CN217034533U - Intelligent home - Google Patents

Abstract

The utility model discloses an intelligent home, which comprises: the intelligent house body, this internal including of intelligent house: the device comprises a signal acquisition part, a control part and at least one driving part for generating noise in a working state; the signal acquisition part is connected with the control part, and the control part is respectively connected with each driving part; the signal acquisition component is used for acquiring an external signal; the control part is used for acquiring an external signal from the signal acquisition part, determining a control signal according to the external signal, and controlling the driving state of each driving part according to the control signal, so that the state of the driving part of the intelligent home can be controlled according to the external signal, and the noise decibel generated when the intelligent home works is controlled.

Description

Smart home

Technical Field

The utility model relates to the technical field of intelligent control equipment, in particular to an intelligent home.

Background

With the development of science and technology and the improvement of the quality of life of people, smart homes are favored by more and more users.

In order to better provide home service for users, smart homes such as smart mattresses, smart air purifiers and air conditioners have multiple functions and need to be realized by driving components such as motors; when the driving part is used, noise is generated, the use feeling of a user is reduced, and the higher the using power of the driving part is, the larger the generated noise is.

However, the perception capability of the user on the noise generated by the smart home is different in different scenes, and in some environments, the noise generated by the smart home is lower when the user sleeps; the noise requirement for the smart home is lower in a noisy environment. And the noise reduction of the existing intelligent home can not be automatically controlled according to different environments or the requirement on the noise can be properly reduced so as to obtain higher working efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent home, which is used for controlling the state of a driving part of the intelligent home according to an external signal so as to control the noise decibel generated when the intelligent home works.

According to an aspect of the present invention, there is provided a smart home, including: the intelligent house body, this internal including of intelligent house: the device comprises a signal acquisition part, a control part and at least one driving part for generating noise in a working state; the signal acquisition component is connected with the control component, and the control component is respectively connected with each driving component;

the signal acquisition component is used for acquiring an external signal;

the control component is used for acquiring an external signal from the signal acquisition component, determining a control signal according to the external signal, and controlling the driving state of each driving component according to the control signal.

Further, the signal acquisition part includes a sensor including: an environmental signal sensor or a human body sign signal sensor;

the ambient signal sensor includes: a sound sensor and/or a brightness sensor.

Further, the signal acquisition component is connected with an environment signal acquisition device, and the environment signal acquisition device is externally arranged on the intelligent home body;

and the signal acquisition part receives an external signal sent by the environment signal acquisition equipment.

Furthermore, the signal acquisition component is connected with intelligent center equipment in a wireless mode, and the intelligent center equipment is connected with environment signal acquisition equipment; the intelligent center equipment and the environmental signal acquisition equipment are externally arranged on the intelligent home body;

and the signal acquisition component receives the external signal acquired by the environment signal acquisition equipment through the intelligent central equipment.

Further, the ambient signal acquiring apparatus includes: a sound collector and/or a brightness collector.

Further, the control part includes: an amplifier, at least one comparator and at least one switching component; the amplifier is respectively connected with the signal acquisition part and at least one comparator, each comparator is respectively connected with different switch assemblies, and the number of the driving parts connected with each switch assembly is different;

the amplifier is used for acquiring an external signal from the signal acquisition part and amplifying the external signal;

each comparator is used for determining a control signal according to the external signal amplified by the amplifier and the reference voltage of the comparator, and controlling the closing of the switch assembly connected with the comparator according to the control signal so as to drive the preset number of driving components connected with the switch assembly.

Further, the reference voltage of the comparator is proportional to the number of driving components connected to the switch assembly connected to the comparator.

Further, the control part includes: an amplifier and a pulse width modulation integrated circuit;

the amplifier is respectively connected with the signal acquisition part and the input end of the pulse width modulation integrated circuit; each output end of the pulse width modulation integrated circuit is connected with different driving components;

the amplifier is used for acquiring an external signal from the signal acquisition part and amplifying the external signal;

the pulse width modulation circuit is used for respectively determining the control signals output by the output ends according to the amplified external signals and controlling the operating voltage of the corresponding driving part according to the control signals.

Further, the control part includes: the input end of the single chip microcomputer is connected with the signal acquisition part, and the output ends of the single chip microcomputer are respectively connected with different driving parts; the single chip microcomputer is used for determining a control signal according to the external signal and controlling the driving state of the target driving component according to the control signal.

