CN213880133U - Intelligent monitoring device - Google Patents

Abstract

The application discloses intelligent monitoring device. The intelligent monitoring device comprises: a housing, an outer surface of which is provided with a mounting part; the sounding component and the control component are arranged in the shell; and the light emitting assembly is detachably mounted on the mounting part and is electrically connected with the control assembly. The intelligent monitoring device can mount and dismount the light-emitting component under the condition that the shell of the intelligent monitoring device is not dismounted, so that the light-emitting component of the intelligent monitoring device is simple to mount and dismount and is convenient and quick to maintain.

Description

Intelligent monitoring device

Technical Field

The application relates to the technical field of intelligent household appliances, in particular to an intelligent monitoring device.

Background

As an intelligent household appliance, an intelligent sound box is increasingly popular with users. The existing intelligent sound box can detect the state of a user generally, and can intelligently adjust the volume or sounding of the sound box according to the detected state of the user.

The existing light-emitting lamp of the intelligent sound box is usually arranged on a circuit board in the intelligent sound box, and when repair and maintenance are carried out, the shell of the whole sound box is usually required to be detached, so that the repair and maintenance are extremely troublesome.

Disclosure of Invention

The application provides an intelligent monitoring device to solve the technical problem.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided an intelligent monitoring device, comprising:

a housing, an outer surface of which is provided with a mounting part;

the sounding component and the control component are accommodated in the shell;

and the light emitting component is detachably mounted on the mounting part, and the light emitting component is electrically connected with the control component.

Optionally, the light emitting assembly comprises a light emitting member and a lamp shade;

the luminous piece is fixedly arranged on the mounting part;

the lampshade is fixedly connected with the shell, and the lampshade and the shell form a first accommodating space to coat the luminous piece.

Optionally, the lamp housing comprises a first lamp housing and a second lamp housing; the first lampshade is fixedly connected with the shell and covers the luminous piece, and the second lampshade covers one side of the first lampshade, which is far away from the luminous piece.

Optionally, the surface of the first lampshade and/or the second lampshade is provided with an atomizing part, and the atomizing part is used for enabling light rays passing through the atomizing part to be uniformly distributed on the atomizing part.

Optionally, the first lamp cover and the second lamp cover are both formed by light-transmitting materials.

Optionally, the housing includes a cavity and a cover connected to the cavity, the cover is configured to cover an opening of the cavity to form a second accommodating space, and the second accommodating space is configured to accommodate the sound generating assembly and the control assembly;

wherein, the installation department sets up the lid deviates from one side of cavity.

Optionally, the sounding subassembly is including the last sound lid, lower sound lid and the sound production piece that are connected, go up the sound lid with the sound lid encloses to establish down and forms the third accommodation space, the sound production piece is fixed in the third accommodation space.

Optionally, the upper sound cover is connected with the cover body; the lower sound cover is arranged on one side of the upper sound cover, which is far away from the cover body;

the control assembly is arranged on one side, away from the upper sound cover, of the lower sound cover;

the cavity is provided with a plurality of sounding holes corresponding to the sounding components, and the sounding holes are communicated with the second accommodating space.

Optionally, the shell is further provided with a sensing device and a communication module, and both the sensing device and the communication module are electrically connected with the control assembly;

the sensing device is used for detecting the state of a user so as to send the detection result to the control assembly, and the control assembly controls the operation of the sound production assembly and/or the light emitting assembly according to the detection result;

the communication module is used for connecting the intelligent monitoring device with preset external equipment in a communication mode.

Optionally, the housing is further provided with a function key and a display device; the function keys and the display device are electrically connected with the control assembly;

the function key is used for controlling the sound production assembly and/or the light emitting assembly;

the display device is embedded on the side wall of the shell.

