CN212259023U

CN212259023U - Multifunctional mobile phone

Info

Publication number: CN212259023U
Application number: CN202020808655.2U
Authority: CN
Inventors: 刘召军; 高丹鹏; 莫炜静; 高凡
Original assignee: Shenzhen Stan Technology Co Ltd
Current assignee: Shenzhen Stan Technology Co Ltd
Priority date: 2020-05-15
Filing date: 2020-05-15
Publication date: 2020-12-29
Anticipated expiration: 2030-05-15

Abstract

The embodiment of the utility model discloses multifunctional mobile phone. A multi-function handset comprising: the temperature measurement device comprises a control panel, a temperature measurement module, a disinfection module, a temperature measurement button and a disinfection button, wherein the temperature measurement button is used for generating a temperature measurement starting signal; the disinfection button is used for generating a disinfection starting signal; the control panel is used for controlling the temperature measurement module to carry out temperature detection on the measured target and controlling the disinfection module to emit ultraviolet light according to the temperature measurement starting signal and the disinfection starting signal. The embodiment of the utility model provides a through integrated temperature measurement module and disinfection module on the cell-phone, make the cell-phone have quick convenient temperature measurement function and deep ultraviolet ray disinfection function, it often is independent check out test set to have solved infrared check out test set and disinfecting equipment, be difficult to hand-carry and use inconvenient problem, satisfied people in trip and life quick temperature measurement and sterile demand, effectively checked partial infectious disease, the possibility of infecting the germ has been reduced, own and other people's is healthy with having been protected.

Description

Multifunctional mobile phone

Technical Field

The embodiment of the utility model provides a relate to mobile phone equipment technical field, especially relate to a multifunctional mobile phone.

Background

Along with the improvement of health consciousness of people, the prevention and control of bacteria and viruses in daily life are more and more paid attention to by people. Ultraviolet ray disinfection is the most effective means for killing germs at present, and has extremely strong killing effect on harmful microorganisms such as bacteria, viruses and the like known at present. Meanwhile, with the development of the infrared temperature measurement technology, the infrared temperature measurement technology is widely applied to people's lives for measuring the temperature of the surface of an object.

Ultraviolet disinfection equipment commonly used by people in life is used for disinfecting fixed places and specific articles, and an infrared temperature measurement method is commonly used for monitoring for preventing and treating influenza and other infectious diseases which can cause the human body to generate heat.

When influenza or other infectious diseases occur, people are easy to be infected with germs by using public goods or taking public transportation, and need to measure body temperature and sterilize in time when people take prevention and treatment; the household appliance commonly used for disinfection is large in size, is difficult to carry about, is difficult to satisfy people's sterile demand in trip and life, and simultaneously, the infrared detection equipment that people often used is often independent check out test set, and it is not convenient to carry about and use, and measured data can't be networked and is preserved and upload data simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model provides a multifunctional mobile phone to realize that infrared check out test set and disinfecting equipment are often independent check out test set, be difficult to hand-carry and use inconvenient problem.

In a first aspect, an embodiment of the present invention provides a multifunctional mobile phone, including: the temperature measurement device comprises a control panel, a temperature measurement module, a disinfection module, a temperature measurement button and a disinfection button, wherein the temperature measurement button is used for generating a temperature measurement starting signal; the disinfection button is used for generating a disinfection starting signal; the control panel is used for controlling the temperature measurement module to carry out temperature detection on the measured target and controlling the disinfection module to emit ultraviolet light according to the temperature measurement starting signal and the disinfection starting signal.

Optionally, the temperature measurement module includes: an independent temperature measurement module or a temperature measurement camera module;

the independent temperature measuring module comprises an infrared sensor;

the temperature measurement camera module comprises a camera module and an infrared sensor, and the camera module and the infrared sensor are arranged on the circuit connection substrate in parallel.

Optionally, the disinfection module includes: an independent disinfection module or a disinfection flash module;

the independent disinfection module comprises a plurality of ultraviolet light-emitting diode chips which are arranged on an ultraviolet light-emitting diode substrate according to preset positions and packaged;

the disinfection flash lamp module comprises an illumination flash lamp and an ultraviolet light-emitting diode array which are arranged on a flash lamp module substrate in parallel and packaged; the ultraviolet light-emitting diode array is formed by arranging a plurality of ultraviolet light-emitting diode chips on an ultraviolet light-emitting diode substrate according to preset positions.

