CN105832310B - A kind of electropulsograph - Google Patents
A kind of electropulsograph Download PDFInfo
- Publication number
- CN105832310B CN105832310B CN201610383422.0A CN201610383422A CN105832310B CN 105832310 B CN105832310 B CN 105832310B CN 201610383422 A CN201610383422 A CN 201610383422A CN 105832310 B CN105832310 B CN 105832310B
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- China
- Prior art keywords
- slide
- sliding block
- sensor
- rolling shaft
- curtain rolling
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/0059—Measuring for diagnostic purposes; Identification of persons using light, e.g. diagnosis by transillumination, diascopy, fluorescence
- A61B5/0082—Measuring for diagnostic purposes; Identification of persons using light, e.g. diagnosis by transillumination, diascopy, fluorescence adapted for particular medical purposes
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/48—Other medical applications
- A61B5/4854—Diagnosis based on concepts of traditional oriental medicine
Abstract
A kind of electropulsograph, including:Pedestal;First curtain rolling shaft, the second curtain rolling shaft, the 3rd curtain rolling shaft and Volume Four curtain axis, wherein described first volume curtain axis is separately positioned on the both sides of the pedestal with the 3rd curtain rolling shaft in parallel to each other, and second curtain rolling shaft is separately positioned on the other both sides of the pedestal with the Volume Four curtain axis in parallel to each other;First roller shutter and the second roller shutter, one end of first roller shutter are rolled up on first curtain rolling shaft, and the other end of first roller shutter is rolled up on the 3rd curtain rolling shaft;Stent, the stent pass through first perforate and the second perforate, are arranged on above the pedestal, and the stent can move freely on the pedestal;Sensor displacement mechanism, is set on the bracket, and the sensor displacement mechanism can be on the bracket along the third direction reciprocating motion perpendicular to the pedestal;Sensor, positioned at the bottom of the sensor displacement mechanism;And laser beam emitting device, positioned at the bottom of the sensor displacement mechanism.
Description
Technical field
The present invention relates to a kind of electropulsograph.
Background technology
Electropulsograph currently on the market is to carry out positioning measurement pulse condition by manually holding sensor.Such mode meeting
Appear in actual measurement, due to operating personnel in operation is formed by caused by unstable to the measured cun, close,
The positioning at ruler acupuncture point is not allowed.
The content of the invention
An embodiment provides a kind of electropulsograph, including:Pedestal;First curtain rolling shaft, the second curtain rolling shaft,
Three curtain rolling shafts and Volume Four curtain axis, wherein the first volume curtain axis is separately positioned on institute in parallel to each other with the 3rd curtain rolling shaft
The both sides of pedestal are stated, in addition second curtain rolling shaft is separately positioned on the pedestal in parallel to each other with the Volume Four curtain axis
Both sides;First roller shutter and the second roller shutter, one end of first roller shutter are rolled up on first curtain rolling shaft, first roller shutter
The other end is rolled up on the 3rd curtain rolling shaft, and first roller shutter is equipped with the first perforate, one end volume of second roller shutter
On second curtain rolling shaft, the other end of second roller shutter is rolled up on the Volume Four curtain axis, and on second roller shutter
Equipped with the second perforate, first roller shutter can be reciprocal along a first direction between first curtain rolling shaft and the 3rd curtain rolling shaft
Movement, second roller shutter can be between second curtain rolling shaft and four curtain rolling shaft along perpendicular to the first direction
Second direction move back and forth;Stent, the stent pass through first perforate and the second perforate, are arranged on the pedestal
Side, the stent can move freely on the pedestal;Sensor displacement mechanism, is set on the bracket, the sensing
Device mobile device can be on the bracket along the third direction reciprocating motion perpendicular to the pedestal;Sensor, positioned at institute
State the bottom of sensor displacement mechanism;And laser beam emitting device, positioned at the bottom of the sensor displacement mechanism.
Above-mentioned electropulsograph, further includes:At least one first slide, is arranged on the pedestal, and positioned at described first
Curtain rolling shaft and the 3rd curtain rolling shaft inner side, at least one first slide is parallel to first curtain rolling shaft;Second slide,
It is arranged at least one first slide, and second slide can be at least one first slide along institute
State second direction reciprocating motion;First sliding block, is arranged on second slide, and first sliding block can be slided described second
Moved back and forth on rail along the first direction, and first sliding block together with second slide described at least one the
Moved back and forth on one slide along the second direction;The stent is fixed on first sliding block, the stent and described the
One sliding block moves back and forth on second slide along the first direction together, and the stent and first sliding block and
Second slide moves back and forth at least one first slide along the second direction together.
