CN213721930U - Intelligent watch - Google Patents

Abstract

The application provides an intelligent watch, including the wrist-watch body, the side indent of wrist-watch body is provided with gathers the district, gathers the holistic end to end both ends of district crooked, and the centre is the straight line. The acquisition area is provided with an acquisition module which is used for acquiring human physiological data. In the use, the user laminates the finger of self on gathering the district, and the fingertip of finger is just to the collection module to make intelligent wrist-watch can gather user's physiological data at user fingertip position through collection module, have higher accuracy. And the overall shape of the collection area is matched with the shape of one side of the finger pad of the human body to form a finger placing position, so that the fingers of a user can be comfortably and stably attached to the collection area.

Description

Intelligent watch

Technical Field

The application relates to the technical field of intelligent equipment, in particular to an intelligent watch.

Background

Most smart watches on the market have the function of detecting physiological data of the user, such as measuring blood pressure or blood oxygen concentration. For convenience in use, sensors for acquiring physiological data on the existing smart watch are usually arranged on the back of the smart watch, and when a user wears the smart watch, the sensors are over against the back of the hand of the user to automatically acquire the physiological data from the back of the hand. However, the accuracy of the physiological data collected by each sensor from the back of the user's hand is low, and misleading is easily caused to the health index of the user.

SUMMERY OF THE UTILITY MODEL

The main objective of this application is to provide an intelligence wrist-watch, aims at solving the lower drawback of physiological data precision that current intelligence wrist-watch gathered.

In order to achieve the purpose, the intelligent watch comprises a watch body, wherein a collection area is concavely arranged on the side surface of the watch body, the head end and the tail end of the whole collection area are bent, and the middle of the whole collection area is a straight line;

the acquisition area is provided with an acquisition module, and the acquisition module is used for acquiring human physiological data.

Further, the collecting module comprises a collecting plate and a transparent lens, and a concave part is arranged on the collecting area;

the transparent lens is covered on the sunken part to form a closed cavity;

the collecting plate is fixedly arranged in the closed cavity;

the collecting plate is provided with a collecting element, and the front surface of the collecting element faces the transparent lens.

Further, the transparent lens is an acrylic lens, and an anti-skid structure is arranged on the edge of the outer surface of the acrylic lens.

Preferably, the anti-slip structure is a convex point or a frame.

Furthermore, a blind touch structure is arranged on the collection area, the blind touch structure is close to the edge of the upper end or the edges of the upper end and the lower end of the transparent lens, and a preset gap is formed between the blind touch structure and the edge of the upper end and/or the edge of the lower end of the transparent lens.

Furthermore, the blind contact structure is a protrusion, and the outer contour of the protrusion corresponds to the outer contour of the upper end edge and/or the lower end edge of the transparent lens, so that the protrusion completely surrounds the upper end edge and/or the lower end edge of the transparent lens.

Further, the height of the blind touch structure based on the surface of the acquisition area is larger than the height of the anti-slip structure based on the surface of the acquisition area.

Further, the bottom of the depressed part is provided with an installation groove, and the shape of the installation groove corresponds to that of the acquisition plate;

the collecting plate is provided with clamping structures, and the clamping structures are symmetrically arranged at two ends of the collecting plate;

the collecting plate is fixed in the mounting groove through the clamping structure.

Preferably, the clamping structure is a bent elastic sheet, and the bent elastic sheet is integrally V-shaped;

the bent elastic sheet is abutted against the inner wall of the mounting groove so as to fix the acquisition plate.

Further, the acquisition element comprises a blood pressure sensor, and the blood pressure sensor comprises a first emission lamp, a second emission lamp and a light receiver;

the first emission lamp and the second emission lamp are arranged in the upper area of the collecting plate;

the light receiver is arranged in the middle area of the collecting plate.

Further, the collecting element further comprises a pressure sensor, and the pressure sensor is arranged at the lower area of the collecting plate.