The multifunctional mobile phone comprises one or more disinfection modules.

Optionally, the independent temperature measurement module is arranged at any opening position of the mobile phone shell, and performs temperature detection on the detected target through the opening of the mobile phone shell;

the temperature measurement camera module is arranged at the position of a rear camera or a front camera of the mobile phone shell, and detects the temperature of a measured object through an opening of the mobile phone shell.

Optionally, the independent disinfection module is arranged at any opening position on the back of the mobile phone shell and emits ultraviolet light through the opening on the back of the mobile phone shell;

the disinfection flash lamp module is arranged at a preset opening position on the back surface of the mobile phone shell and emits ultraviolet light through the opening on the back surface of the mobile phone shell.

Optionally, the infrared sensor is a pyroelectric infrared sensor, and includes a filter lens, a sensing element and a signal amplifier, the filter lens, the sensing element and the signal amplifier are stacked on the substrate, the filter lens filters infrared rays within a non-threshold range of a measured target, the sensing element converts received infrared rays into corresponding electric signals according to a pyroelectric effect, the signal amplifier amplifies the electric signals and transmits the electric signals to a mobile phone system, and a temperature value of the measured target is obtained after the processing and calculation of a preset program of the mobile phone system.

Optionally, the camera module includes a protection film, an optical lens, a focusing plane, an infrared filter and an image sensor, the protection film, the optical lens, the focusing plane, the infrared filter and the image sensor are sequentially stacked, the protection film protects other elements, the optical lens refracts incident light according to the lens structure, a clear optical image is formed on the focusing plane through focusing adjustment, the infrared filter is used for filtering out infrared light entering the camera module, allowing visible light to pass through, and irradiating the optical image on the image sensor, the image sensor is used for converting an optical signal into an electrical signal and transmitting a mobile phone system, and an object image is formed after processing of an analog-to-digital converter and a preset program of the mobile phone system.

Optionally, the illumination flash includes a light source forward-mounted illumination flash or a light source flip-chip illumination flash;

the light source forward-mounted lighting flash lamp comprises a blue light chip, a metal bonding wire, a bowl cup and fluorescent glue, wherein the blue light chip is fixed at the bottom of the bowl cup through a thermosetting adhesive;

the blue light chip and the fluorescent glue are used for emitting composite light and adjusting the light emitting color of the light source forward-mounted type lighting flash lamp, the metal bonding wire is used for connecting an electrode of the blue light chip and a bottom circuit of the bowl cup, and the bowl cup is used for supporting the structure of the light source forward-mounted type lighting flash lamp;

light source flip-chip type illumination flash light includes blue light chip, bowl cup and fluorescent glue, the blue light chip is fixed in through the conduction type adhesive bowl bottom of cup portion, and through the conduction type adhesive with bowl bottom of cup portion electricity is connected, the fluorescent glue fill in the bowl cup.

Optionally, the disinfection flash lamp module further comprises lens-shaped quartz glass, and the lens-shaped quartz glass is attached to the circuit connection substrate and the flash lamp module substrate.

Optionally, the size of the ultraviolet light emitting diode chip is smaller than 100 micrometers.

The embodiment of the utility model provides a through integrated temperature measurement module and disinfection module on the cell-phone, make the cell-phone have quick convenient temperature measurement function and deep ultraviolet ray disinfection function, it often is independent check out test set to have solved infrared check out test set and disinfecting equipment, be difficult to hand-carry and use inconvenient problem, satisfied people in trip and life quick temperature measurement and sterile demand, effectively checked partial infectious disease, the possibility of infecting the germ has been reduced, own and other people's is healthy with having been protected.

Drawings

Fig. 1 is a schematic view of a multifunctional mobile phone according to an embodiment of the present invention;

fig. 2A is a schematic structural diagram of an independent temperature measurement module of a multifunctional mobile phone according to an embodiment of the present invention;

fig. 2B is a schematic structural diagram of a temperature measurement camera module of a multifunctional mobile phone according to an embodiment of the present invention;

fig. 2C is a schematic cross-sectional structure view of an infrared sensor of a temperature measurement camera module according to an embodiment of the present invention;

fig. 3A is a schematic structural view of an independent disinfection module of a multifunctional mobile phone according to an embodiment of the present invention;

fig. 3B is a schematic structural view of a disinfection flash module of a multifunctional mobile phone according to an embodiment of the present invention;

fig. 3C is a schematic structural diagram of an ultraviolet light emitting diode array according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a light source forward-mounted type disinfection flash lamp module according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a disinfection flash module with a light source flipped over according to an 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.

