CN106667450B - Temperature measuring method and device - Google Patents

Abstract

The embodiment of the invention discloses a temperature measuring method and device. The method comprises the following steps: detecting the limb movement of a user through an acceleration sensor built in a terminal, wherein the terminal is worn on the wrist of the user; if the wrist of the user is detected to be lifted, determining whether the starting condition of the temperature sensor is met according to the state of the terminal and the terminal posture; and if so, starting the temperature sensor and acquiring the temperature measured by the temperature sensor. The embodiment of the invention solves the problem of how to simply and accurately measure the body temperature of the user, and realizes the automatic measurement of the body temperature of the user according to the action of the user, the state of the terminal and the posture of the terminal.

Description

Temperature measuring method and device

Technical Field

The embodiment of the invention relates to an intelligent terminal optimization technology, in particular to a temperature measurement method and device.

Background

With the continuous development of intelligent terminals, intelligent terminals such as intelligent wearable devices or smart phones are increasingly applied to various fields.

The temperature measuring instrument commonly used for measuring the body temperature at present comprises: most users cannot carry the temperature measuring instrument with them, and especially children before school age are regarded as a high-fever crowd, and the problem of how to simply and accurately measure the body temperature becomes the attention of parents under the condition that the parents do not accompany the high-fever crowd.

Disclosure of Invention

The invention provides a temperature measuring method and a temperature measuring device, which are used for automatically measuring the body temperature of a user.

In a first aspect, an embodiment of the present invention provides a temperature measurement method, where the method includes:

detecting the limb movement of a user through an acceleration sensor built in a terminal, wherein the terminal is worn on the wrist of the user;

if the wrist of the user is detected to be lifted, determining whether the starting condition of the temperature sensor is met according to the state of the terminal and the terminal posture;

and if so, starting the temperature sensor and acquiring the temperature measured by the temperature sensor.

Further, if it is detected that the wrist of the user is lifted, determining whether a starting condition of the temperature sensor is met according to the state of the terminal and the posture of the terminal, including:

if the wrist of the user is detected to be lifted, determining whether the terminal is in a call state, wherein the call state is an incoming call state, a dialing state or a call connection state;

if the terminal is not in a call state, determining whether the terminal is in a preset temperature measurement posture;

and if the terminal is in the temperature measurement posture, determining the starting condition of the temperature sensor.

Further, determining whether the terminal is in a preset temperature measurement posture includes:

determining whether an infrared temperature measuring hole of the terminal is over against a user according to the posture of the terminal;

and if so, determining that the terminal is in the temperature measurement posture.

Further, determining whether the infrared temperature measuring hole of the terminal is over against the user according to the posture of the terminal includes:

acquiring an attitude angle of the terminal, and determining the orientation of the terminal according to the attitude angle;

and determining whether the infrared temperature measuring hole of the terminal is over against the user according to the orientation of the terminal.

Further, the start-up temperature sensor includes:

and detecting the distance between the terminal and the user, and starting the temperature sensor if the distance is less than a preset temperature measurement distance threshold value.

In a second aspect, an embodiment of the present invention further provides a temperature measuring device, where the temperature measuring device includes:

the motion detection module is used for detecting the limb motion of a user through an acceleration sensor built in a terminal, wherein the terminal is worn on the wrist of the user;

the starting condition determining module is used for determining whether the starting condition of the temperature sensor is met or not according to the state of the terminal and the terminal posture if the wrist of the user is detected to be lifted;

and the temperature measuring module is used for starting the temperature sensor if the temperature is met, and acquiring the temperature measured by the temperature sensor.

Further, the starting condition determining module includes:

the device comprises a call state determining unit, a call state judging unit and a call state judging unit, wherein the call state determining unit is used for determining whether a terminal is in a call state or not if the wrist of a user is detected to be lifted, and the call state is an incoming call state, a dialing state or a call connection state;

the terminal posture determining unit is used for determining whether the terminal is in a preset temperature measuring posture or not if the terminal is not in a call state;

and the starting condition determining unit is used for determining the starting condition of the temperature sensor if the terminal is in the temperature measuring posture.

