CN218213832U - Intelligent mirror electric control assembly and intelligent mirror - Google Patents

Abstract

The utility model discloses an automatically controlled subassembly of intelligence mirror and intelligent mirror. The intelligent mirror comprises an intelligent mirror main body and an intelligent mirror electric control assembly, the intelligent mirror electric control assembly comprises a human body identification assembly, a main control assembly, a distance measurement assembly and a driving assembly, the main control assembly is electrically connected with the output end of the human body identification assembly, the communication end of the distance measurement assembly is electrically connected with the main control assembly, the controlled end of the driving assembly is electrically connected with the main control assembly, and the driving assembly is in driving connection with the intelligent mirror main body. The utility model provides the high convenience that the user used intelligent mirror.

Description

Intelligent mirror electric control assembly and intelligent mirror

Technical Field

The utility model relates to an intelligence house field, in particular to automatically controlled subassembly of intelligence mirror and intelligent mirror.

Background

In the process that the user uses the intelligent mirror, the user often can be close to the intelligent mirror of use closely in order to see clearly local detail, especially to the intelligent mirror that has the magnifying glass of magnifying several times of built-in. However, since the user is away from the smart mirror by a certain distance, the user needs to bend the body or move the magnifier built in the smart mirror to the front of the user when the user wants to use the smart mirror at a short distance. Therefore, the practicability and convenience of the product are reduced, and the comfort of the product is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing an intelligence mirror electrical control component and intelligent mirror, aim at improving the convenience that the user used intelligent mirror.

In order to realize the above purpose, the utility model provides an intelligence mirror electrical control assembly is applied to intelligent mirror, intelligent mirror includes intelligent mirror main part, intelligence mirror electrical control assembly includes:

the human body identification component is used for outputting a first trigger signal when a human body is detected;

the main control assembly is electrically connected with the output end of the human body identification assembly and is used for outputting a first starting signal when receiving the first trigger signal;

the communication end of the distance measuring assembly is electrically connected with the main control assembly and is used for detecting the distance between a human body and the intelligent mirror main body when receiving a first starting signal and outputting a corresponding distance detection signal through the communication end;

the controlled end of the driving assembly is electrically connected with the main control assembly, and the driving assembly is in driving connection with the intelligent mirror main body;

the main control assembly is further used for controlling the driving assembly to work according to the distance detection signal so as to drive the intelligent mirror main body to move and adjust the distance between the intelligent mirror main body and a human body.

Optionally, the human body identification component comprises a millimeter wave radar, and an output end of the millimeter wave radar human body identification component is electrically connected with the main control component.

Optionally, the distance measuring assembly comprises a TOF distance detecting assembly, and a communication end of the TOF distance detecting assembly is electrically connected with the main control assembly.

Optionally, the driving assembly includes a stepping motor and a dual H-bridge driving chip, the stepping motor has a first connection end, a second connection end, a third connection end and a fourth connection end, and the dual H-bridge driving chip has a first input end, a second input end, a third input end, a fourth input end, a first output end, a second output end, a third output end and a fourth output end; the first input end, the second input end, the third input end and the fourth input end of the double H-bridge driving chip are respectively electrically connected with the main control assembly, the first output end of the double H-bridge driving chip is connected with the first connecting end of the stepping motor, the second output end of the double H-bridge driving chip is connected with the second connecting end of the stepping motor, the third output end of the double H-bridge driving chip is connected with the third connecting end of the stepping motor, and the fourth output end of the double H-bridge driving chip is connected with the fourth connecting end of the stepping motor.

Optionally, the main control component is further configured to output a second start signal when receiving the first trigger signal; the intelligent mirror electric control assembly further comprises:

the voice control assembly is electrically connected with the main control assembly and is used for picking up voice sent by a human body and outputting a corresponding voice signal when receiving the second starting signal;

the main control assembly is further used for controlling the driving assembly to work according to the voice signal.

Optionally, the main control component is further configured to output a third start signal when receiving the first trigger signal; the intelligent mirror electric control assembly further comprises:

the light assembly is arranged on the intelligent mirror main body, is electrically connected with the main control assembly and is used for starting to work when receiving the third opening signal;

the main control assembly is further used for controlling the light assembly to work according to the voice signal.

Optionally, the intelligent mirror electric control assembly further includes:

the defogging assembly is arranged on the intelligent mirror main body and is electrically connected with the main control assembly;

the main control assembly is also used for controlling the demisting assembly to start or stop working according to the voice signal.

Optionally, the intelligent mirror further includes a telescopic fixing support, the telescopic fixing support has a first fixing portion and a second fixing portion, the first fixing portion of the telescopic fixing support is used for being fixedly connected with the intelligent mirror main body, the second fixing portion of the telescopic fixing support is used for being fixedly connected with a wall, and the driving assembly is in driving connection with the telescopic fixing support;

the main control assembly is further used for controlling the driving assembly to work according to the distance detection signal, so that the driving assembly drives the telescopic fixing support to act, and the distance between the intelligent mirror main body and a human body is adjusted.

The utility model also provides an intelligence mirror, intelligence mirror include intelligence mirror main part and as above-mentioned arbitrary intelligence mirror electronic control assembly.

Optionally, the intelligent mirror further comprises a telescopic fixed support, the telescopic fixed support is provided with a first fixed part and a second fixed part, the first fixed part of the telescopic fixed support is used for being fixedly connected with the intelligent mirror main body, the second fixed part of the telescopic fixed support is used for being fixedly connected with a wall, and the driving assembly in the intelligent mirror electric control assembly is in driving connection with the telescopic fixed support;

the main control assembly is further used for controlling the driving assembly to work according to the distance detection signal, so that the driving assembly drives the telescopic fixing support to act, and the distance between the intelligent mirror main body and a human body is adjusted.

The utility model discloses intelligence mirror electrical control assembly includes main control assembly, human body identification subassembly, range finding subassembly and drive assembly. The human body identification assembly is used for outputting a first trigger signal when confirming that a human body enters a preset identification area, the distance measurement assembly is used for detecting the distance between the human body in the preset identification area and the intelligent mirror main body when receiving a first starting signal, and outputting a corresponding distance detection signal through the communication end, the main control assembly is used for outputting the first starting signal when receiving the first trigger signal, and the main control assembly is further used for controlling the driving assembly to work according to the distance detection signal so as to drive the intelligent mirror main body to approach the human body in the preset identification area. So, in practical application, when the user need closely use intelligent mirror for example when using the magnifying glass in the intelligent mirror main part, only need sit/stand in the preset identification area of intelligent mirror, the intelligent mirror main part will be in the distance between the distance that presets between so that it and the user under drive assembly's drive automatic movement in order to satisfy the user demand of closely using intelligent mirror, make the user need not to get up and close up intelligent mirror main part, improved the convenience that the user used. In addition, if the user only need use intelligent mirror as whole body mirror or vanity mirror to use, perhaps the user only walks when intelligent mirror, the automatically controlled subassembly of intelligent mirror can confirm that the user does not have the demand of being close to the use intelligent mirror at present according to human activity information, just can not open the distance that the range finding subassembly detected between intelligent mirror main part and the user, also can not control drive assembly drive intelligent mirror main part and remove, compare in opening range finding subassembly and human identification subassembly simultaneously, the utility model discloses still prevented when having reduced the electric energy consumption of intelligent mirror that intelligent mirror main part is moved by the spurious triggering to further improvement the convenience that the user used intelligent mirror.

