阅读说明：本技术 除菌儿童座椅、儿童座椅的除菌方法和车辆 (Sterilization child seat, sterilization method for child seat and vehicle ) 是由 徐豪 梅梦笔 邵浦 于 2020-12-31 设计创作，主要内容包括：本申请提供了一种除菌儿童座椅、儿童座椅的除菌方法和车辆,涉及儿童座椅技术领域。该除菌儿童座椅包括座椅本体、除菌组件和控制电路板,控制电路板与除菌组件连接,用于控制除菌组件对座椅本体进行杀菌。该除菌儿童座椅能够对座椅本体进行杀菌,且能及时给用户反馈除菌功能是否有效,安全性高,用户体验感好。(The application provides a degerming child seat, a degerming method of child seat and a vehicle, and relates to the technical field of child seats. This degerming children's seat includes seat body, degerming subassembly and control circuit board, and control circuit board is connected with the degerming subassembly for control degerming subassembly is disinfected to the seat body. This degerming children's seat can disinfect to the seat body, and can in time give whether effective for user feedback degerming function, and the security is high, and user experience feels good.)

1. The utility model provides a degerming children's seat, characterized in that, includes seat body (110), locates degerming subassembly (120) and control circuit board (150) on seat body (110), control circuit board (150) with degerming subassembly (120) are connected, control circuit board (150) are used for controlling degerming subassembly (120) are right the seat face of seat body (110) disinfects.

2. The sterilizing child seat according to claim 1, characterized in that the sterilizing assembly (120) comprises a first light strip (121), the first light strip (121) being provided on the seat body (110); the first lamp strip (121) is provided with a plurality of first ultraviolet lamp beads (122), and the first ultraviolet lamp beads (122) emit ultraviolet light at different emission angles, so that the ultraviolet light covers all seat surfaces of the seat body (110).

3. The sterile child seat according to claim 2, wherein the number of the first light strips (121) comprises a plurality, and a plurality of the first light strips (121) are arranged on the seat body (110) at intervals.

4. The degerming child seat according to claim 1, wherein the degerming assembly (120) comprises a second light strip (125), a support (112) is rotatably disposed on the seat body (110), the second light strip (125) is disposed on the support (112), a plurality of second ultraviolet light beads (126) are disposed on the second light strip (125), and the second ultraviolet light beads (126) are used for emitting ultraviolet light to irradiate the seat body (110); the bracket (112) is used for rotating around the seat body (110) so that ultraviolet light can irradiate the whole surface of the seat body (110).

5. The child chair according to claim 4, wherein the chair body (110) is provided with a rotary connector (113) on each side, one end of the bracket (112) is connected to the rotary connector (113) on one side, and the other end is connected to the rotary connector (113) on the other side, and the bracket (112) is located on the side of the chair body (110) having the chair surface.

6. The child chair according to claim 5, wherein the chair body (110) is provided with a driving member (128), the driving member (128) is connected to the rotary connecting member (113) for driving the rotary connecting member (113) to rotate; the driving piece (128) is connected with the control circuit board (150), and the control circuit board (150) is used for controlling the starting and stopping of the driving piece (128).

7. The degerming child seat according to any one of claims 1-6, further comprising an ultraviolet detection sensor (130) disposed on the seat body (110), wherein the control circuit board (150) is connected to the ultraviolet detection sensor (130), and wherein the ultraviolet detection sensor (130) is configured to detect whether the degerming assembly (120) emits ultraviolet light.

8. The child sterilization seat according to any one of claims 1 to 6, further comprising a living body sensor (140) disposed on the seat body (110), wherein the control circuit board (150) is connected to the living body sensor (140), the living body sensor (140) is used for detecting whether a living body is on the seat body (110), and the control circuit board (150) is used for controlling the sterilization assembly (120) to be turned on in a state that no living body is on the seat body (110).

9. The child chair according to any one of claims 1 to 6, wherein a degerming detection circuit (153) is disposed on the control circuit board (150), and the degerming detection circuit (153) is connected to the degerming assembly (120) for detecting a current level of the degerming assembly (120) to detect whether the degerming assembly (120) is operating effectively.

