CN111632177A - Control method and control system of disinfection lamp and disinfection device - Google Patents

Abstract

The invention relates to a control method of a disinfection lamp, the disinfection lamp is used for disinfecting electronic equipment, and the control method comprises the following steps: s10: detecting the state of the electronic equipment, and if the electronic equipment is not in use, lighting a disinfection lamp to disinfect the electronic equipment; s20: and the lighting duration time of the sterilizing lamp reaches a second set time, and the sterilizing lamp is turned off. The electronic equipment can be accurately judged whether to be in an unused state or not, and the electronic equipment is disinfected without hindering the use of a user.

Description

Control method and control system of disinfection lamp and disinfection device

Technical Field

The invention belongs to the technical field of electronic equipment accessories, and particularly relates to a control method, a control system and a disinfection device of a disinfection lamp.

Background

The existing device control system capable of sterilizing electronic equipment is not intelligent enough.

Disclosure of Invention

The present invention provides a method, a system and a device for controlling a disinfection lamp, which are directed to overcome the above-mentioned drawbacks of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method of controlling a germicidal lamp for disinfecting an electronic device, comprising the steps of: s10: detecting the state of the electronic equipment, and if the electronic equipment is not in use, lighting a disinfection lamp to disinfect the electronic equipment; s20: and the lighting duration time of the sterilizing lamp reaches a second set time, and the sterilizing lamp is turned off.

Preferably, in step S20, the method further includes: if the lighting duration of the disinfection lamp does not reach the second set time, the electronic equipment is detected to be in the use state, the disinfection lamp is turned off, and the step S10 is entered.

Preferably, the method further comprises step S30: and the closing duration time of the disinfection lamp does not reach the third set time, and the disinfection lamp is kept in an off state.

Preferably, in step S30, the method further includes: if the sterilizing lamp is turned off for the third set time, the process proceeds to step S10.

Preferably, the method further comprises step S01: and detecting whether the electronic equipment is electrically connected with the disinfection lamp, and if the electronic equipment is electrically connected with the disinfection lamp, entering the step S10.

A disinfection lamp control system comprises a power supply unit, a detection unit, a processing unit, a timing unit and a disinfection lamp, wherein the processing unit is electrically connected with the power supply unit, the processing unit is electrically connected with the detection unit, the processing unit is electrically connected with the timing unit, and the processing unit is electrically connected with the disinfection lamp; the power supply unit is used for supplying power to the detection unit, the processing unit, the timing unit and the disinfection lamp; the detection unit is used for detecting the state of the electronic equipment, generating different detection values according to different states of the electronic equipment and feeding the detection values back to the processing unit; the processing unit judges the state of the electronic equipment according to the detection value fed back by the detection unit, controls the disinfection lamp to be turned on or off according to the state of the electronic equipment, and can send a timing instruction to the timing unit; the timing unit is used for timing or stopping timing the duration time of the unused state of the electronic equipment, the opening duration time of the disinfection lamp and the closing duration time of the disinfection lamp according to the timing instruction of the processing unit, and feeding back the timing completion information of the unused state of the electronic equipment, the continuous opening timing completion information of the disinfection lamp and the continuous closing timing completion information of the disinfection lamp to the processing unit when the duration time of the unused state of the electronic equipment, the opening duration time of the disinfection lamp and the closing duration time of the disinfection lamp reach the set corresponding time threshold.

Preferably, the power supply unit comprises an interface converter, and the interface converter can be electrically connected with the electronic equipment or an external power supply; in step S01, the processing unit detects whether the interface converter is electrically connected to the electronic device, and if the interface converter is electrically connected to the electronic device, the processing unit obtains power from the electronic device through the interface converter, and then proceeds to step S10.

Preferably, if the processing unit detects that the interface converter is not electrically connected with the electronic device and the interface converter is electrically connected with the external power supply, the processing unit performs self-checking according to a set program.