Drawings

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

Fig. 1 is a schematic block diagram of an embodiment of the intelligent mirror electric control assembly of the present invention;

fig. 2 is a schematic view of a method flow of an embodiment of the control method of the intelligent mirror electric control assembly of the present invention;

fig. 3 is a schematic flow chart of another embodiment of the control method of the intelligent mirror electric control assembly of the present invention;

fig. 4 is a schematic view of a method flow of another embodiment of the control method of the intelligent mirror electric control assembly of the present invention;

fig. 5 is a schematic block diagram of another embodiment of the intelligent mirror electric control assembly of the present invention;

fig. 6 is a schematic circuit diagram of an embodiment of the intelligent mirror electric control assembly of the present invention;

fig. 7 is a schematic block diagram of another embodiment of the intelligent mirror electric control assembly of the present invention;

fig. 8 is a schematic block diagram of another embodiment of the electric control assembly of the smart mirror according to the present invention;

fig. 9 is a schematic block diagram of another embodiment of the intelligent mirror electric control assembly of the present invention;

fig. 10 is a schematic structural diagram of an embodiment of the present invention.

The reference numbers illustrate:

the purpose of the present invention is to provide a novel and improved method and apparatus for operating a computer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back) are provided in the embodiments of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of designing "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, an element defined as "a first" or "a second" can include at least one of the element either explicitly or implicitly. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and the protection scope of the present invention is no longer claimed.

It is understood that, during the process of using the smart mirror, a user often uses the smart mirror close to the smart mirror to see local details clearly, especially for the smart mirror with a magnifying glass built in to magnify several times. However, since the user is away from the smart mirror by a certain distance, the user needs to bend the body or move the magnifier built in the smart mirror to the front of the user when the user wants to use the smart mirror at a short distance. Therefore, the practicability and convenience of the product are reduced, and the comfort of the product is greatly reduced.

For this reason, refer to fig. 1, the utility model provides an intelligence mirror electrical control assembly is applied to intelligent mirror, and intelligent mirror includes intelligent mirror main part 80 in the embodiment of the utility model, intelligence mirror electrical control assembly includes:

the human body recognition component 10 is used for outputting a first trigger signal when a human body is detected;

the main control assembly 20, the main control assembly 20 is electrically connected with the output end of the human body recognition assembly 10; the main control component 20 is configured to output a first start signal when receiving the first trigger signal;

the distance measuring component 30, a communication end of the distance measuring component 30 is electrically connected with the main control component 20, and is used for detecting the distance between the user and the intelligent mirror main body 80 when receiving the first opening signal, and outputting a corresponding distance detection signal through the communication end;

the controlled end of the driving component 40 is electrically connected with the main control component 20, and the driving component 40 is in driving connection with the intelligent mirror main body 80;

the main control component 20 is further configured to control the driving component 40 to operate according to the distance detection signal, so as to drive the intelligent mirror main body 80 to move, so as to adjust the distance between the intelligent mirror main body 80 and the user.

In this embodiment, the main control module 20 may be implemented by an MCU (micro controller unit), a DSP (Digital Signal processing) chip, an FPGA (Field Programmable Gate Array) chip, or the like.

It can be understood that, in this embodiment, in order to determine whether the user has a requirement for using the smart mirror in a short distance, a developer may pre-store a preset identification area in the human body identification module 10, and when the user enters the preset identification area, the human body identification module 10 detects the user, and then outputs a first trigger signal to enable the main control module 20 to determine that the user currently has a requirement for using the smart mirror in a short distance.

Optionally, the human body identification component 10 may be implemented by a millimeter wave radar, and an inductive probe in the millimeter wave radar may be disposed on one side of the mirror surface of the intelligent mirror main body 80, and is configured to identify a human body activity condition in a preset identification area in front of the mirror surface of the intelligent mirror main body 80, and when detecting that a human body enters the preset identification area, may output a first trigger signal to enable the main control component 20 to determine that the user currently has a demand for using the intelligent mirror in a close range. Optionally, in another embodiment, the human body identification component 10 may also be an image identification module, the image identification module may include a camera and an image identification chip, the camera may capture an image in a preset identification area, and the image identification chip identifies the captured image to determine whether there is human body movement in the preset identification area, and when it is determined that there is a human body in the preset identification area, the first trigger signal is output to enable the main control component 20 to determine that the user currently has a requirement for using the smart mirror in a close range.

In this embodiment, when the main control component 20 receives the first trigger signal, it is determined that a human body enters the preset identification area, that is, it is determined that the current user has a requirement for using the smart mirror in a short distance. At this time, a first start signal is outputted to the distance measuring device 30 to start the distance measuring device 30, so as to detect the distance between the user and the smart mirror main body 80, and output a corresponding distance detecting signal to the main control device 20 via the communication terminal. It can be understood that when the main control component 20 determines that there is no user in the preset identification area, i.e. does not receive the first trigger signal, the ranging component 30 is not activated, so as to reduce the power consumption of the smart mirror.

Alternatively, the ranging assembly 30 may be implemented using a TOF distance detection assembly, such as the TMF8801 ranging module. The sensing probe of the TOF distance detection assembly may likewise be disposed on the mirror side of the smart mirror body 80. Specifically, the sensing probe of the TOF distance detecting assembly may be disposed at the same position or other suitable positions as the probe of the above human body recognizing assembly 10, as long as it can satisfy that when the user is in the preset recognition area, it can be right in front of the probe of the human body recognizing assembly 10, so as to enable the TOF exemplary detecting assembly to detect the distance between the user and the intelligent mirror main body 80 when receiving the first opening signal, and output the corresponding distance detecting signal to the main control assembly 20 through the communication terminal, so as to enable the main control assembly 20 to determine the distance between the current user and the intelligent mirror main body 80.

Optionally, the distance measurement component 30 may also be implemented in radar distance measurement, infrared distance measurement, or the like.

In this embodiment, the driving assembly 40 can move between a preset initial position and a preset limit position with the smart mirror body 80 under the control of the main control assembly 20. Optionally, the driving assembly 40 may be a stepping motor, one end of the stepping motor may be directly fixed to the other side of the intelligent mirror main body 80 away from the mirror surface, and the other end of the stepping motor may be fixed to the installation surface to be installed, so that the stepping motor may drive the intelligent mirror main body 80 to move between the preset initial position and the preset limit position along the first direction under the control of the main control assembly 20. Optionally, the driving assembly 40 may further include a motor, a transmission member and a track, the track is fixed on the surface to be installed, the intelligent mirror main body 80 is fixed on the transmission member, and the motor may drive the transmission member to travel along the track under the driving of the main control assembly 20, that is, the intelligent mirror main body 80 is driven to move between the preset initial position and the preset limit position along the first direction. Thus, the main control component 20 can determine the distance between the user and the intelligent mirror main body 80 and control the driving component 40 to drive the intelligent mirror main body 80 to move according to the distance detection signal, so as to adjust the distance between the intelligent mirror main body 80 and the user to be within the preset distance interval. Therefore, the distance between the intelligent mirror and the user can meet the requirement that the user uses the intelligent mirror closely, the user does not need to get up to be close to the intelligent mirror main body 80, and the convenience of using the intelligent mirror by the user is improved. The preset distance interval can be obtained through multiple experiments by research personnel during research and development and is prestored in the main control assembly 20, and when the distance between the user and the intelligent mirror main body 80 is within the preset distance interval, the requirement that the user uses the intelligent mirror in a close range can be met.

Specifically, if the main control assembly 20 determines that the distance between the user and the intelligent mirror main body 80 is within the preset distance interval according to the distance detection signal, the intelligent mirror main body 80 is controlled not to move;

it should be understood that the user may need to use the magnifying glass on the smart mirror in a short time, and at the moment, the user can directly reach the smart mirror, and can not normally wait for the smart mirror main body 80 to move to the front of the user in the preset identification area, and if the smart mirror is triggered by mistake, the user may be directly hit by the smart mirror main body 80 or the user is far away from to make the user unable to normally use the magnifying glass function on the smart mirror main body 80.

