems referred to above, this utility model provides a kind of traditional Chinese medical science pulse detecting device based on image sensing.
In order to solve above-mentioned technical problem, the technical solution of the utility model is:
A kind of traditional Chinese medical science pulse detecting device, including the support being made up of base and vertical vertical rod, space coordinates X-axis, Y-axis, the adjusting slider in three directions of Z axis and pressure adjustment knob thereof, elastic beam arm and pulse image detection mechanism, described elastic beam arm is provided with groove, and described pulse image detection mechanism is mounted on described elastic beam arm by described groove;Described pulse image detection mechanism includes imageing sensor, probe, described probe includes transparent glass sheet, side plate and silica gel thin film and the sealing cavity surrounded thereof, described side plate is provided with air inlet, described air inlet is connected with aerating device, light source, described imageing sensor and the close contact of transparent glass sheet is set in described annular seal space body;Z-direction adjusting slider and Y direction adjusting slider are sequentially sleeved in described vertical vertical rod, it is equipped with screwed hole, Z axis adjusting knob, Y-axis adjusting knob screw in Z-direction adjusting slider and Y direction adjusting slider respectively through corresponding screwed hole, described Y direction adjusting slider connects X-direction adjusting slider, described X-direction adjusting slider is provided with groove, described elastic beam arm inserts in described groove, is fixed by X-axis adjusting knob.
Further, this utility model includes the Z axis vernier knob going deep into Y direction adjusting slider, which is provided with teeth, the side end face that described X-direction adjusting slider is connected side with described Y direction adjusting slider is provided with the tooth bar that the teeth with described Z axis vernier knob match.
Further, described imageing sensor is made up of CMOS camera and enlarging lens.
Further, described aerating device includes breather line, extruding gasbag, and described breather line is provided with pressure buffer chamber, described pressure buffer chamber Bonding pressure table, and described breather line connects described air inlet.
This utility model by image sensor application in traditional Chinese medical science pulse detection, solve the problem that the pulse signal of pressure transducer acquisition is difficult to reflect pulse condition information comprehensively, and the adjustment device in space coordinates X-axis, Y-axis, three directions of Z axis is provided, more can be accurately aimed at the radial artery of testee;CMOS camera is in conjunction with enlarging lens, and cost is cheaper, and microspur measurement effect is more preferably.
Accompanying drawing explanation
Fig. 1 is the structural representation of traditional Chinese medical science pulse detecting device;
101-imageing sensor, 1011-CMOS photographic head, 1012-enlarging lens;
103-pops one's head in, and 1031-transparent glass sheet, 1032-side plate, 1033-silica gel thin film, 1034-air inlet, 1035-light source, 1036-seals cavity;
104-pulse visual information processor;
201-elasticity beam arm, 2011-groove, 2012-tooth bar;
202-X axle adjusting knob;203-X direction of principal axis adjusting slider;204-Z direction of principal axis adjusting slider;205-Y direction of principal axis adjusting slider;206-Z axle vernier knob 206;207-Z axle adjusting knob;208-Y axle adjusting knob;
301-base;The vertical vertical rod of 302-.
Fig. 2 is the structural representation of aerating device;
102-aerating device, 1021-breather line, 1022-extruding gasbag, 1023-pressure buffer chamber, 1024-Pressure gauge.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, this utility model is described in further detail.Obviously, described embodiment is only a part of embodiment of the present utility model, rather than whole embodiments.The every other embodiment obtained under the premise not making creative work based on the embodiment in this utility model, this area and those of ordinary skill in the related art, all should belong to the scope of this utility model protection.
Embodiment
A kind of traditional Chinese medical science pulse detecting device, as shown in Figure 1, including the support being made up of base 301 and vertical vertical rod 302, space coordinates X-axis, Y-axis, the adjusting slider in three directions of Z axis and pressure adjustment knob thereof, elastic beam arm 201 and pulse image detection mechanism, described elastic beam arm 201 is provided with groove 2011, and described pulse image detection mechanism is mounted on described elastic beam arm 201 by described groove 2011;Described pulse image detection mechanism includes imageing sensor 101, probe 103, described probe 103 includes transparent glass sheet 1031, side plate 1032 and silica gel thin film 1033 and the sealing cavity 1036 surrounded thereof, described side plate 1032 is provided with air inlet 1034, described air inlet 1034 is connected with aerating device 102, setting light source 1035 in described sealing cavity 1036, described imageing sensor 101 is in close contact with transparent glass sheet 1031;Z-direction adjusting slider 204 and Y direction adjusting slider 205 are sequentially sleeved in described vertical vertical rod 302, it is equipped with screwed hole, Z axis adjusting knob 207, Y-axis adjusting knob 208 screw in Z-direction adjusting slider 204 and Y direction adjusting slider 205 respectively through corresponding screwed hole, described Y direction adjusting slider 205 connects X-direction adjusting slider 203, described X-direction adjusting slider 203 is provided with groove 2031, described elastic beam arm 201 inserts in described groove 2031, is fixed by X-axis adjusting knob 202.
Described aerating device 102 includes breather line 1021, extruding gasbag 1022, described breather line 1021 is provided with pressure buffer chamber 1023, described pressure buffer chamber 1023 Bonding pressure table 1024, as in figure 2 it is shown, described breather line 1021 connects described air inlet 1034.The setting of pressure buffer chamber 1023 and Pressure gauge 1024, is conveniently controlled the blowing pressure, improves safety.
Set light source 1035 in sealing cavity 1036 and can select LED light emitting diode, 5V regulated power supply power, adjust the electric current by LED light emitting diode, it is also possible to control its luminosity so that it is adapt to different environment.Described imageing sensor 101 is in close contact with transparent glass sheet 1031, it is possible to avoid the interference of external light source as far as possible.
Gather pulse beat dynamic image time, first pass through extruding gasbag 1022 and regulate the pressure sealed in cavity 1036, pressure size is indicated by Pressure gauge 1024 so that silica gel thin film 1033 outward expansion is close to pressure in referring to, the pressure in usual annular seal space is 120KPa;Subsequently arm is placed horizontally on base, adjusts probe positions so that it is alignment testee's radial artery.Unclamp X-axis adjusting knob 202, adjust elastic beam arm 201 and insert the degree of depth of groove 2031, it is possible to complete the coarse adjustment popped one's head in the X-axis direction;Unclamp Y-axis adjusting knob 208, rotate Y direction adjusting slider 205 along vertical vertical rod 302, it is possible in X-Y plane, the position of probe is adjusted;Unclamp Z axis adjusting knob 207, move up and down Z-direction adjusting slider 204, it is possible to complete the coarse adjustment popped one's head in the Z-axis direction.Described pulse image detection mechanism connects pulse visual information processor 104, and the pulse collected dynamic image of beating transfers to it to be analyzed processing, and concrete analysis processes the content that not this utility model relates to.
In order to further enhance the precision that probe adjusts, this utility model is provided with the Z axis vernier knob 206 going deep into Y direction adjusting slider 205, which is provided with teeth, the side end face that described X-direction adjusting slider 203 is connected side with described Y direction adjusting slider 205 is provided with the tooth bar 2012 that the teeth with described Z axis vernier knob 206 match.By rotational Z-axis vernier knob 206, under the effect of teeth and tooth bar 2012, it is possible to probe is finely tuned up and down.
Described imageing sensor 101 enlarging lens 1012 with CMOS camera 1011 forms so that it is more preferably, wherein enlarging lens can select 3-5 times according to practical situation to microspur measurement effect.