Fig. 1 is a schematic view of a multifunctional mobile phone provided by an embodiment of the present invention, as shown in the figure:

a multifunction handset 1 comprising: the temperature measurement device comprises a control panel (not shown), a temperature measurement module 3, a disinfection module 4, a temperature measurement button 2a and a disinfection button 2b, wherein the temperature measurement button 2a is used for generating a temperature measurement starting signal; the disinfection button 2b is used for generating a disinfection starting signal; the control panel is used for controlling the temperature measurement module 3 to carry out temperature detection on a measured target and controlling the disinfection module 4 to emit ultraviolet light according to the temperature measurement starting signal and the disinfection starting signal.

When the temperature measurement is needed in daily life, the temperature measurement button 2a is operated to generate a temperature measurement starting signal, the control panel controls the temperature measurement module 3 to receive infrared rays in a measured target range according to the temperature measurement starting signal, the received infrared light signals are converted into electric signals, the electric signals are transmitted to the control panel, and the temperature data of the surface of the measured target are obtained.

The ultraviolet ray can destroy the molecular structure of DNA or RNA of bacteria and viruses remained on an object, thereby thoroughly killing the germs and inhibiting the bacteria from reproducing again, the deep ultraviolet ray has extremely strong killing effect on all the known harmful microorganisms such as bacteria and viruses at present, and the deep ultraviolet ray is safe and reliable as a physical germ killing mode. The disinfection equipment commonly used in life is large and inconvenient to carry about, the disinfection requirement of going on a journey and the disinfection requirement of daily rising are difficult to satisfy, the disinfection module 14 is integrated on the portable electronic equipment, and when disinfection is needed, the electronic equipment with the disinfection module 4 can be used for disinfecting a target object. Exemplarily, disinfection module 4 can set up on the electronic product that conveniently carries such as cell-phone, panel computer, wrist-watch, notebook computer, the utility model discloses set up disinfection module 4 on the cell-phone, when needs disinfect to the target product, operate the disinfection start signal that produces to electronic product's disinfection button 2b, cell-phone 1's control panel shines the disinfection according to disinfection control signal control disinfection module 4 ultraviolet ray that the peak wavelength is 200 ~ 280nm to the target object.

The temperature measuring button 2a and the disinfection button 2b can be mechanical buttons arranged on a shell of the mobile phone or virtual buttons arranged on a screen of the mobile phone, and are used for generating temperature measuring and disinfection starting signals according to touch operation of a user.

The embodiment of the utility model provides a through integrated temperature measurement module and disinfection module on the cell-phone, make the cell-phone have quick convenient temperature measurement function and deep ultraviolet ray disinfection function, it often is independent check out test set to have solved infrared check out test set and disinfecting equipment, be difficult to hand-carry and use inconvenient problem, satisfied people in trip and life quick temperature measurement and sterile demand, effectively checked partial infectious disease, the possibility of infecting the germ has been reduced, other people's is healthy to have been protected.

Fig. 2A is a schematic structural diagram of an independent temperature measurement module of a multifunctional mobile phone according to an embodiment of the present invention; fig. 2B is a schematic structural diagram of a temperature measurement camera module of a multifunctional mobile phone according to an embodiment of the present invention; fig. 2C is the embodiment of the utility model provides a pair of temperature measurement camera module's infrared ray sensor's section structure sketch map.

As shown in fig. 2A and 2B, optionally, the temperature measurement module includes: an independent temperature measurement module 31 or a temperature measurement camera module 32;

the independent temperature measuring module 31 comprises an infrared sensor 50; the temperature measuring module 31 is connected to the control board of the mobile phone through the circuit connection substrate 70.

The temperature measurement camera module 32 includes a camera module 60 and an infrared sensor 50, and the camera module 32 and the infrared sensor 60 are disposed in parallel on the circuit connection substrate 70.

Fig. 3A is a schematic structural view of an independent disinfection module of a multifunctional mobile phone according to an embodiment of the present invention; fig. 3B is a schematic structural view of a disinfection flash module of a multifunctional mobile phone according to an embodiment of the present invention; fig. 3C is a schematic structural diagram of an ultraviolet light emitting diode array according to an embodiment of the present invention.