In this embodiment, according to the above process, when the main control component 20 confirms that the distance between the current user and the smart mirror main body 80 is within the preset distance range, the drive component 40 is controlled not to operate, so as to prevent the smart mirror from moving forward by mistake and colliding with the user, or moving backward to prevent the user from failing to normally use the magnifier function on the smart mirror main body 80. For example, the current user has entered the preset identification area and the preset distance interval is [ 0, 15 ] CM, but the main control component 20 determines that the actual distance between the user and the smart mirror main body 80 is 10CM according to the distance detection signal, so that the main control component 20 does not control the driving component 40 to work, even if the smart mirror main body 80 keeps the current position, so as to meet the use requirements of the user, thereby further improving the convenience of the user.

If the main control component 20 determines that the distance between the user and the intelligent mirror main body 80 is greater than the upper limit value of the preset distance interval according to the distance detection signal, the driving component 40 is controlled to drive the intelligent mirror main body 80 to move, so as to adjust the distance between the intelligent mirror main body 80 and the user to be the upper limit value of the preset distance interval.

The driving assembly 40 is taken as a stepping motor, the preset distance interval is [ 0, 15 ] CM, but the user has entered the preset identification area and the actual distance between the user and the smart mirror main body 80 is 30 CM. At this time, the main control component 20 calculates that the intelligent mirror main body 80 needs to move 15CM, and then controls the stepping motor to act according to a preset mapping table of the stepping motor extension length-the moving distance of the intelligent mirror main body 80, so as to move the intelligent mirror main body 80 to the user by 15CM. It is understood that the preset stepping motor extension-intelligent mirror main body 80 moving distance mapping table is obtained by a research and development worker through a plurality of experiments during the research and development period and is pre-stored in the main control assembly 20. So, in practical application, when the user need closely use intelligent mirror, only need sit/stand in the preset discernment district of intelligent mirror, intelligent mirror main part 80 will be under drive assembly 40 drive automatic movement so that its and the distance between the user be in predetermineeing the distance interval within a definite time to satisfy the demand that the user closely used intelligent mirror, make the user need not to get up and close up intelligent mirror main part 80, improved the convenience that the user used.

The utility model discloses intelligence mirror electrical control component includes main control assembly 20, human body identification subassembly 10, range finding subassembly 30 and drive assembly 40. Wherein, the human body recognition component 10 is used for outputting a first trigger signal when confirming that the user enters the preset recognition area, the distance measurement component 30 is used for detecting the distance between the user in the preset recognition area and the intelligent mirror main body 80 when receiving a first start signal, and outputting a corresponding distance detection signal through the communication terminal, the main control component 20 is used for outputting a first start signal when receiving the first trigger signal, the main control component 20 is further used for controlling the driving component 40 to work according to the distance detection signal, so as to drive the intelligent mirror main body 80 to approach the user in the preset recognition area. So, in practical application, when the user needs closely use the intelligent mirror for example when using the magnifying glass on the intelligent mirror main part 80, only need sit/stand in the preset identification area of intelligent mirror, intelligent mirror main part 80 will be in the distance interval of presetting apart at distance between so that its and the user with automatic movement under drive assembly 40's drive to satisfy the demand that the user closely used intelligent mirror, make the user need not to play up closely intelligent mirror main part 80, improved the convenience that the user used. In addition, if the user only need use intelligent mirror as whole body mirror or vanity mirror and use, or the user only walks when intelligent mirror, the automatically controlled subassembly of intelligent mirror can confirm that the user does not have the demand of being close to the use intelligent mirror at present according to human activity information, just can not open the distance that range finding subassembly 30 detected between intelligent mirror main part 80 and the user, also can not control drive assembly 40 drive intelligent mirror main part 80 and remove, compare in opening range finding subassembly 30 and human identification subassembly 10 simultaneously, the utility model discloses still prevented when having reduced the electric energy consumption of intelligent mirror that intelligent mirror main part 80 from being moved by the spurious triggering to further improvement the convenience that the user used intelligent mirror.

It is understood that in actual use, the user may need to use the smart mirror at a close distance again after turning around for a short time after using the smart mirror at a close distance and leaving. Or, after a plurality of users leave the preset identification area one before, the latter user can enter the preset identification area again in a short time by using the intelligent mirror in a short distance.

For this reason, in the present embodiment, when the main control assembly 20 suddenly fails to receive the first trigger signal (i.e. the main control assembly 20 confirms that the current user leaves the preset identification zone), the driving assembly 40 is not controlled to act to move the smart mirror body 80 back to the initial position at the first time, but starts to time first. If the main control module 20 does not receive the first trigger signal all the time when the timing duration reaches the preset delay duration, it is determined that no user enters the preset identification area all the time, and then the main control module 20 determines that no user still needs to use the smart mirror in a short distance, and controls the driving module 40 to move to drive the smart mirror main body 80 to move back to the initial position. If the main control component 20 receives the first trigger signal again in the process that the timing duration reaches the preset delay duration, it is determined that there is another user entering the current preset identification area, then the main control component 20 stops and resets the timing, and according to the manner in the above embodiment, the driving component 40 is controlled to drive the intelligent mirror main body 80 to move, so as to adjust the distance between the intelligent mirror main body 80 and the user to be within the preset distance interval. Therefore, in practical application, when the user uses the intelligent mirror in a short distance again in a short time, the user does not need to wait for the action time of the intelligent mirror again, and the convenience of using the intelligent mirror by the user is further improved.

The utility model discloses an in the embodiment, human recognition subassembly 10 includes the millimeter wave radar, and the output and the main control assembly 20 electricity of the human recognition subassembly 10 of millimeter wave radar are connected. The distance measuring assembly 30 comprises a TOF distance detecting assembly, and a communication end of the TOF distance detecting assembly is electrically connected with the main control assembly 20.

In this embodiment, the millimeter wave radar may have a preset identification area pre-stored by a developer, and when the user enters the preset identification area, the millimeter wave radar outputs a first trigger signal to the main control component 20, so that the main control component 20 determines that the user enters the preset identification area. At this time, the main control component 20 controls the TOF distance detecting component to start working, so that the TOF distance detecting component detects the distance between the user and the intelligent mirror main body 80, and outputs a corresponding distance detecting signal through the communication terminal, so that the main control component 20 determines the distance between the current user and the intelligent mirror main body 80. So, in practical application, compare and directly adopt human body identification subassembly 10 to confirm the distance between user and the intelligent mirror main part 80, the utility model discloses the intelligence mirror can be through the more accurate distance that detects between user and the intelligent mirror main part 80 of solitary range unit 30 to adjust the distance between intelligent mirror main part 80 and the user more accurately, in order to improve the convenience that the user used intelligent mirror.

IN an embodiment of the present invention, referring to fig. 6, the driving assembly 40 includes a stepping motor M1 and a double H-bridge driving chip MQ1, the stepping motor M1 has a first connection end, a second connection end, a third connection end and a fourth connection end, the double H-bridge driving chip MQ1 has a first input end IN1, a second input end IN2, a third input end IN3, a fourth input end IN4, a first output end OUT1, a second output end OUT2, a third output end OUT3 and a fourth output end OUT4; first input end IN1 of two H bridge driver chip, second input end IN2, third input end IN3 and fourth input end IN4 are connected with main control assembly 20 electricity respectively, first output OUT1 of two H bridge driver chip MQ1 is connected with step motor M1's first link, second output OUT21 of two H bridge driver chip MQ1 is connected with step motor M1's second link, third output OUT3 of two H bridge driver chip MQ1 is connected with step motor M1's third link, fourth output OUT4 of two H bridge driver chip MQ1 is connected with step motor M1's fourth link.