Further, the driving part includes: a motor, an air pump, or an electronic valve.

The embodiment of the utility model discloses an intelligent home, which comprises: the intelligent house body, this internal including of intelligent house: the device comprises a signal acquisition part, a control part and at least one driving part generating noise in a working state; the signal acquisition part is connected with the control part, and the control part is respectively connected with each driving part; the signal acquisition component is used for acquiring an external signal; the control part is used for acquiring an external signal from the signal acquisition part, determining a control signal according to the external signal, and controlling the driving state of each driving part according to the control signal, so that the state of the driving part of the intelligent home can be controlled according to the external signal, and the noise decibel generated when the intelligent home works is controlled.

It should be understood that the statements in this section are not intended to identify key or critical features of the embodiments of the present invention, nor are they intended to limit the scope of the utility model. Other features of the present invention will become apparent from the following description.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a smart home provided according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a smart home according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of another smart home provided according to a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of another smart home provided according to a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a smart home provided according to a third embodiment of the present invention;

fig. 6 is a schematic structural diagram of another smart home provided according to a third embodiment of the present invention;

fig. 7 is a schematic structural diagram of another smart home provided by a third embodiment of the present invention;

Detailed Description

In order to make the technical solutions of the present invention better understood, 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 only a part of the embodiments of the present invention, and not all of the embodiments. 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 the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the utility model described herein are capable of operation in other sequences than those illustrated or described herein. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example one

Fig. 1 is a schematic structural diagram of an intelligent home according to an embodiment of the present invention, where the embodiment is applicable to a situation where noise generated by the intelligent home is controlled based on an external signal. As shown in fig. 1, the smart home includes: intelligence house body 1 includes in the intelligent house body 1: a signal acquisition part 10, a control part 20 and at least one driving part 30 generating noise in an operation state; the signal acquisition part 10 is connected with the control part 20, and the control part 20 is respectively connected with each driving part 30;

wherein, the signal acquiring part 10 is used for acquiring an external signal; the control unit 20 is configured to obtain an external signal from the signal obtaining unit 10, determine a control signal according to the external signal, and control the driving state of each driving unit 30 according to the control signal.

Specifically, a signal acquisition component 10, a control component 20 connected with the signal acquisition component 10, and at least one driving component 30 connected with the control component are arranged in the smart home body 1. The signal acquiring component 1 may be a component having a signal acquiring function or a signal receiving function, such as a receiving antenna, an input interface, or a buffer, and the signal acquiring component 10 is connected to the sensor for receiving the external signal acquired by the sensor. The control part 2 may be a control circuit or a controller for determining a control signal according to an external signal and controlling the driving state of each driving part 30 according to the control signal. The driving part 30 is a driving device for driving a functional part in an intelligent home, and the driving part 30 often generates certain noise under an operating state, wherein the noise is determined by physical characteristics of the driving part, is difficult to completely eliminate, and can be reduced by sacrificing efficiency. The driving part 30 included in different smart homes may be different, and the driving part 30 may include: a motor, an air pump, or an electronic valve.

For example, for smart homes such as air conditioners and air purifiers, the driving part 30 may be a motor; for example, for a mattress with an inflation function, the driving part 30 may be an air pump or an electronic valve controlling an inflation device, etc.

Specifically, the core of the smart home is to improve the quality of life of the user, and the environment and time when the user uses the smart home may be different, and the sensitivity and acceptable degree of the noise generated by the smart home in different environments or times are also different, for example, in a sleeping time, the smart home is expected to be as quiet as possible, and in a noisy environment, the noise generated by the smart home cannot be easily perceived. Therefore, the noise decibel generated by the intelligent home can be controlled according to the external signals, so that the intelligent home can meet the acceptable degree of noise of users in different scenes.

The noise decibel generated by the intelligent home in the working state is related to the working state of the driving parts in the intelligent home, which is specifically shown in the way that the more the number of the driving parts in the intelligent home is, the greater the noise decibel generated by the intelligent home is; the larger the operating power of the driving part is determined to be in the smart home, the larger the noise decibel generated by the smart home is. The driving quantity and the operating voltage of the driving parts in the intelligent home under the operating state can be determined according to the collected external signals, so that the noise decibel generated by the intelligent home is controlled. The external signals refer to signals collected in an environment where the smart home is placed or human body sign signals captured when the smart home is used.

