CN213524708U - Mirror for infrared temperature measurement - Google Patents

Abstract

The utility model provides a mirror that can be used to infrared temperature measurement, include: (1) the mirror surface is used for dressing or dressing by a user and easily finding the body temperature measurement direction; (2) the infrared body temperature detection unit is arranged on the upper part of the mirror surface and is used for measuring the body temperature in a non-contact way; (3) the system processing unit is connected with the infrared body temperature detection unit and is controlled by a switch and used for controlling the infrared body temperature measurement unit to measure the body temperature and processing the measured body temperature; (4) and the display unit is arranged at the lower part of the mirror surface and connected with the system processing unit, and is controlled by the system processing unit to display the body temperature measured by the infrared body temperature detection unit.

Description

Mirror for infrared temperature measurement

Technical Field

The utility model belongs to contactless body temperature measurement field especially relates to a mirror for infrared temperature measurement.

Background

The mirror is a common tool in daily life, and when people look into the mirror, the mirror can show the appearance of a user in the mirror by utilizing the light reflection principle. However, the mirror in the prior art is often only used for a single function of dressing or appearance of a user, has low technical content, and cannot meet various living needs of people in modern society more and more.

Generally, people know whether a fever symptom exists or not by measuring body temperature through a thermometer; some special groups need to monitor the body temperature in real time to know the physical conditions, such as pregnant women, children, pregnant women, etc. However, the conventional clinical thermometer, the handheld electronic thermometer or the infrared thermometer need to be stored separately, so that time is wasted when the handheld electronic thermometer is searched and used, the body temperature is raised due to movement caused by searching in the searching process, and the measured body temperature is not accurate enough. Some children still have a conflict mood to the hand-held type clinical thermometer measurement body temperature, and the operation is got up to have the degree of difficulty. In addition, these thermometers may cause a certain threat to people's health due to bacterial growth over time, especially in spring. In addition, these thermometers may cause inaccurate measurement results due to slight displacement of the measurement site, which is also a big drawback.

At present, with the rise of the internet of things and smart home concepts, a large number of intelligent devices are brought forward, and scientific and technical products occupy a great position in the life of people. If the existing mirror and the thermometer are combined, the problems of the existing mirror and the thermometer in real application can be effectively solved. For example, after a new crown epidemic situation occurs, people will pay more and more attention to health, and people hope to accurately and conveniently monitor and display body temperature while dressing or dressing.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve following technical problem: most of the existing mirrors only have a reflection function and a single function; the existing clinical thermometer needs to be independently stored, or is easy to breed bacteria or cross infection in contact measurement or handheld operation. There is a new technical scheme for combining the two.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: a mirror usable for infrared thermometry, comprising:

(1) a mirror surface. By utilizing the mirror reflection, the user can not only finish the dressing or the makeup, but also easily find the body temperature measuring direction;

(2) and the infrared body temperature detection unit is arranged on the upper part of the mirror surface. The infrared body temperature detection unit can detect the body temperature without directly contacting with the human body;

(3) and the system processing unit is connected with the infrared body temperature detection unit and is controlled by a switch. Preferably, the system processing unit is a microprocessor, in particular a MCU; the switch is an inductive switch. When the approach of a user is sensed, the inductive switch automatically controls the system processing unit to start to operate;

(4) and the display unit is arranged at the lower part of the mirror surface and is connected with the system processing unit. The display unit displays the body temperature measured by the infrared body temperature detection unit. Preferably, the display unit is a digital display. More preferably, the digital display is an LED, LCD.

Preferably, the mirror of the present invention further comprises a power supply unit electrically connected to the system processing unit and supplying power thereto. More preferably, the power supply unit is a battery or a direct charging source.

Preferably, the mirror of the present invention further comprises a prompt unit connected to the system processing unit. More preferably, the prompting unit is a buzzer. When the mirror detects the body temperature, the buzzer can send out a prompt sound such as 'dropping' to prompt the user that the body temperature detection is successful.

Preferably, the units except the infrared body temperature detection unit and the display unit are integrated behind the mirror. Therefore, the front part of the mirror surface can be simple and beautiful while the mirror can perform the infrared temperature measurement function.