In this embodiment, the dual H-bridge driver chip MQ1 may be an SA5848 chip, the stepping motor M1 is a four-wire stepping motor, a mapping table of stepping motor actions and driving signals may be pre-stored in the main control component 20, and different combinations of driving signals may be output through the first input terminal to the fourth input terminal according to the mapping table of stepping motor actions and driving signals and the step motor action requirement (for example, the step motor actions are controlled according to a voice signal, or the step motor actions are controlled to drive the smart mirror main body 80 to move so that the distance between the smart mirror main body 80 and the user is within a preset distance range), so that the dual H-bridge driver chip MQ1 controls the step motor to extend/retract/stop. The mapping table of the stepping motor action-driving signal can be obtained by a research and development staff according to the specification of the double H-bridge driving chip and the stepping motor and is pre-stored in the main control assembly 20.

Through above-mentioned two H bridge driver chip drive step motor, compare and adopt the relay to control preventing of driving step motor, the noise that produces when can reduce step motor action effectively has improved the travelling comfort that the user used intelligent mirror.

In an embodiment of the present invention, referring to fig. 10, the smart mirror further includes a telescopic fixing bracket 90, the telescopic fixing bracket 90 has a first fixing portion 91 and a second fixing portion 92, the first fixing portion 91 of the telescopic fixing bracket 90 is used for being fixedly connected to the smart mirror main body 80, the second fixing portion 92 of the telescopic fixing bracket 90 is used for being fixedly connected to a wall, in an embodiment of the present invention, the driving assembly 40 is drivingly connected to the telescopic fixing bracket 90;

the main control component 20 is further configured to control the driving component 40 to operate according to the distance detection signal, so that the driving component 40 drives the telescopic fixing bracket 90 to move, so as to adjust the distance between the smart mirror main body 80 and the user.

In this embodiment, the first fixing portion 91 and the second fixing portion 92 are both provided with a sliding slot 94, the first fixing portion 91 can be fixed to a side of the smart mirror main body 80 away from the mirror surface by means of screw fixation, gluing, and the like, the telescopic fixing bracket 90 can be an X-type telescopic fixing bracket 90, the X-type telescopic fixing bracket 90 further includes an X-type link assembly 93, the X-type link assembly 93 is respectively connected to the first fixing portion 91 and the second fixing portion 92 in a driving manner, the driving assembly 40, such as a stepping motor, is disposed in the first fixing portion 91 and/or the second fixing portion 92, the X-type link assembly 93 can move in the sliding slot 94 of the first fixing portion 91 and the second fixing portion 92 along the first direction under the driving of the driving assembly 40, so as to contract or extend the X-type link assembly 93, thereby driving the first fixing portion 91 to move along the second direction, and further enabling the smart mirror main body 80 to move between the preset initial position and the preset limit position. So, in this embodiment, not only can make more firm the fixing on the wall body of intelligence mirror main part 80, can also make more stable the predetermineeing initial position of intelligence mirror main part 80 and predetermineeing the removal between the extreme position, improved the reliability and the stability of intelligence mirror work.

In an embodiment of the present invention, referring to fig. 7, the intelligent mirror electric control assembly further includes:

the voice control component 50, the voice control component 50 is electrically connected with the main control component 20, and is used for acquiring the voice sent by the user and outputting a corresponding voice signal when receiving the second starting signal;

the main control component 20 is further configured to output a second start signal when receiving the first trigger signal;

the main control component 20 is further configured to control the driving component 40 to operate according to the voice signal.

In this embodiment, the voice control component 50 can be implemented by a voice processing module integrated with a microphone, a speaker, and a voice recognition chip, such as a VB6824 voice processing module. It can be understood that, when the main control component 20 receives the first trigger signal and determines that the user is in the preset identification area, it will output a second start signal to the voice control component 50, so that the voice recognition chip therein starts to work and recognizes and processes the voice picked up by the sound pickup device to generate a voice signal. Rather than having the voice control component 50 in a normal operating state, thereby reducing the power consumption of the smart mirror.

In this embodiment, the voice recognition chip in the voice control component 50 recognizes and processes the voice of the user picked up by the sound pickup, generates a corresponding voice signal, and sends the corresponding voice signal to the main control component 20 in the form of a digital signal, and the main control component 20 may determine the current requirement of the user according to a preset voice signal-execution program mapping table, and execute a corresponding program. Then, the main control component 20 outputs a corresponding feedback voice signal to the voice recognition chip according to the preset voice signal-feedback voice mapping table, so that the voice recognition chip performs digital-to-analog conversion on the feedback voice signal and outputs the converted signal through the speaker to prompt the user that the action is currently completed. Wherein, the voice signal-executive mapping table and the voice signal-feedback voice mapping table are designed by the research and development personnel during the research and development period and are pre-stored in the main control component 20.

Specifically, as can be seen from the above, the main control component 20 only controls the driving component 40 to drive and move the smart mirror main body 80 to a position where the distance between the smart mirror main body and the user is within the preset distance interval, and at this time, the requirement for close-range use by the user may not be completely met. Then, the user can send out a voice of "close-up" according to the guidance of the user manual of the smart mirror product, at this time, the voice control component 50 can generate a corresponding voice signal representing "close-up" to the main control component 20 according to the above process, the main control component 20 can control the driving component 40 to act according to the preset voice signal-execution program mapping table and the user-smart mirror main body 80 distance information, so as to adjust the smart mirror main body 80 to move the preset distance toward the user, and output a corresponding feedback voice signal to the voice recognition chip, so that the voice recognition chip outputs the "close-up" voice through the speaker after performing digital-to-analog conversion on the feedback voice signal, so as to prompt the user.

In addition, it can be understood that the smart mirror main body 80 is further provided with a touch key array/entity key array electrically connected to the main control assembly 20, and a user can start the smart mirror main body 80 in a standby/power-off state by touching/pressing the corresponding touch key/entity key. At this time, the main control component 20 will also control the voice control component 50 to start working, and output a feedback voice signal indicating "welcome to use XX brand smart mirror" to the voice control component 50, so that the voice control component 50 controls the speaker to output the voice. Meanwhile, if the voice recognition chip in the voice control component 50 does not receive the voice from the sound pickup within a certain time, the standby state with low power consumption is also entered until the user sends out a corresponding wake-up voice to wake up the voice.

Through the arrangement, the user can control the intelligent mirror to act through voice without touching corresponding keys arranged on the intelligent mirror main body 80, and the use convenience of the user is improved.

The utility model discloses an in the embodiment, refer to fig. 8, the automatically controlled subassembly of intelligence mirror still includes:

the light assembly 60 is arranged on the intelligent mirror main body 80, the light assembly 60 is electrically connected with the main control assembly 20, and the light assembly 60 is used for starting to work when receiving a third opening signal;

the main control component 20 is further configured to output a third start signal when receiving the first trigger signal;

the main control component 20 is further configured to control the light component 60 to operate according to the voice signal.

In this embodiment, the light assembly 60 may include a plurality of different LED light arrays and corresponding light driving assemblies, such as RGB light arrays, monochromatic light arrays, etc., and each LED light array may be distributed on the smart mirror body 80 to form a different light strip or a different image.

It can be understood that, similarly to the above embodiment, when the main control component 20 determines that a human body enters the preset identification area, the third opening signal is output to control the light driving component of the light component 60 to start to operate, for example, the third opening signal with a high level is output to the enable terminal of the light driving component to start to operate the light driving component. After the main control component 20 controls the light driving component to start to be in the working state, the light adjusting signal of different preset working modules may be output to the light driving component, so that the light driving component drives the corresponding LED lamp arrays to emit light according to the corresponding working modules, for example, a full white light mode, a makeup mode, a live broadcast mode, a brightness lowering mode, and a brightness raising mode. Meanwhile, the main control component 20 may also output a corresponding lighting adjustment signal to the lighting driving component according to a corresponding lighting trigger signal output when the touch key array/entity key array is triggered by the user. The above-mentioned various working modules can be preset in the main control assembly 20 in advance by research personnel, and the main control assembly 20 adjusts the light emitting frequency, the light emitting color and the light emitting brightness of the light assembly 60 according to the corresponding programs of different working modes.