The utility model provides an intelligent home which comprises the following components in an intelligent home body: the device comprises a signal acquisition part, a control part and at least one driving part for generating noise in a working state; the signal acquisition part is connected with the control part, and the control part is respectively connected with each driving part; acquiring an external signal through a signal acquisition component; the control component acquires an external signal from the signal acquisition component, determines a control signal according to the external signal, and controls the driving state of each driving component according to the control signal, so that the state of the driving component of the intelligent home can be controlled according to the external signal, and the noise decibel generated when the intelligent home works is controlled.

Example two

Fig. 2 is a schematic structural diagram of an intelligent home provided by the second embodiment. The signal acquisition part 10 in this embodiment includes a sensor 11, and is built in the smart home 1 body.

As shown in fig. 2, the smart home 1 in this embodiment includes: a sensor 11, a control unit 20 and at least one driving unit 30 generating noise in an operating state; the sensor 11 is connected with the control part 20, and the control part 20 is respectively connected with the driving parts 30; the sensor 11 includes: an environmental signal sensor or a human body sign signal sensor; the environmental signal sensor includes: a sound sensor and/or a brightness sensor.

The sensor 11 is used for acquiring an external signal; the control unit 20 is configured to obtain an external signal from the sensor 11, determine a control signal according to the external signal, and control the driving state of each driving unit 30 according to the control signal.

Specifically, in this embodiment, the sensor 11 is arranged in the smart home body 1 as a signal acquisition component, external information is acquired through the sensor 11, the external information is converted into an external signal represented by a voltage according to the external information, the external signal is acquired from the sensor 11 through the control component 20, a control signal is determined according to the external signal, and the driving state of each driving component 30 is controlled according to the control signal. The sensor 11 may include: an environment signal sensor and a human body sign signal sensor. The environmental signal sensor includes: a sound sensor and/or a brightness sensor.

In a specific example, a preset environment signal is acquired by the environment signal sensor, and the control unit 20 determines a control signal according to the preset environment signal to control the driving state of each driving unit. For example, for smart homes used in different environments, an acoustic sensor is used to collect environmental noise decibels of the smart home in the environment, a target noise decibel allowed to be generated by the smart home is determined according to the environmental noise decibels, and the number and operating voltage of target driving components can be determined according to the target noise decibels and the noise decibels generated by each driving component in an operating state, so as to generate a control signal to drive the target driving component.

Illustratively, for an intelligent home suitable for scenes such as a bedroom, the brightness of the environment where the intelligent home is located is acquired through a brightness sensor, and if the brightness is lower than a brightness threshold, a control part generates a first control signal and controls a first preset number of driving parts to be in a driving state; if the brightness is lower than the brightness threshold value, the control part generates a second control signal and controls a second preset number of driving parts to be in a driving state; the second predetermined number is less than the first number.

In another specific example, for an intelligent home with an intelligent mattress and an intelligent massage chair, which are equal to a smart home with a human body in direct contact, human body sign signals, such as pulse or heart rate signals, are acquired through the human body sign signal sensor, the control unit can judge the activity degree or sleep depth of the human body according to the human body sign signals, determine control signals according to the judgment results, and control the driving states of the driving units. The human body is in a deep sleep state, the control component generates a first control signal and controls the driving components with a first preset number to be in a driving state; the human body is in a light sleep state, the control component generates a second control signal and controls a second preset number of driving components to be in a driving state; and when the human body is in an active state, the control part generates a third control signal and controls a third preset number of driving parts to be in a driving state, wherein the first preset number is smaller than the second preset number, and the second preset number is smaller than the third preset number.

Fig. 3 is a schematic structural diagram of another smart home provided in the second embodiment, in this embodiment, the signal acquisition component 10 is connected to the environmental signal acquisition device 40, and the environmental signal acquisition device 40 is externally disposed on the smart home body 1.