Above-mentioned electropulsograph, further includes:Second sliding block, is arranged on second slide, and second sliding block can be
On second slide along the first direction move back and forth, and second sliding block together with second slide described
Moved back and forth at least one first slide along the second direction;The laser beam emitting device and the sensor are fixed on
On the sensor displacement mechanism, the sensor displacement mechanism, is fixed on the bracket, the stent is fixed on the first cunning
On block, the laser beam emitting device, the sensor are together with first sliding block along first party on second slide
To reciprocating motion, and the laser emission point of the laser beam emitting device is straight where with the line of the sensing points of the sensor
Line is along the first direction.
Above-mentioned electropulsograph, first sliding block include:Positioner, for first sliding block to be limited in the card
Moved back and forth between position device and second sliding block along the first direction;First sliding block the positioner with
Maximum displacement between second sliding block is equal to the distance between the laser emitter and the sensor.
Above-mentioned electropulsograph, further includes the first fixing device, for second slide to be fixed on the pedestal.
Above-mentioned electropulsograph, further includes the second fixing device, for first sliding block to be fixed on second slide
On.
Above-mentioned electropulsograph, first fixing device are electromagnet, and the electromagnet is located at below second slide,
And the electromagnet is fastened on the pedestal.
Above-mentioned electropulsograph, further includes:Display, is arranged on the pedestal, for showing that the sensor is detected
The pulse signal arrived.
Above-mentioned electropulsograph, further includes communication module, is arranged on the pedestal, for by detected by the sensor
Pulse signal send to server end and/or client.
Above-mentioned electropulsograph, the stent further include motor, and the motor is connected with the sensor displacement mechanism, described
Motor controls the sensor displacement mechanism to be moved back and forth on the bracket along third direction.
Above-mentioned electropulsograph, can be by way of machinery be transposed, the mistake at the cun,guan,chi acupuncture point for finding the measured
In journey and in last measurement, it can keep stablizing flexible mobile;Laser locator is carried on above-mentioned electropulsograph at the same time, because
And it can accurately determine the position where tested acupuncture point;Hence in so that from navigate to measurement during there is no the change of displacement
Change so that measurement result is more accurate.Additionally, due to the structure of roller shutter and curtain rolling shaft in above-mentioned electropulsograph, form one and be covered in
Protection cap on all curtain rolling shafts, improves security performance.
Brief description of the drawings
Fig. 1 is the schematic diagram according to the electropulsograph in one embodiment of the invention;
Fig. 2 is the schematic diagram according to the electropulsograph in one embodiment of the invention;
Fig. 3 is the schematic diagram according to the electropulsograph in one embodiment of the invention;
Fig. 4 is the schematic diagram according to the electropulsograph in one embodiment of the invention.
Wherein, reference numeral:
1:Pedestal
2:First curtain rolling shaft
3:Second curtain rolling shaft
4:3rd curtain rolling shaft
5:Volume Four curtain axis
6:First roller shutter
61:First perforate
7:Second roller shutter
71:Second perforate
8:Stent
9:Sensor displacement mechanism
10:Sensor
11:Laser beam emitting device
12:First slide
13:Second slide
14:First sliding block
141:Positioner
15:Second sliding block
Embodiment
Fig. 1-Fig. 4 is the schematic diagram according to the electropulsograph in one embodiment of the invention.Please refer to Fig.1-Fig. 4, the present embodiment
Middle electropulsograph includes:Pedestal 1, the first curtain rolling shaft 2, the second curtain rolling shaft 3, the 3rd curtain rolling shaft 4, Volume Four curtain axis 5, the first roller shutter 6,
Second roller shutter 7, stent 8, sensor displacement mechanism 9, sensor 10, laser beam emitting device 11.Wherein the first curtain rolling shaft 2 and the 3rd
Curtain rolling shaft 4 is separately positioned on the both sides of pedestal 1 in parallel to each other, and the second curtain rolling shaft 3 is distinguished in parallel to each other with Volume Four curtain axis 5
It is arranged on the other both sides of pedestal 1.One end of first roller shutter 6 is rolled up on the first curtain rolling shaft 2, and the other end volume of the first roller shutter 6 exists
On 3rd curtain rolling shaft 4, and the first roller shutter 6 is equipped with the first perforate 61, and one end of the second roller shutter 7 is rolled up on the second curtain rolling shaft 3, the
The other end of two roller shutters 7 is rolled up on Volume Four curtain axis 5, and the second roller shutter 7 is equipped with the second perforate 71.First roller shutter 6 can be
Moved back and forth along a first direction between first curtain rolling shaft 2 and the 3rd curtain rolling shaft 4, the second roller shutter 7 can the second curtain rolling shaft 3 with
Along the second direction reciprocating motion perpendicular to first direction between four curtain rolling shafts 5.Stent 8 is opened through the first perforate 61 and second
Hole 71, is arranged on pedestal 1.Stent 8 can move freely on pedestal 1.Sensor displacement mechanism 9 is arranged on stent 8, and
Sensor displacement mechanism 9 can be on stent 8 along the third direction reciprocating motion perpendicular to pedestal 1.Sensor 10 is positioned at biography
The bottom of sensor mobile device 9.Laser beam emitting device 11 is located at the bottom of sensor displacement mechanism 9.