In this embodiment, after the user is in the preset identification area, corresponding voice may be sent out according to the product manual in the manner in the above-mentioned voice control embodiment, so that the main control component 20 controls the light component 60 to operate according to the operating mode corresponding to the voice signal according to the voice signal sent by the voice control component 50, and feeds back a corresponding feedback voice signal to the voice control component 50, so that the voice control component 50 prompts the user that the user is currently started. For example, when the user sends "dimming" the main control module 20 outputs a corresponding light adjustment signal to the light driving module, so as to dim the brightness of the light emitted by the light module 60 by a preset lumen, and controls the voice control module 50 to send a "dimming" prompt voice.

Through the arrangement, the user can work through the light assembly 60 of the voice control intelligent mirror without touching corresponding keys arranged on the intelligent mirror main body 80, and the use convenience of the user is improved.

In an embodiment of the present invention, referring to fig. 9, the intelligent mirror electric control assembly further includes:

the demisting assembly 70 is arranged on the intelligent mirror main body 80, and the demisting assembly 70 is electrically connected with the main control assembly 20;

the main control component 20 is further configured to control the defogging component 70 to start/stop operating according to the voice signal.

In this embodiment, the defogging assembly 70 may be implemented using a heating device, which may be disposed within the smart mirror body 80, to raise the temperature of the mirrors of the smart mirror when the heating device is activated, thereby removing water mist generated on the mirrors. The heating device can be realized by adopting a plurality of heating devices such as a heating film, a heating belt, a heating strip and a switch electrically connected with the heating strip, the input end of the switch is connected with the power supply end, the output end of the switch is connected with the heating device, the controlled end of the switch is connected with the main control assembly 20, and when the switch is closed, the power supply end can supply power for the heating device, so that the heating device is heated to drive the temperature of the mirror of the intelligent mirror to be increased.

In this embodiment, after the user is in the preset recognition area, a corresponding voice may be sent according to the manner in the above voice control embodiment, for example, "turn on the defogging assembly 70", and the main controller may control the switch in the heating device to be in a closed state according to the above voice signal, so as to supply power to the heating device, thereby increasing the temperature of the heating device, and further, drive the temperature of the mirror of the smart mirror to increase to achieve the dehumidification effect.

It is understood that, in this embodiment, the user may also touch/press the corresponding touch key, so that the main control component 20 controls the defogging component 70 to be turned on or off according to the trigger signal sent by the touch key/the corresponding physical key.

Through the arrangement, a user can control the defogging assembly 70 of the intelligent mirror to work through voice without touching corresponding keys arranged on the intelligent mirror main body 80, and the use convenience of the user is improved.

The utility model also provides an intelligent mirror, including intelligent mirror main part 80 and the automatically controlled subassembly of above-mentioned arbitrary intelligence mirror.

In this embodiment, referring to fig. 10, an electronic control box may be disposed on a side of the intelligent mirror main body 80 away from the mirror surface, and an intelligent mirror electronic control assembly may be disposed in the electronic control box.

In this embodiment, the smart mirror further includes a telescopic fixing bracket 90, the telescopic fixing bracket 90 has a first fixing portion 91 and a second fixing portion 92, the first fixing portion 91 of the telescopic fixing bracket 90 is used for being fixedly connected with the smart mirror main body 80, the second fixing portion 92 of the telescopic fixing bracket 90 is used for being fixedly connected with a wall, and the driving assembly 40 in the smart mirror electric control assembly is in driving connection with the telescopic fixing bracket 90.

It is worth noting because the utility model discloses the intelligence mirror has contained above-mentioned whole embodiments of intelligent mirror electrical control assembly, consequently the utility model discloses the intelligence mirror has above-mentioned all beneficial effects of intelligent mirror electrical control assembly, and no longer gives details here.

The application also provides a control method of the intelligent mirror electric control assembly, which is applied to an intelligent mirror, the intelligent mirror comprises an intelligent mirror main body and the intelligent mirror electric control assembly, the intelligent mirror electric control assembly comprises a distance measurement assembly and a driving assembly, and the driving assembly is in driving connection with the intelligent mirror main body.

It should be understood that the intelligent mirror main body is a mirror main body of the intelligent mirror, and a magnifying glass with a magnifying function can be further arranged on the intelligent mirror main body.

Referring to fig. 2, in an embodiment of the present application, a method for controlling an intelligent mirror electronic control assembly includes:

s10, acquiring human body activity information in a preset identification area of the intelligent mirror;

step S20, when a human body is determined to enter a preset identification area according to the human body activity information, controlling the distance measurement assembly to start so that the distance measurement assembly detects the distance between a user and the intelligent mirror main body, and acquiring the human body-intelligent mirror main body distance information output by the distance measurement assembly;

and S30, controlling a driving assembly to drive the intelligent mirror main body to move according to the distance information between the human body and the intelligent mirror main body so as to adjust the distance between the intelligent mirror main body and a user to be within a preset distance interval.

It is understood that a processor may be disposed in the intelligent mirror electric control assembly, and the processor is used for executing the above method, and the processor is implemented by using MCU, DSP (Digital Signal processing), FPGA (Field Programmable Gate Array), etc.

In this embodiment, a human body recognition component may be disposed in the intelligent mirror electric control component, and it can be understood that the preset recognition area of the intelligent mirror is the preset recognition area of the human body recognition component. The range of the preset identification area can be designed by research personnel according to the actual requirements of users during research and development and is prestored in the human body identification component.

Optionally, the human body recognition component may be implemented by using a millimeter wave radar, for example, an EDQ10GS accurate human body sensing sensor, and a sensing probe in the millimeter wave radar may be disposed on one side of the mirror surface of the smart mirror body, and is configured to recognize human body activity information in a preset recognition area in front of the mirror surface of the smart mirror body and transmit the human body activity information to the processor; optionally, in another embodiment, the human body recognition component may also be an image recognition module, the image recognition module may include a camera and an image recognition chip, the camera may capture an image in the preset recognition area, and the image recognition chip recognizes the captured image to determine whether there is a user activity in the preset recognition area, and transmits a final recognition result to the processor; optionally, in another embodiment, the human body identification component may also be an infrared sensor, and the infrared sensor may detect infrared radiation in the preset identification area, and upload a result to the processor, so that the processor determines whether a user is currently active in the preset identification area according to the infrared radiation condition in the preset identification area.

In this embodiment, when the processor determines that a human body enters the preset identification area according to the human body activity information, it is determined that the current user has a requirement for using the smart mirror in a short distance. The distance measurement assembly can be started to enable the distance measurement assembly to detect the distance between the user and the intelligent mirror main body, and it can be understood that the distance measurement assembly cannot be started when the processor determines that no user exists in the preset identification area, so that the power consumption of the intelligent mirror is reduced.

Optionally, the ranging component may be implemented using a TOF distance detection component, such as the TMF8801 ranging module. The sensing probe of the TOF distance detection assembly may likewise be disposed on the mirror face side of the smart mirror body. Specifically, the sensing probe of the TOF distance detection assembly can be arranged at the same position or other suitable positions as the probe of the human body identification assembly, and as long as the TOF distance detection assembly can meet the requirement that when a user is in a preset identification area, the TOF distance detection assembly can just be arranged in front of the probe of the human body identification assembly, so that after the TOF distance detection assembly is started, the distance between the user and the intelligent mirror main body can be detected, human body-intelligent mirror main body distance information is generated, and the distance information is output to the processor in the form of a digital signal.

Optionally, the distance measurement component may also be implemented in radar distance measurement, infrared distance measurement, and the like.

