CN111193821B - Mobile phone with infrared imaging temperature measurement function and temperature measurement method thereof - Google Patents
Mobile phone with infrared imaging temperature measurement function and temperature measurement method thereof Download PDFInfo
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- CN111193821B CN111193821B CN202010140180.9A CN202010140180A CN111193821B CN 111193821 B CN111193821 B CN 111193821B CN 202010140180 A CN202010140180 A CN 202010140180A CN 111193821 B CN111193821 B CN 111193821B
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- 238000009434 installation Methods 0.000 claims abstract description 36
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- 238000001931 thermography Methods 0.000 claims description 13
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
- H04M1/0264—Details of the structure or mounting of specific components for a camera module assembly
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01J—MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
- G01J5/00—Radiation pyrometry, e.g. infrared or optical thermometry
- G01J5/0003—Radiation pyrometry, e.g. infrared or optical thermometry for sensing the radiant heat transfer of samples, e.g. emittance meter
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01J—MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
- G01J5/00—Radiation pyrometry, e.g. infrared or optical thermometry
- G01J5/10—Radiation pyrometry, e.g. infrared or optical thermometry using electric radiation detectors
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72403—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
Abstract
The invention discloses a mobile phone with an infrared imaging temperature measurement function and a temperature measurement method thereof, wherein the mobile phone comprises a mobile phone main body, the mobile phone main body comprises a mobile phone panel and a mobile phone back plate, an installation space is formed between the mobile phone panel and the mobile phone back plate, and a main control element is accommodated in the installation space; the infrared imaging detector is arranged at a position far away from the main control element in the installation space, and a heat insulation material is arranged between the main control element and the infrared imaging detector; a damping buffer layer is wound outside the infrared imaging detector; the mobile phone back plate is provided with a detection port which penetrates through the inside and the outside of the installation space, and the detection end of the infrared imaging detector is aligned to the detection port; the edge of the detection port, which is far away from the installation space, is filled with a vibration damping layer; the infrared imaging detector is in communication connection with the main control element. The technical scheme provided by the invention aims to solve the problem that the conventional body temperature detection equipment cannot meet the daily temperature measurement requirement of people.
Description
Technical Field
The invention relates to the field of mobile phone temperature measurement, in particular to a mobile phone with an infrared imaging temperature measurement function and a temperature measurement method thereof.
Background
In the body temperature measuring technology, the body temperature is usually measured by devices for detecting the body temperature such as a mercury thermometer or a forehead thermometer, the mercury thermometer and the forehead thermometer do not belong to daily carrying devices of people, particularly, the mercury thermometer is easy to break off and releases toxic mercury, and the volume of the forehead thermometer cannot reach the portable degree, so that the conventional devices for detecting the body temperature cannot meet the daily temperature measurement requirements of people.
Disclosure of Invention
The invention mainly aims to provide a mobile phone with an infrared imaging temperature measurement function, and aims to solve the problem that the conventional body temperature detection equipment cannot meet the daily temperature measurement requirement of people.
In order to achieve the purpose, the mobile phone with the infrared imaging temperature measurement function comprises a mobile phone main body, wherein the mobile phone main body comprises a mobile phone panel and a mobile phone back plate which are arranged oppositely, an installation space is formed between the mobile phone panel and the mobile phone back plate, and a main control element is accommodated in the installation space; the infrared imaging detector is arranged in the installation space at a position far away from the main control element, and a heat insulation material is arranged between the main control element and the infrared imaging detector; a vibration reduction buffer layer is wound outside the infrared imaging detector; the mobile phone back plate is provided with a detection port penetrating through the inside and the outside of the installation space, and the detection end of the infrared imaging detector is aligned to the detection port; the edge of the detection port, which is far away from the installation space, is filled with a vibration damping layer; the infrared imaging detector is in communication connection with the main control element, and the main control element is used for determining detection temperature according to the temperature image detected by the infrared imaging detector and sending a temperature prompt to a user.
Preferably, a closing structure is arranged on the mobile phone back plate and comprises a driving part and a closing cover, the closing cover is attached to one side, facing the installation space, of the mobile phone back plate, the closing cover is arranged between the detection end of the infrared imaging detector and the mobile phone back plate, and the driving structure is used for driving the closing cover to close or open the detection port.