The beneficial effect of this application is: this application is through setting up the installation department on the surface of intelligent monitoring device casing, and with light-emitting component demountable installation on this installation department to can install, dismantle light-emitting component under the circumstances of not demolising intelligent monitoring device casing, make intelligent monitoring device's light-emitting component dismouting simple and maintain convenient and fast.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a schematic structural diagram of an embodiment of an intelligent monitoring device provided in the present application;

FIG. 2 is a schematic diagram of a partial explosion configuration of the intelligent monitoring device of FIG. 1;

FIG. 3 is a schematic view of the structure of the light emitting assembly shown in FIG. 2;

FIG. 4 is a schematic diagram of the sound emitting portion of the intelligent monitoring device of FIG. 2;

FIG. 5 is a schematic diagram of the structure of an exploded view of the sound outputting portion shown in FIG. 4;

FIG. 6 is a schematic flow chart diagram illustrating an embodiment of an intelligent monitoring method provided herein;

FIG. 7 is a schematic diagram of the intelligent monitoring device provided in the present application for detecting the sleeping state of a person;

FIG. 8 is a schematic diagram of the intelligent monitoring device provided by the present application for detecting activity status of a person;

fig. 9 is a schematic view of the intelligent monitoring device provided by the present application when placed in a preset space.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all 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 application.

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

In addition, if there is a description of "first", "second", etc. in an embodiment 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, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1-2, fig. 1 is a schematic structural diagram of an embodiment of an intelligent monitoring device provided in the present application; fig. 2 is a schematic structural diagram of a partial explosion structure of the intelligent monitoring device shown in fig. 1.

The smart monitoring device 10 may include a sound emitting portion and a light emitting portion, among others.

The sound emitting portion may include the housing 100, the sound emitting assembly 210, and the control assembly 220, among others. Wherein, a mounting part 101 is arranged at a preset position of the outer surface of the casing 100; the sound generating assembly 210 and the control assembly 220 may be both mounted inside the housing 100.

Specifically, the control component 220 may be electrically connected to the sound emitting component 210, such that the operation of the sound emitting component 210 is controlled by the control component 220. For example, the control component 220 may control the sound-emitting component 210 to play music, perform music switching, adjust the size of the sound emitted by the sound-emitting component 210, and the like, which is not further limited herein.

The light emitting assembly 300 is detachably mounted on the mounting portion 101 of the housing 100.

Therefore, the installation part is arranged on the outer surface of the intelligent monitoring device shell, and the light-emitting assembly is detachably installed on the installation part, so that the light-emitting assembly can be installed and disassembled under the condition that the intelligent monitoring device shell is not disassembled, and the light-emitting assembly of the intelligent monitoring device is simple to disassemble and assemble and is convenient and quick to maintain.

In this embodiment, please refer to fig. 2 and fig. 3, wherein fig. 3 is a schematic structural diagram of the light emitting device shown in fig. 2. The opening of the lamp housing of the light emitting module shown in fig. 2 faces downward, the opening of the lamp housing of the light emitting module shown in fig. 3 faces upward, and the light emitting element is not shown.

The light assembly 300 may include a light emitting member (not shown) and a lamp cover 320. Wherein the light emitting member may be fixedly mounted on the mounting portion 101. The lamp cover 320 may be fixedly connected to the housing 100, and a first receiving space may be formed between the lamp cover 320 and the outer surface of the housing 100 to cover the light emitting element. That is, the opening of the lamp housing 320 may be fastened to the mounting portion 101 of the casing 100, so that the lamp housing 320 and the outer wall of the casing 100 form a first receiving space.

Optionally, the light emitting element may be an LED lamp or other lamps, and the mounting portion 101 may be a protruding portion or a recessed portion disposed on an outer surface of the housing 100, wherein the light emitting element may be fixedly connected to the mounting portion 101 by a connecting member such as a screw; alternatively, the mounting portion 101 may be a fastening portion, and the light emitting element may be fastened to the fastening portion. Further, the mounting portion 101 may further include a limiting member, wherein the limiting member may limit a mounting position of the light emitting member.

In this embodiment, in a preferred embodiment, the lampshade 320 may match with the outer shape of the housing 100, so that after the lampshade 320 is fixedly connected with the housing 100, a preset formed outer shape structure may be formed, for example, the lampshade 320 and the housing 100 may be both cylinders with substantially the same diameter, and after the lampshade 320 is fixedly connected with the housing 100, the outer shape of the intelligent monitoring device 10 may be approximately a cylinder as a whole; in other embodiments, the lamp housing 320 and the casing 100 may be provided in other shapes, and are not further limited herein.

