CN215899636U - Novel wearable pulse data acquisition device - Google Patents

Abstract

The utility model relates to a novel wearable pulse data acquisition device, which comprises: the trigger module comprises a spinning switch and a guide rail which is arranged outside the spinning switch and enables the spinning switch to stop at a plurality of preset positions; the connecting device comprises a mounting column for connecting the triggering module and the detection device; the detection device comprises a plurality of sensors, and when the trigger module is started to stop the spinning switch at a preset position, the detection device detects the wrist pulse of the human body. The spinning switch comprises a box body structure and a pin column arranged on the outer wall of the box body, a notch is arranged on the lower side of the box body, and a spinning switch spring is arranged in the notch; the guide rail is arranged on the side wall of a sectional type position control sleeve, and the lower end of the sectional type position control sleeve is connected with the detection device. The utility model has the advantages of monitoring the wrist pulse data at any time, small volume, convenient wearing, low cost and simple structure.

Description

Novel wearable pulse data acquisition device

Technical Field

The utility model relates to the field of traditional Chinese medicine diagnosis, in particular to a wearable pulse data acquisition device.

Background

The pulse-taking refers to one of the four diagnostic methods (inspection, auscultation, inquiry and palpation) in TCM, which belongs to the palpation. The pulse condition is an important basis for the diagnosis of traditional Chinese medicine, which means the depth of the pulse appearing part, the speed of the pulse appearing part, the intensity and the uniformity of the rhythm, and is the image and dynamic image display of the pulse. In the process of traditional Chinese medicine diagnosis, a doctor determines pulse conditions by feeling pulses, and the doctor applies different pressures to the cun, guan and chi parts of the radial artery of a patient by using three fingers to feel different pulses of the artery of the patient. Because the traditional Chinese medicine relies on the subjective feeling of doctors on pulse fluctuation, the feeling of fingers cannot be expressed accurately and quantitatively, and the accuracy of pulse condition diagnosis and the practical application in modern medicine are greatly restricted.

At present, the collection of pulse data is mainly divided into contact type and non-contact type. The contact type pulse acquisition device comprises an air pump pressurization or pure mechanical pressurization structure, the pressurization of the air pump needs a series of systems such as motor control and the like, and the structure is complex and the cost is high; non-contact is based on machine vision, simple but expensive and poorly portable.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a wearable pulse data acquisition device, which solves the technical problem that the existing pulse diagnosis instrument is complex in structure.

In order to achieve the above object, the present invention provides a wearable pulse data collecting device, comprising:

the trigger module comprises a spinning switch and a guide rail which is arranged outside the spinning switch and enables the spinning switch to stop at a plurality of preset positions;

the connecting device comprises a mounting column for connecting the trigger module and the detection device;

the detection device comprises a plurality of sensors, and the triggering module is started so as to detect the wrist pulse of the human body when the spinning switch stops at the preset position.

Preferably, the spinning switch comprises a box body structure and a pin column arranged on the outer wall of the box body, a notch is formed in the lower side of the box body, and a spinning switch spring is arranged in the notch.

Preferably, the guide rail is arranged on the side wall of a sectional position control sleeve, and the lower end of the sectional position control sleeve is connected with the detection device;

the guide rail comprises a pulse data acquisition guide rail arranged on the side wall of the sectional type position control sleeve and an error prevention guide rail arranged on the side wall of the sectional type position control sleeve, and the pulse data acquisition guide rail and the error prevention guide rail are formed by an upper wall and a lower wall of a guide rail notch arranged on the side wall of the sectional type position control sleeve.

Preferably, the upper side wall of the guide rail notch is provided with a plurality of steps formed by continuous horizontal planes and slopes, wherein the first ascending position comprises a first downward slide slope and a first vertical plane, the second ascending position comprises a second slide slope and a second vertical plane, and the third ascending position comprises a third slide slope and a third vertical plane; the lower side wall of the guide rail notch is provided with a plurality of steps formed by continuous horizontal planes and vertical planes, wherein the first descending position comprises a first horizontal plane and a fourth vertical plane, the second descending position comprises a second horizontal plane and a fifth vertical plane, and the third descending position comprises a third horizontal plane and a sixth vertical plane.

Preferably, the error preventing guide rail comprises a first notch and a second notch, the first notch comprises a fourth slope surface, a fourth horizontal surface and a seventh vertical surface, and the second notch comprises a fourth horizontal surface, a seventh vertical surface and a fifth slope surface.