In this embodiment, the drive assembly may carry the smart mirror body under control of the processor between a preset initial position and a preset limit position. Optionally, the driving assembly may be a stepping motor, one end of the stepping motor may be directly fixed to the other side of the intelligent mirror body deviating from the mirror surface, and the other end of the stepping motor may be fixed to the surface to be mounted. Optionally, the driving assembly may further include a motor, a transmission member, and a rail, the rail is fixed to the surface to be mounted, the intelligent mirror main body is fixed to the transmission member, and the motor may be driven by the processor to drive the transmission member to travel along the rail, that is, to drive the intelligent mirror main body to move between the preset initial position and the preset limit position along the first direction. Therefore, the processor can determine the distance between the user and the intelligent mirror body according to the distance information of the human body and the intelligent mirror body and control the driving assembly to drive the intelligent mirror body to move so as to adjust the distance between the intelligent mirror body and the user to be within a preset distance interval. Therefore, the distance between the intelligent mirror and the user can meet the requirement that the user uses the intelligent mirror closely, the user does not need to get up to be close to the intelligent mirror main body, and the convenience of using the intelligent mirror by the user is improved. The preset distance interval can be obtained through a plurality of experiments by research personnel during research and development and is prestored in the processor.

Specifically, in an embodiment of the present application, step S30 specifically includes:

step S31, if the distance between the human body and the intelligent mirror main body is determined to be within a preset distance interval according to the human body-intelligent mirror main body distance information, controlling the intelligent mirror main body not to move;

it needs to be understood that the user may need to use the magnifying glass on the intelligent mirror in the short time, and at this moment, before the user can directly cut into the intelligent mirror, can normally not wait for intelligent mirror main part oneself to remove oneself in presetting the identification area, if the intelligent mirror is triggered by the mistake this moment, probably intelligent mirror main part can directly hit the user or keep away from the user and make the user normally use the magnifying glass function in the intelligent mirror main part.

In this embodiment, according to the above process, when the processor determines that the distance between the current user and the smart mirror main body is within the preset distance range, the processor controls the driving assembly not to operate, so as to prevent the smart mirror from mistakenly moving forward to collide with the user or moving backward to prevent the user from failing to normally use the magnifier function on the smart mirror main body. For example, the current user enters the preset identification area and the preset distance interval is [ 0, 15 ] CM, but the processor determines that the actual distance between the user and the intelligent mirror main body is 10CM according to the human body-intelligent mirror main body distance information, so that the processor cannot control the driving assembly to work, even if the intelligent mirror main body keeps the current position to meet the use of the user, and the use convenience of the user is further improved.

And step S32, if the distance between the user and the intelligent mirror main body is determined to be larger than the upper limit value of the preset distance interval according to the human body-intelligent mirror main body distance information, controlling the driving assembly to drive the intelligent mirror main body to move so as to adjust the distance between the intelligent mirror main body and the human body to be the upper limit value of the preset distance interval.

The driving assembly is taken as a stepping motor, the preset distance interval is (0, 15) CM, but the user enters the preset identification area and the actual distance between the user and the intelligent mirror main body is 30 CM. At this time, the processor calculates that the intelligent mirror main body needs to move 15CM, and then controls the action of the stepping motor according to a preset mapping table of the extension length of the stepping motor and the moving distance of the intelligent mirror main body, so that the intelligent mirror main body moves 15CM to the user. It can be understood that the preset stepping motor extension-intelligent mirror main body moving distance mapping table is obtained by a research and development worker through a plurality of experiments during research and development and is prestored in the processor. So, in practical application, when the user need closely use intelligent mirror, only need sit/stand in the predetermined discernment district of intelligent mirror, intelligent mirror main part will be in the distance between the predetermined distance interval so that its and the user distance under drive assembly's drive automatic movement to satisfy the demand that the user closely used intelligent mirror, make the user need not to get up and close up intelligent mirror main part, improved the convenience that the user used.

According to the technical scheme, human activity information in a preset identification area of the intelligent mirror is obtained firstly; then when a human body is determined to enter a preset identification area according to the human body activity information, controlling the distance measurement assembly to start, and acquiring the human body-intelligent mirror main body distance information output by the distance measurement assembly; and finally, determining the moving distance according to the distance information of the human body and the intelligent mirror main body, and controlling the driving assembly to drive the intelligent mirror main body to move the moving distance towards the user direction so as to approach the user in the preset identification area. So, in practical application, when the user need closely use intelligent mirror for example when using the magnifying glass in the intelligent mirror main part, only need sit/stand in the preset identification area of intelligent mirror, the intelligent mirror main part will be in the distance between the distance that presets between so that it and the user under drive assembly's drive automatic movement in order to satisfy the user demand of closely using intelligent mirror, make the user need not to get up and close up intelligent mirror main part, improved the convenience that the user used. In addition, if the user only needs to use the intelligent mirror as a whole-body mirror or a cosmetic mirror, or the user only walks through the intelligent mirror, the intelligent mirror electric control assembly can determine that the user does not have the current requirement of using the intelligent mirror close to according to the human activity information, the distance measuring assembly can not be started to detect the distance between the intelligent mirror main body and the user, the driving assembly can not be controlled to drive the intelligent mirror main body to move, compared with the situation that the distance measuring assembly and the human body identification assembly are started at the same time, the intelligent mirror main body is prevented from being mistakenly triggered to move while the electric energy consumption of the intelligent mirror is reduced, and further convenience in using the intelligent mirror by the user is improved.

In an embodiment of the present application, after step S30, the method for controlling an intelligent mirror electric control assembly further includes:

and S40, controlling the driving assembly to drive the intelligent mirror main body to move to a preset initial position after determining that a human body leaves a preset identification area according to the human body activity information.

It can be understood that, in order not to influence the daily normal use of the user, after the processor confirms that the user leaves from the preset identification area according to the human activity information, the driving assembly can be controlled to act so as to drive the intelligent mirror main body to move back to the initial position, and the use convenience of the user is improved.

Optionally, in another embodiment, step S40 specifically includes:

and S41, controlling a driving assembly to drive the intelligent mirror main body to move to a preset initial position after determining that a human body leaves a preset identification area and determining that the time length for no human body to enter the preset identification area reaches a preset delay time length according to the human body activity information.

It is understood that in actual use, the user may need to use the smart mirror at a close distance again after turning around for a short time after using the smart mirror at a close distance and leaving. Or, after a plurality of users leave the preset identification area one before, the latter user can enter the preset identification area again in a short time by using the intelligent mirror in a short distance.

For this reason, in the present embodiment, when it is determined that the user has left the preset identification area according to the human activity information, the processor does not control the driving assembly to act to move the smart mirror body back to the initial position at the first time, but starts timing first. If the processor confirms that no user enters the current preset identification area according to the human body activity information in the process that the timing duration reaches the preset delay duration, the processor can control the driving assembly to act so as to drive the intelligent mirror main body to move back to the initial position if the processor determines that no user has a requirement for using the intelligent mirror in a short distance. If the processor confirms that a user enters the current preset identification area according to the human body activity information in the process that the timing duration reaches the preset delay duration, the processor stops and resets the timing, and controls the driving assembly to drive the intelligent mirror main body to move according to the mode in the embodiment so as to adjust the distance between the intelligent mirror main body and the user to be within the preset distance interval. So, in practical application, when can let the user closely use intelligent mirror once more in the short time, need not additionally to wait for the time of intelligent mirror action once more, further improvement the convenience that the user used intelligent mirror.

In an embodiment of the present application, referring to fig. 3, the intelligent mirror electric control assembly further includes a voice control assembly, and step S20 further includes:

s21, controlling a voice control component to start when a human body is determined to enter a preset identification area according to the human body activity information;

the control method of the intelligent mirror electric control assembly further comprises the following steps:

s50, acquiring voice information sent by a human body through a voice control assembly;

and S60, controlling the driving assembly to work according to voice information sent by the human body so as to adjust the distance between the intelligent mirror main body and a user.