Preferably, the detection unit includes a sensor that can detect a moving state and a stationary state of the electronic device, and a detection value of the moving state feedback is different from a detection value of the stationary state feedback, the sensor feeding back the detection values to the processing unit; in step S10, the processing unit determines whether the electronic device is in a moving state or a stationary state based on the fed-back detection value; if the processing unit judges that the electronic equipment is in the static state, the processing unit sends a first timing instruction to the timing unit, and the timing unit starts timing the duration time of the electronic equipment in the static state; if the continuous feedback detection values of the sensors are judged to be in a static state by the processing unit within the first set time, the processing unit judges that the electronic equipment is in an unused state, and the processing unit controls to light the disinfection lamp.

Preferably, if the processing unit determines that the electronic device is in the motion state within the first set time period, the processing unit re-enters step S10.

Preferably, in step 20, the processing unit controls the disinfection lamp to be turned on, and sends a second timing instruction to the timing unit, and the timing unit starts timing the on duration of the disinfection lamp; if the detected values fed back by the sensors are judged to be in a static state by the processing unit within the second set time, the timing unit feeds back second timing completion information to the processing unit when the timing reaches the second set time, and the processing unit turns off the disinfection lamp according to the second timing completion information and then the step S30 is carried out.

Preferably, if the processing unit determines that the electronic device is in the motion state within the second set time period, the processing unit immediately sends a second timing ending instruction to the timing unit, and controls to turn off the sterilizing lamp, and the process returns to step S10.

Preferably, in step S30, the processing unit controls the detection unit to stop detecting, and sends a third timing instruction to the timing unit, and the timing unit starts timing the turn-off duration of the disinfection lamp;

and the processing unit controls the detection unit to start detection until the disinfection lamp closing duration reaches the third set time, and the step S10 is proceeded.

A disinfection device for use with an electronic device includes a processor and a memory for storing one or more programs and configured for execution by the processor.

Preferably, the electronic equipment can be accommodated in a disinfection device for use, and the disinfection device comprises a mobile phone protective shell and a flat protective shell.

The invention has the beneficial effects that:

1. can realize the intelligent judgement to the electronic equipment situation of use, avoid the user to place electronic equipment short time, temporarily, be mistakenly determined that electronic equipment is not used to avoid appearing that electronic equipment is placed temporarily but is influenced the follow-up condition of using of user by the disinfection lamp of lighting. Accurate discernment electronic equipment does not use the state, lights the sterilamp under the state that electronic equipment does not use and disinfects for electronic equipment disinfection, on the one hand, does not delay the user and uses electronic equipment, and on the other hand can realize the sterile intelligent management to electronic equipment, does not need the electronic equipment user to consume the disinfection matter of mental management to electronic equipment, and convenient to use.

2. If the user needs to use the electronic equipment in the disinfection process, the disinfection lamp can be immediately turned off, and the user can not be influenced to immediately use the electronic equipment. And in the disinfection process, the intelligent disinfection time of the system can be controlled, so that the electronic equipment can be sufficiently and effectively disinfected by the optimal disinfection time and the optimal power consumption.

3. The sterilizing lamp keeps an off state within a third set time after continuously and effectively irradiating, sterilizing and disinfecting the electronic equipment for one time. On one hand, the sterilizing lamp is not lighted for irradiation sterilization again within the effective sterilization time range after the electronic equipment is effectively sterilized, so that repeated meaningless sterilization can be avoided, the effective sterilization interval of the sterilizing lamp is kept, and the starting times of the sterilizing lamp can be effectively reduced; on the other hand, the electric quantity consumption of the disinfection lamp control system can be reduced, and the influence on the service time of the electronic equipment due to the large electric quantity consumption of the disinfection lamp control system can be avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

fig. 1a is a schematic flow chart 1 of a method for controlling a disinfection lamp according to the present invention.

FIG. 1b is a schematic flow chart of a method for controlling a germicidal lamp in accordance with the present invention as shown in FIG. 2.