Preferably, the mobile phone back plate comprises a back plate main body and a detachable shell, wherein a mounting hole is formed in the back plate main body, and the detachable shell is mounted on the back plate main body through the mounting hole; the infrared imaging detector is arranged on one side, facing the installation space, of the detachable shell, and the infrared imaging detector is electrically connected with the main control element when the detachable shell is installed on the back plate main body.
Preferably, the detachable shell and the infrared imaging detector are packaged into an integral structure.
Preferably, the back plate main body comprises two sliding shells, the two sliding shells can slide towards the direction away from or close to each other, and when the two sliding shells slide towards the direction away from each other, the two sliding shells are used for placing or taking out the detachable shell between the two sliding shells; when the two sliding shells slide towards the direction close to each other, the detachable shell is clamped between the two sliding shells; the main control element is connected with the temperature measuring element.
In order to achieve the above object, the present invention further provides a method for measuring temperature by infrared rays of a mobile phone, which is applied to any one of the mobile phones with infrared imaging temperature measurement function; the infrared temperature measurement method for the mobile phone comprises the following steps:
acquiring a thermal imaging image of a user through the infrared imaging detector;
generating body temperature data of the user from the thermographic image;
storing the body temperature data in the mobile phone;
and acquiring historical body temperature data to form an analysis result.
Preferably, the main control element is connected to the temperature measuring element, and before the step of acquiring the thermal imaging image of the user by the infrared imaging detector, the method further includes:
when a starting instruction of the infrared imaging detector is received, starting the temperature measuring element to measure the temperature of the mobile phone;
when the temperature of the mobile phone is in a preset interval, starting the infrared imaging detector;
when the temperature of the mobile phone exceeds a preset interval, sending a prompt that the temperature of the mobile phone exceeds the range, and sending a prompt to the user whether to start the infrared imaging detector again;
and when the starting instruction of the infrared imaging detector is received again, starting the infrared imaging detector.
Preferably, the step of acquiring a thermographic image of the user with the infrared imaging detector comprises:
acquiring thermal imaging images of a preset number of users through the infrared imaging detector;
the step of generating body temperature data of the user from the thermographic image comprises:
and superposing the thermal imaging images of the preset number to generate the body temperature data of the user.
Preferably, the method for measuring temperature by using infrared rays of a mobile phone further comprises:
acquiring a face image of the user through a mobile phone camera;
determining the identity of the user according to the face image;
the step of storing the body temperature data in the mobile phone comprises:
and associating the body temperature data with the identity of the user, and then storing the body temperature data in the mobile phone.
Preferably, the method for measuring temperature by using infrared rays of a mobile phone further comprises:
acquiring body temperature data of each user in a target area, and judging whether the number of abnormal body temperature personnel exceeds a set value or not;
if yes, generating a warning result and reporting the warning result.
According to the technical scheme, the mobile phone with the infrared imaging temperature measuring function comprises an infrared imaging detector in communication connection with a main control element, wherein the main control element is used for determining the detection temperature according to a temperature image detected by the infrared imaging detector and sending a temperature prompt to a user; the infrared imaging detector is accommodated in the installation space of the mobile phone main body, so that the infrared imaging detector and the mobile phone form an integrated structure, the integrated structure does not damage the overall attractiveness of the mobile phone, other space does not need to be additionally occupied, the infrared imaging temperature measurement function of the mobile phone can be realized, the temperature measurement function can be provided for a user carrying the mobile phone at any time, and the requirement of portable temperature measurement can be met. Meanwhile, the infrared imaging detector is accommodated in the installation space of the mobile phone main body, and can protect the infrared imaging element. A detection port is formed in a mobile phone back plate of the mobile phone main body, and the edge of the detection port is filled with a vibration reduction layer, so that the vibration resistance effect of the infrared imaging detector is improved. Furthermore, the main control element and the infrared imaging detector are far away from each other, and a thermal insulation material is arranged between the main control element and the infrared imaging detector, so that the influence of the warm main control element on the infrared imaging detection when the mobile phone is rapidly operated to a higher temperature can be reduced. Therefore, the technical scheme of the invention is beneficial to solving the problem that the conventional body temperature detection equipment cannot meet the daily temperature measurement requirement of people.