In this embodiment, the lamp housing 320 may include a first lamp housing 321 and a second lamp housing 322; the first lampshade 321 is fixedly connected with the housing 100 and covers the light emitting element 320, and the second lampshade 322 covers a side of the first lampshade 321 away from the light emitting element 320. That is, the first lamp cover 321 forms an inner lamp cover, and the second lamp cover 322 forms an outer lamp cover which is sleeved on the first lamp cover 321.

The opening of the first lamp cover 321 may be provided with a plurality of connecting portions, through which the first lamp cover 321 and the object are fixedly connected, and the second lamp cover 322 and the first lamp cover 321 are fixedly connected.

Optionally, the bottom portions (bottom walls of the lamp covers far from the opening side) of the first lamp cover 321 and the second lamp cover 322 may be provided with a connecting hole 323, the second lamp cover 322 may be fixed on the first lamp cover 321 by using a connecting member 324 such as a screw, and then the first lamp cover 321 is fixedly connected with the housing 100, so that the whole lamp cover 320 may be integrally and fixedly mounted on the object.

The first lamp cover 321 and the second lamp cover 322 may be made of a transparent material. At least one of the first lamp cover 321 and the second lamp cover 322 may further include an atomizing portion (not shown), wherein the atomizing portion may uniformly distribute light passing therethrough.

Therefore, by arranging the atomization part, the light emitted by the light-emitting part can be more uniform and softer after passing through the atomization part.

Further, please refer to fig. 2, fig. 4 and fig. 5. FIG. 4 is a schematic diagram of the sound emitting portion of the intelligent monitoring device of FIG. 2; fig. 5 is a schematic structural view of an exploded view of the sounding portion shown in fig. 4, and the sounding portion shown in fig. 5 does not show a case.

The casing 100 includes a cavity 110 and a cover 120 connected to the cavity 110, the cover 120 is used for covering an opening of the cavity 110 to form a second accommodating space, and the second accommodating space is used for accommodating the sound generating component 210 and the control component 220; the mounting portion 101 may be disposed on a side of the cover 120 away from the cavity 110.

In this embodiment, the light emitting element may be electrically connected to the control component 220 through an electric wire, wherein the cover 120 may further include a wire hole 121, one end of the electric wire may be electrically connected to the light emitting element, and the other end of the electric wire may pass through the wire hole 121 and then be electrically connected to the control component 220; wherein, the electric wire can be pegged graft through assorted public seat and female seat and mate and the electricity is connected with the illuminating part, consequently through with this public seat and female seat separation, then can be so that illuminating part and electric wire end are opened and are connected to can be convenient for dismantle the maintenance to the illuminating part.

In this embodiment, the sounding assembly 210 includes an upper sound cover 211, a lower sound cover 212 and a sounding element 213 connected to each other, the upper sound cover 211 and the lower sound cover 212 surround to form a third accommodating space, and the sounding element 213 is fixed in the third accommodating space.

The upper sound cover 211 and the lower sound cover 212 may be fixedly connected to the inner wall of the cavity 110, so that the sound emitting assembly 210 may be fixedly installed in the casing 100.

Wherein, the upper sound cover 211 is connected with the cover body 120; the lower sound cover 212 is disposed on a side of the upper sound cover 211 away from the cover 120; the control unit 220 is mounted on the side of the lower sound cover 212 facing away from the upper sound cover 211.

The cavity 110 may have a plurality of sound holes 111 at positions corresponding to the sound generating assembly 210, and the sound holes 111 are communicated with the second receiving space. So that the sound emitted from the sound emitting assembly 210 positioned in the second receiving space can be emitted from the sound emitting hole 111.

Optionally, a second accommodating space may be formed by enclosing the upper sound cover 211, the cover body 120, and the lower sound cover 212, wherein any one of the upper sound cover 211, the cover body 120, and the lower sound cover 212 may have a sound-producing component mounting part 2101, the sound-producing component mounting part 2101 may be a mounting rod, and the sound-producing component mounting part 210 may be inserted into and matched with a mounting hole of the sound-producing component 213, so that the sound-producing component 213 may be fixedly mounted in the second accommodating space.

