CN111569127B - Control method of disinfection device - Google Patents

Abstract

The invention relates to the field of control of disinfection equipment, in particular to a disinfection device control method, which comprises the steps of judging whether the switching state of a first switch is a conducting state; if the switching state of the first switch is a conducting state, controlling the disinfection device to enter a disinfection mode; detecting the disinfection duration of the disinfection device entering a disinfection mode, and judging whether the disinfection duration is greater than a preset time threshold value; and if the disinfection duration is longer than the preset time threshold, controlling the disinfection device to exit the disinfection mode. The embodiment of the invention is beneficial to enhancing the safety of the disinfection device and reducing the power consumption of the disinfection device.

Description

Control method of disinfection device

Technical Field

The invention relates to the technical field of disinfection equipment, in particular to a control method of a disinfection device.

Background

In modern household life and public places, equipment such as a closestool, a disinfection cupboard, a disinfection shoe cabinet and the like is taken as one of living goods. In the using process, a large number of germs are easy to breed in the devices such as the closestool, the disinfection cupboard, the disinfection shoe cabinet and the like, and further cross contamination and spread among germ crowds are caused. The disinfection device in the prior art usually has only one physical switch, and when the physical switch is switched on, the disinfection device directly enters a working state, so that a user is easily exposed in the disinfection device in the working state, and can hurt a human body and easily cause a safety problem. Meanwhile, the disinfection device is in a working state for a long time, so that the consumption of electric quantity is easily increased, and the service life of the disinfection device is shortened.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a control method for a disinfection device, which overcomes the defects of poor safety, large power consumption, etc. of the existing control method for a disinfection device.

The technical scheme adopted by the invention for solving the technical problems is as follows: there is provided a sterilizing device control method, the method comprising:

judging whether the switch state of the first switch is a conducting state;

if the switching state of the first switch is a conducting state, controlling the disinfection device to enter a disinfection mode;

detecting the disinfection duration of the disinfection device entering a disinfection mode, and judging whether the disinfection duration is greater than a preset time threshold value;

and if the disinfection duration is longer than the preset time threshold, controlling the disinfection device to exit the disinfection mode.

Further preferred embodiments of the present invention are: the first switch is one or more of a ball switch, a light sensing switch, a Hall switch, a gravity sensor or a pressure sensing switch.

Further preferred embodiments of the present invention are: the first switch is a ball switch, the disinfection device comprises a shell, and the ball switch and the shell are arranged at an included angle of 90 +/-5 degrees on at least one surface.

Further preferred embodiments of the present invention are: before judging whether the switch state of the first switch is the conducting state, the method further comprises the following steps:

judging whether the switch state of the second switch is a conducting state;

and if the switching state of the second switch is the conducting state, executing the step of judging whether the switching state of the first switch is the conducting state.

Further preferred embodiments of the present invention are: the second switch is one or more of a press switch, a touch switch and a gesture induction switch, and the second switch is exposed out of the shell.

Further preferred embodiments of the present invention are: before judging whether the switch state of the second switch is the conducting state, the method further comprises the following steps:

judging whether the switch state of the third switch is a conducting state;

and if the switch state of the third switch is the conducting state, executing the step of judging whether the switch state of the second switch is the conducting state.

Further preferred embodiments of the present invention are: the third switch is one or more of a Hall switch, a photosensitive switch and a push switch; the disinfection device comprises a shell and a base detachably connected with the shell, and a base bulge is arranged on the base; the casing is provided with a base opening for inserting the base protrusion, the base opening is provided with a third switch, and the base is moved to enable the base protrusion to approach or abut against the third switch.

Further preferred embodiments of the present invention are: the shell is provided with a power supply opening, and the power supply opening is provided with a charging interface or a power supply interface; when the base is connected to the shell, the base completely or partially covers the power supply opening.

Further preferred embodiments of the present invention are: the detecting the disinfection duration that the disinfection device enters the disinfection mode and lasts to after judging whether the disinfection duration is greater than the preset time threshold, still include:

if the disinfection duration is not greater than a preset time threshold, judging whether the switching state of the first switch is a conducting state;

and if the switching state of the first switch is not a conducting state, controlling the disinfection device to exit the disinfection mode.