Further, the terminal attitude determination unit includes:

the temperature measuring hole posture determining subunit is used for determining whether the infrared temperature measuring hole of the terminal is over against the user according to the posture of the terminal;

and the temperature measurement posture determining subunit is used for determining that the terminal is in the temperature measurement posture if the infrared temperature measurement hole of the terminal is over against the user.

Further, the temperature measurement hole posture determining subunit is specifically configured to:

acquiring an attitude angle of the terminal, and determining the orientation of the terminal according to the attitude angle; and determining whether the infrared temperature measuring hole of the terminal is over against the user according to the orientation of the terminal.

Further, the temperature measurement module is specifically configured to:

and detecting the distance between the terminal and the user, and starting the temperature sensor if the distance is less than a preset temperature measurement distance threshold value.

According to the embodiment of the invention, when the acceleration sensor arranged in the terminal detects that the wrist of the user is lifted, the state and the terminal posture of the terminal are detected to determine whether the starting condition of the temperature sensor is met, if so, the temperature sensor is started, and the temperature measured by the temperature sensor is obtained, so that the problem that how to simply and accurately measure the body temperature of the user is solved, and the body temperature of the user is automatically measured according to the action of the user, the state and the terminal posture of the terminal.

Drawings

FIG. 1 is a flow chart of a temperature measuring method according to an embodiment of the present invention;

FIG. 2 is a flowchart of a temperature measurement method according to a second embodiment of the present invention;

FIG. 3 is a flowchart of a temperature measurement method according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a temperature measuring device according to a fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a flowchart of a temperature measuring method according to an embodiment of the present invention, where the present embodiment is applicable to a case of automatically measuring a body temperature, and the method may be executed by the temperature measuring device according to the embodiment of the present invention, and the temperature measuring device may be implemented in a software and/or hardware manner, and the temperature measuring device may be integrated in a terminal with a temperature measuring function, and for example, the terminal may be an intelligent terminal such as a smart watch or a smart bracelet. Referring to fig. 1, the method specifically includes the following steps:

and S110, detecting the limb movement of the user through an acceleration sensor built in the terminal, wherein the terminal is worn on the wrist of the user.

In the embodiment, the acceleration of the wrist where the terminal is located is determined through the acceleration sensor, and the movement of the wrist of the user is determined according to the acceleration.

For example, the applied acceleration sensor may measure linear acceleration information of the wrist wearing the terminal moving from the position a to the position B, which may be represented by linear acceleration information of three coordinate axes of an X axis, a Y axis and a Z axis. And establishing a space rectangular coordinate system, wherein the direction in front of the user and parallel to the horizontal plane is an X axis, the direction parallel to the horizontal plane and vertical to the X axis is a Y axis, and the direction vertical to the horizontal plane is a Z axis. The acceleration information may be (0, 0, 9.8) when the wrist is at rest at position a and (0, 0, 9) when the wrist is moved from position a to position B, indicating an upward acceleration of the terminal, further determining an upward movement of the wrist on which the terminal is worn.

And S120, if the wrist of the user is detected to be lifted, determining whether the starting condition of the temperature sensor is met according to the state of the terminal and the terminal posture.

In this embodiment, a temperature sensor is built in the terminal surface, and the body temperature of the user is measured through a temperature measuring hole on the terminal surface. For the measurement of the temperature of the human body, the temperature of the ear hole is relatively accurate and high, the great change along with the external environment temperature or the motion of the human body can not be generated, and the measurement is simple and convenient.

The state of the terminal refers to a current state of the terminal when the wrist of the user is lifted, and the current state of the terminal may be, for example, a normal standby state or a call state. The terminal posture refers to the orientation of the terminal relative to the user, and for example, the terminal posture may be that the terminal is facing the user or the terminal screen is facing upward, etc.

The temperature sensor start condition refers to a condition in which the terminal automatically starts the temperature sensor. In this embodiment, the temperature sensor may be activated when the terminal is in a normal standby state and the surface of the temperature measuring hole of the terminal faces the user.