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 the structures shown in the drawings without creative efforts.
FIG. 1 is a schematic diagram of a back structure of a mobile phone with an infrared imaging temperature measurement function according to the present invention;
FIG. 2 is a schematic diagram of the left side of the mobile phone shown in FIG. 1;
fig. 3 is a schematic view of the internal structure of the mobile phone shown in fig. 1 after the back plate of the mobile phone is removed;
FIG. 4 is an exploded view of the back plate and the infrared imaging detector of the mobile phone shown in FIG. 1;
FIG. 5 is a flowchart illustrating a first embodiment of a method for measuring temperature by infrared rays.
The reference numbers illustrate:
| reference numerals | Name (R) | Reference numerals | Name (R) |
| 1 | Mobile phone |
11 | |
| 12 | Mobile |
13 | Back plate |
| 14 | |
15 | |
| 16 | |
2 | |
| 3 | |
4 | |
| 5 | |
6 | |
| 7 | |
8 | |
| 9 | Temperature measuring element |
The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.
In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.
The invention provides a mobile phone with an infrared imaging temperature measurement function.
Referring to fig. 1 to 4, in order to achieve the above object, the mobile phone with infrared imaging temperature measurement function provided by the present invention includes a mobile phone main body 1, where the mobile phone main body 1 includes a mobile phone panel 11 and a mobile phone back panel 12 that are oppositely disposed, an installation space 16 is formed between the mobile phone panel 11 and the mobile phone back panel 12, and a main control element 2 is accommodated in the installation space 16; the infrared imaging detector 3 is arranged in the installation space 16 at a position far away from the main control element 2, and a heat insulation material 4 is arranged between the main control element 2 and the infrared imaging detector 3; a damping buffer layer 5 is wound outside the infrared imaging detector 3; the mobile phone back plate 12 is provided with a detection port penetrating through the inside and the outside of the installation space 16, and the detection end of the infrared imaging detector 3 is aligned with the detection port; the edge of the detection port, which is far away from the installation space 16, is filled with a damping layer; the infrared imaging detector 3 is in communication connection with the main control element 2, and the main control element 2 is used for determining the detection temperature according to the temperature image detected by the infrared imaging detector 3 and sending a temperature prompt to a user.
In the technical scheme of the invention, the mobile phone with the infrared imaging temperature measurement function comprises an infrared imaging detector 3 which is in communication connection with a main control element 2, wherein the main control element 2 is used for determining the detection temperature according to a temperature image detected by the infrared imaging detector 3 and sending a temperature prompt to a user; the infrared imaging detector 3 is accommodated in the installation space 16 of the mobile phone main body 1, so that the infrared imaging detector 3 and the mobile phone form an integrated structure, the integrated structure does not damage the overall attractiveness of the mobile phone, and does not need to additionally occupy other spaces, the infrared imaging temperature measurement function of the mobile phone can be realized, the temperature measurement function can be provided for a user carrying the mobile phone at any time, and the requirement of portable temperature measurement can be met. Meanwhile, the infrared imaging detector 3 is accommodated in the installation space 16 of the mobile phone body 1, and can protect infrared imaging elements. A detection port is formed in the mobile phone back plate 12 of the mobile phone main body 1, and the edge of the detection port is filled with a vibration damping layer, so that the vibration resistance effect of the infrared imaging detector 3 is improved. Further, the main control element 2 and the infrared imaging detector 3 are far away from each other, and a thermal insulation material 4 is arranged between the main control element 2 and the infrared imaging detector, so that the influence of the warm main control element 2 on the infrared imaging detection accuracy can be reduced. Therefore, the technical scheme of the invention is beneficial to solving the problem that the conventional body temperature detection equipment cannot meet the daily temperature measurement requirement of people.
Specifically, the main control element 2 is configured to determine the detected temperature according to the temperature image detected by the infrared imaging detector 3, that is, calculate temperature data within an infrared image range through the main control element 2, and send a temperature prompt to a user, where the temperature prompt may be in various manners, such as a voice prompt, or data display on a display screen, or may be a prompt in other preset manners, such as a prompt in at least one manner of a mailbox, a short message, a qq message, a WeChat message, and the like.