Furthermore, a key is arranged on the acquisition area, the key is positioned in the lower half area of the acquisition area, and the acquisition module is positioned in the upper half area of the acquisition area;

the height of the whole collection module relative to the plane of the collection area after installation is smaller than the height of the whole collection module relative to the plane of the collection area after installation of the key.

The utility model provides a pair of intelligence wrist-watch, including the wrist-watch body, the side indent of wrist-watch body is provided with gathers the district, gathers the holistic end to end both ends of district crooked, and the centre is the straight line. The acquisition area is provided with an acquisition module which is used for acquiring human physiological data. In the use, the user laminates the finger of self on gathering the district, and the fingertip of finger is just to the collection module to make intelligent wrist-watch can gather user's physiological data at user fingertip position through collection module, have higher accuracy. And the overall shape of the collection area is matched with the shape of the finger belly side of the human finger to form a finger placing position, so that the finger of a user can be comfortably and stably attached to the collection area.

Drawings

Fig. 1 is a front view structural diagram of a smart watch according to an embodiment of the present application;

fig. 2 is a right view structural diagram of a smart watch according to an embodiment of the present application;

fig. 3 is a right view structural diagram of the smart watch with the transparent lens removed according to an embodiment of the present application;

fig. 4 is a side view structural diagram of an acquisition board in an embodiment of the present application.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1 and 2, an embodiment of the present application provides an intelligent watch, including a watch body 1, a collection area 2 is concavely disposed on a side surface of the watch body 1, the head and tail ends of the collection area 2 are bent, and the middle is a straight line;

the acquisition area 2 is provided with an acquisition module, and the acquisition module is used for acquiring human physiological data.

The intelligent watch that this embodiment provided, including watch body 1, watch body 1's side indent is provided with gathers district 2, gathers 2 holistic head and the tail both ends of district crooked, and the centre is the straight line, agrees with mutually with the shape of human finger tripe one side. The acquisition area 2 is provided with an acquisition module which is used for acquiring human physiological data. In the use process, the user attaches the finger of the user to the collection area 2, and the fingertip of the finger is opposite to the collection module (the fingertip is the topmost end of the finger, and the finger belly is the knuckle where the nail is located), so that the intelligent watch can collect the physiological data of the user at the fingertip part of the user through the collection module, and the intelligent watch has high accuracy. Wherein, the collection principle of collection module does: by means of PPG measurement, changes in blood volume are detected in the living tissue by means of optoelectronics. When a light beam with a certain wavelength is irradiated to the skin surface of the finger tip, the light beam is transmitted to the photoelectric receiver in a transmission or reflection mode. The light intensity detected by the photo receiver is then pulsatory. Then the light intensity variation signal is converted into an electric signal, and the electric signal is amplified to obtain the variation of volume pulse blood flow. Use the dial plate display interface of perpendicular to intelligence wrist-watch as forward, from the forward direction to look up, gather district 2 whole and be type of arc (head and the tail both ends are crooked, and the centre is the straight line), agree with mutually with human finger shape, form the finger and lay the position to make user's finger can be comfortable, stably with gather 2 laminating in district.

In this embodiment, the smart watch includes watch body 1, and watch body 1's side indent is provided with the collection district 2, disposes collection module on the collection district 2. The acquisition module comprises a plurality of sensors of different types and is used for acquiring human physiological data such as blood pressure, blood oxygen concentration and the like of a user. The collection area 2 on the watch body 1 is integrally arc-like and is inwards concave towards one side of the internal structure of the watch body 1, so that the collection area is matched with the finger belly side of a human body. When the user uses the intelligent watch to collect the physiological data of the user, the finger belly side of the user is tightly attached to the collection area 2 on the watch body 1. The fingertip of the finger corresponds to the area where the acquisition module is located, so that the intelligent watch can acquire the physiological data of the user at the fingertip of the user through the acquisition module. Compared with the existing method for acquiring physiological data from the back of the hand, the method has the advantage that the physiological data acquired from the fingertip part has higher accuracy. Moreover, the head end and the tail end of the whole collection area 2 are bent, the middle part is a straight line, the end faces of the two ends of the collection area 2 in the length direction are inclined curved surfaces, the shape of the fingertips of a human body is met, and the finger placing positions are formed on the surface of the whole collection area 2, so that when a user measures physiological data through the fingertips, the fingertips can be placed comfortably and stably, and the fingertips can be attached to the surface of the collection area 2 to the maximum extent.