In this embodiment, the voice control component may be implemented by a voice processing module integrated with a microphone, a speaker, and a voice recognition chip, such as a VB6824 voice processing module. It can be understood that, when the processor determines that the user is in the preset recognition area according to the human body activity information, the voice control component is started, so that the voice recognition chip in the voice control component starts to work, and the voice picked up by the sound pickup is recognized and processed to generate voice information. Instead of making the voice control component in a normal working state, thereby reducing the power consumption of the intelligent mirror.

In this embodiment, the voice recognition chip in the voice control component may recognize and process the voice of the user picked up by the sound pickup, generate corresponding voice information, and send the voice information to the processor in the form of a digital signal, and the processor may determine the current requirement of the user according to a preset voice information-execution program mapping table, and execute a corresponding program. Then, the processor also outputs corresponding feedback voice information to the voice recognition chip according to a preset voice information-feedback voice mapping table, so that the voice recognition chip performs digital-to-analog conversion on the feedback voice information and outputs the converted feedback voice information through a loudspeaker to prompt a user that the action is finished currently. Wherein, the voice message-executive program mapping table and the voice message-feedback voice mapping table are designed by research personnel during research and development and are pre-stored in the processor.

Specifically, as can be seen from the above, the processor only controls the driving assembly to drive and move the intelligent mirror main body to a position where the distance between the intelligent mirror main body and the user is within the preset distance interval, and at this time, the requirement of the user for close-range use cannot be completely met. Then, the user can send out the voice of 'turning closer' according to the guidance of a user manual of the intelligent mirror product, at the moment, the voice control component can generate corresponding voice information representing 'turning closer' to the processor according to the process, the processor can control the driving component to act according to a preset voice information-executive program mapping table and the distance information between the human body and the intelligent mirror main body so as to adjust the intelligent mirror main body to move towards the user for a preset distance, and corresponding feedback voice information is output to the voice recognition chip, so that the voice recognition chip outputs the 'turned closer' voice through the loudspeaker after performing digital-to-analog conversion on the feedback voice information, and the user is prompted.

In addition, it can be understood that a touch key array/entity key array electrically connected with the processor is also arranged on the intelligent mirror main body, and a user can start the intelligent mirror main body in a standby/power-off state by touching/pressing the corresponding touch key/entity key. At this time, the processor also controls the voice control component to start working, and outputs feedback voice information representing 'welcome use of XX brand intelligent mirror' to the voice control component, so that the voice control component controls the loudspeaker to output the voice. Meanwhile, if the voice recognition chip in the voice control assembly does not receive the voice transmitted by the sound pick-up within a certain time, the voice recognition chip also enters a low-power-consumption standby state until a user sends corresponding awakening voice to awaken the voice.

Through the arrangement, the user can control the intelligent mirror to act through voice without touching corresponding keys arranged on the intelligent mirror main body, and the convenience of use of the user is improved.

In an embodiment of the present application, referring to fig. 4, the intelligent mirror electric control assembly further includes a light assembly, and step S20 further includes:

s21, controlling a light assembly to work according to a first preset working mode when a human body is determined to enter a preset identification area according to the human body activity information;

the control method of the intelligent mirror electric control assembly further comprises the following steps:

and S70, controlling the light assembly to work according to the working mode corresponding to the voice information according to the voice information sent by the human body.

In this embodiment, the light assembly may include a plurality of different LED lamp arrays, such as an RGB lamp array, a monochromatic lamp array, and the like, and each LED lamp array may be distributed on the smart mirror body to form a different light strip or a different image.

It is understood that, similarly to the above embodiment, the light assembly is controlled to start to operate only when the processor determines that a human body enters the predetermined identification area, and specifically, the light assembly may be controlled to operate according to the first predetermined operation module, for example, full bright white light. Meanwhile, the processor can also control the light assembly to start working according to a corresponding light trigger signal output when the touch key array/the entity key array is triggered by the user, and work according to a corresponding working mode, such as an all-white light mode, a makeup beautifying mode, a live broadcast mode, a brightness lowering mode and a brightness raising mode. The multiple working modules can be preset in the processor in advance by research personnel, and the processor adjusts the light emitting frequency, the light emitting color and the light emitting brightness of the light component according to programs corresponding to different working modes.

In this embodiment, after the user is in the preset recognition area, corresponding voice may be sent out according to the product manual according to the manner in the above voice control embodiment, so that the processor controls the light assembly to operate according to the operating mode corresponding to the voice information according to the voice information sent by the voice control assembly, and feeds back corresponding feedback voice information to the voice control assembly, so that the voice control assembly prompts the user that the user is currently started. For example, when the user sends "dimming" the processor controls the brightness of the light emitted by the current light assembly to be decreased by a preset lumen, and controls the voice control assembly to send a "dimming" prompt voice.

Through the arrangement, a user can work through the light assembly of the voice control intelligent mirror, corresponding keys arranged on the intelligent mirror main body do not need to be touched, and the use convenience of the user is improved.

In an embodiment of the present application, referring to fig. 5, the intelligent mirror electric control assembly further includes a defogging assembly, and the intelligent mirror electric control assembly control method further includes:

and S80, controlling the defogging component to be opened or closed according to the voice information sent by the human body.

In this embodiment, the defogging assembly can be realized by adopting a heating device, the heating device can be arranged in the intelligent mirror body, and when the heating device is started, the temperature of the mirror of the intelligent mirror can be increased, so that the water mist generated on the mirror is removed. The heating device can be realized by adopting a plurality of heating devices such as a heating film, a heating belt, a heating strip and a switch electrically connected with the heating device, the input end of the switch is connected with the power supply end, the output end of the switch is connected with the heating device, the controlled end of the switch is connected with the processor, and when the switch is closed, the power supply end can supply power for the heating device, so that the heating device is heated to drive the temperature of the mirror of the intelligent mirror to be increased.

In this embodiment, after the user is in the preset recognition area, the user may send out a corresponding voice according to the product manual, for example, "turn on the defogging assembly," according to the manner in the above voice control embodiment, the main controller may control the switch in the heating device to be in the closed state according to the above voice information, so as to supply power to the heating device, thereby increasing the temperature of the heating device, and further, to drive the temperature of the mirror of the smart mirror to increase to realize the dehumidification effect.

It can be understood that, in this embodiment, the user may also touch/press the corresponding touch key/physical key, so that the processor controls the defogging component to be turned on or off according to the trigger signal sent by the touch key/physical key.

Through the arrangement, the user can work through the defogging assembly of the voice control intelligent mirror without touching the corresponding keys arranged on the intelligent mirror main body, and the use convenience of the user is improved.

Referring to fig. 5, the present application further provides an intelligent mirror electric control assembly applied to an intelligent mirror, wherein the intelligent mirror includes an intelligent mirror main body 80, and the intelligent mirror electric control assembly includes:

a ranging assembly 30;

the driving assembly 40 is in driving connection with the intelligent mirror main body 80;

a human recognition component 10;

a memory 01;

the processor 00 is electrically connected with the distance measuring assembly 30, the driving assembly 40 and the human body recognition assembly 10 respectively;

an intelligent mirror electrical control assembly control program stored on the memory 01 and executed by the processor 00, the intelligent mirror electrical control assembly control program, when executed by the processor 00, implementing the intelligent mirror electrical control assembly control method as any one of the above.

In this embodiment, the intelligent mirror electric control assembly further includes a voice control assembly 50, a light assembly 60, and a defogging assembly 70, where the voice control assembly 50, the light assembly 60, and the defogging assembly 70 are respectively electrically connected to the processor 00, and the processor 00 can control the above assemblies to work according to the control method in the above embodiments, which is not described herein again.