Preferably, the sensors comprise a first sensor, a second sensor and a third sensor which are uniformly arranged at the lower part of the sensor mounting plate.

Preferably, the detection device includes a first spring, a second spring, a third spring and a fourth spring, the first spring and the second spring are disposed between the first sensor and the second sensor, and the third spring and the fourth spring are disposed between the second sensor and the third sensor.

Preferably, the detection device is arranged inside the protection device, the protection device comprises an upper shell and a lower shell connected with the upper shell, and the lower shell is provided with a protruding hole for the sensor to enter and exit.

Preferably, the mounting column is arranged on the upper portion of the sensor mounting plate, a first groove and a second groove are formed in the outer side of the mounting column, and the mounting column is connected with the trigger module.

Preferably, the lower shell is provided with a first mounting hole and a second mounting hole which are respectively arranged at two sides of the bottom of the lower shell and used for being connected with a raw ear for the watchband.

Compared with the prior art, the novel wearable pulse data acquisition device has the beneficial effects that the spinning switch is started to move in the data acquisition arc-shaped guide rail by pressing the spinning switch, the spring of the sensor mounting plate is driven to compress, the spinning switch is rotated, the control pin column moves along the preset position of the sectional type position control sleeve data acquisition arc-shaped guide rail, the spinning switch is released, the sensor is driven to move, and the stable pulse data acquisition of the sensor is realized.

Particularly, the device provided by the utility model has the advantages that the spinning switch is pressed three times, and the pin column in the spinning switch moves along the preset position of the sectional type position control sleeve data acquisition arc-shaped guide rail, so that the sensor applies different pressures to the wrist, different force in the traditional Chinese medicine diagnosis process is simulated, and pulse data with different force is acquired three times.

Particularly, the device is provided with three sensors, and the index finger, the middle finger and the ring finger during the pulse feeling of the traditional Chinese medicine are simulated, so that the acquired data is close to the real traditional Chinese medicine diagnosis, and the data is more scientific and complete.

In particular, the device is provided with an error-preventing guide rail to prevent damage to the device caused by error operation.

Particularly, the device has simple structure, high stability and simple and convenient operation, and the mechanical device is used for collecting the pulse, thereby avoiding the subjectivity of manually collecting the pulse data and improving the accuracy of pulse data collection.

Particularly, the device of the utility model is provided with the mounting holes for connecting the ear of the watchband on the two sides of the lower shell, thereby being convenient for wearing and monitoring the pulse data of the wrist at any time. The utility model has the advantages of small volume, low cost and simple structure.

Drawings

FIG. 1 is a structural diagram of a wearable pulse data acquisition device according to an embodiment of the present invention;

FIG. 2 is a front view of an exploded view of a wearable pulse data acquisition device according to an embodiment of the present invention;

fig. 3 is a rear view of an exploded view of a wearable pulse data acquisition device according to an embodiment of the utility model;

FIG. 4 is a right side view of an exploded view of a wearable pulse data acquisition device in accordance with an embodiment of the present invention;

FIG. 5 is a front view of a spinning switch of the wearable pulse data acquisition device according to the embodiment of the utility model;

FIG. 6 is a top view of a spinning switch of the wearable pulse data acquisition device according to an embodiment of the present invention;

FIG. 7 is a schematic view of a guide rail of the wearable pulse data collecting device according to the embodiment of the present invention;

FIG. 8 is a sectional position control sleeve structure view of a wearable pulse data acquisition device according to an embodiment of the present invention;

FIG. 9 is a front view of the detection device and the connection device of the wearable pulse data acquisition device according to the embodiment of the present invention;

FIG. 10 is a top view of the wearable pulse data acquisition device detection device and the connection device according to an embodiment of the present invention;

fig. 11 is a bottom view of the wearable pulse data collecting device according to the embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the utility model will be more clearly understood, the utility model is further described below with reference to examples; it should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Fig. 1 is a structural diagram of a wearable pulse data acquisition device according to an embodiment of the present invention, and fig. 2 to 4 are a front view, a rear view, and a right view of an explosion view of the wearable pulse data acquisition device according to an embodiment of the present invention; the device comprises a trigger module, a rotary pressing switch and a guide rail, wherein the trigger module comprises a rotary pressing switch 1 and a guide rail 5 which is arranged outside the rotary pressing switch and enables the rotary pressing switch to stop at a plurality of preset positions; the connecting device comprises a mounting column 6 for connecting the trigger module and the detection device; the detection device comprises a plurality of sensors, and the triggering module is started so as to detect the wrist pulse of the human body when the spinning switch stops at the preset position.