And S130, if the starting condition of the temperature sensor is met, starting the temperature sensor, and acquiring the temperature measured by the temperature sensor.

The temperature sensor can be an infrared temperature sensor, and the human body temperature is determined by receiving infrared rays radiated by a human body. The higher the temperature of a human body is, the more infrared rays are radiated, the stronger the energy of infrared radiation is, the infrared temperature sensor utilizes the radiant heat effect to enable the temperature of a detection device to rise after receiving the radiant energy, and then the performance related to the temperature in the sensor is changed, and the radiation can be detected by detecting the change of the performance.

In the embodiment, when the terminal meets the temperature sensor starting condition, the temperature sensor is automatically started, and the temperature measured by the temperature sensor is obtained; when the terminal does not meet the starting condition of the temperature sensor, the temperature sensor is prohibited from being started, and the problem that the terminal starts the temperature sensor when the starting condition of the temperature sensor is not met, so that the normal use of the terminal is interfered is avoided.

According to the technical scheme of the embodiment, when the acceleration sensor arranged in the terminal detects that the wrist of the user is lifted, the state and the terminal posture of the terminal are detected to determine whether the starting condition of the temperature sensor is met, if so, the temperature sensor is started, and the temperature measured by the temperature sensor is obtained. The temperature sensor is prevented from being started when the terminal does not meet the starting condition of the temperature sensor, the problem of how to simply and accurately measure the body temperature of the user is solved, and the body temperature of the user can be automatically measured according to the action of the user, the state of the terminal and the posture of the terminal.

On the basis of the above embodiment, step S130 may include:

and detecting the distance between the terminal and the user, and starting the temperature sensor if the distance is less than a preset temperature measurement distance threshold value.

The distance sensor can be an infrared distance sensor or an ultrasonic distance sensor, and the temperature sensor and the distance sensor are arranged on the same side of the terminal, so that the distance between the temperature measuring hole and the user can be represented by the distance between the terminal and the user.

The thermometric distance threshold refers to the maximum distance that the temperature sensor can accurately measure the body temperature of the user. For example, if the distance between the temperature measuring hole and the user is greater than a temperature measuring distance threshold, the accurately measured human body temperature cannot be obtained, and the temperature measuring distance threshold may be 10cm, for example.

In this embodiment, when the terminal satisfies the temperature sensor starting condition, the distance between the terminal and the user is detected by the distance sensor, and if the distance is smaller than the preset temperature measurement distance threshold, the temperature sensor is started, and the temperature measured by the temperature sensor is obtained. If the distance is larger than or equal to the preset temperature measuring distance threshold value, the temperature sensor is forbidden to be started, and the condition that the human body temperature measurement is inaccurate or the normal use of the terminal is interfered is avoided.

Example two

Fig. 2 is a flowchart of a temperature measurement method according to a second embodiment of the present invention, which is optimized based on the first embodiment, and further provides a method for determining whether a temperature sensor start condition is satisfied according to a state of the terminal and a posture of the terminal if the user's wrist is detected to be lifted. Correspondingly, referring to fig. 2, the method may specifically include the following steps:

s210, detecting the limb movement of the user through an acceleration sensor built in the terminal, wherein the terminal is worn on the wrist of the user.

S220, if the wrist of the user is detected to be lifted, whether the terminal is in a call state is determined, wherein the call state is an incoming call state, a dialing state or a call connection state, if not, the step S230 is executed, and if yes, the temperature sensor is prohibited from being started.

When the user's wrist is lifted, there may be the following situations: ear temperature measurement, answering a call, or other normal wrist lifting actions. In this embodiment, when the wrist of the user is lifted, it is determined whether the terminal is in a call state, if so, the case that the terminal is in an ear temperature measurement state is excluded, and if not, it is further determined whether the terminal is in the ear temperature measurement state.

In this embodiment, when it is detected that the terminal is in any one of the incoming call state, the dialing state, and the call connection state, it is determined that the terminal is not in the ear temperature measurement state, and the temperature sensor is prohibited from being started.

