CN215416297U - Intelligent home system based on 5G + AI wireless sensor network - Google Patents

Abstract

The utility model relates to the technical field of intelligent home furnishing by a central control node, in particular to an intelligent home furnishing system based on a 5G + AI wireless sensor network. The control node is arranged in a shell, an installation cabin with one open end is arranged in the shell, and a plugging cover plate is arranged at the opening of the installation cabin; a temperature sensor for detecting the temperature of the installation cabin is arranged in the installation cabin and is connected with a controller; the opposite side walls of the installation cabin are relatively provided with grooves, and electric heating wires connected with the controller are arranged in the grooves; the plugging cover plate is provided with a ventilation groove communicated with the installation cabin, and a radiating fan connected with the controller is arranged at the ventilation groove of the plugging cover plate. Therefore, the working temperature of the central control node can be preferably regulated and controlled.

Description

Intelligent home system based on 5G + AI wireless sensor network

Technical Field

The utility model relates to the technical field of intelligent home, in particular to an intelligent home system based on a 5G + AI wireless sensor network.

Background

The existing intelligent home system is generally provided with a central control node, and the central control node can be connected with a plurality of equipment nodes through a home gateway node, so that intelligent control over various home equipment is realized. Because the central control node needs to be in a working state for a long time and the data processing amount of the central control node is large, the stability of the central control node is reduced due to interference of environmental factors such as working temperature change.

SUMMERY OF THE UTILITY MODEL

Aiming at the defect that the working performance of a central control node is unstable due to large temperature fluctuation in the prior art, the utility model provides an intelligent home system based on a 5G + AI wireless sensor network. The temperature of the central control node can be adjusted to be within a set temperature range, and therefore the working stability of the central control node can be improved better.

In order to solve the above technical problems, the present invention is solved by the following technical solutions.

An intelligent home system based on a 5G + AI wireless sensor network comprises a mobile terminal, a central control node, a gateway node and a plurality of equipment nodes, wherein the central control node interacts with the equipment nodes through the gateway node; the mobile terminal is used for sending a control instruction to the central control node, the central control node is provided with a controller, and the controller is used for controlling the corresponding equipment node to act through the gateway node after receiving the control instruction;

the central control node is arranged in a shell, an installation cabin with one open end is arranged in the shell, and a plugging cover plate is arranged at the opening of the installation cabin; a temperature sensor for detecting the temperature of the installation cabin is arranged in the installation cabin and is connected with a controller; the opposite side walls of the installation cabin are relatively provided with grooves, and electric heating wires connected with the controller are arranged in the grooves; the plugging cover plate is provided with a ventilation groove communicated with the installation cabin, and a radiating fan connected with the controller is arranged at the ventilation groove of the plugging cover plate.

Through the structure of the utility model, the temperature in the installation cabin is detected through the temperature sensor, and the controller controls the radiating fan and the heating wire to work according to the detected temperature, so that the installation cabin is always in a set temperature range, and the central control node can conveniently and stably operate at different environmental temperatures, thereby being convenient for the use of the central control node.

Preferably, the central control node further comprises a 5G communication module arranged in the housing, and the 5G communication module is used for realizing remote communication between the mobile terminal and the controller. Therefore, the remote communication between the mobile terminal and the central control node can be preferably realized.

Preferably, the central control node further comprises a Wifi communication module arranged in the shell, and the Wifi communication module is used for realizing near field communication between the controller and the gateway node. Therefore, local communication between the equipment node and the central control node can be preferably realized.

Preferably, the central control node further comprises a voice recognition module arranged in the shell, and the voice recognition module is used for recognizing the voice command. Voice command recognition can be preferably realized.

Preferably, the plugging cover plate is provided with an installation cavity for installing the cooling fan, so that the cooling fan can be detachably installed in the installation cavity.

Preferably, the opening of the mounting cavity is provided with a mounting stepped groove, and the heat dissipation fan is mounted in the mounting stepped groove through a screw, so that the heat dissipation fan is more convenient to mount and dismount in the mounting cavity.