Fig. 2 is an electrical schematic diagram of a disinfection lamp control system provided by the present invention.

Fig. 3a is a schematic front view of a disinfection device according to the invention.

Fig. 3b is a schematic perspective view of a disinfection device according to the present invention.

Fig. 4 is a perspective view of a disinfection device housing according to the present invention.

Fig. 5 is a perspective view of an interface converter of a disinfection device according to the present invention.

Fig. 6a is a schematic side view of a convex portion of a disinfection device according to the invention.

Fig. 6b is a perspective view of a projection and a mounting hole of a disinfection device according to the present invention.

Description of the drawings: 10. a sterilizing device; 20. a housing; 21. a housing sidewall; 211. a convex edge; 22. a housing rear wall; 23. a boss portion; 231. mounting holes; 30. an interface converter; 31. a raised interface; 32. a groove interface; 40. a sterilizing light.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. The embodiments in the present application may be combined as appropriate. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

Referring to fig. 1a to 1b, a method for controlling a disinfection lamp for disinfecting an electronic device includes the following steps:

s01: and detecting whether the electronic equipment is electrically connected with the disinfection lamp, and if the electronic equipment is electrically connected with the disinfection lamp, entering the step S10.

S10: detecting the state of the electronic equipment, if the electronic equipment is not in use, lighting a disinfection lamp to disinfect the electronic equipment by irradiation, and entering step S20;

s20: and detecting the lighting duration of the disinfection lamp, if the lighting duration of the disinfection lamp reaches a second set time, turning off the disinfection lamp, and entering the step S30.

In step S20, the method further includes: if the lighting duration of the disinfection lamp does not reach the second set time, the electronic equipment is detected to be in the use state, the disinfection lamp is turned off, and the step S10 is entered.

S30: detecting the closing duration of the disinfection lamp, and if the closing duration of the disinfection lamp does not reach a third set time, keeping the disinfection lamp in an off state;

in step S30, the method further includes: if the sterilizing lamp is turned off for the third set time, the process proceeds to step S10.

Referring to fig. 2, a disinfection lamp control system for implementing a disinfection lamp control method includes a power supply unit, a detection unit, a processing unit, a timing unit and a disinfection lamp, wherein the processing unit is electrically connected to the power supply unit, the processing unit is electrically connected to the detection unit, the processing unit is electrically connected to the timing unit, and the processing unit is electrically connected to the disinfection lamp. The power supply unit is used for supplying power to the detection unit, the processing unit, the timing unit and the disinfection lamp; the detection unit can detect the state of the electronic equipment, generate different detection values (namely detection results) according to different states of the electronic equipment and feed the detection values back to the processing unit; the processing unit judges the state of the electronic equipment according to the detection value fed back by the detection unit, controls the disinfection lamp to be turned on or off according to the state of the electronic equipment, and can send a timing instruction to the timing unit; the timing unit is used for timing or stopping timing the duration time of the unused state of the electronic equipment, the opening duration time of the disinfection lamp and the closing duration time of the disinfection lamp according to the timing instruction of the processing unit, and feeding back the timing completion information of the unused state of the electronic equipment, the continuous opening timing completion information of the disinfection lamp and the continuous closing timing completion information of the disinfection lamp to the processing unit when the duration time of the unused state of the electronic equipment, the opening duration time of the disinfection lamp and the closing duration time of the disinfection lamp reach the set corresponding time threshold.

Specifically, the power supply unit includes an interface converter for electrically connecting with the electronic device or an external power source. In step S01, the processing unit detects whether the recognition interface converter is electrically connected to the electronic device; if the processor detects that the interface converter is electrically connected with the electronic device, the processing unit can get power from the electronic device through the interface converter, and the process goes to step S10; if the processor detects that the interface converter is not electrically connected with the electronic equipment and the interface converter is electrically connected with the external power supply, the processing unit can get electricity from the external power supply through the interface converter, and at the moment, the processing unit carries out self-checking according to a set program. Therefore, the intelligence of the disinfection control system can be increased, and the use scenes of the disinfection control system are increased.