It should be noted that, because the intelligent mirror electric control assembly of the present application includes all embodiments of the frequency conversion circuit, the frequency converter of the present application has all the beneficial effects of the control method of the intelligent mirror electric control assembly, and details are not repeated herein.

In an embodiment of the present application, referring to fig. 10, the smart mirror further includes a telescopic fixing bracket 90, the telescopic fixing bracket 90 has a first fixing portion 91 and a second fixing portion 92, the first fixing portion 91 of the telescopic fixing bracket 90 is configured to be fixedly connected to the smart mirror main body 80, the second fixing portion 92 of the telescopic fixing bracket 90 is configured to be fixedly connected to a wall, and the driving assembly 40 is drivingly connected to the telescopic fixing bracket 90.

In this embodiment, the first fixing portion 91 and the second fixing portion 92 are both provided with a sliding slot 94, the first fixing portion 91 can be fixed to a side of the smart mirror main body 80 away from the mirror surface by a screw fixing method, an adhesive fixing method, or a snap fixing method, the telescopic fixing bracket 90 can be an X-type telescopic fixing bracket 90, the X-type telescopic fixing bracket 90 further includes an X-type link assembly 93, the X-type link assembly 93 is respectively connected to the first fixing portion 91 and the second fixing portion 92 in a driving manner, the driving assembly 40, such as a stepping motor, is disposed in the first fixing portion 91 and/or the second fixing portion 92, the X-type link assembly 93 can move in the sliding slots 94 of the first fixing portion 91 and the second fixing portion 92 along the first direction under the driving of the driving assembly 40, so as to contract or extend the X-type link assembly 93, thereby driving the first fixing portion 91 to move along the second direction, and further enabling the smart mirror main body 80 to move between a preset initial position and a preset limit position. So, in this embodiment, not only can make more firm the fixing on the wall body of intelligence mirror main part 80, can also make more stable the moving between presetting initial position and presetting the extreme position of intelligence mirror main part 80, improved the reliability and the stability of intelligence mirror work.

The application also provides an intelligent mirror, which comprises an intelligent mirror main body 80 and any one of the intelligent mirror electric control assemblies.

In this embodiment, an electric control box may be further disposed on one side of the intelligent mirror main body 80 away from the mirror surface to store and place the electric control assembly of the intelligent mirror.

In this embodiment, referring to fig. 10, the smart mirror further includes a telescopic fixing bracket 90, the telescopic fixing bracket 90 has a first fixing portion 91 and a second fixing portion 92, the first fixing portion 91 of the telescopic fixing bracket 90 is used for being fixedly connected with the smart mirror main body 80, the second fixing portion 92 of the telescopic fixing bracket 90 is used for being fixedly connected with a wall, and the driving assembly 40 in the smart mirror electric control assembly is in driving connection with the telescopic fixing bracket 90.

It should be noted that, because the intelligent mirror of the present application includes all the embodiments of the above-mentioned intelligent mirror electric control assembly, the intelligent mirror of the present application has all the advantages of the above-mentioned intelligent mirror electric control assembly, and details are not repeated herein.

The above is only the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all of which are in the utility model discloses a conceive, utilize the equivalent structure transform that the content of the specification and the attached drawings did, or directly/indirectly use all to include in other relevant technical fields the patent protection scope of the present invention.

Claims (10)

1. The utility model provides an intelligence mirror electrical control assembly, is applied to intelligent mirror, intelligent mirror includes intelligent mirror main part, its characterized in that, intelligence mirror electrical control assembly includes:

the human body identification component is used for outputting a first trigger signal when a human body is detected;

the main control assembly is electrically connected with the output end of the human body recognition assembly and used for outputting a first starting signal when receiving the first trigger signal;

the communication end of the distance measuring assembly is electrically connected with the main control assembly and is used for detecting the distance between a human body and the intelligent mirror main body when the first starting signal is received and outputting a corresponding distance detection signal through the communication end;

the controlled end of the driving assembly is electrically connected with the main control assembly, and the driving assembly is in driving connection with the intelligent mirror main body;

the main control assembly is further used for controlling the driving assembly to work according to the distance detection signal so as to drive the intelligent mirror main body to move and adjust the distance between the intelligent mirror main body and a human body.

2. An intelligent mirror electrical control assembly as claimed in claim 1, wherein the body recognition assembly comprises a millimeter wave radar, and an output end of the millimeter wave radar body recognition assembly is electrically connected with the main control assembly.

3. The intelligent mirror electric control assembly according to claim 1, wherein the distance measurement assembly comprises a TOF distance detection assembly, and a communication end of the TOF distance detection assembly is electrically connected with the main control assembly.

4. An intelligent mirror electrical control assembly according to claim 1, wherein the drive assembly comprises a stepper motor having a first connection, a second connection, a third connection and a fourth connection, and a dual H-bridge drive chip having a first input, a second input, a third input, a fourth input, a first output, a second output, a third output and a fourth output; the first input end, the second input end, the third input end and the fourth input end of the double H-bridge driving chip are respectively electrically connected with the main control assembly, the first output end of the double H-bridge driving chip is connected with the first connecting end of the stepping motor, the second output end of the double H-bridge driving chip is connected with the second connecting end of the stepping motor, the third output end of the double H-bridge driving chip is connected with the third connecting end of the stepping motor, and the fourth output end of the double H-bridge driving chip is connected with the fourth connecting end of the stepping motor.

5. The intelligent mirror electrical control assembly according to any one of claims 1-4, wherein the main control assembly is further configured to output a second turn-on signal upon receiving the first trigger signal; the automatically controlled subassembly of intelligence mirror still includes:

the voice control assembly is electrically connected with the main control assembly and is used for picking up voice sent by a human body and outputting a corresponding voice signal when the second starting signal is received;

the main control assembly is further used for controlling the driving assembly to work according to the voice signal.

6. The intelligent mirror electrical control assembly according to claim 5, wherein the main control assembly is further configured to output a third start signal when receiving the first trigger signal; the intelligent mirror electric control assembly further comprises:

the lighting assembly is arranged on the intelligent mirror main body, is electrically connected with the main control assembly and is used for starting working when receiving the third opening signal;

the main control assembly is further used for controlling the light assembly to work according to the voice signal.

7. An intelligent mirror electrical control assembly as in claim 5, further comprising:

the defogging assembly is arranged on the intelligent mirror main body and is electrically connected with the main control assembly;

the main control assembly is also used for controlling the demisting assembly to start or stop working according to the voice signal.

8. The intelligent mirror electric control assembly according to any one of claims 1 to 4, wherein the intelligent mirror further comprises a telescopic fixing bracket, the telescopic fixing bracket is provided with a first fixing part and a second fixing part, the first fixing part of the telescopic fixing bracket is used for being fixedly connected with the intelligent mirror main body, the second fixing part of the telescopic fixing bracket is used for being fixedly connected with a wall, and the driving assembly is in driving connection with the telescopic fixing bracket;

the main control assembly is further used for controlling the driving assembly to work according to the distance detection signal, so that the driving assembly drives the telescopic fixing support to act, and the distance between the intelligent mirror main body and a human body is adjusted.

9. A smart mirror, wherein the smart mirror comprises a smart mirror body and a smart mirror electrical control assembly as claimed in any one of claims 1 to 7.

10. The intelligent mirror according to claim 9, further comprising a telescopic fixing bracket having a first fixing portion and a second fixing portion, wherein the first fixing portion of the telescopic fixing bracket is used for fixedly connecting with the intelligent mirror body, the second fixing portion of the telescopic fixing bracket is used for fixedly connecting with a wall, and the driving assembly of the intelligent mirror electric control assembly is in driving connection with the telescopic fixing bracket;

the main control assembly is further used for controlling the driving assembly to work according to the distance detection signal, so that the driving assembly drives the telescopic fixing support to act, and the distance between the intelligent mirror main body and a human body is adjusted.

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