Further, the collecting module comprises a collecting plate 3 and a transparent lens 4, and a concave part is arranged on the collecting area 2;

the transparent lens 4 is covered on the concave part to form a closed cavity;

the collecting plate 3 is fixedly arranged in the closed cavity;

the collecting plate 3 is provided with a collecting element, and the front surface of the collecting element faces the transparent lens 4.

In this embodiment, the collection module of intelligence wrist-watch is including gathering board 3 and transparent lens 4, wherein, is provided with the collection component on gathering board 3, for example pressure sensor 11 and blood pressure sensor etc. gather the component and openly towards transparent lens 4 to make and gather the component and can gather corresponding data. The collection area 2 is provided with a concave part, and the overall shape and size of the concave part correspond to those of the transparent lens 4. Gather board 3 and transparent lens 4 and all set up in the depressed part, and wherein, gather board 3 and be located the bottom of depressed part, and transparent lens 4 then is located and gathers the board 3 outside to the realization uses transparent lens 4 to encapsulate gathering board 3 in the depressed part. The transparent lens 4 can not only protect the collecting element on the collecting plate 3 from being damaged by external force, but also prevent external foreign matters from falling into the concave part to influence the collection of the collecting element on the physiological data of the user. Meanwhile, the transparent lens 4 does not influence the measurement of the blood pressure of the user by the blood pressure sensor due to the characteristic of the light transmittance of the transparent lens. Preferably, after the transparent lens 4 is mounted in the recess, the outer surface of the transparent lens 4 is lower than the edge of the outside of the recess. When the user measures the physiological data, the transparent lens 4 is the fingertip contact surface of the finger of the user, so that the transparent lens 4 is slightly lower than the outer side edge of the concave part, and the fingertip of the user can be conveniently and stably placed.

Further, the transparent lens 4 is an acrylic lens, and an anti-slip structure 5 is arranged on the edge of the outer surface of the acrylic lens.

Preferably, the anti-slip structure 5 is a convex point or a frame.

In this embodiment, the transparent lens 4 is an acrylic lens, and the acrylic lens is made of an acrylic plate, and has a thin overall thickness and high light transmittance. The thickness of the acrylic lens cannot exceed 0.5mm, the optimal thickness is 0.2mm, and the light transmittance needs to reach more than 98%. The surface of inferior gram force lens is comparatively smooth, and the user takes place to slide easily when putting on the ware surface with the finger. Therefore, the outer surface edge of ya keli lens is provided with anti-skidding structure 5 to increase the frictional force that the user's finger was taken and is put on ya keli lens, make the finger can stably take and put on the lens surface. Preferably, the anti-slip structure 5 may be a tiny bump; the surface of the edge of the acrylic lens may also be roughened (for example, by etching the surface of the lens with a chemical agent to roughen the surface), so that the friction of the surface of the edge of the acrylic lens is much greater than that of the untreated area, and the roughened surface of the edge of the acrylic lens forms the anti-slip structure 5. Or, anti-skidding structure 5 can be for setting up the frame at ya keli lens surface edge, and this frame forms the encirclement to ya keli lens, and the whole shape of frame is unanimous with the outline shape of ya keli lens, and the user is when measuring, and the finger can be put on the frame, and bellied frame makes the finger have the impetus to be difficult to take place to slide.

Further, a blind touch structure 6 is arranged on the collecting area 2, the blind touch structure 6 is close to the upper end edge or the upper and lower end edges of the transparent lens 4, and a preset gap is formed between the blind touch structure 6 and the upper end edge and/or the lower end edge of the transparent lens 4.