The control component 220 may be a PCB circuit board assembly, wherein the control component 220 may form a functional circuit through various electronic components, the sound generating element 213 may be electrically connected to the control component 220, and the sound generating condition of the sound generating element 213 may be controlled through the control component 220.

Further, in this embodiment, the intelligent monitoring device 10 may further include a sensing device 240 and a communication module (not shown).

The communication module is electrically connected to the control component 220, wherein the communication module is a wireless communication module, and the communication module can connect the intelligent monitoring device 10 to a preset server in a communication manner. Or the communication module, the intelligent monitoring device 10 may also be in communication connection with a home network (wifi, hotspot, etc.), a desktop computer, or a mobile phone tablet of a user, etc.

Wherein, induction system 240 can be used for when intelligent monitoring device 10 places, detecting intelligent monitoring device 10 presets the user's of within range state to send cue signal through testing result looks control module 220, control module 220 then can control the operation of sound production piece subassembly 210 and light-emitting component 300 according to this cue signal.

The sensing device 240 may be mounted on the housing 100, and when the communication module is a wired communication module, the communication module may be a connection plug, for example, a USB plug, and the like, and the communication module may be connected to a predetermined external device through a corresponding connection line. Wherein the sensing device 240 may include at least one of a millimeter wave radar, a temperature detector, a light detector, and a breath detection device.

When the sensing device 240 is a millimeter wave radar, the head position, the head moving speed, the head moving direction, and the like of the person can be detected (meanwhile, the body temperature of the person can also be detected by the millimeter wave). When the intelligent monitoring device 10 is placed at a predetermined position for the first time, the sensing device 240 can collect the spatial condition (i.e. the position information) around the intelligent monitoring device 10, for example, the position of the furniture or the electrical appliance.

When the sensing device 240 is a temperature detector, the body temperature of the person can be detected. When the sensing device 240 is a photo detector, the light condition in the predetermined space can be detected. When the sensing device 240 is a breath detection device, the breathing rate of the person and the concentration of exhaled carbon dioxide may be detected.

Further, in this embodiment, the housing 100 is further provided with a function key 250 and a display device 260; the function keys 250 may be electrically connected to the control component 220 for controlling the sound emitting component 210 and/or the light emitting component 300. For example, the function key 250 may be used to adjust the volume of the sound generated by the sound generating assembly 210, or may also control the brightness of the light emitting assembly 300 and the on/off of the sound generating assembly 210 and the light emitting assembly 300.

The display device 260 may display a screen, wherein the display device 260 may be electrically connected to the control component 220 to display the operation status of the intelligent monitoring device 10. For example, the display device 260 may display the volume, the brightness of the light emitting assembly 300, the time, the date, the temperature, the humidity, or the name of music played by the sound emitting assembly 210, lyrics, and the like.

Furthermore, the application also provides an intelligent monitoring method. Referring to fig. 6, fig. 6 is a schematic flowchart illustrating an embodiment of an intelligent monitoring method according to the present application.

The intelligent monitoring method can be implemented based on the intelligent monitoring device 10. The intelligent monitoring method specifically comprises the following steps:

s110: and acquiring information of personnel in a preset space to acquire state information of the personnel.

Wherein, in intelligent household electrical appliances technical field, the installation back of intelligent monitoring device can detect the space of its mounted position default scope.

Firstly, the intelligent monitoring device 10 can detect whether a person exists in the preset space, and if so, the intelligent monitoring device can collect information of the person in the preset space to acquire state information of the person; if no personnel are detected in the preset space, the preset space can be detected within a first preset time so as to judge whether the personnel exist in the preset space, and after the first preset time, if the personnel are not detected yet, the intelligent monitoring device can be in a dormant state.

In one embodiment, after the intelligent monitoring device is in sleep, if the sleep lasts for a second preset time, the intelligent monitoring device may be restarted to continue to perform detection.

In a preferred embodiment, the intelligent monitoring device 10 may detect the preset space through millimeter waves to distinguish whether the person entering the space is a person, and please refer to the following specific steps.

The state information of the person may include human body state parameters of the person during sleep and/or human body state parameters of the person during activity.