And S230, determining whether the terminal is in a preset temperature measurement posture, if so, executing the step S240, and if not, forbidding starting the temperature sensor.

The temperature measurement posture refers to a posture of the terminal when the ear temperature is detected.

S240, determining that the terminal meets the starting condition of the temperature sensor, starting the temperature sensor, and acquiring the temperature measured by the temperature sensor.

In this embodiment, when the wrist of the user is lifted and the terminal is not in a call state, whether the terminal is in a preset temperature measurement posture is further determined. If the terminal is not in the preset temperature measurement posture, the terminal is determined not to meet the starting condition of the temperature sensor, the temperature sensor is prohibited from being started, and the situation that the temperature sensor is started when a user normally lifts the wrist to interfere normal use of the terminal is avoided. And if the terminal is in the preset temperature measurement posture, determining that the terminal meets the starting condition of the temperature sensor.

According to the technical scheme, when the terminal is not in a conversation state and is in the preset temperature measurement posture, the terminal is determined to meet the starting condition of the temperature sensor, the temperature sensor is started, the temperature measured by the temperature sensor is acquired, the terminal is prevented from being started when the terminal is in the conversation state and/or is not in the preset temperature measurement posture, interference generated when a user normally lifts a wrist or normally uses the terminal is avoided, and the ear temperature of the user is automatically measured.

EXAMPLE III

Fig. 3 is a flowchart of a temperature measurement method according to a third embodiment of the present invention, which is optimized based on the third embodiment, and further provides a method for determining whether an infrared temperature measurement hole of a terminal is facing a user according to a posture of the terminal. Correspondingly, the method specifically comprises the following steps:

and S310, detecting the limb movement of the user through an acceleration sensor built in the terminal, wherein the terminal is worn on the wrist of the user.

S320, if the wrist of the user is detected to be lifted, determining whether the terminal is in a call state, wherein the call state is an incoming call state, a dialing state or a call connection state, if not, executing a step S330, and if so, forbidding to start the temperature sensor.

S330, determining whether the infrared temperature measuring hole of the terminal is over against the user according to the posture of the terminal, if not, executing the step S340, and if so, executing the step S350.

In this embodiment, the infrared temperature measurement hole is disposed on the surface of the terminal. When the wrist of the user is lifted and the terminal is not in a call state, determining the posture of the terminal, and determining whether the surface of the terminal where the infrared temperature measurement hole is located is over against the user or not according to the posture of the terminal.

In this embodiment, in order to distinguish the call state and the ear temperature measurement state of the terminal, the infrared temperature measurement hole and the receiver may be respectively disposed on different surfaces of the terminal. For example, the receiver may be disposed on the same surface as the terminal screen, for example, the upper surface of the terminal; the infrared temperature measuring hole can be arranged on the side surface of the terminal. Whether the infrared temperature measuring hole of the terminal is over against the user can be accurately determined through the posture of the terminal, and the situation that when the infrared temperature measuring hole is not over against the user, the temperature sensor is started to cause inaccurate measurement or interfere normal use of the terminal is avoided.

Optionally, step S330 includes:

acquiring an attitude angle of the terminal, and determining the orientation of the terminal according to the attitude angle;

and determining whether the infrared temperature measuring hole of the terminal is over against the user according to the orientation of the terminal.

The attitude angle of the terminal is an angle which takes the center of mass of the terminal as the origin of coordinates and is used for describing the self motion of the terminal, and the terminal orientation refers to the direction of the position of the terminal. For example, the orientation may be further calculated by measuring angular acceleration information of the terminal by a gyroscope, and when it is determined that the wrist of the user is in a lifted state, the orientation of the terminal is further determined. Specifically, the application of the gyroscope can measure the angular acceleration information of the terminal moving from the position A to the position B. The gyroscope is an angular motion detection device which uses a momentum moment sensitive shell of a high-speed revolving body to rotate around one or two axes which are orthogonal to a rotation axis relative to an inertia space, and the angular motion detection device manufactured by using other principles has the same function and is also called a gyroscope. Since the angle information has directivity, for example, when the terminal moves from the position a to the position B, the terminal can be judged to be turned over by judging the angle change in the directions of the three coordinate axes, and it can be understood that the terminal is placed in a horizontal state or a vertical state. Taking the terminal as a watch as an example, the angular acceleration information measured by the gyroscope is used to obtain the angle information, and then the watch is determined to be right side up or right side down.