The detection unit comprises an acceleration sensor, and the acceleration sensor is used for detecting the acceleration of the electronic equipment and feeding back the detected acceleration value to the processing unit.

In step S10, the processing unit determines whether the electronic device is in a moving state or a stationary state based on the fed back acceleration detection value; if the processing unit judges that the electronic equipment is in the static state, a first timing instruction is sent to the timing unit, and the timing unit starts timing the duration time of the electronic equipment in the static state; if the acceleration sensor continuously feeds back the acceleration detection value within the first set time and the processing unit judges that the electronic equipment is in a static state, when the timing reaches a set first time threshold (called as a first set time for short), the timing unit feeds back first timing completion information to the processing unit, the processing unit judges that the electronic equipment is in an unused state according to the first timing completion information, the processing unit controls the sterilizing lamp to be turned on, and the step S20 is entered to irradiate and sterilize the electronic equipment; if the detected acceleration value fed back by the acceleration sensor is determined by the processing unit to be in the motion state within the first set time, the processing unit sends a first timing ending instruction to the timing unit, and the process returns to step S10.

It can be understood that, in the process of determining whether the electronic device is in the unused state by the processing unit, the processing unit may also obtain all acceleration detection values fed back by the acceleration sensor within the first set time after the timing reaches the first set time, and if all the acceleration detection values are determined to be in the stationary state by the processor, the processing unit controls the disinfecting lamp to be turned on, and the process proceeds to step S20; if the detected acceleration value is determined to be in the motion state by the processor, the process returns to step S10.

Step S10 can realize intelligent judgment of the usage of the electronic device, and prevent the user from placing the electronic device temporarily for a short time and being mistakenly determined that the electronic device is not used, thereby preventing the electronic device from being placed temporarily but being lighted by the disinfecting lamp to affect subsequent use of the user. Accurate discernment electronic equipment does not use the state, lights the sterilamp under the state that electronic equipment does not use and disinfects for electronic equipment disinfection, on the one hand, does not delay the user and uses electronic equipment, and on the other hand can realize the sterile intelligent management to electronic equipment, does not need the electronic equipment user to consume the disinfection matter of mental management to electronic equipment, and convenient to use.

It is understood that in step S10, the processing unit may also determine that the electronic device is in a static state, i.e., immediately determine that the electronic device is in an unused state, and light the disinfection lamp according to the fed-back acceleration detection value.

It is to be understood that the detection unit may also be one or a combination of different types of sensors, such as a pressure sensor, a speed sensor, and other sensors, which are not listed herein, as long as the detection unit can detect the moving state and the stationary state of the electronic device, and the detection value of the moving state feedback is different from the detection value of the stationary state feedback, and the processing unit can determine the state of the electronic device according to the detection values.

In step 20, the processing unit controls the disinfection lamp to be turned on, and sends a second timing instruction to the timing unit, and the timing unit starts timing the lighting duration of the disinfection lamp. If the acceleration detection values fed back by the acceleration sensor are judged to be in a static state by the processing unit within the second set time, when the timing reaches the second set time, the timing unit feeds back second timing completion information to the processing unit, the processing unit turns off the disinfection lamp according to the second timing completion information, and the step S30 is entered; if the detected acceleration value fed back by the acceleration sensor is judged to be in the motion state by the processing unit within the second set time, that is, the electronic device is moved during the disinfection process of the electronic device, the processing unit immediately sends a second timing ending instruction to the timing unit, controls to turn off the disinfection lamp, and then the step S10 is re-entered. Therefore, if a user needs to use the electronic equipment in the disinfection process, the disinfection lamp can be immediately turned off, and the user can not be influenced to immediately use the electronic equipment. And in the disinfection process, the intelligent disinfection time of the system can be controlled, so that the electronic equipment can be sufficiently and effectively disinfected by the optimal disinfection time and the optimal power consumption.