Further preferred embodiments of the present invention are: the method further comprises the following steps:

detecting the residual capacity of the disinfection device;

controlling the light emitting quantity of the light emitting element according to the residual electric quantity;

the luminous pieces are uniformly distributed on the periphery of the second switch in an annular mode.

The invention has the advantages that the disinfection device is controlled to enter the disinfection mode according to the on-off state of the first switch; and controlling the disinfection device to exit the disinfection mode according to the disinfection duration of the disinfection device entering the disinfection mode. The embodiment of the invention is beneficial to enhancing the safety of the disinfection device and reducing the power consumption of the disinfection device.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic flow chart of a method of controlling a disinfection device in accordance with an embodiment of the present invention;

FIG. 2 is another schematic flow chart of a method of controlling a disinfection device in accordance with an embodiment of the present invention;

FIG. 3 is another schematic flow chart of a method of controlling a disinfection device in accordance with an embodiment of the present invention;

FIG. 4 is another schematic flow chart of a method of controlling a disinfection device in accordance with an embodiment of the present invention;

FIG. 5 is another schematic flow chart of a method of controlling a disinfection device in accordance with an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a first perspective view of a sterilization device in accordance with an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a second perspective view of a sterilization device in accordance with an embodiment of the present invention;

FIG. 8 is an exploded view of a first state of a disinfecting device in accordance with an embodiment of the present invention;

FIG. 9 is an exploded view of a second state of a disinfecting device in accordance with an embodiment of the present invention;

FIG. 10 is an enlarged view of a portion of area A of a sterilization device in accordance with an embodiment of the present invention;

FIG. 11 is an enlarged partial view of area B of a disinfecting device in accordance with an embodiment of the present invention;

FIG. 12 is an exploded view of a third state of a sterilization device in accordance with an embodiment of the present invention;

FIG. 13 is an enlarged partial view of area C of a sterilization device in accordance with an embodiment of the present invention;

FIG. 14 is an exploded view of a fourth state of a sterilization device in accordance with an embodiment of the present invention;

fig. 15 is an exploded view of a fifth state of a sterilizing device in accordance with an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the control method of the disinfection apparatus provided by the embodiment of the present invention includes, but is not limited to, steps S110 to S140.

S110, determine whether the switch state of the first switch is the on state. The switch state of the first switch comprises a conducting state and a disconnecting state. The switch state of the first switch can be judged through a controller, and the controller is connected with the first switch and the disinfection module respectively. The disinfection module comprises, but is not limited to, a ultraviolet external disinfection lamp and an ozone emitter.

And S120, if the switching state of the first switch is a conducting state, controlling the disinfection device to enter a disinfection mode. Wherein, the controller can be used for controlling the disinfection module in the disinfection device to enter a working state when the disinfection device is controlled to enter the disinfection mode. For example, the controller controls the disinfection device to enter the disinfection mode, specifically, the controller controls an ultraviolet external disinfection lamp in the disinfection device to emit ultraviolet light for disinfection.

Further, if the switch state of the first switch is not the conducting state (i.e. the off state), the disinfection device is controlled not to enter the disinfection mode, i.e. the disinfection device is kept in the standby state.

S130, detecting the continuous disinfection duration of the disinfection device entering the disinfection mode, and judging whether the disinfection duration is greater than a preset time threshold. Wherein the preset time threshold value can be set according to the use environment of the disinfection device. For example, the preset time threshold may be set to 5 minutes, 10 minutes, or the like.

S140, if the disinfection duration is longer than the preset time threshold, controlling the disinfection device to exit the disinfection mode. Wherein, the controller can be used for controlling the disinfection module in the disinfection device to enter a standby state when the disinfection device is controlled to exit the disinfection mode; if the current state of the disinfection device is controlled to be the standby state, the disinfection device is controlled to exit the disinfection mode, and the controller is used for controlling the disinfection module in the disinfection device to be kept in the standby state. The standby state of the disinfection module refers to that the disinfection module does not work, for example, the ultraviolet light is not emitted by the ultraviolet light external disinfection lamp, and the ozone emitter does not emit ozone.

