CN212181270U - Intelligent watch - Google Patents

Abstract

The utility model relates to an intelligent watch, detain including dial plate, first watchband, second watchband and table, the one end of first watchband with the dial plate is connected, the one end of second watchband with the dial plate is connected, the setting is detained to the table on the first watchband, the table is detained and is used for with first watchband with the second watchband is together fixed, and the table is detained and is equipped with the health test module. The watch buckle of the intelligent watch is provided with the health test module, and the health test module has a health test function, so that the intelligent watch has the health test function.

Description

Intelligent watch

Technical Field

The utility model relates to an equipment field is worn to the intelligence, especially relates to an intelligent wrist-watch.

Background

As a common intelligent wearable device, smart watches are increasingly accepted by consumers.

However, due to the size limitation of the smart watch and the appearance requirement of the product, the conventional smart watch often does not have a health test function.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a smart watch having a health test function.

The utility model provides an intelligent watch, includes dial plate, first watchband, second watchband and table knot, the one end of first watchband with the dial plate is connected, the one end of second watchband with the dial plate is connected, the setting is detained to the table on the first watchband, the table is detained and is used for with first watchband with the second watchband is together fixed, and the table is detained and is equipped with the health test module.

The watch buckle of the intelligent watch is provided with the health test module, and the health test module has a health test function, so that the intelligent watch has the health test function.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Wherein:

fig. 1 is a perspective view of a smart watch according to an embodiment.

Fig. 2 is an exploded view of the watch buckle and the health testing module of the smart watch shown in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the following detailed description. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In one embodiment, as shown in fig. 1, the smart watch includes a watch face 10, a first band 20, a second band 30, and a clasp 40.

One end of first band 20 is connected with dial 10, and one end of second band 30 is connected with dial 10, and watch buckle 40 sets up on first band 20, and watch buckle 40 is used for fixing first band 20 and second band 30 together to be equipped with health test module 50 on watch buckle 40.

The watch buckle 40 of the intelligent watch is provided with the health test module 50, and the health test module 50 has a health test function, so that the intelligent watch has the health test function.

Specifically, in the present embodiment, clasp 40 is provided at the other end of first band 20.

Referring to the drawings, in the present embodiment, a plurality of through holes 32 are provided in second band 30, and after second band 30 is inserted through clasp 40, the plurality of through holes 32 are inserted into the plurality of through holes 32 and the plurality of ears are abutted against clasp 40, thereby fixing first band 20 and second band 30 together.

In other embodiments, other specific attachment means may be used to secure first band 20 and second band 30 together. For example, a plurality of ribs or grooves are formed on the second band 30, a plurality of grooves or ribs are correspondingly formed on the watch buckle 40, and the first band 20 and the second band 30 are fixed together by the cooperation of the ribs and the grooves after the second band 30 passes through the watch buckle 40.

With reference to the drawings, when the smart watch is worn on a human body, the health test module 50 is located on one side of the watch buckle 40 close to the human body.

This is to make the health testing module 50 closer/closer to the human body, so that the detection result is more accurate.

Particularly, the intelligent watch is worn on the wrist, at the moment, the watch buckle 40 is in contact with the inner side of the wrist, blood vessels on the inner side of the wrist are abundant, and the health test module 50 can complete the health test of the human body more accurately.

In this embodiment, one surface of the watch buckle 40 close to the human body is provided with an accommodating through hole 42 for accommodating the health test module 50, and the health test module 50 is arranged in the accommodating through hole 42.

Through setting up health test module 50 in holding through-hole 42, avoided making the thickness increase of table knot 40 owing to increase health test module 50 to avoid experiencing the whole outward appearance of intelligent wrist-watch and wearing and cause the influence.

In another preferred embodiment, the surface of the clasp 40 close to the human body is provided with a receiving slot or a notch for receiving the health test module 50.

In other embodiments, the health testing module 50 may be stacked on the surface of the watch buckle 40 close to the human body.

Referring to FIG. 2, the health test module 50 includes a cover 58 and a plurality of test elements. For better description of the health test module 50, the following description will be made according to the actual functions of the test elements.