Therefore, whether the personnel are in a sleeping state or not can be detected when the information of the personnel in the preset space is acquired in the step.

For example, a person generally lies down or lies prone when sleeping, and the whole body of the person can be approximately horizontal; therefore, whether the person is in the sleeping state can be determined by detecting whether the body of the person is in the lying state or the lying-over state.

When the person is detected to be in the sleeping state, the human body state parameters of the person during sleeping can be detected.

The human body state parameters during sleeping can include at least one of respiratory frequency, exhaled carbon dioxide concentration and body temperature parameters of a person during sleeping.

Specifically, since the basal metabolic rate is changed in the sleeping process, the basal metabolic rate is reduced from just falling asleep to deep sleep, and the breathing rate naturally becomes slow, the sleeping state of the person can be preliminarily judged by detecting the breathing rate.

Furthermore, after the person enters sleep, the basal metabolic rate of the person is reduced, and the concentration of the carbon dioxide sucked out is low, so that whether the person is in a sleep state can be further confirmed.

For example, in this step, a respiratory rate parameter of the person and a concentration parameter of exhaled carbon dioxide may be acquired.

Wherein, the body temperature is generally slightly lower than the body temperature when the human body moves in the sleep state. Therefore, the body temperature parameter of the person can also be acquired in this step.

When the person is detected to be in the activity state, the human body state parameters of the person in the activity state can be detected. Wherein, can detect personnel's height information and personnel's head position information to judge whether this personnel have the tendency of falling when the activity.

Wherein the human body state parameter during the activity of the person may include at least one of a height of a head of the person during the activity of the person, a moving speed and a moving direction of the head.

S120: and comparing the state information with pre-stored reference state information, and judging whether the state information of the personnel is matched with the reference state information.

After the status information of the person is acquired in step S110, the status information may be further compared with the pre-stored reference status information, so as to determine whether the status information of the person matches the reference status information.

Particularly, the intelligent monitoring device can comprise a storage, the reference state information can be stored, when the intelligent monitoring device obtains the state information of a person through the sensing device of the intelligent monitoring device, the state information of the person can be transmitted to the control assembly, and the state information of the person and the reference state information stored in the storage can be compared and matched through the control assembly.

Or, in other embodiments, the intelligent monitoring device may further perform communication connection with an external terminal 11 (any one of an external server, a mobile phone, a tablet computer, a desktop computer, and the like) through the communication module, and after the intelligent monitoring device obtains the state information of the person through the sensing device of the intelligent monitoring device, the state information of the person may be transmitted to the external terminal 11 through the communication module, and the state information of the person is compared and matched with the reference state information stored in the terminal 11 through the terminal 11.

In this embodiment, the reference state information may include reference state information of a human body under normal conditions, for example, reference human body parameters during sleep. The reference human body parameters during sleeping can be obtained by acquiring and averaging human body parameter information of the person in a sleeping state for multiple times.

For example, the human body parameters when the sleep of the person is detected in step S110 are the breathing frequency, the exhaled carbon dioxide concentration, and the body temperature parameters, respectively.

The reference respiratory frequency in the reference human body parameters can be an average value of respiratory frequencies of the person detected for multiple times when the person sleeps; the exhaled carbon dioxide concentration in the reference human body parameter is the average value of the exhaled carbon dioxide concentrations of the person in sleep which are detected for multiple times; the body temperature parameter in the reference human body parameter is an average value of body temperature parameters of the person during sleep, which are detected for multiple times.

In this embodiment, the status information of the person is compared and matched with the reference status information, so that whether the difference between the acquired human body parameters during the sleep of the person and the reference human body parameters in the reference status information is within a preset range can be determined, and if the difference is within the preset range, the person is in a sleep state. If not, the person's sleep state is signaled to change, e.g., a nightmare appears, or the person is about to wake up.

Further, when the human body parameter at the time of the activity of the person is detected in step S110. The reference human parameters may include a normal head height of the person in an active state, a moving speed of the head, and a moving direction. Similarly, the reference body parameter may be an average value of the respective parameters of the head position of the person in the active state acquired multiple times. When the difference value between the human body parameters during the activity and the reference human body parameters is within a preset range, the person is in a normal activity state; when the difference value between the human body parameter and the reference human body parameter during the activity exceeds the preset range, the personnel tend to fall or have fallen.