10. The degerming child seat according to any one of claims 1-6, comprising at least two of an ultraviolet detection sensor (130), a living body sensor (140) and a degerming detection circuit (153), said control circuit board (150) being connected to said ultraviolet detection sensor (130), said ultraviolet detection sensor (130) being configured to detect whether said degerming assembly (120) emits ultraviolet light;

the control circuit board (150) is connected with the living body sensor (140), the living body sensor (140) is used for detecting whether a living body exists on the seat body (110), and the control circuit board (150) is used for controlling the degerming assembly (120) to be opened under the condition that no living body exists on the seat body (110);

the degerming detection circuit (153) is connected with the degerming assembly (120) and used for detecting the current of the degerming assembly (120) so as to detect whether the degerming assembly (120) works effectively or not.

11. A method of sterilization of a child seat, comprising:

receiving a degerming function starting instruction;

acquiring whether a living body exists on the seat body (110); if a living body exists, reminding a user and controlling the degerming assembly (120) to be closed; if no living body exists, controlling the degerming assembly (120) to be opened;

after the degerming assembly (120) is controlled to be started, acquiring a current signal of the degerming assembly (120);

after the degerming assembly (120) is controlled to be started, acquiring an ultraviolet light signal of the degerming assembly (120);

and judging whether the degerming assembly (120) works effectively or not according to the current signal and the ultraviolet light signal.

12. A vehicle, characterized by comprising a vehicle body and a sterile child seat (100) according to any one of claims 1 to 10, said sterile child seat (100) being mounted on said vehicle body.

Technical Field

The invention relates to the technical field of child seats, in particular to a sterilization child seat, a sterilization method of the child seat and a vehicle.

Background

In order to improve the comfort and safety of a child riding in a vehicle, most vehicles are provided with child seats. After the child seat is used for a long time, bacteria can be deposited and bred, and the health of the seated child can be threatened. Therefore, the sterilization function of the child seat is very important, and how to comprehensively and effectively sterilize the child seat is a technical problem to be solved urgently in the field at present.

Disclosure of Invention

The invention aims to provide a sterilization child seat, a sterilization method of the child seat and a vehicle, which can comprehensively and effectively sterilize the seat body, improve the cleanliness of the child seat and simultaneously improve the use experience of a user.

Embodiments of the invention may be implemented as follows:

in a first aspect, the invention provides a degerming child seat, which comprises a seat body, a degerming assembly and a control circuit board, wherein the degerming assembly and the control circuit board are arranged on the seat body, the control circuit board is connected with the degerming assembly, and the control circuit board is used for controlling the degerming assembly to sterilize a seat surface of the seat body.

In optional embodiment, still including locating ultraviolet detection sensor on the seat body, ultraviolet detection sensor with control circuit board is connected, ultraviolet detection sensor is used for detecting whether degerming subassembly sends ultraviolet light.

In an optional embodiment, the seat further comprises a living body sensor arranged on the seat body, the control circuit board is connected with the living body sensor, the living body sensor is used for detecting whether a living body is on the seat body, and the control circuit board is used for controlling the degerming assembly to be opened under the condition that no living body is on the seat body.

In an optional implementation mode, a degerming detection circuit is arranged on the control circuit board and is connected with the degerming assembly and used for detecting the current of the degerming assembly so as to detect whether the degerming assembly works effectively or not.

In an optional embodiment, the sterilizing device comprises at least two of an ultraviolet detection sensor, a living body sensor and a sterilizing detection circuit, wherein the control circuit board is connected with the ultraviolet detection sensor, and the ultraviolet detection sensor is used for detecting whether the sterilizing assembly emits ultraviolet light;

the control circuit board is connected with the living body sensor, the living body sensor is used for detecting whether a living body exists on the seat body, and the control circuit board is used for controlling the degerming assembly to be opened under the condition that no living body exists on the seat body;

the degerming detection circuitry with degerming subassembly is connected, is used for detecting degerming subassembly's electric current size, in order to detect whether effective work of degerming subassembly.