Claims (4)

1. a traditional Chinese medical science pulse detecting device, it is characterized in that: include the support being made up of base (301) and vertical vertical rod (302), space coordinates X-axis, Y-axis, the adjusting slider in three directions of Z axis and pressure adjustment knob thereof, elastic beam arm (201) and pulse image detection mechanism, described elastic beam arm (201) is provided with groove (2011), and described pulse image detection mechanism is mounted on described elastic beam arm (201) by described groove (2011);Described pulse image detection mechanism includes imageing sensor (101), probe (103), described probe (103) includes transparent glass sheet (1031), side plate (1032) and silica gel thin film (1033) and the sealing cavity (1036) surrounded thereof, described side plate (1032) is provided with air inlet (1034), described air inlet (1034) is connected with aerating device (102), light source (1035), described imageing sensor (101) and transparent glass sheet (1031) close contact is set in described sealing cavity (1036);Z-direction adjusting slider (204) and Y direction adjusting slider (205) are sequentially sleeved on described vertical vertical rod (302), it is equipped with screwed hole, Z axis adjusting knob (207), Y-axis adjusting knob (208) screws in Z-direction adjusting slider (204) and Y direction adjusting slider (205) respectively through corresponding screwed hole, described Y direction adjusting slider (205) connects X-direction adjusting slider (203), described X-direction adjusting slider (203) is provided with groove (2031), described elastic beam arm (201) inserts in described groove (2031), it is fixed by X-axis adjusting knob (202).
2. traditional Chinese medical science pulse detecting device according to claim 1, it is characterized in that: also include going deep into the Z axis vernier knob (206) of Y direction adjusting slider (205), which is provided with teeth, the side end face that described X-direction adjusting slider (203) is connected side with described Y direction adjusting slider (205) is provided with the tooth bar (2012) that the teeth with described Z axis vernier knob (206) match.
3. traditional Chinese medical science pulse detecting device according to claim 1 and 2, it is characterised in that: described imageing sensor (101) is made up of CMOS camera (1011) and enlarging lens (1012).
4. traditional Chinese medical science pulse detecting device according to claim 1, it is characterized in that: described aerating device (102) includes breather line (1021), extruding gasbag (1022), described breather line (1021) is provided with pressure buffer chamber (1023), described pressure buffer chamber (1023) Bonding pressure table (1024), described breather line (1021) connects described air inlet (1034).
CN201620030237.9U 2016-01-13 2016-01-13 Traditional chinese medical science pulse detection device Expired - Fee Related CN205338928U (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109770865A (en) * 2017-11-14 2019-05-21 北京帕斯泰克科技有限公司 A kind of pulses measure diagnostic device
CN109875602A (en) * 2019-01-28 2019-06-14 高密市人民医院 A kind of auxiliary device for ultrasound diagnosis
CN111436915A (en) * 2019-10-01 2020-07-24 友达光电股份有限公司 Pulse measuring device
CN111938698A (en) * 2020-08-18 2020-11-17 苏州市立医院 B-ultrasonic examination device convenient to operate and use method thereof

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109770865A (en) * 2017-11-14 2019-05-21 北京帕斯泰克科技有限公司 A kind of pulses measure diagnostic device
CN109875602A (en) * 2019-01-28 2019-06-14 高密市人民医院 A kind of auxiliary device for ultrasound diagnosis
CN111436915A (en) * 2019-10-01 2020-07-24 友达光电股份有限公司 Pulse measuring device
CN111938698A (en) * 2020-08-18 2020-11-17 苏州市立医院 B-ultrasonic examination device convenient to operate and use method thereof

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160629

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CF01 Termination of patent right due to non-payment of annual fee