For example, when using the electropulsograph, stent 8 is moved first.By stent 8 laser beam emitting device 11 can be driven to move
It is dynamic to be measured acupuncture point with definite.When determining measured acupuncture point and then secondary mobile stent 8, sensor 10 is driven to be moved to tested
Measure acupuncture point.Then movable sensor mobile device 9, moves downward it until sensor 10 touches measured acupuncture point.Due to
Stent 8 can be moved freely on pedestal.Therefore, determining that measured acupuncture point is more convenient.Since the first roller shutter volume 6 exists
On first curtain rolling shaft 2 and the 3rd curtain rolling shaft 4, therefore the first roller shutter 6 can move left and right in the horizontal direction.Again due to volume Two
Curtain volume 7 is on the second curtain rolling shaft 3 and Volume Four curtain axis 5, therefore the second roller shutter 7 can move back and forth in the horizontal direction.Meanwhile prop up
The first perforate 61 of perforation of frame 8 and the second perforate 71.Therefore during stent 8 moves, the first roller shutter 6 and the second roller shutter 7 begin
The stent 8 followed eventually is moved.Wherein sensor displacement mechanism 9 on stent 8 perpendicular to pedestal 1 third direction it is reciprocal
Movement is realized by motor and worm gear structure.But be not limited thereto, those skilled in the art can be according to reality
Border, which needs to replace, wherein to be realized component or directly replaces any of moving method.Above-mentioned electropulsograph, can pass through
The mode of machinery positioning, during finding the cun,guan,chi acupuncture point of the measured and in last measurement, can keep
Stablize flexible mobile;Laser locator is carried on above-mentioned electropulsograph, it is thus possible to accurately determine tested acupuncture point institute at the same time
Position;Hence in so that from navigate to measurement during there is no the change of displacement so that measurement result is more accurate.In addition
When in use, the first roller shutter 6 and the second roller shutter 7 form a protection being covered on all curtain rolling shafts to above-mentioned electropulsograph
Film, improves security performance.
It is selected in as one kind, in the application one embodiment, electropulsograph further includes:At least one first slide 12,
Two slides 13 and the first sliding block 14.First slide 12 is arranged on pedestal 1, and positioned at the first curtain rolling shaft 2 and the 3rd curtain rolling shaft 4
Inner side.First slide 12 is parallel to the first curtain rolling shaft 2.Second slide 13 is arranged on the first slide 12, and 13 energy of the second slide
It is enough to be moved back and forth on the first slide 12 along second direction.First sliding block 14 is arranged on the second slide 13, the first sliding block 14
Can be moved back and forth along a first direction on the second slide 13, and the first sliding block 14 together with the second slide 13 in the first slide
Moved back and forth on 12 along second direction.Stent 8 is fixed on the first sliding block 14, and stent 8 is together with the first sliding block 14 second
Moved back and forth along a first direction on slide 13, and stent 8 together with the first sliding block 14 and the second slide 13 in the first slide 12
On moved back and forth along second direction.
For example, when mobile stent 8.Since stent 8 is fixed on the first sliding block 14.Therefore stent 8 can drive first
Sliding block 14 moves left and right, and stent 8 can drive the first sliding block 14 and the second slide 13 to slide back and forth.By this method,
Stent 8 is freely moved on pedestal.In the present embodiment, the number of the first slide 12 is two, but not with this
It is limited.
It is selected in as one kind, in the application one embodiment, electropulsograph further includes the second sliding block 15.Second sliding block 15 is set
Put on the second slide 13.Second sliding block 15 can move back and forth along a first direction on the second slide 13, and the second sliding block
15 move back and forth together with the second slide 13 on the first slide 12 along second direction.Laser beam emitting device 11 and sensor 10
It is fixed on the second sliding block 15.Laser beam emitting device 11 is fixed on sensor displacement mechanism with sensor 10, sensor movement
Device, fixed the stent is fixed on the first sliding block on the bracket, the laser beam emitting device, the sensor with
First sliding block 15 moves back and forth along a first direction on the second slide 13 together.And the Laser emission of laser beam emitting device 11
Put with the straight line where the line of the sensing points of sensor 10 along a first direction.