In an alternative embodiment, the degerming assembly includes a first light strip disposed on the seat body; the first lamp strip is provided with a plurality of first ultraviolet lamp beads, and the first ultraviolet lamp beads emit ultraviolet light at different emission angles, so that the ultraviolet light covers the whole seat surface of the seat body.

In an alternative embodiment, the number of the first light strips includes a plurality of first light strips, and the plurality of first light strips are arranged on the seat body at intervals.

In an optional embodiment, the degerming assembly comprises a second lamp strip, a support is rotatably arranged on the seat body, the second lamp strip is arranged on the support, a plurality of second ultraviolet lamp beads are arranged on the second lamp strip, and the second ultraviolet lamp beads are used for emitting ultraviolet light to irradiate the seat body; the support is used for rotating around the seat body so that ultraviolet light can irradiate the seat surface of the seat body comprehensively.

In an optional embodiment, two sides of the seat body are respectively provided with a rotary connecting piece, one end of the bracket is connected with the rotary connecting piece on one side, the other end of the bracket is connected with the rotary connecting piece on the other side, and the bracket is positioned on one side of the seat body, which is provided with the seat surface.

In an optional embodiment, a driving part is arranged on the seat body, and the driving part is connected with the rotary connecting part and used for driving the rotary connecting part to rotate; the driving piece is connected with the control circuit board, and the control circuit board is used for controlling the starting and stopping of the driving piece.

In an optional implementation manner, an interactive interface is provided on the seat body for a user to start the degerming function.

In an optional implementation mode, a power connection end is arranged on the seat body and used for being connected with a lithium battery or an external power supply, and the power connection end is electrically connected with the control circuit board and supplies power to the control circuit board.

In a second aspect, the present invention provides a sterilization method for a child seat, comprising:

receiving a degerming function starting instruction;

acquiring whether a living body exists on the seat body; if a living body exists, reminding a user and controlling the degerming assembly to be closed; if no living body exists, controlling the degerming assembly to be opened;

after the degerming assembly is controlled to be started, acquiring a current signal of the degerming assembly;

after the degerming assembly is controlled to be started, an ultraviolet light signal of the degerming assembly is obtained;

and judging whether the degerming assembly works effectively or not according to the current signal and the ultraviolet light signal.

In a third aspect, the present invention provides a vehicle comprising a vehicle body and a sterile child seat according to the previous embodiments mounted on the vehicle body.

The sterilization child seat, the sterilization method of the child seat and the vehicle provided by the embodiment of the invention have the beneficial effects that:

this degerming children's seat is equipped with degerming subassembly and control circuit board on the seat body, and the degerming subassembly is used for disinfecting to the seat face of seat body. This degerming children's seat can carry out comprehensive, high-efficient degerming, improves the cleanliness of seat body, and the user uses experience to feel better.

The child seat sterilization method comprises the steps of receiving a sterilization function opening instruction, obtaining whether a living body exists on the seat body or not, and opening the sterilization assembly under the condition that the living body does not exist so as to comprehensively and effectively sterilize the seat body. And obtain the current signal and the ultraviolet ray signal of degerming subassembly after opening the degerming subassembly to judge whether effective work of degerming subassembly ensures degerming subassembly normal operating, improves seat body cleanliness, improves user experience.

This vehicle includes foretell degerming children's seat, can ensure the security that children took, has the degerming function again, can improve children's seat's cleanliness, is favorable to the healthy that children took, takes for children and provides better comfortable experience.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of a degerming child seat according to an embodiment of the present invention;

fig. 2 is a schematic view of a degerming structure of a first light strip of a degerming child seat according to an embodiment of the present invention;

FIG. 3 is a schematic view of a mounting structure of a degerming assembly of a child seat and a seat body according to an embodiment of the present invention;

fig. 4 is a schematic view of a mounting structure of a second light strip of a degerming assembly of a degerming child seat according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a connection structure of a control circuit board of a child seat with sterilization function according to an embodiment of the present invention;

fig. 6 is a control flow schematic block diagram of a sterilization method for a child seat according to an embodiment of the present invention.