Fig. 5 is a front view of a spinning switch of the wearable pulse data acquisition device according to the embodiment of the utility model, and fig. 6 is a top view of the spinning switch of the wearable pulse data acquisition device according to the embodiment of the utility model; the spinning switch 1 of this embodiment includes a box structure and set up in the round pin post 101 of box outer wall, the box downside is provided with notch 102 be provided with spinning switch spring 2 in the notch. Use during novel wearing formula pulse data acquisition device, press the spinning switch box body downwards, the box body in the notch with erection column 6 contacts to drive the erection column downstream, and then drive sensor downstream, the sensor stretches out and stretches out the hole and gather wrist pulse data. In the present embodiment, the main body of the spinning switch is cylindrical, and it can be understood by those skilled in the art that the main body can also be prismatic, cubic, etc., and the pin is disposed at a certain position on the outer side of the cylindrical shape, and those skilled in the art can adjust the position according to the stroke triggered by the spinning switch.

Fig. 7 is a schematic diagram showing a guide rail of the wearable pulse data collecting device according to the embodiment of the present invention, and fig. 8 is a structural diagram showing a sectional position control sleeve of the wearable pulse data collecting device according to the embodiment of the present invention, wherein the guide rail 5 is disposed on a side wall of a sectional position control sleeve 4, and a lower end of the sectional position control sleeve is connected to the detecting device; the guide rail comprises a pulse data acquisition guide rail arranged on the side wall of the sectional type position control sleeve and an error prevention guide rail arranged on the side wall of the sectional type position control sleeve, and the pulse data acquisition guide rail and the error prevention guide rail are formed by an upper wall and a lower wall of a guide rail notch arranged on the side wall of the sectional type position control sleeve. The upper side wall of the guide rail notch is provided with a plurality of steps formed by continuous horizontal planes and slope surfaces, wherein the guide rail notch is provided with a plurality of ascending positions and descending positions, the first ascending position 507 comprises a first descending slide surface 531 and a first vertical surface 525, the second ascending position 506 comprises a second sliding surface 532 and a second vertical surface 524, and the third ascending position 505 comprises a third sliding surface 533 and a third vertical surface 523; the lower side wall of the rail recess is provided with several steps formed by successive horizontal and vertical surfaces, wherein the first drop-off 502 comprises a first horizontal surface 511 and a fourth vertical surface 521, the second drop-off 503 comprises a second horizontal surface 512 and a fifth vertical surface 522, and the third drop-off 504 comprises a third horizontal surface 513 and a sixth vertical surface 523. In this embodiment, the segmented position control sleeve is cylindrical, and as will be appreciated by those skilled in the art, may be prismatic, cubic, etc., and the guide track is disposed at a location on the sidewall of the segmented position control sleeve that will be set by those skilled in the art based on the motion of the pin.

When the novel wearable pulse data acquisition device is used, the spinning switch is rotated, so that the pin of the spinning switch is located at an initial position 501, the spinning switch is pressed downwards for the first time, the spring of the spinning switch is compressed, the pin enters a first ascending position 507 along a first downward sliding slope surface 531, the spinning switch is loosened, the pin enters a first descending position 502 along a first vertical surface 525 under the driving of the spring of the spinning switch, a sensor of the detection device is stably contacted with a wrist, and pulse data are acquired for the first time; pressing the spinning switch downwards for the second time, compressing a spring of the spinning switch, enabling the pin column to enter a second ascending position 506 along a fourth vertical surface 521 and a second sliding surface 532, loosening the spinning switch, enabling the pin column to enter a second descending position 503 along a second vertical surface 524 under the driving of the spring of the spinning switch, enabling a sensor of the detection device to be in stable contact with the wrist, and collecting pulse data for the second time; pressing the spinning switch downwards for the third time, compressing a spring of the spinning switch, enabling the pin column to enter a third ascending position 505 along a fifth vertical surface 522 and a third sliding surface 533, loosening the spinning switch, enabling the pin column to enter a third descending position 504 along a sixth vertical surface 523 under the driving of the spring of the spinning switch, enabling a sensor of the detection device to be in stable contact with the wrist, and collecting pulse data for the third time; when the pins are at the first descending position 502, the second descending position 503 and the third descending position 504, the sensor applies different pressures to the wrist, different forces in the traditional Chinese medicine diagnosis process are simulated, and pulse data are acquired.