The health test module 50 comprises an electrocardio test module, the electrocardio test module comprises a positive electrode 51, a negative electrode 54 and an ECG electrocardio sensing chip 52, the positive electrode 51 and the negative electrode 54 are respectively and electrically connected with the ECG electrocardio sensing chip 52, and the positive electrode 51 and the negative electrode 54 are used for being electrically connected with a human body.

When the intelligent watch is worn on a human body, the positive electrode 51 and the negative electrode 54 are electrically connected with the human body, so that the weak current change of the human body is measured, and information is collected through the ECG electrocardio sensing chip 52.

Preferably, the positive electrode 51 and the negative electrode 54 are disposed opposite to each other, and an angle between a line connecting the positive electrode 51 and the negative electrode 54 and a longitudinal direction of the first band 20 is 0 ° to 60 °.

By means of the arrangement, when the intelligent watch is worn on the wrist, the positive electrode 51 and the negative electrode 54 are respectively located on two sides of the blood vessel on the inner side of the wrist, and therefore measurement can be achieved better.

In conjunction with fig. 2, the health testing module 50 further includes a heart rate testing module, a body temperature detecting module and a blood oxygen detecting module.

The heart rate test module comprises a red light LED lamp and a photosensitive diode, the red light LED lamp and the photosensitive diode form an optical heart rate sensor 57, the body temperature detection module comprises an infrared sensor 53, and the blood oxygen detection module comprises a red light emitting tube 55, an infrared light emitting tube 56 and a photosensitive diode forming the optical heart rate sensor 57.

Specifically, the heart rate test module is implemented by optical heart rate sensor 57 (red LED lamp + photodiode) hardware. When the smart watch is worn by a human body, the optical heart rate sensor 57, which is in contact with the skin of the human body, emits a beam of light that impinges on the skin, measuring the reflected/transmitted light. Because blood absorbs light of a particular wavelength, each time the heart pumps blood, that wavelength is absorbed in large amounts, and the heartbeat can be determined.

Specifically, the body temperature detection module realizes a detection function through the infrared sensor 53, and is a meter for measuring the body temperature of a human body by using a radiation principle. The infrared sensor 53 absorbs only infrared rays radiated from the human body without emitting any rays to the outside, and senses the body temperature of the human body through a non-contact method. The infrared heat radiation of the human body is focused on the infrared sensor 53, and the infrared sensor 53 converts the radiation power into an electric signal that can be displayed in units of temperature after being compensated for the ambient temperature.

Specifically, the blood oxygen detection module includes a red light emitting tube 55 and an infrared light emitting tube 56 that emit red light and infrared light, respectively, and a photodetector (which shares a photodiode with the heart rate test module) is installed to convert the detected red light and infrared light that have passed through the arterial blood vessel into electrical signals. More infrared light is absorbed through saturated hemoglobin, and more red light is absorbed through unsaturated hemoglobin, so that blood oxygen detection is realized.

In this embodiment, the health testing module 50 further includes a blood pressure detecting module, and the electrocardiograph testing module and the heart rate testing module jointly constitute the blood pressure detecting module.

The blood pressure detection module can calculate the blood pressure through an algorithm according to the detection results of the heart rate test module and the electrocardio test module.

Heart rate, electrocardiogram, body temperature, blood pressure and blood oxygen are the most important parameters reflecting the health condition of human body, and the parameters can be detected and calculated by relatively small detecting elements and relatively simple detecting methods. The health test module 50 comprising the five detection modules can be applied to the intelligent watch, so that the function of the intelligent watch can be greatly increased, and the user experience is improved.

With reference to fig. 2, in the present embodiment, the optical heart rate sensor 57 is located in the central area of the health test module, the positive electrode 51, the ECG electrocardiograph sensing chip 52, the infrared sensor 53, the negative electrode 54, the red light emitting tube 55 and the infrared light emitting tube 56 are sequentially arranged and are disposed at intervals in the peripheral area of the health test module, and the positive electrode 51, the ECG electrocardiograph sensing chip 52, the infrared sensor 53, the negative electrode 54, the red light emitting tube 55 and the infrared light emitting tube 56 are sequentially arranged to surround the optical heart rate sensor 57.

Such a layout can better perform the detection function of the optical heart rate sensor 57, and can better utilize the limited space on the back of the buckle 40.