Icon: 100-degerming child seats; 110-a seat body; 111-cloth cover; 112-a scaffold; 113-a rotating connection; 120-a sterilizing assembly; 121-a first light strip; 122-a first ultraviolet lamp bead; 125-a second light strip; 126-a second ultraviolet lamp bead; 128-a drive member; 130-ultraviolet detection sensor; 140-a living body sensor; 150-a control circuit board; 151-a processor; 152-degerming driving circuit; 153-degerming detection circuit; 154-rotation driving circuit; 155-interaction unit; 156-power management unit; 160-power connection; 161-lithium battery; 163-an adapter; 170-interactive interface; 131-a feedback detection unit; 141-signal processing unit.

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 invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that if the terms "upper", "lower", "inside", "outside", etc. indicate an orientation or a positional relationship based on that shown in the drawings or that the product of the present invention is used as it is, this is only for convenience of description and simplification of the description, and it does not indicate or imply that the device or the element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

Referring to fig. 1, the child seat 100 with sterilization function provided in this embodiment has a comprehensive sterilization function, can be installed on an automobile, an airplane or other transportation vehicles, and can also be used in a single stroller, a child car, and other devices, and has a wide application range.

The child degerming seat 100 comprises a seat body 110, a degerming assembly 120 arranged on the seat body 110, an ultraviolet detection sensor 130, a living body sensor 140, a control circuit board 150, an interactive interface 170 and a power connection end 160, wherein a processor 151 and a degerming detection circuit 153 are arranged on the control circuit board 150. The degerming assembly 120 is used for sterilizing the seat surface of the seat body 110, has a wide sterilization range and high efficiency, and can comprehensively sterilize the whole seat surface. The ultraviolet detection sensor 130, the living body sensor 140 and the degerming detection circuit 153 are electrically connected with the processor 151 respectively, the living body sensor 140 is used for detecting whether a living body exists on the seat body 110, and the processor 151 is used for controlling the degerming assembly 120 to be opened under the condition that no living body exists on the seat body 110, so that the degerming assembly 120 is prevented from being damaged to the living body during operation. The UV detection sensor 130 is used for detecting whether the degerming assembly 120 emits UV light, and the degerming detection circuit 153 is used for detecting the current of the degerming assembly 120 to detect whether the degerming assembly 120 is working effectively. Whether the degerming assembly 120 works effectively can be accurately judged by detecting the current of the degerming assembly 120 and detecting whether the degerming assembly 120 emits ultraviolet light, so that the problem that whether the degerming assembly 120 runs normally can not be known by a user.

Optionally, referring to fig. 2, the degerming assembly 120 includes a first light strip 121, and the first light strip 121 is disposed on the seat body 110; the first lamp strip 121 is provided with a plurality of first ultraviolet lamp beads 122, and the plurality of first ultraviolet lamp beads 122 emit ultraviolet light at different emission angles, so that the ultraviolet light covers the whole seat surface of the seat body 110. First ultraviolet lamp pearl 122 can be fixed on first lamp area 121 through modes such as welding, bonding or threaded connection, and first ultraviolet lamp pearl 122 is fixed on first lamp area 121 with the installation direction of difference, can realize that it sends ultraviolet light with different emission angles. Of course, the lamp shade may be covered outside the first ultraviolet lamp bead 122 to adjust an emission angle of the first ultraviolet lamp bead 122 emitting ultraviolet light, which is not limited in this respect.