In this embodiment, the acquisition region 2 is provided with one or two blind contact structures 6, where the number of the blind contact structures 6 is one. Blind touch structure 6 is close to 4 upper end edges of transparent lens or upper and lower both ends edges, and wherein, when the corresponding user in 4 upper ends of transparent lens wore intelligent wrist-watch, 1 twelve o 'clock direction of wrist-watch body, the corresponding 1 six o' clock of wrist-watch body of 4 lower extremes of transparent lens. The blind touch structure 6 and the transparent lens 4 have between the edge of upper end and/or the lower extreme edge and preset the clearance, and the numerical value of presetting the clearance is designed by designer, and the numerical value is less to guarantee that in the physiological data acquisition process, user's fingertip can not deviate transparent lens 4 too big, lead to gathering the regional physiological data of the unable accurate collection fingertip of component. Specifically, when blind structure 6 is one, the upper end edge butt of single blind structure 6 and transparent lens 4 that touches, the user is when measuring, and the fingertip of finger is terminal to touch structure 6 butt with blind to can guarantee that the finger covers transparent camera lens completely, and user's fingertip region is just to gathering the component, avoids because of finger and transparent lens 4 contact incomplete, 2 regional incompletions in the collection that inside gathering component corresponds lead to the measured data inaccurate. For example, when a blood pressure sensor is used for collecting blood pressure data of a user, the blood pressure sensor comprises an emitting lamp and a light receiver 10, the emitting lamp of the blood pressure sensor irradiates finger blood to generate reflection, and the reflected light is received by the light receiver 10 of the blood pressure sensor to form a certain light waveform curve, so that the blood pressure of the user is measured. If the contact between the finger of the user and the transparent lens 4 is incomplete, the light leakage of the emitting lamp of the blood pressure sensor is caused, and the finally measured blood pressure data is inaccurate. When the number of the blind contact structures 6 is two, the blind contact structures 6 are symmetrically arranged on the acquisition area 2 and are respectively abutted with the edges of the upper end and the lower end of the transparent lens 4. Similarly, when the user is measuring, the fingertip end of the finger abuts against the blind contact structure 6 at the upper end of the collection area 2, and the blind contact structure 6 at the lower end of the collection area 2 contacts with the knuckle of the finger, so that the user can better determine the position corresponding relation between the section of finger where the fingertip is located and the transparent lens 4, and the section of finger where the fingertip is located can completely cover the transparent lens 4.

Further, the blind contact structure 6 is a protrusion, and an outer contour of the protrusion corresponds to an outer contour of the upper end edge and/or the lower end edge of the transparent lens 4, so that the protrusion completely surrounds the upper end edge and/or the lower end edge of the transparent lens 4.

In this embodiment, the blind contact structure 6 is a protrusion, and the outer contour of the protrusion corresponds to the outer contour of the upper end edge and/or the lower end edge of the transparent lens 4, so that the protrusion completely surrounds the upper end edge and/or the lower end edge of the transparent lens 4. Preferably, in the angular direction shown in fig. 2, the transparent lens 4 is oval-like, the ends are semi-circles, the middle is a straight line, and the shape of the protrusion corresponding to the outer contour of the upper end edge and/or the lower end edge of the transparent lens 4 is crescent-shaped as a whole. The shape of the side, close to the transparent lens 4, of the crescent-shaped bulge conforms to the shape of a fingertip of a human body, a user puts a finger on the transparent lens 4, and when the fingertip conforms to the crescent-shaped bulge, the finger is indicated to be put on the tail, the transparent lens 4 can be completely covered, and the accuracy of data measurement is effectively improved.

Further, the height of the blind touch structure 6 based on the surface of the acquisition region 2 is larger than the height of the anti-skid structure 5 based on the surface of the acquisition region 2.

In this embodiment, the collection area 2 may be provided with the anti-slip structure 5 or the blind-touch structure 6, or may be provided with the anti-slip structure 5 and the blind-touch structure 6 at the same time. If be provided with anti-skidding structure 5 and blind structure 6 of touching on gathering the district 2 simultaneously, in order to guarantee that the user puts on gathering the district 2 with the finger, the transparent glass can be completely covered to the fingertip, and the height that blind structure 6 was touched the structure 6 and is based on gathering the 2 surface needs to be greater than anti-skidding structure 5 and is based on the height of gathering the 2 surface. Thereby, the user's finger can clearly perceive the existence limit of the blind touch structure 6, thereby avoiding that the finger covers the transparent lens 4 incompletely.