Generally speaking, the normal temperature ranges corresponding to different temperature measurement portions are different. For example, the normal temperature range of the underarm is 36.0 to 37.4 ℃, the normal temperature range of the mouth temperature or ear temperature is 36.7 to 37.7 ℃, the normal temperature range of the forehead temperature is 36.5 to 37.3 ℃, and the normal temperature of the palm is 36 to 37 ℃. The infrared imaging detector 3 can be applied to different parts of a human body, the temperature measurement part is identified through the mobile phone camera 6, and then the temperature measurement part is associated with the temperature measurement result and then stored. For example, the infrared imaging detector 3 can be aligned with the forehead to measure the infrared image of the forehead, the mobile phone camera 6 identifies that the temperature measurement part is the forehead, the forehead temperature data calculated by the main control element 2 is stored and compared with the normal forehead temperature, and if the forehead temperature exceeds the normal forehead temperature, a prompt can be sent.
Preferably, in the invention, the detection port can be arranged in a hand holding area of the mobile phone back plate 12, so that the palm temperature detection can be completed in the process of holding the mobile phone by a user, the holding height and angle of the mobile phone do not need to be adjusted, and the detection process is very convenient and fast.
Furthermore, in the invention, the body temperature data of the mobile phone can be transmitted to a third party in real time through a mobile phone communication port, for example, the mobile phone with the infrared imaging temperature measurement function is associated with the third party through a code scanning mode, a WeChat public number and other association modes, after the association, the body temperature data measured by the mobile phone with the infrared imaging temperature measurement function can be transmitted to the third party in real time, so that the inconvenience of data acquisition caused by the fact that the third party measures the body temperature of the mobile phone user through other modes is avoided, the cross infection of people when the third party measures the body temperature for a plurality of people through a special body temperature detection device is avoided, and the real-time uploading of remote body temperature data can be realized.
Preferably, a closing structure is arranged on the mobile phone back plate 12, the closing structure includes a driving part and a closing cover, the closing cover is attached to one side of the mobile phone back plate 12 facing the installation space 16, the closing cover is arranged between the detection end of the infrared imaging detector 3 and the mobile phone back plate 12, and the driving structure is used for driving the closing cover to close or open the detection port. The closed structure is used for realizing the protect function to infrared imaging detector 3, before infrared imaging detector 3 starts, opens through the drive structure the closed cover is in order to expose the detection mouth, when infrared imaging detector 3 does not start, closes through the drive structure lid the closed cover is in order to seal the detection mouth to prevent foreign matter or dust entering inner space. The closure may be slidably or pivotally attached to the handset back 12.
Further, the closing cover includes two cover plates disposed oppositely, each cover plate is disposed parallel to the mobile phone back plate 12, and an elastic structure is filled between the two cover plates.
Preferably, the mobile phone back panel 12 comprises a back panel main body 13 and a detachable shell 14, wherein a mounting hole 15 is formed on the back panel main body 13, and the detachable shell 14 is mounted on the back panel main body 13 through the mounting hole 15; the infrared imaging detector 3 is disposed on one side of the detachable housing 14 facing the installation space 16, and when the detachable housing 14 is installed on the backboard main body 13, the infrared imaging detector 3 is electrically connected to the main control element 2. Specifically, referring to fig. 3, a PCB 8 of the mobile phone is provided with an installation area 7 electrically connected to the main control element 2, and when the detachable housing 14 is installed in the installation space 16, one side of the infrared imaging detector 3 away from the detachable housing 14 is electrically connected to the installation area 7, so that the infrared imaging detector 3 is electrically connected to the main control element 2.
The mobile phone back panel 12 is provided with the detachable back panel main body 13 and the detachable shell 14, which is beneficial to the independent disassembly, assembly, maintenance or repair of the infrared imaging detector 3. Further, the infrared imaging detector 3 and the detachable housing 14 may also be configured as detachable structures, so that when the user does not need to use the infrared imaging detector 3, or the user needs to replace or repair the infrared imaging detector 3 separately, the infrared imaging detector 3 may be detached, and only the detachable housing 14 and the backboard main body 13 are installed together. And the infrared imaging detector 3 can be additionally arranged in the later stage of a user who does not select the infrared imaging detector 3. Further, the closing structure may be specifically disposed on the detachable housing 14, so that when the infrared imaging detector 3 does not operate, the mobile phone back panel 12 forms a housing shape without an opening.