The number of the first lamp strips 121 includes one or more, and a plurality of the first lamp strips 121 are disposed at intervals on the seat body 110. In this embodiment, the number of the first lamp strips 121 is two, and the first lamp strips are disposed on the left and right sides of the seat body 110. After degerming subassembly 120 opens, each first ultraviolet lamp pearl 122 lights, and every first ultraviolet lamp pearl 122 sends ultraviolet ray with different emission angles to make ultraviolet ray cover the whole seat face of seat body 110, disinfect the seat face comprehensively, realize the function of disinfecting, improve the cleanliness of seat body 110. Fig. 2 shows a schematic diagram of the ultraviolet light emitted by the first ultraviolet lamp bead 122 covering the whole seat surface, and the dotted line in the figure indicates the ultraviolet light irradiation area of the first ultraviolet lamp bead 122. It should be noted that, in other alternative embodiments, the number of the first strips 121 may also be one, three, four, five, and the like, and the plurality of first strips 121 are uniformly distributed on the seat surface, so as to facilitate the emitted ultraviolet light to cover the entire seat surface. The number of the first ultraviolet beads 122 on each first light strip 121 may be determined according to practical situations, and is not specifically limited herein.

Alternatively, referring to fig. 3 and 4, the degerming assembly 120 includes a second light strip 125, the bracket 112 is rotatably disposed on the seat body 110, the second light strip 125 is disposed on the bracket 112, a plurality of second ultraviolet lamp beads 126 are disposed on the second light strip 125, and the second ultraviolet lamp beads 126 are used for emitting ultraviolet light to irradiate the seat body 110, so as to sterilize the seat surface of the seat body 110; the bracket 112 is configured to rotate around the seat body 110 to drive the second light strip 125 on the bracket 112 to move, so that the ultraviolet light can irradiate the seat surface of the seat body 110 comprehensively. It should be understood that the rotation range of the bracket 112 relative to the seat body 110 is enough to enable the ultraviolet light emitted by the second ultraviolet light beads 126 on the second light strips 125 to comprehensively sterilize the seat surface of the seat body 110.

Furthermore, two sides of the seat body 110 are respectively provided with a rotating connecting piece 113, one end of the bracket 112 is connected with the rotating connecting piece 113 on one side, and the other end is connected with the rotating connecting piece 113 on the other side, so that the bracket 112 can rotate along with the seat body 110. The bracket 112 is located on the side of the seat body 110 having the seat surface, which facilitates the second light strip 125 to sterilize the seat surface of the seat body 110. Optionally, the rotating connection member 113 includes, but is not limited to, a rotating shaft, the rotating shaft is rotatably connected to the seat body 110, and the bracket 112 is connected to the rotating shaft to drive the second light strip 125 to move relative to the seat body 110. It is understood that the bracket 112 may be a head frame on the seat body 110, and thus the second light strip 125 may be directly disposed on the head frame without additionally disposing the bracket 112. Of course, the support 112 may be another support 112 independent from the head frame, and is not limited in particular.

The seat body 110 is provided with a driving member 128, and the driving member 128 is connected with the rotary connecting member 113 and is used for driving the rotary connecting member 113 to rotate; the driving member 128 is electrically connected to the processor 151, and the processor 151 is used for controlling the start and stop of the driving member 128. Optionally, the driving member 128 is a driving motor, and the driving motor is connected to the rotating shaft to drive the rotating shaft to rotate, so as to drive the bracket 112 and the second light strip 125 on the bracket 112 to move. When degerming subassembly 120 opens, second ultraviolet lamp pearl 126 lights and sends the ultraviolet light, and driving motor drives the pivot and rotates, realizes that support 112 rotates for seat body 110 to make the ultraviolet light carry out portable scanning sterilization to the seat face of seat body 110, in order to reach the effect of disinfecting, disinfecting comprehensively to the seat face.

An interactive interface 170 is arranged on the seat body 110 and used for a user to start the degerming function, and the interactive interface 170 is electrically connected with the control circuit board 150. The interactive interface 170 is an operation interface of the user, and the user is provided with operation keys through which the user can perform operations such as opening, pausing, and closing the degerming assembly 120. Of course, in other alternative embodiments, the control of the degerming module 120 can also be remotely controlled through a remote controller, a mobile phone APP or other mobile terminal devices, which is not limited herein. Further, the interactive interface 170 is provided with a display screen or a display lamp for indicating the operation status of the degerming assembly 120. For example, the degerming assembly 120 works normally with the indicator light on; the degerming assembly 120 operates abnormally or not on and the indicator lights go off. Alternatively, the degerming component 120 works normally, and the display lamp lights up a green lamp; degerming subassembly 120 work is unusual or not open, and the display light lights the red light to the user can learn the operating condition of degerming subassembly 120 more directly perceivedly, judges whether degerming subassembly 120 is effective work. Of course, the feedback of the operating status of the degerming assembly 120 is not limited to the above-listed situations, and is not limited thereto.