As shown in fig. 3A and 3B, optionally, the sterilization module includes: a separate disinfection module 41 or a disinfection flash module 42;

as shown in fig. 3C, the independent sterilization module 42 includes a plurality of uv led chips 301 disposed on a uv led substrate 303 at predetermined positions and packaged;

the ultraviolet light emitting diode chips 301 are regularly arranged on the ultraviolet light emitting diode substrate 303 to form the ultraviolet light emitting diode array 30, and the ultraviolet light emitting diode array has higher ultraviolet light emitting power in a smaller area, so that the ultraviolet disinfection efficiency is improved. In this embodiment, the uv led chips 301 are mounted on the uv led substrate 303 by mass transfer, and the spacing between the uv led chips 301 is about 50 μm, which is convenient for integration and miniaturization. The way of bulk transfer is in particular to pick up the micromold (preform) from a predetermined position with very high spatial precision and orientation; moving the microchips to predetermined positions while maintaining the relative spatial positions and orientations of the microchips; then, while maintaining the new relative position and orientation, selectively dispensing microchips at the new location; the current bulk transfer techniques mainly include electrostatic force adsorption methods, van der waals force transfer methods, electromagnetic force adsorption methods, patterned laser ablation methods, fluid assembly methods, and the like.

As shown in fig. 3B, the disinfection flash module 42 includes the illumination flash 20 and the uv led array 30, which are arranged in parallel on the flash module substrate 40 and packaged; the uv led array 30 is formed by disposing a plurality of uv led chips 301 on a uv led substrate 303 according to a predetermined position.

The multifunctional mobile phone comprises one or more disinfection modules. Through setting up a plurality of disinfection modules, radiation range and disinfection intensity when can increase the multi-functional cell-phone disinfection.

the disinfection flash lamp module is arranged at a preset opening position on the back surface of the mobile phone shell and emits ultraviolet light through the opening on the back surface of the mobile phone shell. And (3) carrying out temperature measurement operation on the surface of the object while shooting the object image by using the mobile phone system and the related APP.

The ultraviolet rays irradiate the human body to hurt the skin of the human body, and the disinfection module is arranged on the back of the mobile phone shell to ensure that the human body and other organisms are not hurt by the deep ultraviolet rays.

Referring to fig. 2C, optionally, the infrared sensor 50 is a pyroelectric infrared sensor, and includes a filter 51, a sensing element 52 and a signal amplifying element 53, the filter 51, the sensing element 52 and the signal amplifying element 53 are stacked on a substrate 54, the filter 51 filters infrared rays in a non-threshold range within a range of a measured object, the sensing element 52 converts received infrared rays into corresponding electric signals according to a pyroelectric effect, the signal amplifying element 53 amplifies the electric signals and transmits the electric signals to a mobile phone system, and a temperature value of the measured object is obtained after processing and calculation by a preset program of the mobile phone system.

The sensor 52 is fixed to the substrate 54 by the first holder 55 and the second holder 56, and the first holder 55, the second holder 56, and the signal amplifier 53 are directly fixed to the substrate 54. Two ends of the sensing element 52 are respectively and electrically connected with the conductive layer of the first bracket 55 and the conductive layer of the second bracket 56, the conductive layer of the first bracket 55 and the conductive layer of the second bracket 56 are electrically connected with the printed circuit of the substrate 54, the signal amplifying element 53 is placed in a preset groove on the substrate 54, and the bottom of the substrate 54 is provided with a pad.

Infrared rays with various wavelengths are emitted to the pyroelectric infrared sensor, a filter 51 is covered on the top end of the pyroelectric infrared sensor 50 and is used for filtering infrared rays in a non-threshold range in a range of a detected object, only necessary infrared rays pass through, the infrared rays penetrating through the filter 51 are irradiated on the surface of the sensing element 52, a heat absorption film (not shown) is further arranged on the surface of the sensing element 52 and is used for converting the infrared rays into heat energy, the surface temperature of the sensing element 52 is increased, the sensing element 52 generates an electric signal according to a thermoelectric effect, namely conversion from the infrared rays to the electric signal is completed, the electric signal is transmitted to a mobile phone by the signal amplifying element 53, and a temperature value of the detected object is obtained after the electric signal is processed and calculated by a preset program. The signal amplifying element of the pyroelectric infrared sensor 50 may be a Field Effect Transistor (FET) or an operational amplifier.