In step S30, the processing unit sends a stop detection instruction (including controlling the detection unit to turn off) to the detection unit, sends a third timing instruction to the timing unit, and the timing unit starts timing the turn-off duration of the sterilizing lamp. Further, the processing unit switches to the sleep mode after sending the control instruction (including the stop detection instruction and the third timing instruction). Until the time count reaches the third set time, the timing unit sends a third time count completion message to the processing unit, the processing unit receives the third time count completion message, switches from the sleep mode to the working mode, and sends a detection start instruction (including controlling the detection unit to be turned on) to the detection unit, and the process goes to step S10. Therefore, the sterilizing lamp keeps in an off state within the third set time after continuously and effectively irradiating, sterilizing and disinfecting the electronic equipment once. On one hand, the sterilizing lamp is not lighted for irradiation sterilization again within the effective sterilization time range after the electronic equipment is effectively sterilized, so that repeated meaningless sterilization can be avoided, the effective sterilization interval of the sterilizing lamp is kept, and the starting times of the sterilizing lamp can be effectively reduced; on the other hand, the electric quantity consumption of the disinfection lamp control system can be reduced, and the influence on the service time of the electronic equipment due to the large electric quantity consumption of the disinfection lamp control system can be avoided.

Further, the disinfection lamp control system also comprises functions of setting the disinfection lamp control system to be started or closed at regular time, setting the disinfection lamp to be turned on at regular time for disinfection, and controlling the control system to be forbidden in a certain time period. Specifically, the set related functions can be recorded into the disinfection lamp control system to become a part of the system program; the disinfection lamp control system can be electrically connected with the electronic equipment through the interface converter and can communicate with each other at the same time, for example: the electronic equipment is provided with an application program which can be communicated with the disinfection lamp control system, and a user sets related functions of the disinfection lamp control system through the application program arranged on the electronic equipment. If the setting of the related function is carried out on the disinfection lamp control system through the electronic equipment, the function setting can be carried out according to the use habit of a user, and the electronic equipment has the advantages of more reasonably arranging the disinfection time of the disinfection lamp, more reasonably avoiding the meaningless electricity consumption of the disinfection lamp control system and the like.

Embodiments of the present application also provide a computer storage medium, wherein the computer storage medium stores a computer program for electronic data exchange, the computer program causing a computer to perform part or all of the steps of any of the methods as described in the above method embodiments, the computer comprising a disinfection device.

Embodiments of the present application also provide a computer program product comprising a non-transitory computer readable storage medium storing a computer program operable to cause a computer to perform some or all of the steps of any of the methods as described in the above method embodiments. The computer program product may be a software installation package, said computer comprising the disinfection device.

It should be noted that, for simplicity of description, the above-mentioned method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present application is not limited by the order of acts described, as some steps may occur in other orders or concurrently depending on the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the several embodiments provided in the present application, it should be understood that the disclosed units may be implemented in other manners. For example, the above-described cell embodiments are merely illustrative, and only one logical functional division may be implemented, and in practice, there may be other divisions, for example, multiple cells may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the communication connections shown or discussed with respect to each other may be through some interfaces, either electrical or otherwise.

The units described above as separate parts may or may not be physically separate. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit may be stored in a computer readable memory if it is implemented in the form of a software functional unit and sold or used as a stand-alone product. Based on such understanding, the technical solution of the present application may be substantially or partially contributed by the prior art, or all or part of the technical solution may be embodied in the form of a software product, which is stored in a memory and includes instructions for causing a computer device (processing unit) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned memory comprises: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable memory, which may include: flash Memory disks, Read-Only memories (ROMs), Random Access Memories (RAMs), magnetic or optical disks, and the like.

A disinfection device comprises the disinfection lamp control system and is used for realizing the control method of the disinfection lamp, the disinfection device is matched with electronic equipment, and the electronic equipment is accommodated in the disinfection device. The electronic equipment comprises a mobile phone, a tablet and the like, and the disinfection device comprises a mobile phone protective shell, a tablet protective shell and the like.