The seat body 110 is further provided with a power connection end 160, the power connection end 160 is used for being connected with a lithium battery 161 or an external power supply, and the power connection end 160 is electrically connected with the control circuit board 150 to supply power for the control circuit board 150. Alternatively, the power connection terminal 160 may be connected to a lithium battery 161, and the control circuit board 150 is powered by the lithium battery 161. The power connection terminal 160 may also be connected to an external power source through an adapter 163 to supply power to the control circuit board 150.

Referring to fig. 5, in the embodiment, the control circuit board 150 is provided with an interaction unit 155, a power management unit 156, a signal processing unit 141, a feedback detection unit 131, a sterilization driving circuit 152, a sterilization detection circuit 153 and a rotation driving circuit 154, the interaction unit 155, the power management unit 156, the feedback detection unit 131, the sterilization driving circuit 152, the sterilization detection circuit 153 and the rotation driving circuit 154 are respectively electrically connected to the processor 151, the interaction unit 155 is electrically connected to an interaction interface 170 on the seat body 110, and the power management unit 156 is electrically connected to a power connection end 160 on the seat body 110. The signal processing unit 141 is connected to the living body sensor 140, and transmits the detected living body signal to the processor 151; the feedback detection unit 131 is connected to the ultraviolet detection sensor 130, and feeds back the detected ultraviolet light signal to the processor 151; the degerming driving circuit 152 is connected with the degerming component 120 and is used for controlling the first ultraviolet lamp bead 122 or the second ultraviolet lamp bead 126 to be turned on or turned off; the degerming detection circuit 153 is connected with the degerming component 120, and is used for detecting the current of the first ultraviolet lamp bead 122 or the second ultraviolet lamp bead 126 and feeding a current signal back to the processor 151; the rotation driving circuit 154 is connected to the driving member 128 to control the rotation of the driving member 128. Optionally, a rotation detection circuit may be further provided for detecting the current level of the driving member 128, which is not particularly limited herein.

It should be noted that, in order to improve the riding comfort of the seat body 110, the cloth cover 111 is sleeved outside the seat body 110, the degerming assembly 120, the control circuit board 150, the living body sensor 140 and the ultraviolet detection sensor 130 are all disposed inside the cloth cover 111, the cloth cover 111 can improve riding comfort and safety, and can also play a role in dust prevention and protection for each component inside the cloth cover 111, and the interactive interface 170 and the power connection end 160 can be exposed outside the cloth cover 111, thereby facilitating the operation of a user.

Referring to fig. 6, an embodiment of the invention provides a method for sterilizing a child seat, which is suitable for the above-mentioned sterilizing child seat 100, and the method includes:

s10: and starting the computer. The power connection end 160 is connected to the power supply to supply power to the control circuit board 150, the ultraviolet detection sensor 130, the living body sensor 140, the sterilization assembly 120 and the like.

S20: an instruction is received. The processor 151 receives a degerming function starting instruction, which may be sent by a user through an operation key on the seat body 110, or sent by remote control, such as through a remote controller, a mobile phone APP, or other mobile terminal device.

S30: and (5) judging the living body. If the processor 151 receives the degerming function start instruction, determining the living body; if the sterilization function start instruction is not received, step S20 is executed to enter a waiting state. The step of determining the living body includes: acquiring whether a living body exists on the seat body 110 according to the living body sensor 140; if the living body sensor 140 detects a living body on the seat body 110, step S70 is executed to prompt the user, control the degerming module 120 to close, and end the degerming function. If the living body sensor 140 detects that there is no living body on the seat body 110, the step S40 is executed to perform sterilization, and the sterilization unit 120 is controlled to be turned on to perform overall sterilization on the seat surface of the seat body 110. It can be understood that if the degerming assembly 120 employs the first light strip 121 disposed on the seat body 110, the first ultraviolet lamp beads 122 are utilized to emit ultraviolet light at different emission angles, so as to perform comprehensive irradiation degerming on the seat surface of the seat body 110. If the degerming module 120 employs the second light strip 125 disposed on the bracket 112, the second ultraviolet lamp bead 126 emits ultraviolet light, and the driving member 128 drives the bracket 112 to rotate, so that the ultraviolet light moves back and forth from top to bottom or from bottom to top, and the entire seat surface is scanned and degerming.