As shown in fig. 3, the smart home 1 in this embodiment includes: a signal acquisition part 10, a control part 20 and at least one driving part 30 generating noise in an operation state; the signal acquisition part 10 is connected with the control part 20, and the control part 20 is respectively connected with each driving part 30; the signal acquisition part 10 is connected with the environmental signal acquisition equipment 40, and the environmental signal acquisition equipment 40 is externally arranged on the intelligent home body 1; the ambient signal acquiring apparatus 40 includes: a sound collector and/or a brightness collector;

the signal acquisition component 10 receives an external signal sent by the environmental signal acquisition equipment 40;

the control unit 20 is configured to acquire an external signal from the signal acquisition unit 10, determine a control signal according to the external signal, and control the driving state of each driving unit 30 according to the control signal.

Specifically, the connection mode of the signal obtaining component 10 and the environmental signal collecting device 40 may be a wireless connection mode or a wired connection mode, for example, the signal obtaining component 10 may be a receiving antenna, and is connected with the environmental signal collecting device 40 in a wireless mode; the signal acquiring unit 10 may be an input interface and is connected to the environmental signal acquiring device 40 by a wired manner.

Acquiring external information through an environmental signal acquisition device 40, and converting the external information into an external signal represented by voltage; the signal acquisition part 10 receives the external signal acquired by the environmental signal acquisition equipment.

In this embodiment, the environment signal acquisition device is externally arranged in the intelligent household body and connected with the signal acquisition part arranged in the intelligent household body, so that the size of the intelligent household can be reduced, the noise control function is flexibly configured as an optional function, and various requirements of users are met.

Fig. 4 is a schematic structural diagram of another smart home provided in the second embodiment, in this embodiment, the signal obtaining component 10 is connected to the environment signal acquiring device 40 through an intelligent central device 50; the intelligent center equipment 50 and the environmental signal acquisition equipment 40 are externally arranged on the intelligent home body 1;

as shown in fig. 4, the smart home 1 in this embodiment includes: a signal acquisition part 10, a control part 20 and at least one driving part 30 generating noise in an operation state; the signal acquisition part 10 is connected with the control part 20, and the control part 20 is respectively connected with each driving part 30; the signal acquisition part 10 is connected with the environmental signal acquisition equipment 40 through intelligent center equipment 50; the intelligent center equipment 50 and the environmental signal acquisition equipment 40 are externally arranged on the intelligent home body 1; the ambient signal acquiring apparatus 40 includes: a sound collector and/or a brightness collector.

The signal acquiring component 10 receives the external signal acquired by the environmental signal acquiring device 40 through the smart hub device 50; the control unit 20 is configured to obtain an external signal from the signal obtaining unit 10, determine a control signal according to the external signal, and control the driving state of each driving unit 30 according to the control signal.

Specifically, in the present embodiment, the signal acquisition unit does not have a signal acquisition function, and is a signal acquisition unit having only a signal receiving function, such as a receiving antenna. The signal acquisition part 10 is connected with the intelligent center equipment 50 externally arranged on the intelligent household body 1 in a wireless mode, and the intelligent center equipment 50 is connected with the environment signal acquisition equipment 40 externally arranged on the intelligent household body 1. Therefore, the signal acquisition section 10 can acquire the external signal acquired by the environmental signal acquisition device 40 through the smart hub device 50. The intelligent hub device may be, for example, a router or a wireless gateway.

In this embodiment, the signal acquisition device is externally arranged on the intelligent home body, and is connected with the signal acquisition part through the intelligent center device, so that the intelligent home can be integrated into the intelligent home control system through the intelligent center device, and the noise self-adaptive adjustment function of the intelligent home can receive the control of the intelligent center device.

EXAMPLE III

Fig. 5 is a schematic structural diagram of an intelligent home provided by the third embodiment. In this embodiment, the control means includes: an amplifier, at least one comparator and at least one switching component; the amplifier is respectively connected with the signal acquisition part and at least one comparator, each comparator is respectively connected with different switch assemblies, and the number of the driving parts connected with each switch assembly is different.

As shown in fig. 5, the smart home includes: the intelligent house body 1 includes in the intelligent house body 1: a signal acquisition part 10, a control part 20 and at least one driving part 30 generating noise in an operation state; the signal acquisition part 10 is connected with the control part 20, and the control part 20 is respectively connected with each driving part 30; the control section 20 includes: an amplifier 21, at least one comparator 22 and at least one switching component 23; the amplifiers 21 are respectively connected with the signal acquisition part 10 and at least one comparator 22, each comparator 22 is respectively connected with different switch assemblies 23, and the number of the driving parts 30 connected with each switch assembly 23 is different;

wherein, the signal acquiring part 10 is used for acquiring an external signal; the amplifier 21 of the control unit 20 is configured to obtain the external signal from the signal obtaining unit 10 and amplify the external signal, and each comparator 22 of the controller 20 is configured to determine a control signal according to a reference voltage of the comparator according to the amplified external signal, and control the closing of the switch assembly 23 connected to the comparator according to the control signal, so as to drive a preset number of driving units 30 connected to the switch assembly 23.