In specific implementation, the control method of the disinfection device provided by the invention is used for controlling the disinfection device, and the disinfection device can be applied to various scenes needing disinfection, such as disinfection cupboards, disinfection shoe cabinets and toilets. By implementing the embodiment of the invention, the disinfection device is controlled to enter the disinfection mode according to the on-off state of the first switch; and controlling the disinfection device to exit the disinfection mode according to the disinfection duration of the disinfection device entering the disinfection mode. Is beneficial to enhancing the safety of the disinfection device and reducing the power consumption of the disinfection device.

In a preferred embodiment, the first switch is one or more of a ball switch, a light-sensitive switch, a hall switch, a gravity sensor, or a pressure-sensitive switch.

Referring specifically to fig. 6-15, in a preferred embodiment, the first switch 80 is a ball switch, and the disinfection device includes a housing 10, wherein an angle between the ball switch and at least one surface of the housing is 90 ± 5 °.

In a specific implementation, the disinfection device may further include a base 90, the housing 10 includes a first side 109, and the base 90 is connected to an outer surface of the first side 109. The minimum angle between the ball switch and the first side 109 is 90 ± 5 °.

Further, the base 90 may include an adhesive member 93, and the adhesive member 93 is disposed on a side opposite to the first side surface 109. The base 90 may be in a plate shape, and the adhesive member 93 may be an adhesive layer, such as 3M glue. The disinfection device can be conveniently mounted at the place where disinfection is required through the base 90.

Assuming that the disinfection device is applied to a toilet, the disinfection device can be adhered to the inner side of the toilet lid body by the adhesive member 93 on the base 90. At this time, the first side 109 is parallel to the inner side of the toilet lid body, and the error range of the ball switch is set to 90 ± 5 ° by setting the minimum angle between the ball switch and the first side 109. Through the minimum included angle range, when the toilet lid body is opened, the ball switch is in a disconnected state; when the toilet lid body is closed, the ball switch is in a conducting state.

By implementing the embodiment of the present invention, the first switch 80 is selected as the ball switch, and by setting the minimum included angle between the ball switch and the first side surface 109, the ball switch can be used to obtain the inclination angle of the disinfection device, so that the working state of the disinfection device can be controlled by using the inclination angle of the disinfection device, and the safety performance of the disinfection device can be improved. Meanwhile, the ball switch has the advantages of simple structure, high reliability, low power consumption and the like.

Referring to fig. 2, in a preferred embodiment, step S210 may be further included before step S110.

S210, judging whether the switch state of the second switch is a conducting state.

If the switch state of the second switch is the on state, step S110 is executed.

In a specific implementation, the states of the second switch include an on state and an off state. Whether the switch state of the second switch is the conduction state or not is judged before whether the switch state of the first switch is the conduction state or not is judged, so that the first switch can be prevented from being changed into the conduction state due to misoperation, the disinfection device is prevented from being started by mistake, and danger is brought to a user.

Referring to fig. 14, in a preferred embodiment, the second switch is one or more of a push switch, a touch switch and a gesture sensing switch, and the second switch is exposed out of the housing. The second switch is exposed out of the shell, which means that the second switch is partially or completely exposed out of the shell. For example, the second switch is a push switch, which includes a switch main body 33 for connecting with the circuit board, and a switch button 31 for being pressed by a user, where the switch button 31 is exposed out of the housing, so that the user can operate the push switch.

Referring to fig. 3, in a preferred embodiment, step S310 may be further included before step S210.

S310, it is determined whether the switching state of the third switch 13 is on.

If the switch state of the third switch 13 is the on state, step S210 is executed.

In a specific implementation, the state of the third switch 13 includes an on state and an off state. By judging whether the switching state of the third switch 13 is the on state before judging whether the switching state of the second switch is the on state, it is possible to prevent the sterilizing apparatus from being turned on by mistake, which would bring danger to the user, by the first switch or the second switch becoming the on state due to a wrong operation.