Fig. 7 is a schematic diagram of a guide rail of a wearable pulse data collecting device according to an embodiment of the present invention, and fig. 8 is a structural diagram of a sectional position control sleeve of a wearable pulse data collecting device according to an embodiment of the present invention, wherein the anti-error guide rail is disposed on a side wall of the sectional position control sleeve, is communicated with the data collecting guide rail, and includes a first notch 541 and a second notch 542 which are consecutive, so that the pin moves in the first notch and the second notch, wherein the first notch includes a fourth slope surface 551, a fourth horizontal surface 552 and a seventh vertical surface 553 which are consecutive, and the second notch includes a fourth horizontal surface 552, a seventh vertical surface 553 and a fifth slope surface 554 which are consecutive.

When the novel wearable pulse data acquisition device is used mistakenly, namely the spinning switch is rotated reversely, the pin enters the exit position 500, the spinning switch is pressed, the spring of the spinning switch is compressed, the pin enters the first notch 541 along the fourth slope surface 551, the spinning switch is loosened, the pin enters the second notch 542 along the fourth horizontal surface 552 and the seventh vertical surface 553 under the driving of the spring of the spinning switch, the spinning switch is pressed again, and the pin returns to the exit position 500 along the fifth slope surface 554.

Referring to fig. 9, which is a front view of the detection device and the connection device of the wearable pulse data acquisition device according to the embodiment of the present invention, and referring to fig. 10, which is a top view of the detection device and the connection device of the wearable pulse data acquisition device according to the embodiment of the present invention, the detection device includes three sensors, and the three sensors are uniformly mounted on the lower portion of the sensor mounting plate. The utility model adopts three sensors for simulating the index finger, the middle finger and the ring finger in the pulse feeling of traditional Chinese medicine. The detection device comprises a first spring 15, a second spring 16, a third spring 17 and a fourth spring 18, wherein the first spring, the second spring, the third spring and the fourth spring are arranged between the sensors in pairs. Be provided with first lug 11 and second lug 13 between first sensor and the second sensor, be provided with third lug 12 and fourth lug 14 between second sensor and the third sensor, first lug, second lug, third lug and fourth lug are installed on the sensor mounting panel for the installation spring, first spring and first lug spiral installation, second spring and second lug spiral installation, third spring and third lug spiral installation and fourth spring and fourth lug spiral installation. In the present embodiment, the sensor is cylindrical, and those skilled in the art can understand that the present embodiment does not limit the type, material, shape, and arrangement of the sensor, as long as it can acquire pulse data; the detection device is internally provided with a lug for mounting the spring, and a person skilled in the art can set the position of the lug according to the positions of the spring and the sensor, and the person skilled in the art can understand that the shape, the material and the setting mode of the lug are not limited as long as the lug can be mounted on the sensor mounting plate for mounting the spring in the detection device; the spring in the detection device is arranged between the sensors, and the arrangement mode of the material and the shape of the spring is not limited in the embodiment as long as the elastic potential energy can be provided for the detection device; in the present embodiment, the sensor mounting plate is rectangular, and as can be understood by those skilled in the art, the sensor mounting plate may also be square, circular or oval, and the position of the sensor mounting plate may be determined according to the movement mode of the sensor and the mounting post.

Specifically, the erection column set up in sensor mounting panel upper portion, the erection column outside is provided with first recess 601 and second recess 602, the erection column with trigger module connects. The mounting post is internally provided with a fixing plate 603 for supporting a spinning switch spring. When using novel wearing formula pulse data acquisition device to gather pulse data, the rotatory spinning switch of forward, spinning switch notch and erection column top contact press spinning switch, and spinning switch notch and erection column top contact drive erection column downstream, and the erection column drives detection device downstream, and the sensor stretches out and stretches out the hole, contacts with the wrist, gathers pulse data.