Specifically, the control unit 20 may be a control circuit that controls driving of the driving unit, and amplifies the external signal acquired from the signal acquiring unit 10 by an amplifier in the control circuit, and transmits the amplified external signal to each comparator, and each comparator 22 compares the amplified external signal with a reference voltage of the comparator 22 to determine a control signal, and controls closing of the switching element 23 connected to the comparator according to the control signal to drive the driving units 30 connected to the switching element 23 by a predetermined number.

The intelligent home comprises a signal acquisition component, a control component and at least one driving component which generates noise in a working state; the signal acquisition part is connected with the control part, and the control part is respectively connected with each driving part; the control part includes: an amplifier, at least one comparator and at least one switching component; the amplifiers are respectively connected with the signal acquisition part and at least one comparator, each comparator is respectively connected with different switch assemblies, and the number of the driving parts connected with each switch assembly is different; the driving quantity of the driving parts is controlled by the control parts according to the external signals acquired from the signal acquisition parts, so that the noise generated by the smart home can be controlled.

Optionally, the reference voltage of the comparator is proportional to the number of driving components connected to the switch assembly to which the comparator is connected.

For example, if the amplified external signal is greater than the first reference voltage of the first comparator, the control signal is the closing of the first switch assembly 23 connected to the first comparator 22, and the closing of the first switch assembly 23 is controlled according to the control signal to drive the first preset number of driving components 30 connected to the first switch assembly 23. If the amplified external signal is less than or equal to the reference voltage of the first comparator, the amplified external signal and the second reference voltage of the second comparator are continuously controlled, and if the amplified external signal is greater than the second reference voltage of the second comparator, the control signal is the closing of the second switch assembly 23 connected to the second comparator 22, the closing of the second switch assembly 23 is controlled according to the control signal, a second preset number of driving parts 30 connected to the second switch assembly 23 are driven, and the second preset number is less than the first preset number.

Fig. 6 is a schematic structural diagram of another smart home provided by the third embodiment. In this embodiment, the operating voltage of the driving part is controlled through the control part, that is, the operating power of the driving part is controlled, so that the noise generated by the smart home is controlled.

As shown in fig. 6, the control section 20 includes: an amplifier 21 and a pulse width modulation integrated circuit 24; the amplifier 21 is connected with the input end of the pulse width modulation integrated circuit 24; each output terminal of the pulse width modulation integrated circuit 24 is connected to a different driving part 30;

the amplifier 21 is used for acquiring an external signal from the signal acquisition part 10 and amplifying the external signal; the pwm circuit 24 is configured to determine the control signals output by the output terminals according to the amplified external signals, and control the operating voltage of the corresponding driving component 30 according to the control signals.

Specifically, the pwm ic 24 may be a circuit integrated with at least one pwm circuit, and the integrated circuit includes at least one output terminal, and the at least one output terminal is connected to one driving component. Amplifying the external signal acquired from the signal acquisition section 10 by the amplifier 21 and transmitting the amplified external signal to the pulse width modulation integrated circuit 24; the pulse width modulation integrated circuit 24 determines the voltage signal output by each output end according to the received amplified external signal; the operation voltage of the driving part 30 connected to the output terminal is controlled according to the voltage signal output from the output terminal, respectively, thereby controlling the operation power of the driving part 30. The operation power of each driving part in the intelligent home can be controlled, and the noise generated by the intelligent home can be controlled.

In this embodiment, the operating voltage of each driving component is controlled by the pwm ic, so as to control the noise generated by the smart home.

Fig. 7 is a schematic structural diagram of another smart home provided by the third embodiment. In this embodiment, the control unit controls the driving target driving unit and controls the operating voltage of the driving target driving unit, so as to control the noise generated by the smart home.