In this embodiment, whether the infrared temperature measurement hole of the terminal is over against the user is further determined according to the orientation of the terminal. Optionally, if the wrists wearing the terminal are different, the orientation of the terminal is different when the infrared temperature measurement hole faces the user. For example, the infrared temperature measurement hole is disposed on a side surface of the terminal, and if the terminal is worn on a right wrist, the orientation of the terminal when the infrared temperature measurement hole faces the user may be right-side-up, and if the terminal is worn on a left wrist, the orientation of the terminal when the infrared temperature measurement hole faces the user may be right-side-down.

In this embodiment, the orientation of the terminal when the infrared temperature measurement hole faces the user can be preset according to the wearing habit of the user, and when the orientation of the terminal is detected to be the same as the preset orientation, it is determined that the infrared temperature measurement hole faces the user.

S340, determining that the terminal is not in the preset temperature measurement posture, further determining that the terminal does not meet the starting condition of the temperature sensor, and forbidding starting of the temperature sensor.

And S350, determining that the terminal is in a preset temperature measurement posture, and further determining that the terminal meets the starting condition of the temperature sensor.

In the embodiment, if the infrared temperature measuring hole is over against the user, the terminal is determined to be in the preset temperature measuring posture, and the terminal is further determined to meet the starting condition of the temperature sensor; and if the infrared temperature measuring hole is not over against the user, determining that the terminal is not in the preset temperature measuring posture, further determining that the terminal does not meet the starting condition of the temperature sensor, and forbidding to start the temperature sensor.

And S360, starting the temperature sensor, and acquiring the temperature measured by the temperature sensor.

According to the technical scheme, when the wrist of the user is lifted and the terminal is not in a conversation state, whether the infrared temperature measuring hole of the terminal is over against the user is determined according to the posture of the terminal, whether the terminal is in the preset temperature measuring posture is further determined, if the terminal is in the preset temperature measuring posture, the terminal is determined to meet the starting condition of the temperature sensor, the temperature sensor is started, the temperature measured by the temperature sensor is obtained, interference on the normal wrist lifting of the user or normal use of the terminal is avoided, and the ear temperature of the user is automatically measured.

Example four

Fig. 4 is a schematic structural diagram of a temperature measuring device provided in the fourth embodiment of the present invention, which is suitable for the temperature measuring method provided in the fourth embodiment of the present invention. The device may specifically include:

a motion detection module 410, configured to detect a user limb motion through an acceleration sensor built in the terminal, where the terminal is worn on a wrist of the user;

a starting condition determining module 420, configured to determine whether a starting condition of the temperature sensor is satisfied according to a state of the terminal and a posture of the terminal if it is detected that the wrist of the user is lifted;

and the temperature measuring module 430 is configured to start the temperature sensor if the temperature is met, and acquire the temperature measured by the temperature sensor.

Optionally, the starting condition determining module 420 includes:

the device comprises a call state determining unit, a call state judging unit and a call state judging unit, wherein the call state determining unit is used for determining whether the terminal is in a call state or not if the wrist of the user is detected to be lifted, and the call state is an incoming call state, a dialing state or a call connection state;

the terminal attitude determination unit is used for determining whether the terminal is in a preset temperature measurement attitude or not if the terminal is not in a call state;

and the starting condition determining unit is used for determining the starting condition of the temperature sensor if the terminal is in the temperature measuring posture.

Optionally, the terminal posture determining unit includes:

the temperature measuring hole posture determining subunit is used for determining whether the infrared temperature measuring hole of the terminal is over against the user according to the posture of the terminal;

and the temperature measurement posture determining subunit is used for determining that the terminal is in the temperature measurement posture if the infrared temperature measurement hole of the terminal is over against the user.