Referring to fig. 1, a structure diagram of a wearable pulse data acquisition device according to an embodiment of the present invention is shown in fig. 11, which is a bottom view of the wearable pulse data acquisition device according to an embodiment of the present invention, the device of the present invention includes a detection device disposed inside a protection device, the protection device includes an upper housing 3 and a lower housing 4 connected to the upper housing, and the lower housing is provided with an extension hole for the sensor to enter and exit. The number of the extension holes is three, the extension holes are respectively a first extension hole 20, a second extension hole 21 and a third extension hole 22, the first extension hole is arranged below the first sensor and is used for the first sensor to extend out of the lower shell, the second extension hole is arranged below the second sensor and is used for the second sensor to extend out of the lower shell, and the third extension hole is arranged below the third sensor and is used for the third sensor to extend out of the lower shell. It can be understood by those skilled in the art that the protection device in the embodiment of the present invention may have other shapes such as a circle, a square, etc., and the materials, arrangement and connection manners of the upper housing and the lower housing of the protection device are not limited as long as the protection detection device can be satisfied.

Referring to fig. 9, which is a front view of a detection device and a connection device of a wearable pulse data acquisition device according to an embodiment of the present invention, and referring to fig. 10, which is a top view of a detection device and a connection device of a wearable pulse data acquisition device according to an embodiment of the present invention, the connection device of the present invention includes a mounting post disposed at an upper portion of a sensor mounting plate, a first groove 601 and a second groove 602 are disposed at an outer side of the mounting post, and the mounting post is connected to the trigger module. The mounting post is internally provided with a fixing plate 603 for supporting a spinning switch spring. When the novel wearable pulse data acquisition device is used for acquiring pulse data, the spinning switch is rotated in a forward direction, the notch of the spinning switch is contacted with the top of the mounting column, the spinning switch is pressed, the notch of the spinning switch is contacted with the top of the mounting column and drives the mounting column to move downwards, the mounting column drives the detection device to move downwards, the sensor stretches out of the stretching hole and is contacted with a wrist, and the pulse data are acquired; when the novel wearing formula pulse data acquisition device of misuse, reverse rotation spinning switch promptly, the notch gets into the first recess of erection column and second recess in the spinning switch, and restriction spinning switch drives the sensor motion height, even press the spinning switch, the sensor can't be visited out the sensor and is stretched out the hole, and then can't measure pulse data.

Referring to fig. 3, which is a rear view of an exploded view of the wearable pulse data collecting device according to the embodiment of the present invention, the lower case is provided with a first mounting hole 23 and a second mounting hole 24, which are respectively disposed at two sides of the bottom of the lower case and are used for connecting with a raw ear of a watchband. In this embodiment, the first mounting hole and the second mounting hole are circular, and those skilled in the art will understand that the first mounting hole and the second mounting hole may also be square or prism, as long as the connection with the ear of the watch band can be satisfied.

Referring to fig. 1-11, in a novel wearable pulse data acquisition device, when the novel wearable pulse data acquisition device of the present invention is used, a spinning switch is rotated, so that a pin of the spinning switch is located at an initial position 501;

pressing the spinning switch downwards for the first time, compressing a spring of the spinning switch, enabling the pin column to enter a first ascending position 507 along a first downward sliding slope surface 531, loosening the spinning switch, enabling the pin column to enter a first descending position 502 along a first vertical surface 525 under the driving of the spring of the spinning switch, enabling a sensor of the detection device to be in stable contact with a wrist, and collecting pulse data for the first time;

pressing the spinning switch downwards for the second time, compressing a spring of the spinning switch, enabling the pin column to enter a second ascending position 506 along a fourth vertical surface 521 and a second sliding surface 532, loosening the spinning switch, enabling the pin column to enter a second descending position 503 along a second vertical surface 524 under the driving of the spring of the spinning switch, enabling a sensor of the detection device to be in stable contact with the wrist, and collecting pulse data for the second time;

pressing the spinning switch downwards for the third time, compressing a spring of the spinning switch, enabling the pin column to enter a third ascending position 505 along a fifth vertical surface 522 and a third sliding surface 533, loosening the spinning switch, enabling the pin column to enter a third descending position 504 along a sixth vertical surface 523 under the driving of the spring of the spinning switch, enabling a sensor of the detection device to be in stable contact with the wrist, and collecting pulse data for the third time;