S130: if not, feedback is provided to the person.

In this step, if the human body state information does not match the reference parameter information. The sleep state of the person is changed; or that the person is about to fall or has fallen. Feedback may be provided to the person at this time.

In the sleeping process of a person, the basal metabolic rate of the human body is changed, from just falling asleep to deep sleep, the basal metabolic rate is reduced, the breathing frequency naturally becomes slow, and the intelligent monitoring device 10 can judge the sleeping quality by detecting the breathing frequency; or the intelligent monitoring device 10 can monitor the concentration of carbon dioxide exhaled in the sleeping process so as to judge the sleeping quality; for more accurate judgment, the breathing frequency and the concentration of the exhaled carbon dioxide of the human body during sleeping can be monitored simultaneously, and secondary judgment is carried out by integrating the breathing frequency and the concentration of the exhaled carbon dioxide.

Please refer to fig. 7, fig. 7 is a schematic diagram illustrating a sleep state of a person detected by the intelligent monitoring device according to the present application.

After the intelligent monitoring device 10 obtains the respiratory frequency of the human body and the concentration of the exhaled carbon dioxide, the state information of the human body during sleep can be sent to the preset terminal 11, and the terminal 11 can judge the state information of the human body during sleep so as to determine the sleep state of the person. For example, a sleep state threshold may be set for the state information (respiratory rate and concentration of exhaled carbon dioxide) of each type of body during sleep, and if the sleep state threshold is within the range of the threshold, the person is in a normal sleep state and the sleep quality is good; if the sleep quality is not within the threshold range, the person is in an abnormal sleep state and the sleep quality is poor, and at the moment, the person needs to be fed back.

The feedback may include the following scheme:

when the sleep state of the person changes, the light-emitting condition of the light-emitting component in the intelligent monitoring device can be adjusted through the control device of the intelligent monitoring device, and the sound-producing condition of the sound-producing component is controlled. For example, the control component is used for adjusting the brightness of the light-emitting component or emitting light for improving sleep, and the control component is used for adjusting the sound-emitting volume of the sound-emitting component or playing a relatively relaxing song, so that the sleep state of the person is improved.

As shown in fig. 8-9, fig. 8 is a schematic diagram of the intelligent monitoring device provided by the present application when detecting the activity status of a person; fig. 9 is a schematic view of the intelligent monitoring device provided by the present application when placed in a preset space.

The intelligent monitoring device 10 monitors the activity state of the person by sending sound waves or millimeter waves 403 and the like through the sensing device 240; firstly, the sensing device 240 detects the head of a human body, when the sensing device 240 starts to work, at least the head height 401 of a current person in an active state (walking state or standing state) can be recorded, a height threshold 402 is set according to the height of the person, and when the sensing device 240 detects that the head moves to the height threshold rapidly and is lower than the height threshold, the person can be instructed to fall or have fallen.

At this time, prompt information can be sent to the corresponding external terminal 11 through the intelligent monitoring device, so that other people can rescue or nurse the fallen people.

Optionally, in the step, the height threshold is 40-60% of the height of the tested person.

Further, in this embodiment, a temperature sensor is further disposed inside the sensing device 240, and when the head of the human body is detected, the body temperature of the human body can be detected. And when the sensing device 240 detects the head of the human body to obtain the head height 401 of the person, the body temperature of the person can be synchronously detected.

Further, in this embodiment, the intelligent monitoring device 10 may be placed in an unmanned room in advance, and after the intelligent monitoring device 10 is started, the sensing device 240 may learn the surrounding environment, so as to facilitate subsequent distinguishing of people or objects, i.e., determine whether people enter the space.

Wherein, the judging steps are as follows:

1. the intelligent monitoring device 10 can collect position information of objects and the like collecting the surrounding space of the intelligent monitoring device, because millimeter wave radar is adopted, the positions of furniture or electric appliances and the like are collected, because the furniture or the electric appliances and the like are static objects and fixed in position, and the heat of the furniture or the electric appliances is constant, so that the position information can be confirmed, and when the objects are replaced, the collection is carried out again, so that the environment learning of real-time collection, updating and storage is achieved.