Referring to fig. 4, further, a mounting groove is arranged at the bottom of the recessed portion, and the shape of the mounting groove corresponds to the shape of the collecting plate 3;

the collecting plate 3 is provided with clamping structures, and the clamping structures are symmetrically arranged at two ends of the collecting plate 3;

the collecting plate 3 is fixed in the mounting groove through the clamping structure.

Preferably, the clamping structure is a bent elastic sheet 7, and the bent elastic sheet 7 is integrally V-shaped;

the bent elastic sheet 7 is abutted against the inner wall of the mounting groove to fix the acquisition plate.

In this embodiment, the depressed part bottom is provided with the mounting groove, and the mounting groove is used for the installation to gather board 3, and holistic shape is corresponding with the shape of gathering board 3. For example, the collection plate 3 is rectangular, and the mounting groove is rectangular as a whole. The acquisition board 3 can be directly fixed in the mounting groove through media such as viscose, and can also be fixedly mounted through an auxiliary mechanism. Specifically, the collecting plate 3 is provided with a clamping structure, and the clamping structure is symmetrically arranged at two ends of the collecting plate 3. When installing collection plate 3 in the mounting groove, the inner wall of joint structure butt mounting groove to make collection plate 3 can fix in the mounting groove. Preferably, the clamping structure is a bent elastic sheet 7, and the bent elastic sheet 7 can be elastically deformed. Because the space of the installation groove is smaller, the whole bent elastic sheet 7 is in a V shape (or in a W shape or other similar shapes). When installing board 3 in the mounting groove, the shell fragment 7 of buckling and the inner wall butt of mounting groove take place elastic deformation with whole pressurized, and the elasticity that produces will gather board 3 and firmly fix in the mounting groove, avoid it to drop. Meanwhile, the bending elastic piece is 7V-shaped, so that the gap between the collecting plate 3 and the inner wall of the mounting groove can be reduced to the greatest extent.

Referring to fig. 3, further, the collecting element includes a blood pressure sensor including a first emitting lamp 8, a second emitting lamp 9 and a light receiver 10;

the first emission lamp 8 and the second emission lamp 9 are arranged in the upper area of the collecting plate 3;

the light receiver 10 is arranged in the middle area of the collecting plate 3.

In this embodiment, the collecting element includes a blood pressure sensor, and the blood pressure sensor includes a first emission lamp 8, a second emission lamp 9, and a light receiver 10. Wherein the first and second emission lamps 8 and 9 are disposed at an upper region of the collecting plate 3, and the light receiver 10 is disposed at a middle region of the collecting plate 3. Wherein, when the upper region was worn the intelligent wrist-watch for the user, gather the ending region that board 3 corresponds 1 twelve o' clock directions of wrist-watch body. When the user used intelligent wrist-watch to gather blood pressure data, light was launched to first sending light 8 and second sending light 9, shines taking the finger of putting on the ya keli lens. The light rays are reflected after irradiating the finger blood, the reflected light is received by the light receiver 10 in the middle area, a certain light waveform curve is formed, and the processor of the intelligent watch calculates the blood pressure value of the user according to the light waveform curve, so that the blood pressure data of the user is acquired.

With reference to fig. 3, further, the acquisition element further comprises a pressure sensor 11, the pressure sensor 11 being arranged in a lower region of the acquisition plate 3.

In this embodiment, the collecting element further includes a pressure sensor 11, wherein the pressure sensor 11 is disposed in a lower region of the collecting plate 3, and wherein the second preset region is a terminal region of the collecting plate 3 corresponding to the watch body in the six o' clock direction when the user wears the smart watch. There is a very small gap between the pressure sensor 11 and the transparent lens 4, which causes the lens to deform when a user's finger presses on the transparent lens 4, so that the pressure sensor 11 senses the pressure of the finger pressing on the lens. When the pressing pressure of the user's finger on the transparent lens 4 is too large, blood circulation of the finger is abnormal, and thus inaccurate data detection is caused. Therefore, when the smart watch monitors that the finger pressing force of the user is larger than the threshold value through the pressure sensor 11, the smart watch informs the user of releasing the pressing through voice information so as to ensure normal collection of physiological data.