Referring to fig. 3a and 3b, the disinfecting device 10 includes a housing 20, an interface converter 30, a sensor, a processor, a timer, and a disinfecting lamp 40, wherein the interface converter 30, the sensor, the processor, the timer, and the disinfecting lamp 40 are all fixed to the housing 20.

Referring to fig. 4, the housing 20 includes a housing sidewall 21 and a housing rear wall 22, one end of the housing sidewall 21 is connected to the housing rear wall 22, and the housing sidewall 21 and the housing rear wall 22 enclose a rectangular parallelepiped having an accommodating space and an opening on one side. The inner surface of the side wall of the shell is provided with a convex edge 215 extending towards the opening, one surface of the convex edge departing from the back wall 22 of the shell and the plane of the front end of the side wall of the shell (the front end surface of the side wall of the shell) are positioned on the same plane, one end of the convex edge 211 is connected with the front end of the side wall of the shell, and the other end of the convex edge extends towards the opening. When the electronic device is accommodated in the accommodating space, the convex edge 211 clamps the electronic device in the accommodating space.

Referring to fig. 5, the interface converter 30 is disposed on the side wall 21 of the housing, and when the electronic device is accommodated in the accommodating space, the interface converter 30 is electrically connected to the electronic device.

The interface converter 30 includes a protrusion interface 31 and a recess interface 32, and the protrusion interface 31 is electrically connected to the recess interface 32. Protruding interface 31 sets up at casing lateral wall 21 internal surface, and protruding interface 31 is in accommodation space promptly, and when electronic equipment was in accommodation space, protruding interface 31 and the electronic equipment interface grafting adaptation that charges realize protruding interface 31 and the electronic equipment interface that charges's electricity and be connected, can make degassing unit 10 get the electric work from electronic equipment. Recess interface 32 sets up at casing lateral wall 21 surface, but external charging wire is connected with external power source electricity through the charging wire. Protruding interface 31 is connected with the electronic equipment interface electricity that charges, and recess interface 32 is connected with the charging wire electricity, and when external power source was connected to the charging wire, external power source can charge for electronic equipment. It can be understood that the sterilizing device 10 gets electricity from the electronic equipment through the interface converter 30, and the sterilizing device 10 has fewer parts to be carried, smaller occupied volume of the parts, simpler structure, lighter weight and lower production cost; and does not influence the external power supply to charge the electronic equipment.

The processor is electrically connected to the bump interface 31 and the processor is electrically connected to the groove interface 32. The processing unit detects whether the interface converter 30 is electrically connected to the electronic device, and the specific process is as follows: the processor detects whether the power comes from the bump interface 31, and if the power comes from the bump interface 31, it can be determined that the disinfection device 10 and the electronic equipment are electrically connected through the bump interface 31, and the electronic equipment is accommodated in the disinfection device 10; if the processor detects that the power comes from the groove interface 32 and the protrusion interface 31 does not have the power, it is determined that the disinfection device 10 is not electrically connected to the electronic apparatus and the disinfection device 10 is electrically connected to the external power source, and the processing unit may control the protection circuit to perform self-checking according to a set program. In addition, if the processing unit detects that the groove interface 32 and the protrusion interface 31 have electric energy transmission, that is, the protrusion interface 31 is detected to be electrically connected with the charging interface of the electronic device, and when the groove interface 32 is electrically connected with the charging wire, the processor can judge that an external power supply is present to charge the electronic device.

The side wall 21 of the housing is provided with a wire slot for accommodating a wire. In this embodiment, part of the side wall of the housing is a double-layer side wall, and a vacant space is left between the double-layer side walls to form a wire slot for placing a wire.