Specifically, the back plate main body 13 and the detachable shell 14 may be arranged in a coplanar manner, so that the detachable shell 14 and the detachable shell form a complete whole, and a split structure cannot be seen; or the detachable shell 14 can protrude out of the plane of the back plate main body 13 to form a structure similar to a convex lens, so that the interestingness of modeling is realized.
Preferably, the detachable housing 14 and the infrared imaging detector 3 are packaged into a single structure. The back side of the integrated structure is electrically connected with the mounting area 7, so that the infrared imaging detector 3 is connected with the main control element 2. The integrated structure is convenient for the independent replacement of the infrared imaging detector 3 or the connection with other mobile phones is realized.
Further, detachable shell 14 can form an annular clamping structure with backplate main body 13, and all around stable clamping is realized, and the outward appearance is overall structure.
Preferably, the back plate main body 13 includes two sliding shells, the two sliding shells can slide in a direction away from or close to each other, and when the two sliding shells slide in a direction away from each other, the two sliding shells are used for placing or taking out the detachable housing 14 between the two sliding shells; when the two sliding shells slide towards the direction close to each other, the detachable shell 14 is clamped between the two sliding shells; the main control element 2 is connected with a temperature measuring element 9. Specifically, the mobile phone back plate 12 may be configured as a three-section type, or a sliding groove is formed on the mobile phone back plate 12, and the sliding groove is arranged along the length direction or the width direction of the mobile phone and is used for clamping the infrared imaging detector 3.
Furthermore, the mobile phone panel 11 may also be provided with a front lens of the infrared imaging detector 3, and the mobile phone back panel 12 may be provided with a touch sensing module, where the touch sensing module is configured to sense a sliding gesture of a finger of a user holding the mobile phone, and when the sliding gesture triggers the infrared temperature measurement function, the front lens of the infrared imaging detector 3 is started to obtain an infrared image of a body area of the user, so as to perform a body temperature test according to the infrared image. When the sliding gesture triggers a closing instruction, the infrared temperature measurement function is stopped. The front lens of the infrared imaging detector 3 is combined with the touch sensing module on the mobile phone back plate 12, so that the temperature measurement function can be executed by sliding the fingers on the palm of the held mobile phone without two-hand operation in the process of holding the mobile phone by one hand.
The temperature measuring element 9 is close to the infrared imaging detector 3 to detect the temperature of the working environment of the infrared imaging detector 3, and feed back the temperature data to the main control element 2, when the temperature is too high or too low, the main control element 2 controls the mobile phone to operate the program to start or close, so as to quickly adjust the temperature of the mobile phone, so as to meet the requirement of the infrared imaging detector 3 on accurately measuring the required ambient temperature, and improve the measuring accuracy.
Referring to fig. 5, the present invention further provides a method for measuring temperature by infrared rays of a mobile phone, which is applied to any one of the mobile phones with infrared imaging temperature measurement function; the infrared temperature measurement method for the mobile phone comprises the following steps:
step S10, acquiring a thermal imaging image of the user through the infrared imaging detector 3;
step S20, generating body temperature data of the user according to the thermal imaging image;
step S30, storing the body temperature data in the mobile phone;
and step S40, acquiring historical body temperature data and forming an analysis result.