With continued reference to fig. 2B, optionally, the camera module 60 includes a protective film 61, an optical lens 62, a focusing plane 63, an infrared filter 64 and an image sensor 65, and the protective film 61, the optical lens 62, the focusing plane 63, the infrared filter 64 and the image sensor 65 are sequentially stacked, the protective film 61 protects other elements, the optical lens 62 refracts incident light according to a lens structure, the infrared filter 64 is used to filter out infrared light entering the camera module 60, allow visible light to pass through, and the optical image is irradiated on the image sensor 65, the image sensor 65 is configured to convert an optical signal into an electrical signal and transmit the electrical signal to a mobile phone system, and an object image is formed after the optical signal is processed by an analog-to-digital converter and a preset program of the mobile phone system.

Fig. 4 is a schematic structural view of a light source forward-mounted type disinfection flash lamp module according to an embodiment of the present invention; fig. 5 is a schematic structural view of a disinfection flash module with a light source flipped over according to an embodiment of the present invention.

As shown in fig. 4 and 5, the illumination flash 20 may alternatively include a light source forward type illumination flash (21 in fig. 4) or a light source flip-chip type illumination flash (22 in fig. 5);

as shown in fig. 4, the light source forward-mounted lighting flash lamp 21 includes a blue light chip 201, a metal bonding wire 202, a bowl 203 and a fluorescent glue 205, the blue light chip 201 is fixed at the bottom of the bowl 203 through a thermosetting adhesive 204, the metal bonding wire 202 electrically connects an electrode of the blue light chip 201 with the bottom of the bowl 203, and the fluorescent glue 205 is filled in the bowl;

the blue light chip 201 and the fluorescent glue 205 are used for emitting composite light to adjust the light emitting color of the light source normal-mounted type illumination flash lamp 21, specifically, the flash lamp module substrate 40 provides voltage to excite the blue light chip 201 to emit blue light (the peak wavelength is 420mm-480mm), under the excitation of the blue light chip 201, the fluorescent glue 205 can emit visible light with the peak wavelength of 500-660nm, and the visible light is in accordance with the blue light emitted by the blue light chip 201, so that the color adjustment is realized. The metal bonding wires 202 are used for connecting positive and negative electrodes of the blue light chip 201 and positive and negative electrodes at the bottom of the bowl cup 203 to be in wire bonding connection, so that the positive and negative electrodes are electrically connected, the positive and negative electrodes of the bowl cup 203 are electrically connected to the flash lamp module substrate 40, and the bowl cup 203 is used for supporting the structure of the light source positive-mounted lighting flash lamp 21.

In order to ensure the uniformity and stability of the current injected into the blue light chip 201, usually the anode 206 of the blue light chip 201 is welded to the anode 208 of the bowl cup 203 through the metal bonding wire 202, and the anode 208 of the bowl cup 203 is connected to the anode 401 of the flash lamp module substrate 40 through the anode welding line 210 embedded in the bowl bottom; the negative electrode 207 of the blue light chip 201 is welded with the negative electrode 209 of the bowl cup 203 through the metal bonding wire 202, the negative electrode 209 of the bowl cup 203 is connected with the negative electrode 402 of the flash lamp module substrate 40 through the negative electrode welding circuit 211 embedded in the bottom of the bowl, and the driving current of the light source positive-mounted lighting flash lamp 21 is small.

As shown in fig. 5, the light source flip-chip type flashlight 22 includes a blue chip 201, a bowl 203 and a fluorescent glue 205, the blue chip 201 is fixed to the bottom of the bowl 203 by a conductive adhesive 212 and is electrically connected to the bottom of the bowl 203 by the conductive adhesive 212, and the fluorescent glue 205 is filled in the bowl 203.

In order to avoid the influence of the light emitting efficiency caused by the squeezing of the electrodes on the light emitting area when the blue light chip 201 is mounted, the light source flip-chip type illumination flash lamp 22 with the blue light chip 201 flipped can be adopted, that is, the blue light chip 201 is inverted. In order to ensure the uniformity and stability of the current in the process of injecting the current into the blue light chip 201, the anode 206 of the blue light chip 201 and the anode 208 of the bowl cup 203 are fixed and electrically connected through a conductive adhesive 212, and the anode 208 of the bowl cup 203 is connected with the anode 401 of the flash lamp module substrate 40 through an anode welding line 210 embedded at the bottom of the bowl; the cathode 207 of the blue light chip 201 is fixed and electrically connected with the cathode 209 of the bowl cup 203 through the conductive adhesive 212, and the cathode 209 of the bowl cup 203 is connected with the cathode 402 of the flash lamp module substrate 40 through the cathode welding circuit 211 embedded in the bottom of the bowl. The light source flip-chip type illumination flash lamp 22 can be used with a large current, and can be made smaller in size, and the heat dissipation function is improved.