As shown in fig. 7, the control part includes: the input end of the single chip microcomputer 25 is connected with the signal acquisition part 10, and the output ends of the single chip microcomputer 25 are respectively connected with different driving parts 30; the single chip microcomputer 25 is configured to determine a control signal according to an external signal and control a driving state of the target driving part 30 according to the control signal.

The target drive component is a drive component that needs to be driven.

Specifically, the control unit may be a single chip microcomputer 25, and the preset program in the single chip microcomputer 25 may determine the control signal corresponding to each driving unit 30 according to the external signal, where the control signal may be a voltage signal, a current signal, or a PWM signal, and may control different numbers of driving units 30 in the smart home as the target driving units according to the control signal, and control the operating power corresponding to the target driving units, thereby controlling the noise generated by the smart home.

In this embodiment, the number of the target driving parts and the operating voltage of the target driving parts are controlled by the single chip microcomputer, so that the noise generated by the smart home is controlled.

It should be understood that various forms of the flows shown above, reordering, adding or deleting steps, may be used. For example, the steps described in the present invention may be executed in parallel, sequentially, or in different orders, and are not limited herein as long as the desired result of the technical solution of the present invention can be achieved.

The above-described embodiments should not be construed as limiting the scope of the utility model. It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and substitutions may be made in accordance with design requirements and other factors. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A smart home, comprising: intelligence house body, its characterized in that, this internal including of intelligence house: the device comprises a signal acquisition part, a control part and at least one driving part generating noise in a working state; the signal acquisition component is connected with the control component, and the control component is respectively connected with each driving component;

the signal acquisition component is used for acquiring an external signal;

the control component is used for acquiring an external signal from the signal acquisition component, determining a control signal according to the external signal, and controlling the driving state of each driving component according to the control signal.

2. The smart home of claim 1, wherein the signal acquisition component comprises a sensor, the sensor comprising: an environmental signal sensor or a human body sign signal sensor;

the ambient signal sensor includes: a sound sensor and/or a brightness sensor.

3. The smart home according to claim 1, wherein the signal acquisition component is connected with an environmental signal acquisition device, and the environmental signal acquisition device is externally arranged on the smart home body;

and the signal acquisition component receives an external signal sent by the environment signal acquisition equipment.

4. The smart home as claimed in claim 3, wherein the signal acquisition component is connected with a smart hub device in a wireless manner, and the smart hub device is connected with an environmental signal acquisition device; the intelligent center equipment and the environmental signal acquisition equipment are externally arranged on the intelligent home body;

and the signal acquisition component receives the external signal acquired by the environment signal acquisition equipment through the intelligent central equipment.

5. The smart home as claimed in claim 3 or 4, wherein the environment signal acquisition device comprises: a sound collector and/or a brightness collector.

6. The smart home as claimed in claim 1, wherein the control component comprises: an amplifier, at least one comparator and at least one switching component; the amplifier is respectively connected with the signal acquisition part and at least one comparator, each comparator is respectively connected with different switch assemblies, and the number of the driving parts connected with each switch assembly is different;

the amplifier is used for acquiring an external signal from the signal acquisition part and amplifying the external signal;

each comparator is used for determining a control signal according to the external signal amplified by the amplifier and the reference voltage of the comparator, and controlling the switch assembly connected with the comparator to be closed according to the control signal so as to drive the preset number of driving components connected with the switch assembly.

7. The smart home according to claim 6, wherein the reference voltage of the comparator is proportional to the number of driving components connected to the switch assembly to which the comparator is connected.

8. The smart home of claim 1, wherein the control component comprises: an amplifier and a pulse width modulation integrated circuit;

the amplifier is respectively connected with the signal acquisition part and the input end of the pulse width modulation integrated circuit; each output end of the pulse width modulation integrated circuit is connected with different driving components;

the amplifier is used for acquiring an external signal from the signal acquisition part and amplifying the external signal;

the pulse width modulation circuit is used for respectively determining the control signals output by the output ends according to the amplified external signals and controlling the operating voltage of the corresponding driving part according to the control signals.

9. The smart home of claim 1, wherein the control component comprises: the input end of the single chip microcomputer is connected with the signal acquisition part, and the output ends of the single chip microcomputer are respectively connected with different driving parts; the single chip microcomputer is used for determining a control signal according to the external signal and controlling the driving state of the target driving component according to the control signal.

10. The smart home of claim 1, wherein the drive component comprises: a motor, an air pump, or an electronic valve.

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