S50: it is determined whether the sterilization assembly 120 is properly energized. After the degerming subassembly 120 is controlled to be opened, the current signal of the degerming subassembly 120 is obtained through the degerming detection circuit 153, namely the current signal of the first ultraviolet lamp bead 122 or the second ultraviolet lamp bead 126 is detected, and whether the first ultraviolet lamp bead 122 or the second ultraviolet lamp bead 126 works or not is judged through the current signal. If the current signal is normal, step S60 is executed. If the current signal is not normal, step S70 is executed to prompt the user.

S60: it is determined whether the uv light of the sterilization assembly 120 is normal. After the degerming assembly 120 is controlled to be started, the ultraviolet detection sensor 130 acquires an ultraviolet signal of the degerming assembly 120, and whether the first ultraviolet lamp bead 122 or the second ultraviolet lamp bead 126 emits ultraviolet light is detected. If the ultraviolet light signal is normal, go to step S30; if the UV light signal is abnormal, such as a fault or no UV light has been emitted for a period of time, step S70 is executed to prompt the user and shut down the sterilizing assembly 120. Optionally, the determination of whether the degerming assembly 120 is working effectively can be made based on the current signal and the ultraviolet light signal, and can be visually fed back to the user through the interface 170 on the seat body 110. After the degerming function is executed, the child seat 100 is turned off, and the degerming child seat 100 is in a usable state.

The embodiment of the invention also provides a vehicle, which comprises a vehicle body and the sterilizing child seat 100 as in the previous embodiment, wherein the sterilizing child seat 100 is installed on the vehicle body. This vehicle can ensure the security that children took, has the degerming function again, can improve seat body 110's cleanliness, is favorable to the healthy that children took, takes for children and provides better comfortable experience.

In summary, the embodiment of the present invention provides a sterilization child seat 100, a sterilization method for a child seat, and a vehicle, which have the following beneficial effects:

this degerming children's seat 100 adopts to set up first lamp area 121 on seat body 110, utilizes the different launch angle of first ultraviolet lamp pearl 122 to send ultraviolet ray, realizes that ultraviolet ray shines seat body 110's comprehensive, plays the purpose of ultraviolet ray degerming. Or the second lamp strip 125 is arranged on the support 112, and the support 112 can rotate relative to the seat body 110, so that the ultraviolet light emitted by the second ultraviolet lamp beads 126 can comprehensively scan the seat surface in the rotating process of the support 112, and the purpose of sterilizing the whole seat surface is achieved. And, degerming subassembly 120 opens the back, detects degerming subassembly 120's current signal and ultraviolet ray signal, judges whether degerming subassembly 120 is effective work, can solve the user and can't learn the effectual problem of degerming function. This degerming children's seat 100 simple structure, the degerming is comprehensive, high-efficient, and degerming effect is good, improves seat body 110's cleanliness, is favorable to that the user is healthy.

The sterilization method for the child seat provided by the embodiment of the invention has the advantages of simple principle and high sterilization efficiency, can prevent sterilization ultraviolet rays from damaging living bodies, can comprehensively sterilize the seat body 110, improves the cleanliness of the child seat, and improves the use experience of users.

The vehicle provided by the embodiment of the invention comprises the sterilization child seat 100, so that the safety of the child during sitting can be guaranteed, the sterilization function is realized, the cleanliness of the seat body 110 can be improved, the body health of the child during sitting is facilitated, and better comfortable experience is provided for the child during sitting.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.