Specifically, when the smart watch is worn on the wrist, the optical heart rate sensors 57 are respectively located at the center positions of the inner sides of the wrist, so that the optical heart rate sensors 57 are in contact with blood vessels of the inner sides of the wrist, and more accurate measurement can be achieved.

More specifically, the positive electrode 51, the ECG electrocardio sensing chip 52, the infrared sensor 53, the negative electrode 54, the red light emitting tube 55 and the infrared light emitting tube 56 are sequentially and uniformly arranged and enclose a circle, the positive electrode 51 and the negative electrode 54 are oppositely arranged, the ECG electrocardio sensing chip 52 and the red light emitting tube 55 are oppositely arranged, the infrared sensor 53 and the infrared light emitting tube 56 are oppositely arranged, and a connecting line of the ECG electrocardio sensing chip 52 and the red light emitting tube 55 is parallel to the length direction of the first watchband 20.

By means of the arrangement, when the intelligent watch is worn on the wrist, the positive electrode 51 and the negative electrode 54 are respectively located on two sides of the blood vessel on the inner side of the wrist, the ECG electrocardio sensing chip 52 and the red light emitting tube 55 are respectively located on two sides of the blood vessel on the inner side of the wrist, and the infrared sensor 53 and the infrared light emitting tube 56 are also respectively located on two sides of the blood vessel on the inner side of the wrist, so that measurement can be better achieved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. An intelligent watch is characterized by comprising a dial plate, a first watchband, a second watchband and a watch buckle, wherein one end of the first watchband is connected with the dial plate, one end of the second watchband is connected with the dial plate, the watch buckle is arranged on the first watchband, the watch buckle is used for fixing the first watchband and the second watchband together, and a health test module is arranged on the watch buckle;

the health test module comprises an electrocardio test module, and the electrocardio test module comprises a positive electrode, a negative electrode and an ECG electrocardio sensing chip;

when the intelligent watch is worn on a human body, the positive pole and the negative pole are electrically connected with the human body.

2. The smart watch of claim 1, wherein the health test module is located on a side of the clasp proximate to the human body when the smart watch is worn on the human body.

3. The smart watch of claim 2, wherein a side of the watch buckle close to the human body is provided with an accommodating through hole, an accommodating groove or an accommodating notch for accommodating the health test module.

4. The smartwatch of claim 1, wherein the watch clasp is disposed at an opposite end of the first watchband.

5. The smartwatch of claim 1, wherein the positive electrode and the negative electrode are disposed opposite to each other, and an angle between a line connecting the positive electrode and the negative electrode and a length direction of the first band ranges from 0 ° to 60 °.

6. The smart watch of claim 1, wherein the health test module further comprises a heart rate test module, a body temperature detection module, and a blood oxygen detection module;

the heart rate testing module comprises a red light LED lamp and a photosensitive diode, the red light LED lamp and the photosensitive diode form an optical heart rate sensor, the body temperature detecting module comprises an infrared sensor, and the blood oxygen detecting module comprises a red light emitting tube, an infrared light emitting tube and the photosensitive diode.

7. The smart watch of claim 6, wherein the health test module further comprises a blood pressure detection module, and the electrocardiograph test module and the heart rate test module together constitute the blood pressure detection module.

8. The smart watch according to claim 6, wherein the optical heart rate sensor is located in a central area of the health test module, the positive electrode, the ECG sensor chip, the infrared sensor, the negative electrode, the red light emitting tube and the infrared light emitting tube are sequentially arranged and are arranged at intervals in a peripheral area of the health test module, and the positive electrode, the ECG sensor chip, the infrared sensor, the negative electrode, the red light emitting tube and the infrared light emitting tube are sequentially arranged to surround the optical heart rate sensor.

9. The smart watch according to claim 8, wherein the positive electrode, the ECG sensor chip, the infrared sensor, the negative electrode, the red light emitting tube and the infrared light emitting tube are arranged in sequence and are arranged uniformly to form a circle, the positive electrode and the negative electrode are arranged oppositely, the ECG sensor chip and the red light emitting tube are arranged oppositely, the infrared sensor and the infrared light emitting tube are arranged oppositely, and a connecting line of the ECG sensor chip and the red light emitting tube is parallel to a length direction of the first watch band.

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