In the technical scheme of the invention, the mobile phone with the infrared imaging temperature measurement function comprises an infrared imaging detector 3 which is in communication connection with a main control element 2; the infrared imaging detector 3 is accommodated in the installation space 16 of the mobile phone main body 1, so that the infrared imaging detector 3 and the mobile phone form an integrated structure, the integrated structure does not damage the overall attractiveness of the mobile phone, and does not need to additionally occupy other spaces, the infrared imaging temperature measurement function of the mobile phone can be realized, the temperature measurement function can be provided for a user carrying the mobile phone at any time, and the requirement of portable temperature measurement can be met. Meanwhile, the infrared imaging detector 3 is accommodated in the installation space 16 of the mobile phone body 1, and can protect infrared imaging elements. A detection port is formed in the mobile phone back plate 12 of the mobile phone main body 1, and the edge of the detection port is filled with a vibration damping layer, so that the vibration resistance effect of the infrared imaging detector 3 is improved. Further, the main control element 2 and the infrared imaging detector 3 are far away from each other, and a thermal insulation material 4 is arranged between the main control element and the infrared imaging detector, so that the influence of the warm main control element 2 on infrared imaging detection can be reduced when the mobile phone is rapidly operated to a higher temperature. Therefore, the technical scheme of the invention is beneficial to solving the problem that the conventional body temperature detection equipment cannot meet the daily temperature measurement requirement of people.
According to the mobile phone infrared temperature measurement method, body temperature measurement is realized through the mobile phone with the infrared imaging temperature measurement function, body temperature measurement is facilitated, a body temperature file is automatically generated, and data can be timely transmitted to the information platform. Step S40 may be performed in the mobile phone APP software, in the applet, or in various plug-ins, to implement the management and monitoring of the body temperature data of the mobile phone user, or may be reported to the third-party platform for the detection, management, and monitoring of the body temperature of the public, and when detecting abnormal body temperature of the public, take forecasting and emergency response measures.
Based on the first embodiment of the method for measuring temperature by mobile phone infrared rays, the second embodiment of the method for measuring temperature by mobile phone infrared rays, wherein the main control element 2 is connected to the temperature measuring element 9, and before the step S10, the method further includes:
step S50, when receiving a starting instruction of the infrared imaging detector 3, starting the temperature measuring element to measure the temperature of the mobile phone;
step S60, when the temperature of the mobile phone is in a preset interval, the infrared imaging detector 3 is started;
step S70, when the temperature of the mobile phone exceeds a preset interval, sending out a prompt that the temperature of the mobile phone exceeds the range, and sending out a prompt to the user whether to start the infrared imaging detector 3 again;
step S80, when the start instruction of the infrared imaging detector 3 is received again, the infrared imaging detector 3 is started.
When the temperature of the mobile phone is in the preset interval, the temperature of the mobile phone is not enough to influence the accuracy of the infrared imaging detector 3, and at the moment, the infrared imaging detector 3 can be directly started to detect the body temperature. When the temperature of the mobile phone exceeds the preset interval, the temperature of the mobile phone can influence the accuracy of the infrared imaging detector 3.
Further, when the temperature of the mobile phone is higher than the preset interval, the user is prompted that the temperature of the mobile phone is too high, the accuracy of infrared temperature measurement is affected, and the current application program of the mobile phone, which occupies a large memory, is quickly closed (and a mobile phone cooling program can also be started at the same time), so that the mobile phone is quickly cooled. And when the temperature of the mobile phone is detected to be reduced to a preset interval, starting the infrared imaging detector 3 to detect the body temperature.
Furthermore, when the temperature of the mobile phone is lower than the preset interval, the user is prompted that the temperature of the mobile phone is too low, the infrared temperature measurement accuracy is affected, and a plurality of preset mobile phone application programs are quickly started (a mobile phone temperature-raising program can also be started at the same time), so that the temperature of the mobile phone is quickly raised. And when the temperature of the mobile phone is detected to be increased to a preset interval, starting the infrared imaging detector 3 to detect the body temperature.
Through the two temperature reduction measures or the two temperature rise measures of the mobile phone, the temperature of the mobile phone is in a preset interval, and therefore the body temperature data detected by the infrared imaging detection method is more accurate.
Based on the first embodiment of the method for measuring temperature by mobile phone infrared rays, in the third embodiment of the method for measuring temperature by mobile phone infrared rays, the step S10 includes:
step S11, acquiring thermal imaging images of a preset number of users through the infrared imaging detector 3;
step S12, the step of generating body temperature data of the user from the thermographic image includes:
step S13, superimposing the preset number of thermographic images to generate body temperature data of the user.
In this embodiment, the thermal imaging images acquired multiple times are superimposed by using an image fusion technique, and then the body temperature data of the user is calculated and generated, so that the body temperature data is more accurate.