when the novel wearing formula pulse data acquisition device of misuse, reverse rotation spinning switch promptly, the notch gets into the first recess of erection column and second recess in the spinning switch, and restriction spinning switch drives the sensor motion height, even press the spinning switch, the sensor can't be visited out the sensor and is stretched out the hole, and then can't measure pulse data. At this time, the pin enters the exit position 500, the spinning switch is pressed, the spring of the spinning switch is compressed, the pin enters the first notch 541 along the fourth sliding slope surface 551, the spinning switch is released, the pin enters the second notch 542 along the fourth horizontal surface 552 and the seventh vertical surface 553 under the driving of the spring of the spinning switch, the spinning switch is pressed again, and the pin returns to the exit position 500 along the fifth sliding slope surface 554. And rotating the spinning switch in the positive direction again, returning the pin to the initial position 501, contacting the notch of the spinning switch with the upper part of the mounting column, and re-contacting the spinning switch with the upper part of the mounting column, namely exiting the anti-misoperation.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the utility model, and the technical scheme after the changes or substitutions can fall into the protection scope of the utility model.

Claims (10)

1. The utility model provides a novel wearable pulse data acquisition device which characterized in that includes:

the trigger module comprises a spinning switch and a guide rail which is arranged outside the spinning switch and enables the spinning switch to stop at a plurality of preset positions;

the connecting device comprises a mounting column for connecting the trigger module and the detection device;

the detection device comprises a plurality of sensors, and the triggering module is started so as to detect the wrist pulse of the human body when the spinning switch stops at the preset position.

2. The wearable pulse data acquisition device according to claim 1, wherein the spinning switch comprises a box structure and a pin disposed on an outer wall of the box structure, a recess is disposed on an underside of the box, and a spinning switch spring is disposed in the recess.

3. The novel wearable pulse data acquisition device according to claim 2, wherein the guide rail is disposed on a sidewall of a segmented position control sleeve, a lower end of the segmented position control sleeve being connected to the detection device;

the guide rail comprises a pulse data acquisition guide rail arranged on the side wall of the sectional type position control sleeve and an error prevention guide rail arranged on the side wall of the sectional type position control sleeve, and the pulse data acquisition guide rail and the error prevention guide rail are formed by an upper wall and a lower wall of a guide rail notch arranged on the side wall of the sectional type position control sleeve.

4. The novel wearable pulse data acquisition device according to claim 3, wherein the upper side wall of the guide rail notch is provided with a plurality of steps formed by continuous horizontal planes and slopes, wherein the first ascending position comprises a first lower slope surface and a first vertical surface, the second ascending position comprises a second slope surface and a second vertical surface, and the third ascending position comprises a third slope surface and a third vertical surface; the lower side wall of the guide rail notch is provided with a plurality of steps formed by continuous horizontal planes and vertical planes, wherein the first descending position comprises a first horizontal plane and a fourth vertical plane, the second descending position comprises a second horizontal plane and a fifth vertical plane, and the third descending position comprises a third horizontal plane and a sixth vertical plane.

5. The novel wearable pulse data collection device of claim 3, wherein the error guide comprises consecutive first and second notches for movement of the pin within the first and second notches, wherein the first notch comprises consecutive fourth, and seventh vertical surfaces, and the second notch comprises consecutive fourth, seventh, and fifth horizontal surfaces.

6. The novel wearable pulse data acquisition device as claimed in claim 1, wherein the number of the sensors is three, and the sensors are uniformly mounted on the lower portion of the sensor mounting plate.

7. The novel wearable pulse data collection device of claim 1, wherein the detection device comprises a first spring, a second spring, a third spring, and a fourth spring, the four springs being located between the sensor mounting plate and the lower housing.

8. The novel wearable pulse data acquisition device according to claim 1, wherein the detection device is disposed inside a protection device, the protection device comprises an upper shell and a lower shell connected with the upper shell, and the lower shell is provided with a protruding hole for the sensor to go in and out.

9. The novel wearable pulse data acquisition device according to claim 6, wherein the mounting post is disposed on the upper portion of the sensor mounting plate, a first groove and a second groove opposite to the first groove are disposed on the outer side of the mounting post, and the mounting post is connected to the trigger module; when the spinning switch is rotated forward or pressed downwards, the inner notch of the spinning switch is contacted with the top of the mounting column, and when the spinning switch is rotated reversely, the inner notch of the spinning switch moves into the first groove and the second groove.

10. The novel wearable pulse data acquisition device as claimed in claim 8, wherein the lower case is provided with a first mounting hole and a second mounting hole respectively disposed at two sides of the bottom of the lower case for connecting with a raw ear of a watchband.

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