Preferably, the mirror of the present invention further comprises a rear case closely wrapping the units behind the mirror surface together with the mirror surface. More preferably, the rear shell has a waterproof structure and can be fixed on the wall surface and the surface of the cabinet body. The back shell may be fixed with hooks or glue. The units behind the mirror surface are wrapped inside the waterproof rear shell, so that the units can be protected from being corroded by water vapor and the like.

Drawings

Fig. 1 is a schematic structural view of a mirror according to the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an embodiment of the present invention;

fig. 4 is a schematic structural diagram according to an embodiment of the present invention.

Description of the reference numerals

A mirror 1; a mirror surface 10; an infrared body temperature detection unit 11; a display unit 13; a rear case 17; a system processing unit 22; a switch 24; a power supply unit 25; presentation unit 26

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only. The scope of the present application is not limited to the embodiments, and the claims are to be read in this light. For purposes of clarity and understanding by one of ordinary skill in the art, the components shown are not necessarily drawn to scale relative to each other, some dimensions may be exaggerated relative to other dimensions, and irrelevant or unimportant details may not be fully drawn for clarity of illustration.

The utility model provides a mirror for infrared temperature measurement, include: a mirror surface 10, an infrared body temperature detection unit 11, a system processing unit 22 and a display unit 13.

The mirror 10 of the present invention may take the form of a square or rectangle with rounded, rounded or squared corners or various other common shapes. The mirror surface can be used for dressing or dressing and can also assist the user to easily find the body temperature measurement direction.

The infrared body temperature detecting unit 11 is mounted on the upper portion of the mirror or other suitable position. The infrared body temperature detection unit 11 can detect the body temperature without directly contacting with the human body; the infrared body temperature detecting unit 11 may be embedded in the mirror, and the exposed portion of the mirror may be a small circular dot, but is not limited thereto.

The system processing unit 22 is connected with the infrared body temperature detecting unit 11 and is controlled by a switch 24. The system processing unit 22 may employ a microprocessor, particularly an MCU; the switch 24 is an inductive switch. When the switch 24 senses the approach of the user, the sensing switch 24 automatically controls the system processing unit 22 to start operating. The system processing unit 22 operates the infrared body temperature detection unit 11 to detect the body temperature, and stores, calculates and transmits body temperature data.

Display unit 13 may be mounted below mirror 10 or in another suitable location and connected to system processing unit 22. The body temperature data is detected by the infrared body temperature detection unit 11, stored and operated by the system processing unit 22, and then transmitted to and displayed by the display unit 13. The display unit 13 may be embedded in the mirror 10, and its portion exposed on the mirror surface may be a small square, but may also be other suitable shapes. The display unit may be designed as a digital display, e.g. as an LED, LCD, etc.

The mirror of the present invention further comprises a power supply unit 25 electrically connected to the system processing unit 22 and supplying power to it and even to the entire system. The power supply unit can be a direct charging power supply and is connected to a socket by a plug; or batteries, may need to be replaced periodically.

The mirror of the present invention further comprises a prompt unit 26 connected to the system processing unit. The prompting unit may be a buzzer. In this case, the system processing unit 22 may manipulate the prompting unit 26, such as a buzzer, to emit a prompt sound such as "drop", "beep", etc., while transmitting and displaying the body temperature data measured by the infrared body temperature detecting unit 11 to the display unit 13, so as to prompt the user that the body temperature detection is successful.

The infrared body temperature detection unit 11 and the display unit 13 are embedded on the mirror 10, and the units except the two are integrated behind the mirror 10. Therefore, the front part of the mirror surface can be simple and beautiful while the mirror is ensured to exert the infrared temperature measurement function and is displayed.

The mirror of the present invention further comprises a rear housing 17 which is tightly wrapped inside each unit behind the mirror surface together with the mirror surface 10 to form a safe airtight space. The rear case 17 has a waterproof structure; the rear shell 17 can be hung on the wall surface, the surface of the cabinet body and the like by utilizing the hook; or the back shell 17 is stuck on the wall surface, the surface of the cabinet body and the like by strong glue. The elements behind the mirror 10 are tightly packed inside a waterproof back cover to protect them from moisture and the like.