Referring to fig. 6a and 6b, the housing 20 further includes a protrusion 23. When the disinfection device 10 is placed on a plane, the protruding part 23 is in contact with the placing plane, and the front end of the rear wall 22 or the side wall of the shell is away from the placing plane by a set distance, so that a spare space is reserved between the electronic equipment accommodated in the disinfection device 10 and the placing plane, and the heat dissipation of the electronic equipment can be facilitated.

The boss 23 includes a first boss and a second boss. The first bulge is arranged on the front end face of the side wall of the shell, one end of the first bulge is connected with the front end face of the side wall of the shell, and the other end of the first bulge extends and bulges in the direction far away from the front end of the side wall of the shell; the second protruding portion is disposed on the housing rear wall 22, one end of the second protruding portion is connected to the outer surface of the housing rear wall 22, and the other end of the second protruding portion extends in a direction away from the housing rear wall 22.

The protruding portion 23 is provided with a mounting hole 231, and the mounting hole 231 is communicated with the wire groove. The sterilizing lamp 40 is accommodated in the mounting hole 231, and the light of the sterilizing lamp 40 can irradiate at least to the electronic equipment use surface (electronic equipment display screen) accommodated in the protection device. In the embodiment, the first convex parts are respectively arranged at four corners of the front end of the side wall of the shell; the second bosses are provided at four corners of the outer surface of the case rear wall 22, respectively. That is, the protruding portions 23 are respectively disposed on the housing rear wall 22 and the four corners of the rectangle at the front end of the housing side wall, the mounting hole 231 is opened toward the center of the rectangle, and the sterilizing lamps 40 irradiate from the four corners of the rectangle toward the center of the rectangle to cover the areas of the rectangle, thereby sterilizing the use surface of the electronic device and the outer surface of the housing rear wall 22.

The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and implementations of the present application, and the above description of the embodiments is only provided to help understand the method and the core concept of the present application; meanwhile, the above description can be modified or changed by a person skilled in the art according to the idea of the present application, and the changes in the specific embodiments and the application range are all included in the protection scope of the appended claims. In view of the above, the description should not be taken as limiting the application.

Claims (15)

1. A method of controlling a sterilizing lamp for sterilizing an electronic device, comprising: the method comprises the following steps:

s10: detecting the state of the electronic equipment, and if the electronic equipment is not in use, lighting a disinfection lamp to disinfect the electronic equipment;

s20: and the lighting duration time of the sterilizing lamp reaches a second set time, and the sterilizing lamp is turned off.

2. A method of controlling a sterilizing lamp as claimed in claim 1, wherein: in step S20, the method further includes: if the lighting duration of the disinfection lamp does not reach the second set time, the electronic equipment is detected to be in the use state, the disinfection lamp is turned off, and the step S10 is entered.

3. A method of controlling a sterilizing lamp as claimed in claim 1, wherein: further comprising step S30: and the closing duration time of the disinfection lamp does not reach the third set time, and the disinfection lamp is kept in an off state.

4. A method of controlling a sterilizing lamp as claimed in claim 3, wherein: in step S30, the method further includes: if the sterilizing lamp is turned off for the third set time, the process proceeds to step S10.

5. A method of controlling a sterilizing lamp as claimed in claim 1, wherein: further comprising step S01: and detecting whether the electronic equipment is electrically connected with the disinfection lamp, and if the electronic equipment is electrically connected with the disinfection lamp, entering the step S10.

6. A disinfecting lamp control system for implementing a disinfecting lamp control method as claimed in any one of claims 1-5, characterized in that: the disinfection lamp comprises a power supply unit, a detection unit, a processing unit, a timing unit and a disinfection lamp, wherein the processing unit is electrically connected with the power supply unit, the detection unit, the timing unit and the disinfection lamp;

the power supply unit is used for supplying power to the detection unit, the processing unit, the timing unit and the disinfection lamp;

the detection unit is used for detecting the state of the electronic equipment, generating different detection values according to different states of the electronic equipment and feeding the detection values back to the processing unit;