Referring to fig. 6-15, in a preferred embodiment, the third switch 13 is one or more of a hall switch, a photosensitive switch and a push switch; the disinfection device comprises a shell 10 and a base 90 detachably connected with the shell 10, wherein a base bulge 91 is arranged on the base 90; the housing 10 is provided with a base opening 11 for inserting the base protrusion 91, the base opening 11 is provided with a third switch 13, and the base 90 is moved to make the base protrusion 91 approach or abut against the third switch 13.

Wherein the third switch 13 may be a self-resetting push switch or the like, and the third switch 13 may be connected to the circuit board 40 inside the sterilizing device.

For example, the third switch 13 is a push switch. When the base projection 91 moves to the base opening 11 and abuts against the third switch 13, the third switch 13 is turned on; when the base projection 91 is away from the base opening 11 and separated from the third switch 13, the third switch 13 is turned off. For another example, the third switch 13 is a hall switch, and when the base protrusion 91 moves to the base opening 11 and approaches the third switch 13, the third switch 13 is turned on. When the base projection 91 is away from the base opening 11 and away from the third switch 13, the third switch 13 is turned off.

By implementing the embodiment of the invention, the base projection 91 arranged on the base 90 is matched with the third switch 13 arranged at the base opening 11, and the base 90 is moved to enable the base projection 91 to approach or abut against the third switch 13, so that when the shell 10 of the disinfection device is separated from the base 90, the third switch 13 is disconnected, the disinfection device cannot work, and the safety performance is improved.

In other embodiments, referring to fig. 6-15, the base opening 11 is an elongated through hole, and the base protrusion 91 can move along at least two paths in the elongated through hole.

Specifically, the base projection 91 being movable in the elongated through hole along at least two paths means that the base projection 91 can be moved in other paths at the base opening 11 in addition to being movable in a path of being inserted into or separated from the base opening 11. For example, the base projection 91 moves along the elongated through hole, and the moving path may be perpendicular to the path of the base projection 91 inserted into or removed from the base opening 11. By implementing the embodiment of the present invention, the base opening 11 is configured as a strip-shaped through hole, so that the base protrusion 91 can move in the base opening 11, and further a moving space is provided for the base 90 and the housing 10 to be connected or detached.

In other embodiments, referring to fig. 6 to 15, the third switch 13 includes a switch body and a switch button movably connected to the switch body, and the switch button is provided with at least one inclined surface 131 for abutting against the base protrusion 91. Through set up at least one inclined plane 131 on the switch button, when base arch 91 removes in base opening 11 department, be favorable to the protruding 91 completion of base to the extrusion of switch button, reduce and remove the resistance, be favorable to promoting user experience and feel.

Referring to fig. 6-15, in a preferred embodiment, the housing is provided with a power opening, and the power opening is provided with a charging interface or a power interface; when the base is connected to the shell, the base completely or partially covers the power supply opening.

In a specific embodiment, the power opening 19 is used to connect an external charging cord or power cord to the disinfection device to complete charging or powering of the disinfection device. When the base 90 is connected to the housing 10, the third switch 13 is pressed by the base protrusion 91, and the disinfection device is in a working state, and at this time, the base 90 completely or partially covers the power opening 19, that is, a user cannot charge the disinfection device in the working state. On the contrary, when the base 90 is separated from the housing 10 and the base projection 91 is separated from the third switch 13, the disinfection device cannot work, and at this time, the power opening 19 is exposed, so that the user can perform operations such as charging, and the like, thereby greatly improving the safety performance of the disinfection device.

Referring to fig. 4, in a preferred embodiment, after step S130, the method further includes: if the disinfection duration is not greater than a preset time threshold, judging whether the switching state of the first switch is a conducting state; and if the switching state of the first switch is not a conducting state, controlling the disinfection device to exit the disinfection mode.

In a specific implementation, the fact that the switching state of the first switch is not the on state means that the switching state of the first switch is the off state. By implementing the embodiment of the invention, in the working process of the disinfection device, if the first switch is detected to be switched off, the disinfection device is controlled to exit the disinfection mode, so that a user can be prevented from being exposed in the disinfection device in a working state, and the safety is enhanced.