Further, a key 12 is further disposed on the collection area 2, the key 12 is located in a lower half area of the collection area 2, and the collection module is located in an upper half area of the collection area 2;

the height of the whole collection module relative to the plane of the collection area 2 after installation is smaller than the height of the collection module relative to the plane of the collection area 2 after installation of the key 12.

In this embodiment, the collecting area 2 is further provided with a key 12, which is a switch key 12 and an SOS key 12. The keys 12 are distributed in the lower half of the acquisition area 2, while the acquisition modules are located in the upper half of the acquisition area 2. The height of the whole collection module relative to the plane of the collection area 2 after installation is smaller than the height of the key 12 relative to the plane of the collection area 2 after installation, so that the surface of the collection area 2 is integrally concave and convex, and is more fit with the shape of one side of the finger belly of a human finger. When the user is taking the finger to put on gathering district 2, the relative finger tripe protrusion of bone joint of finger, bone joint can transfer and gather the depressed part between module and the button 12 to make the whole laying of gathering district 2 of finger more firm, can effectively guarantee the finger and gather the good contact of the module on the district 2.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, apparatus, article, or method that includes the element.

The above description is only for the preferred embodiment of the present application and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (10)

1. An intelligent watch is characterized by comprising a watch body, wherein a collection area is concavely arranged on the side surface of the watch body, the head end and the tail end of the whole collection area are bent, and the middle part is a straight line;

the acquisition area is provided with an acquisition module, and the acquisition module is used for acquiring human physiological data.

2. The smartwatch of claim 1, wherein the collection module comprises a collection plate and a transparent lens, the collection area having a recess disposed thereon;

the transparent lens is covered on the sunken part to form a closed cavity;

the collecting plate is fixedly arranged in the closed cavity;

the collecting plate is provided with a collecting element, and the front surface of the collecting element faces the transparent lens.

3. The smart watch of claim 2, wherein the transparent lens is an acrylic lens, and an anti-slip structure is disposed on an edge of an outer surface of the acrylic lens.

4. The smartwatch of claim 3, wherein the collection area is provided with a blind touch structure, the blind touch structure is close to the upper edge or the upper and lower edges of the transparent lens, and a preset gap is formed between the blind touch structure and the upper edge and/or the lower edge of the transparent lens.

5. The smartwatch according to claim 4, wherein the blind contact structure is a protrusion having an outer contour corresponding to an outer contour of the upper and/or lower end edge of the transparent lens such that the protrusion completely surrounds the upper and/or lower end edge of the transparent lens.

6. The smartwatch of claim 5, wherein the blind touch structure has a height based on the collection zone surface that is greater than a height of the anti-skid structure based on the collection zone surface.

7. The smart watch of claim 2, wherein a mounting groove is provided at the bottom of the recess, and the mounting groove has a shape corresponding to the shape of the collecting plate;

the collecting plate is provided with clamping structures, and the clamping structures are symmetrically arranged at two ends of the collecting plate;

the collecting plate is fixed in the mounting groove through the clamping structure.

8. The smart watch of claim 2, wherein the collection element comprises a blood pressure sensor comprising a first emission light, a second emission light, and a light receiver;

the first emission lamp and the second emission lamp are arranged in the upper area of the collecting plate;

the light receiver is arranged in the middle area of the collecting plate.

9. The smartwatch of claim 2, wherein the collection element further comprises a pressure sensor disposed at a lower region of the collection plate.

10. The smartwatch of claim 1, wherein the collection area further comprises a key located in a lower half area of the collection area, and the collection module is located in an upper half area of the collection area;

the height of the whole collection module relative to the plane of the collection area after installation is smaller than the height of the collection module relative to the plane of the collection area after installation of the key.

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