In one embodiment of the present invention, referring to fig. 1 and 2, when a user is in front of the mirror 1, specifically the mirror 10, the switch 24 can sense the approach of the user and open to allow the system processing unit 22 to start operating. The system processing unit 22 controls the infrared body temperature detecting unit 11 on the upper part of the mirror 10 to detect the body temperature of the user, and the detected body temperature data is processed and calculated by the system processing unit 22 and then transmitted and displayed to the display unit 13 on the lower part of the mirror 10.

In one embodiment of the present invention, referring to fig. 1 and 3, when a user is in front of the mirror 1, specifically the mirror 10, the switch 24 can sense the approach of the user and open to allow the system processing unit 22 to start operating. The system processing unit 22 controls the infrared body temperature detecting unit 11 on the upper part of the mirror 10 to detect the body temperature of the user, and the detected body temperature data is processed and calculated by the system processing unit 22 and then transmitted and displayed to the display unit 13 on the lower part of the mirror 10. In addition, the system processing unit 22 is electrically connected to and powered by the power supply unit 25. The power supply unit 25 supplies power to the whole system, can be a direct charging power supply and is connected to a socket by a plug; or may be a battery, which may need to be replaced periodically.

In another embodiment of the present invention, referring to fig. 1 and 4, when a user is in front of the mirror 1, specifically the mirror 10, the switch 24 can sense the approach of the user and open to start the operation of the system processing unit 22. The system processing unit 22 controls the infrared body temperature detecting unit 11 on the upper part of the mirror 10 to detect the body temperature of the user, and the detected body temperature data is processed and calculated by the system processing unit 22 and then transmitted and displayed to the display unit 13 on the lower part of the mirror 10. In addition, the system processing unit 22 is electrically connected to and powered by the power supply unit 25. The power supply unit 25 supplies power to the whole system, can be a direct charging power supply and is connected to a socket by a plug; or may be a battery, which may need to be replaced periodically. In addition, the system processing unit 22 may simultaneously control the prompting unit 26 to emit a prompt sound such as "drop", "beep", etc., thereby prompting the user that the body temperature detection has been completed.

In the above non-limiting embodiment, only the infrared body temperature detecting unit 11 and the display unit 13 are mounted or embedded on the mirror 10, and the appearance is simple and beautiful. The other units are integrated behind the mirror 10, and the rear case 17 forms a safe and closed space for the units together with the mirror 10, and tightly wraps the units inside, so that the units can normally function without being corroded by moisture and the like. In addition, the rear shell 17 can be hung on the wall surface, the surface of the cabinet body and the like by using a hook; or the back shell 17 is stuck on the wall surface, the surface of the cabinet body and the like by strong glue. Thus, the mirror can play multiple roles without occupying too much space.

The mirror of the utility model combines the functions of the traditional mirror and the infrared thermometer, so that a user can easily find the body temperature measuring position when dressing or dressing, and accurately and conveniently measure the body temperature in a non-contact way.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the present invention, and those skilled in the art can make various changes, modifications, substitutions and alterations without departing from the principle and spirit of the present invention, and the scope of the present invention is defined by the appended claims and their equivalents.

Claims (12)

1. A mirror for infrared thermometry, comprising:

a mirror surface;

the infrared body temperature detection unit is arranged on the mirror surface;

the system processing unit is connected with the infrared body temperature detection unit;

and the display unit is arranged on the mirror surface and connected with the system processing unit.

2. The mirror according to claim 1, further comprising a power supply unit electrically connected to and powering said system processing unit.

3. A mirror according to claim 2, wherein the power supply unit is a battery or a direct charging source.

4. The mirror as claimed in claim 1, further comprising a notification unit connected to said system processing unit.

5. A mirror according to claim 4, wherein the prompting unit is a buzzer.

6. Mirror according to claim 1, wherein the system processing unit is an MCU.

7. The mirror according to claim 1, wherein said system processing unit is controlled by a switch.

8. A mirror according to claim 7, wherein the switch is an inductive switch.

9. A mirror according to claim 1, wherein said display unit is a digital display.

10. A mirror according to claim 9, wherein the digital display is an LED or LCD.

11. The mirror according to claim 1, further comprising a back housing coupled to said mirror face.

12. A mirror according to claim 11, wherein the rear housing is of waterproof construction.

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