Preferably, the plugging cover plate is provided with a convex block extending into the mounting cabin, mounting grooves are symmetrically formed in the side faces of the convex block along the direction perpendicular to the groove, and guide rods are arranged in the mounting grooves; sliding plates with one ends extending out of the mounting grooves are arranged in the mounting grooves, the guide rods penetrate through the corresponding sliding plates, and springs used for pushing the corresponding sliding plates to be close to the side walls of the mounting cabin are sleeved on the guide rods; the sliding plate is provided with a baffle plate extending into the corresponding groove, the baffle plate is used for abutting against the side wall of the groove close to the opening of the installation cabin to fix the plugging cover plate on the shell, the baffle plate is provided with a first inclined plane, and the side wall of the groove close to the opening of the installation cabin is provided with a second inclined plane matched with the first inclined plane.

Through the structure of the utility model, the spring pushes the movable plate to drive the baffle plate to extend into the groove, so that the baffle plate is extruded on the side wall of the groove to fix the plugging cover plate on the shell, and the plugging cover plate can be better detached from the shell by pulling the plugging cover plate.

As the preferred, be equipped with the pull chamber that is located the installation cavity outside and runs through ventilative groove on the shutoff apron, but be equipped with the pull in the pull chamber and be used for carrying out the shutoff closure plate of shutoff to ventilative groove, realize carrying out the shutoff to ventilative groove better, avoid entering installation cabin when not using dust etc..

Preferably, a strip-shaped groove communicated with the drawing cavity is formed in the plugging cover plate; the plugging plate comprises pull plates which are symmetrically arranged in the drawing cavity, threaded columns extending out of the strip-shaped grooves are arranged on the pull plates, and nuts used for fixing the pull plates are arranged on the threaded columns in a threaded mode.

Through the structure in the utility model, the pulling plate can be driven to move in the drawing cavity by screwing the nut and shifting the threaded column, so that the pulling plate can open and close the ventilation groove conveniently, and meanwhile, the plugging plate is prevented from leaving the drawing cavity to cause inconvenient use due to the fact that the pulling plate is drawn out of the drawing cavity.

Drawings

Fig. 1 is a schematic view of an intelligent home system based on a 5G + AI wireless sensor network in embodiment 1;

FIG. 2 is a schematic view of the housing in embodiment 1;

FIG. 3 is a schematic partial sectional view of the housing in embodiment 1;

FIG. 4 is a schematic view of a plugging cover plate in example 1;

FIG. 5 is an enlarged view of portion A of FIG. 3;

fig. 6 is a partial schematic view of the plugging plate in example 1.

Detailed Description

For a further understanding of the utility model, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the utility model and not limiting.

Example 1

As shown in fig. 1, an embodiment provides an intelligent home system with a central control node based on a 5G + AI wireless sensor network, which includes a mobile terminal, a central control node, a gateway node, and a plurality of device nodes, wherein the central control node interacts with the plurality of device nodes through the gateway node; the mobile terminal is used for sending a control instruction to the central control node, the central control node is provided with a controller, and the controller is used for controlling the corresponding equipment node to act through the gateway node after receiving the control instruction;

as shown in fig. 2 to 6, the central control node is disposed in a casing 100, an installation cabin 211 with an opening at one end is disposed in the casing 100, the installation cabin 211 is used for placing a battery, and a plugging cover plate 110 is disposed at the opening of the installation cabin 211; a temperature sensor for detecting the temperature of the installation cabin 211 is arranged in the installation cabin 211 and is connected with a controller; a groove 212 is oppositely arranged on the opposite side wall of the installation cabin 211, and an electric heating wire connected with a controller is arranged in the groove 212; the plugging cover plate 110 is provided with a ventilation groove 111 communicated with the installation cabin 211, and a heat radiation fan connected with the controller is arranged at the ventilation groove 111 of the plugging cover plate 110.