Optionally, the temperature measurement hole posture determining subunit is specifically configured to:

acquiring an attitude angle of the terminal, and determining the orientation of the terminal according to the attitude angle; and determining whether the infrared temperature measuring hole of the terminal is over against the user according to the orientation of the terminal.

Optionally, the temperature measurement module 430 is specifically configured to:

and detecting the distance between the terminal and the user, and starting the temperature sensor if the distance is less than a preset temperature measurement distance threshold value.

The temperature measuring device provided by the embodiment of the invention can execute the temperature measuring method provided by any embodiment of the invention, and has the corresponding functional modules and beneficial effects of executing the temperature measuring method.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (6)

1. A method of measuring temperature, comprising:

detecting the limb movement of a user through an acceleration sensor built in a terminal, wherein the terminal is worn on the wrist of the user;

if the wrist of the user is detected to be lifted, determining whether the terminal is in a call state, wherein the call state is an incoming call state, a dialing state or a call connection state;

if the terminal is not in a call state, determining whether the terminal is in a preset temperature measurement posture; wherein, confirm whether the terminal is in preset temperature measurement gesture, include: determining whether an infrared temperature measuring hole of the terminal is over against a user according to the posture of the terminal; if so, determining that the terminal is in the temperature measurement posture; the infrared temperature measuring hole of the terminal is arranged on the side surface of the terminal;

if the terminal is in the temperature measurement posture, determining that the starting condition of the temperature sensor is met;

and if so, starting the temperature sensor and acquiring the temperature measured by the temperature sensor.

2. The method of claim 1, wherein determining whether an infrared temperature measuring hole of the terminal is facing a user according to the attitude of the terminal comprises:

acquiring an attitude angle of the terminal, and determining the orientation of the terminal according to the attitude angle;

and determining whether the infrared temperature measuring hole of the terminal is over against the user according to the orientation of the terminal.

3. The method of any of claims 1-2, wherein activating a temperature sensor comprises:

and detecting the distance between the terminal and the user, and starting the temperature sensor if the distance is less than a preset temperature measurement distance threshold value.

4. A temperature measuring device, comprising:

the motion detection module is used for detecting the limb motion of a user through an acceleration sensor built in a terminal, wherein the terminal is worn on the wrist of the user;

the start condition determining module includes: the device comprises a call state determining unit, a call state judging unit and a call state judging unit, wherein the call state determining unit is used for determining whether a terminal is in a call state or not if the wrist of a user is detected to be lifted, and the call state is an incoming call state, a dialing state or a call connection state; the terminal posture determining unit is used for determining whether the terminal is in a preset temperature measuring posture or not if the terminal is not in a call state; the starting condition determining unit is used for determining the starting condition of the temperature sensor if the terminal is in the temperature measuring posture; the terminal attitude determination unit includes: the temperature measuring hole posture determining subunit is used for determining whether the infrared temperature measuring hole of the terminal is over against the user according to the posture of the terminal; the terminal comprises a temperature measurement attitude determination subunit, a temperature measurement attitude determination subunit and a control unit, wherein the temperature measurement attitude determination subunit is used for determining that the terminal is in the temperature measurement attitude if an infrared temperature measurement hole of the terminal is over against a user, and the infrared temperature measurement hole of the terminal is arranged on the side surface of the terminal;

and the temperature measuring module is used for starting the temperature sensor if the starting condition of the temperature sensor is met, and acquiring the temperature measured by the temperature sensor.

5. The device according to claim 4, wherein the temperature measurement hole attitude determination subunit is specifically configured to:

acquiring an attitude angle of the terminal, and determining the orientation of the terminal according to the attitude angle; and determining whether the infrared temperature measuring hole of the terminal is over against the user according to the orientation of the terminal.

6. The device according to any one of claims 4 to 5, wherein the temperature measurement module is specifically configured to:

and detecting the distance between the terminal and the user, and starting the temperature sensor if the distance is less than a preset temperature measurement distance threshold value.

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