Based on the first to third embodiments of the infrared temperature measurement method for a mobile phone of the present invention, in a fourth embodiment of the infrared temperature measurement method for a mobile phone of the present invention, the infrared temperature measurement method for a mobile phone further includes:
step S90, acquiring a face image of the user through the mobile phone camera 6;
step S100, determining the identity of the user according to the face image;
step S110, the step of storing the body temperature data in the mobile phone includes:
and step S120, storing the body temperature data in the mobile phone after the body temperature data is associated with the identity of the user.
In order to realize the body temperature measurement, recording and control of multiple persons by the same mobile phone, the mobile phone camera 6 can be started to acquire the face image of the user facing the detection port while infrared temperature measurement is carried out, and the body temperature data acquired each time is classified and controlled by the recognition of the face image of the user.
For example, when the identity of the user is determined to be the owner through the face image, the body temperature data is recorded into the body temperature data of the owner; when the identity of the user is determined to be the person without the user through the face image, the body temperature data and the face image are stored in an associated mode; when the identity of the user is determined to be the added person through the face image, the body temperature data and the name (or the mark such as the head portrait) of the added person are stored in an associated mode.
Furthermore, the infrared temperature measurement method for the mobile phone further comprises the following steps: and selecting the human body part aligned with the detection port on the screen of the mobile phone. For the condition that a plurality of people enter a camera picture of the mobile phone at the same time, the human body part needing temperature measurement can be selected on the screen of the mobile phone, so that the main control unit does not need to measure the temperature of each infrared detection area, and the temperature measurement speed is favorably improved.
Furthermore, an infrared temperature measurement area can be displayed in a camera shooting picture of the mobile phone, so that a user can distinguish which area of the body temperature is detected at the moment, and when a plurality of people enter the camera shooting picture at the same time, the user can also distinguish which person the current detection end aims at, and the measured body temperature data can be conveniently recorded into the body temperature data of the person the detection end aims at. For example, when A, B and C head images appear in the camera image and the forehead of the human body part B aligned with the detection port is displayed on the screen of the mobile phone, the forehead temperature measured by the user at the moment can be prompted, and the forehead temperature data of the user B is recorded in the body temperature data of the user B.
Based on the first to third embodiments of the infrared temperature measurement method for a mobile phone of the present invention, in a fifth embodiment of the infrared temperature measurement method for a mobile phone of the present invention, the infrared temperature measurement method for a mobile phone further includes:
step S130, acquiring body temperature data of each user in a target area, and judging whether the number of abnormal body temperature persons exceeds a set value;
if yes, go to step S140: and generating and reporting a warning result.
According to the embodiment, epidemic situation early warning, monitoring and data analysis can be formed through the temperature abnormal data of the public, and early prediction of the epidemic situation is facilitated.
Further, after the step S130, the method further includes:
if yes, go to step S140: obtaining the position distribution result of the abnormal temperature personnel in the target area through mobile phone positioning;
and step S150, reporting the position distribution result.
The embodiment is used for positioning the position change of the abnormal body temperature person in real time under the condition that the body temperature of the public is abnormal.
Further, after the step S140, the method further includes:
and step S160, acquiring the position flowing information of the person with abnormal body temperature so as to upload the position flowing information to a third party.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (10)
1. A mobile phone with an infrared imaging temperature measurement function is characterized by comprising a mobile phone main body, wherein the mobile phone main body comprises a mobile phone panel and a mobile phone back plate which are arranged oppositely, an installation space is formed between the mobile phone panel and the mobile phone back plate, and a main control element is accommodated in the installation space; the infrared imaging detector is arranged in the installation space and far away from the main control element, and a heat insulation material is arranged between the main control element and the infrared imaging detector; a vibration reduction buffer layer is wound outside the infrared imaging detector; the mobile phone back plate is provided with a detection port penetrating through the inside and the outside of the installation space, and the detection end of the infrared imaging detector is aligned to the detection port; the edge of the detection port, which is far away from the installation space, is filled with a vibration damping layer; the infrared imaging detector is in communication connection with the main control element, and the main control element is used for determining detection temperature according to the temperature image detected by the infrared imaging detector and sending a temperature prompt to a user; the detection port is arranged in a hand holding area of the mobile phone back plate, so that palm temperature detection can be completed in the process that a user holds the mobile phone; the infrared imaging detector can be applied to different parts of a human body, the temperature measurement part is identified through a mobile phone camera, and then the temperature measurement part is associated with the temperature measurement result and then stored; the main control element is connected with the temperature measuring element, the temperature measuring element is arranged close to the infrared imaging detector to detect the temperature of the working environment of the infrared imaging detector, the temperature data is fed back to the main control element, and when the temperature is too high or too low, the main control element controls the mobile phone to run programs to be started or closed to quickly adjust the temperature of the mobile phone so as to meet the requirement of the infrared imaging detector on accurately measuring the required environment temperature.