Referring specifically to fig. 5, in a preferred embodiment, the method further includes:

and S410, detecting the residual capacity of the disinfection device.

And S420, controlling the light emitting quantity of the light emitting element according to the residual electric quantity.

The luminous pieces are uniformly distributed on the periphery of the second switch in an annular mode.

In a specific implementation, referring to fig. 6 to 15, the disinfection apparatus further includes a circuit board 40 disposed in the housing 10, the circuit board 40 is provided with a light emitting element 34 and a switch body 33 of the second switch, and the light emitting element 34 is disposed around the switch body of the second switch.

Specifically, the light emitting member 34 may be a device having a light emitting function, such as an LED lamp bead, and the light emitting member 34 is annular and is uniformly disposed around the second switch 33. For example, the number of the light emitting members 34 may be eight, and the light emitting members 34 are formed in a ring shape and are uniformly disposed on the periphery of the second switch 33. Not only can the light emitted by the transparent light guide member 32 be more uniform and softer, but also different state information of the disinfection device can be displayed to a user by means of the light emitting quantity, the light emitting arrangement sequence and the like of the light emitting member 34 in combination with the control of the circuit board 40 on the light emitting member 34. Specifically, the state information of the remaining capacity may be presented by controlling the amount of light emission of the light emitting member 34 according to the remaining capacity of the battery. For example, assume that the number of the luminous members 34 is 8. When the remaining capacity is 50%, the number of light-emitting of the light-emitting member 34 is controlled to be 4, when the remaining capacity is 25%, the number of light-emitting of the light-emitting member 34 is controlled to be 2, and so on. By arranging the light emitting member 34 around the second switch 33, more status information can be provided to the user, and the user can know the working status of the disinfection device conveniently.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and alterations are intended to fall within the scope of the appended claims.

Claims (7)

1. A sterilization control method, comprising:

judging whether the switch state of the third switch is a conducting state;

if the switch state of the third switch is the conducting state, judging whether the switch state of the second switch is the conducting state;

if the switching state of the second switch is the conducting state, judging whether the switching state of the first switch is the conducting state;

if the switching state of the first switch is a conducting state, controlling the disinfection device to enter a disinfection mode;

detecting the disinfection duration of the disinfection device entering a disinfection mode, and judging whether the disinfection duration is greater than a preset time threshold value;

if the disinfection duration is longer than the preset time threshold, controlling the disinfection device to exit the disinfection mode;

the disinfection device comprises a shell and a base detachably connected with the shell, wherein a base bulge is arranged on the base; the shell is provided with a base opening for inserting the base bulge, the third switch is arranged at the base opening, and the base bulge can be close to or abutted against the third switch by moving the base; the shell is provided with a power supply opening, and the power supply opening is provided with a charging interface or a power supply interface; when the base is connected to the shell, the base completely or partially covers the power supply opening.

2. The sterilization control method of claim 1, wherein said first switch is one or more of a ball switch, a light-sensitive switch, a hall switch, a gravity sensor, or a pressure-sensitive switch.

3. The sterilization control method of claim 2, wherein said first switch is a ball switch, said ball switch being angled with respect to at least one face of said housing within a range of 90 ± 5 °.

4. The sterilization control method of claim 1, wherein the second switch is one or more of a push switch, a touch switch, and a gesture-sensitive switch, and the second switch is exposed to the housing.

5. The sterilization control method according to any one of claims 1 to 4, wherein said third switch is one or more of a Hall switch, a light-sensitive switch and a push switch.

6. The sterilization control method according to claim 5, wherein after detecting a sterilization duration for which the sterilization device has entered the sterilization mode and determining whether the sterilization duration is greater than a preset time threshold, further comprising:

if the disinfection duration is not greater than a preset time threshold, judging whether the switching state of the first switch is a conducting state;

and if the switching state of the first switch is not a conducting state, controlling the disinfection device to exit the disinfection mode.

7. The sterilization control method of claim 5, further comprising:

detecting the residual capacity of the disinfection device;

controlling the light emitting quantity of the light emitting element according to the residual electric quantity;

the luminous pieces are uniformly distributed on the periphery of the second switch in an annular mode.

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