the processing unit judges the state of the electronic equipment according to the detection value fed back by the detection unit, controls the disinfection lamp to be turned on or off according to the state of the electronic equipment, and can send a timing instruction to the timing unit;

the timing unit is used for timing or stopping timing the duration time of the unused state of the electronic equipment, the opening duration time of the disinfection lamp and the closing duration time of the disinfection lamp according to the timing instruction of the processing unit, and feeding back the timing completion information of the unused state of the electronic equipment, the continuous opening timing completion information of the disinfection lamp and the continuous closing timing completion information of the disinfection lamp to the processing unit when the duration time of the unused state of the electronic equipment, the opening duration time of the disinfection lamp and the closing duration time of the disinfection lamp reach the set corresponding time threshold.

7. A disinfecting lamp control system as recited in claim 6, characterized in that: the power supply unit comprises an interface converter which can be electrically connected with the electronic equipment or an external power supply;

in step S01, the processing unit detects whether the interface converter is electrically connected to the electronic device, and if the interface converter is electrically connected to the electronic device, the processing unit obtains power from the electronic device through the interface converter, and then proceeds to step S10.

8. A disinfecting lamp control system as recited in claim 7, characterized in that: if the processing unit detects that the interface converter is not electrically connected with the electronic equipment and the interface converter is electrically connected with the external power supply, the processing unit performs self-checking according to a set program.

9. A disinfecting lamp control system as recited in claim 6, characterized in that: the detection unit comprises a sensor, the sensor can detect the motion state and the static state of the electronic equipment, the detection value fed back by the motion state is different from the detection value fed back by the static state, and the sensor feeds back the detection value to the processing unit;

in step S10, the processing unit determines whether the electronic device is in a moving state or a stationary state based on the fed-back detection value;

if the processing unit judges that the electronic equipment is in the static state, the processing unit sends a first timing instruction to the timing unit, and the timing unit starts timing the duration time of the electronic equipment in the static state;

if the continuous feedback detection values of the sensors are judged to be in a static state by the processing unit within the first set time, the processing unit judges that the electronic equipment is in an unused state, and the processing unit controls to light the disinfection lamp.

10. A disinfecting lamp control system as recited in claim 9, wherein: if the detected value fed back by the sensor is judged to be in the motion state by the processing unit within the first set time, the process returns to step S10.

11. A disinfecting lamp control system as recited in claim 6, characterized in that: in step 20, the processing unit controls the disinfection lamp to be turned on, and sends a second timing instruction to the timing unit, and the timing unit starts timing the lighting duration of the disinfection lamp;

if the detected values fed back by the sensors are judged to be in a static state by the processing unit within the second set time, the timing unit feeds back second timing completion information to the processing unit when the timing reaches the second set time, and the processing unit turns off the disinfection lamp according to the second timing completion information and then the step S30 is carried out.

12. A disinfecting lamp control system as recited in claim 11, wherein: if the detected value fed back by the sensor is judged to be in the motion state by the processing unit within the second set time, the processing unit immediately sends a second timing ending instruction to the timing unit, controls to turn off the sterilizing lamp, and then the step S10 is carried out again.

13. A disinfecting lamp control system as recited in claim 6, characterized in that: in step S30, the processing unit controls the detection unit to stop detecting, sends a third timing instruction to the timing unit, and the timing unit starts timing the turn-off duration of the disinfection lamp;

and the processing unit controls the detection unit to start detection until the disinfection lamp closing duration reaches the third set time, and the step S10 is proceeded.

14. A disinfection apparatus comprising a disinfection lamp control system as claimed in any one of the claims 1-13, the disinfection apparatus being for use with an electronic device, comprising a processor and a memory, said memory being adapted to store one or more programs and being configured to be executed by said processor, said programs comprising instructions for carrying out the steps as claimed in any one of the claims 1-13.

15. A disinfecting device as recited in claim 14, characterized in that: the electronic equipment can be contained in the disinfection device, and the disinfection device comprises a mobile phone protective shell and a flat protective shell.

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