For example, when mobile stent 8 so that stent 8 is driven after laser beam emitting device 11 determines measured acupuncture point, will also be after
Continuous mobile stent 8 is so that sensor 10 is located above measured acupuncture point.But this needs operating personnel to judge sensing by glasses
Whether device moves to the surface at measured acupuncture point.Therefore can produce due to the experience of operating personnel is different and produces left and right or
Front and rear site error.Therefore laser beam emitting device 11 and sensor 10 are fixed on the second sliding block 15 jointly.When passing through
One sliding block 14 drives stent 8 finally to drive laser beam emitting device 11 to determine to be measured after acupuncture point, due to laser beam emitting device 11
With the left and right directions of the line of sensor 10 along the second slide 13, and since laser beam emitting device 11 and sensor 10 follow the
The movement of two sliding blocks is also the left and right directions along the second slide 13.Therefore, measured cave is being determined from generating device of laser 11
Position is moved between measured acupuncture point to by sensor 10 and will not produce error in anteroposterior direction.And in order to determine measured acupuncture point
After-poppet 8 either laser beam emitting device 11 or sensor 10 are not moving by mistake, electropulsograph can also wrap in the present embodiment
The first fixing device (not illustrated in figure) and/or the second fixing device (not illustrated in figure) and/or the 3rd fixing device are included (in figure
Do not illustrate).First fixing device is used to the first sliding block 14 being fixed on pedestal.Second fixing device is used for the second sliding block 15
It is fixed on the second slide.3rd fixing device is used to the second slide 13 being fixed on the first slide 12.
It is selected in as one kind, in the application one embodiment, the first sliding block includes positioner 141, for by first
Sliding block moves back and forth along a first direction between being limited in 141 and second sliding block of positioner.First sliding block is in positioner 141
Maximum displacement between the second sliding block 14 is equal to the distance between laser emitter and sensor.Wherein positioner can be
Tabletting structure, when by lower sheeting, the second sliding block 15 can be freely between 141 and first sliding block 14 of positioner along first
Direction moves back and forth;When ejecting tabletting, the second sliding block 15 is fixed on a certain between 141 and first sliding block 14 of positioner
A position.However, the structure of positioner is not limited thereto, those skilled in the art can be any according to design is actually needed
Known retaining structure.
For example, after measured acupuncture point is determined by laser beam emitting device 11, the second sliding block 15 only need to be promoted.And due to
Maximum displacement of second sliding block 15 between 141 and first sliding block 14 of positioner is equal between laser emitter and sensor
Distance.Therefore, when the second sliding block 15 is shifted onto, sensor 10 has just been moved to the left between sensor and laser beam emitting device
Distance, and cause sensor 10 to be placed exactly in the position where generating device of laser 11 just now.Hence in so that measurement is more accurate.
Be selected in as one kind, in the application one embodiment, the first fixing device and/or the second fixing device and/or
3rd fixing device is electromagnet, and electromagnet is located at below the second sliding block and/or the second slide.
It is selected in as one kind, in the application one embodiment, electropulsograph further includes display (not illustrated in figure), sets
On pedestal 1, for showing the pulse signal detected by sensor 10.
It is selected in as one kind, in the application one embodiment, electropulsograph further includes communication module (not illustrated in figure), if
Put on pedestal 1, for sending the pulse signal detected by sensor 10 to server end and/or client.
It is selected in as one kind, in the application one embodiment, stent 8 further includes motor (not illustrated in figure).Motor with
Sensor displacement mechanism 9 connects, and motor control sensor displacement mechanism 9 moves back and forth on stent 8 along third direction.