Optionally, the disinfection flash lamp module further comprises lens-shaped quartz glass, and the lens-shaped quartz glass is attached to the circuit connection substrate and the flash lamp module substrate. The lens type quartz glass can protect the temperature measuring module, the camera module, the flash lamp module, the ultraviolet light emitting diode array and the illuminating flash lamp.

Optionally, the size of the ultraviolet light emitting diode chip is smaller than 100 micrometers. The size of the ultraviolet light emitting diode chip is smaller than 100 microns, the power adjustable range of the ultraviolet light emitting diode chip is wide, the ultraviolet light emitting diode chip is convenient to integrate in a miniaturized device, the ultraviolet light emitting diode chip is not limited by the position size and the shape of the device, and the regional control can be realized, so that the killing requirements under different conditions are met.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. 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 with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims

1. A multi-function handset, comprising: the temperature measurement device comprises a control panel, a temperature measurement module, a disinfection module, a temperature measurement button and a disinfection button, wherein the temperature measurement button is used for generating a temperature measurement starting signal; the disinfection button is used for generating a disinfection starting signal; the control panel is used for controlling the temperature measurement module to carry out temperature detection on the measured target and controlling the disinfection module to emit ultraviolet light according to the temperature measurement starting signal and the disinfection starting signal.

2. The multifunctional mobile phone of claim 1, wherein the temperature measurement module comprises: an independent temperature measurement module or a temperature measurement camera module;

the independent temperature measuring module comprises an infrared sensor;

3. The multi-function phone of claim 1, wherein said disinfection module comprises: an independent disinfection module or a disinfection flash module;

the disinfection flash lamp module comprises an illumination flash lamp and an ultraviolet light-emitting diode array which are arranged on a flash lamp module substrate in parallel and packaged; the ultraviolet light-emitting diode array is formed by arranging a plurality of ultraviolet light-emitting diode chips on an ultraviolet light-emitting diode substrate according to preset positions;

the multifunctional mobile phone comprises one or more disinfection modules.

4. The multifunctional mobile phone of claim 2, wherein the independent temperature measurement module is disposed at any opening position of the mobile phone shell, and detects the temperature of the object to be measured through the opening of the mobile phone shell;

5. The multifunctional mobile phone of claim 3, wherein the independent disinfection module is disposed at any opening position on the back of the mobile phone housing and emits ultraviolet light through the opening on the back of the mobile phone housing;

6. The multifunctional mobile phone of claim 4, wherein the infrared sensor is a pyroelectric infrared sensor, and comprises a filter, a sensing element and a signal amplifier, the filter, the sensing element and the signal amplifier are stacked on the substrate, the filter filters infrared rays in a non-threshold range within a range of a measured object, the sensing element converts the received infrared rays into corresponding electric signals according to a pyroelectric effect, the signal amplifier amplifies the electric signals and transmits the electric signals to a mobile phone system, and a temperature value of the measured object is obtained after processing and calculation by a preset program of the mobile phone system.

7. The multifunctional handset according to claim 4, wherein said camera module comprises a protective film, an optical lens, a focusing plane, an infrared filter and an image sensor, and the protective film, the optical lens, the focusing plane, the infrared filter and the image sensor are sequentially stacked, the protective film protects other elements, the optical lens refracts incident light according to the lens structure, a clear optical image is formed on a focusing plane through focusing adjustment, the infrared filter is used for filtering infrared light entering the camera module and allowing visible light to pass through, and irradiating the optical image on the image sensor, wherein the image sensor is used for converting the optical signal into an electric signal and transmitting the electric signal to the mobile phone system, and an object image is formed after the optical signal is processed by an analog-to-digital converter and a preset program of the mobile phone system.

8. The multifunctional handset according to claim 3, wherein said illumination flash includes a light source-face-up type illumination flash or a light source-flip type illumination flash;

9. The multifunction phone of claim 3, wherein said disinfecting flash module further comprises a lens-shaped quartz glass, said lens-shaped quartz glass being attached to said wiring connection substrate and said flash module substrate.

10. The multi-function phone of claim 3, wherein the size of said UV LED chip is less than 100 microns.