2. The mobile phone with the infrared imaging temperature measurement function according to claim 1, wherein a closing structure is disposed on the mobile phone back plate, the closing structure includes a driving structure and a closing cover, the closing cover is attached to a side of the mobile phone back plate facing the installation space, the closing cover is disposed between the detection end of the infrared imaging detector and the mobile phone back plate, and the driving structure is configured to drive the closing cover to close or open the detection port.
3. The mobile phone with the infrared imaging temperature measurement function of claim 1, wherein the mobile phone back plate comprises a back plate main body and a detachable shell, the back plate main body is formed with a mounting hole, and the detachable shell is mounted on the back plate main body through the mounting hole; the infrared imaging detector is arranged on one side, facing the installation space, of the detachable shell, and the infrared imaging detector is electrically connected with the main control element when the detachable shell is installed on the back plate main body.
4. The mobile phone with the infrared imaging temperature measurement function according to claim 3, wherein the detachable shell and the infrared imaging detector are packaged into an integral structure.
5. The mobile phone with the infrared imaging temperature measurement function according to claim 3 or 4, wherein the back plate main body comprises two sliding shells, the two sliding shells can slide in a direction away from or close to each other, and when the two sliding shells slide in the direction away from each other, the detachable shell is placed in or taken out between the two sliding shells; when the two sliding shells slide towards the direction close to each other, the detachable shell is clamped between the two sliding shells.
6. The infrared temperature measurement method for the mobile phone is characterized by being applied to the mobile phone with the infrared imaging temperature measurement function as claimed in any one of claims 1 to 5; the infrared temperature measurement method for the mobile phone comprises the following steps:
acquiring a thermal imaging image of a user through the infrared imaging detector;
generating body temperature data of the user from the thermographic image;
storing the body temperature data in the mobile phone;
and acquiring historical body temperature data to form an analysis result.
7. The infrared temperature measurement method for mobile phones according to claim 6, wherein before the step of obtaining the thermal imaging image of the user by the infrared imaging detector, the method further comprises:
when a starting instruction of the infrared imaging detector is received, starting the temperature measuring element to measure the temperature of the mobile phone;
when the temperature of the mobile phone is in a preset interval, starting the infrared imaging detector;
when the temperature of the mobile phone exceeds a preset interval, sending a prompt that the temperature of the mobile phone exceeds the range, and sending a prompt to the user whether to start the infrared imaging detector again;
and when the starting instruction of the infrared imaging detector is received again, starting the infrared imaging detector.
8. The infrared temperature measurement method for the mobile phone according to claim 6, wherein the step of obtaining the thermal imaging image of the user through the infrared imaging detector comprises:
acquiring thermal imaging images of a preset number of users through the infrared imaging detector;
the step of generating body temperature data of the user from the thermographic image comprises:
and superposing the thermal imaging images of the preset number to generate the body temperature data of the user.
9. The infrared temperature measurement method for the mobile phone according to any one of claims 6 to 8, characterized in that: the infrared temperature measurement method for the mobile phone further comprises the following steps:
acquiring a face image of the user through a mobile phone camera;
determining the identity of the user according to the face image;
the step of storing the body temperature data in the mobile phone comprises:
and associating the body temperature data with the identity of the user, and then storing the body temperature data in the mobile phone.
10. The infrared temperature measurement method for the mobile phone according to any one of claims 6 to 8, further comprising:
acquiring body temperature data of each user in a target area, and judging whether the number of abnormal body temperature personnel exceeds a set value or not;
if yes, generating a warning result and reporting the warning result.
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