Claims (10)
- A kind of 1. electropulsograph, it is characterised in that including:Pedestal;First curtain rolling shaft, the second curtain rolling shaft, the 3rd curtain rolling shaft and Volume Four curtain axis, first curtain rolling shaft and the 3rd roller shutter Axis is separately positioned on the both sides of the pedestal in parallel to each other, and second curtain rolling shaft and the Volume Four curtain axis are in parallel to each other It is separately positioned on the other both sides of the pedestal;First roller shutter and the second roller shutter, one end of first roller shutter are rolled up on first curtain rolling shaft, first roller shutter The other end is rolled up on the 3rd curtain rolling shaft, and first roller shutter is equipped with the first perforate, and first roller shutter can be in institute State and moved back and forth along a first direction between the first curtain rolling shaft and the 3rd curtain rolling shaft, one end of second roller shutter volume is described the On two curtain rolling shafts, the other end of second roller shutter is rolled up on the Volume Four curtain axis, and second roller shutter is equipped with second Perforate, second roller shutter can be between second curtain rolling shaft and four curtain rolling shafts along vertical with the first direction Second direction move back and forth;Stent, the stent are arranged on above the pedestal through first perforate and second perforate, the stent energy It is enough to be moved freely on the pedestal;Sensor displacement mechanism, is set on the bracket, the sensor displacement mechanism can Moved back and forth on the bracket along the vertical third direction with the pedestal;Sensor, positioned at the bottom of the sensor displacement mechanism;AndLaser beam emitting device, positioned at the bottom of the sensor displacement mechanism.
- 2. electropulsograph as claimed in claim 1, it is characterised in that further include:At least one first slide, is arranged on the pedestal, and in first curtain rolling shaft and the 3rd curtain rolling shaft Side, at least one first slide is parallel to first curtain rolling shaft;Second slide, is arranged at least one first slide, and second slide can be described at least one Moved back and forth on one slide along the second direction;First sliding block, is arranged on second slide, and first sliding block can be on second slide along described One direction move back and forth, and first sliding block together with second slide at least one first slide along institute State second direction reciprocating motion;The stent is fixed on first sliding block, the stent together with first sliding block on second slide along The first direction moves back and forth, and the stent together with first sliding block and second slide described at least one Moved back and forth on first slide along the second direction.
- 3. electropulsograph as claimed in claim 2, it is characterised in that further include:Second sliding block, is arranged on second slide, and second sliding block can be on second slide along described One direction move back and forth, and second sliding block together with second slide at least one first slide along institute State second direction reciprocating motion;The laser beam emitting device and the sensor are fixed on the sensor displacement mechanism, the sensor movement dress Put, fix on the bracket, the stent is fixed on the first sliding block, the laser beam emitting device, the sensor and institute The first sliding block is stated to move back and forth along a first direction on second slide together, and the laser of the laser beam emitting device Straight line where the line of the sensing points of launch point and the sensor is along the first direction.
- 4. electropulsograph as claimed in claim 3, it is characterised in that first sliding block includes:Positioner, for first sliding block to be limited between the positioner and second sliding block along described One direction moves back and forth;Maximum displacement of first sliding block between the positioner and second sliding block is filled equal to the Laser emission Put the distance between described sensor.
- 5. electropulsograph as claimed in claim 2, it is characterised in that the first fixing device is further included, for described second to be slided Rail is fixed on the pedestal.
- 6. electropulsograph as claimed in claim 5, it is characterised in that the second fixing device is further included, for described first to be slided Block is fixed on second slide.
- 7. electropulsograph as claimed in claim 5, it is characterised in that first fixing device is electromagnet, the electromagnet Below second slide, and the electromagnet is fastened on the pedestal.
- 8. electropulsograph as claimed in claim 1, it is characterised in that further include:Display, is arranged on the pedestal, for showing the pulse signal detected by the sensor.
- 9. electropulsograph as claimed in claim 1, it is characterised in that further include communication module, be arranged on the pedestal, be used for Pulse signal detected by the sensor is sent to server end and/or client.
- 10. electropulsograph as claimed in claim 1, it is characterised in that the stent further includes motor, the motor and the biography Sensor mobile device connects, and the motor controls the sensor displacement mechanism back and forth to be transported along third direction on the bracket It is dynamic.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610383422.0A CN105832310B (en) | 2016-06-01 | 2016-06-01 | A kind of electropulsograph |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610383422.0A CN105832310B (en) | 2016-06-01 | 2016-06-01 | A kind of electropulsograph |
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CN105832310A CN105832310A (en) | 2016-08-10 |
CN105832310B true CN105832310B (en) | 2018-05-15 |
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Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2002047821A (en) * | 2000-08-07 | 2002-02-15 | Mitsui Miike Mach Co Ltd | Shutter mechanism in lifting device for lifting floor |
CN100450433C (en) * | 2005-11-15 | 2009-01-14 | 北京中医药大学 | Pulse condition detection device |
CN101411614A (en) * | 2007-10-17 | 2009-04-22 | 中国中医科学院医学实验中心 | High precision intelligent mechanical arm Chinese medicine pulse-taking information acquisition and analysis system |
CN205758527U (en) * | 2016-06-01 | 2016-12-07 | 郭福生 | A kind of electropulsograph |
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2016
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