2. The intelligent monitoring device 10 (or the corresponding terminal 11) may use a budget algorithm or Envelope and spark data of objects or people in the space. The Envelope data can carry out high-precision distance measurement on objects or people; sparse data can be used to perform a jog detection on an object or person (say a stationary person is in a jog state, but a stationary table is in an absolute stationary state), so that it can be determined whether a person has entered the space.

Envelope is a machine learning model for anomaly detection, which is used to store and collate information collected in learning ambient environment, and the state of the anomaly is detected and distinguished because the ambient environment can change more or less. The sparse data refers to a state in which data in the model is stored, and is generally referred to as an image file or a compressed file.

3. When the intelligent monitoring device 10 determines that the person entering the space is a person, the intelligent monitoring device 10 determines that the human body state information can be acquired; if the intelligent monitoring device 10 determines that no person is present in the space, the environmental information is continuously collected.

To sum up, this application embodiment is through setting up the installation department on the surface of intelligent monitoring device casing, and with light-emitting component demountable installation on this installation department to can install, dismantle light-emitting component under the circumstances of not demolising intelligent monitoring device casing, make intelligent monitoring device's light-emitting component dismouting simple and maintain convenient and fast.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims (10)

1. An intelligent monitoring device, comprising:

a housing, an outer surface of which is provided with a mounting part;

the sounding component and the control component are accommodated in the shell;

and the light emitting component is detachably mounted on the mounting part, and the light emitting component is electrically connected with the control component.

2. The intelligent monitoring device of claim 1,

the light-emitting component comprises a light-emitting piece and a lampshade;

the luminous piece is fixedly arranged on the mounting part;

the lampshade is fixedly connected with the shell, and the lampshade and the shell form a first accommodating space to coat the luminous piece.

3. The intelligent monitoring device of claim 2,

the lampshade comprises a first lampshade and a second lampshade; the first lampshade is fixedly connected with the shell and covers the luminous piece, and the second lampshade covers one side of the first lampshade, which is far away from the luminous piece.

4. The intelligent monitoring device of claim 3,

the surface of the first lampshade and/or the second lampshade is provided with an atomization part, and the atomization part is used for enabling light rays passing through the atomization part to be uniformly distributed on the atomization part.

5. The intelligent monitoring device of claim 3,

the first lampshade and the second lampshade are made of light-transmitting materials.

6. The intelligent monitoring device according to any one of claims 1-5,

the shell comprises a cavity and a cover body connected with the cavity, the cover body is used for sealing an opening of the cavity to form a second accommodating space, and the second accommodating space is used for accommodating the sound production assembly and the control assembly;

wherein, the installation department sets up the lid deviates from one side of cavity.

7. The intelligent monitoring device of claim 6,

the sounding subassembly is including the last sound lid, lower sound lid and the sound production piece that are connected, go up the sound lid with the sound lid encloses to establish down and forms the third accommodation space, the sound production piece is fixed in the third accommodation space.

8. The intelligent monitoring device of claim 7,

the upper sound cover is connected with the cover body; the lower sound cover is arranged on one side of the upper sound cover, which is far away from the cover body;

the control assembly is arranged on one side, away from the upper sound cover, of the lower sound cover;

the cavity is provided with a plurality of sounding holes corresponding to the sounding components, and the sounding holes are communicated with the second accommodating space.

9. The intelligent monitoring device of claim 5,

the shell is also provided with a sensing device and a communication module, and the sensing device and the communication module are electrically connected with the control assembly;

the sensing device is used for detecting the state of a user so as to send the detection result to the control assembly, and the control assembly controls the operation of the sound production assembly and/or the light emitting assembly according to the detection result;

the communication module is used for connecting the intelligent monitoring device with preset external equipment in a communication mode.

10. The intelligent monitoring device of claim 9,

the shell is also provided with a function key and a display device; the function keys and the display device are electrically connected with the control assembly;

the function key is used for controlling the sound production assembly and/or the light emitting assembly; the display device is embedded on the side wall of the shell.

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