Through the structure in the embodiment, the temperature sensor can detect the temperature in the installation cabin 211 and send a detected temperature signal to the controller, the controller judges the detected temperature, when the temperature is higher than the set highest temperature, the controller controls the operation of the cooling fan, so that the cooling fan can discharge high-temperature gas in the installation cabin 211 out of the shell 100 to cool the installation cabin 211, when the temperature is lower than the set lowest temperature, the controller controls the operation of the electric heating wire, so that the temperature in the installation cabin 211 is increased, and when the temperature is between the set lowest temperature and the set highest temperature, the controller controls the operation of both the cooling fan and the electric heating wire; through the technical scheme of the utility model, the installation cabin 211 in the central control node always keeps a better working temperature, so that the central control node can be used at different environmental temperatures, and the use of the central control node is facilitated.

Referring to fig. 4, in this embodiment, an installation cavity 311 for installing the heat dissipation fan is disposed on the blocking cover plate 110, the ventilation groove 111 is disposed through the installation cavity 311, and the heat dissipation fan is detachably installed in the installation cavity 311 through the installation cavity 311.

In this embodiment, the opening of installation cavity 311 is equipped with installation ladder groove 312, and radiator fan's upper end outwards extends and forms the installation department, and the installation department passes through the screw to be installed in installation ladder groove 312, and it is through the setting of installation ladder groove 312 for radiator fan's dismouting in installation cavity 311 is more convenient.

Referring to fig. 5, in this embodiment, a protruding block 320 extending into the installation compartment 211 is disposed on the blocking cover plate 110, the air permeable slot 111 penetrates through the protruding block 320 and communicates with the installation compartment 211, installation slots 411 are symmetrically disposed on the side surfaces of the protruding block 320 along a direction perpendicular to the groove 212, and guide rods 412 are disposed in the installation slots 411; sliding plates 420 with one ends extending out of the mounting grooves 411 are arranged in the mounting grooves 411, guide rods 412 are arranged through the corresponding sliding plates 420, and springs 430 for pushing the corresponding sliding plates 420 to be close to the side walls of the mounting compartment 211 are sleeved on the guide rods 412; the sliding plate 420 is provided with a baffle 421 extending into the corresponding groove 212, the baffle 421 is used for abutting against the side wall of the groove 212 close to the opening of the installation cabin 211 to fix the blocking cover plate 110 on the housing 100, the baffle 421 is provided with a first inclined surface 422, and the side wall of the groove 212 close to the opening of the installation cabin 211 is provided with a second inclined surface 213 matched with the first inclined surface 422.

Through the structure in this embodiment, when the plugging cover plate 110 is located at the opening of the installation compartment 211, the protrusion 320 extends into the installation compartment 211, at this time, the spring 430 pushes the corresponding sliding plate 420 to move to the side wall of the installation compartment 211, so that the baffle 421 extends into the corresponding groove 212, because the baffle 421 is attached to and abutted against the side wall of the groove 212 close to the opening of the installation compartment 211, the plugging cover plate 110 is fixed at the opening of the installation compartment 211, when the plugging cover plate 110 needs to be opened, the plugging cover plate 110 is pulled outwards, so that the first inclined surface 422 on the baffle 421 is pressed with the second inclined surface 213 on the groove 212, so that the sliding plate 420 is far away from the side wall of the installation compartment 211 to drive the stopper to leave the groove 212, so that the plugging cover plate 110 can be detached, and the detachment of the plugging cover plate 110 on the housing 100 is more convenient.

Referring to fig. 4 and 6, in the present embodiment, the plugging cover plate 110 is provided with a drawing cavity 313 located outside the mounting cavity 311 and penetrating through the ventilation slot 111, and the plugging plate 120 which can be drawn and used for plugging the ventilation slot 111 is provided in the drawing cavity 313.

Through the arrangement of the drawing cavity 313 and the plugging plate 120 in the embodiment, the plugging plate 120 can be drawn in the drawing cavity 313, so that the ventilation groove 111 can be plugged, and dust can be prevented from entering the installation cabin 211 when the central control node is not used.

In this embodiment, the plugging cover plate 110 is provided with a strip-shaped groove 314 communicated with the drawing cavity 313; the plugging plate 120 comprises pull plates 510 symmetrically arranged in the drawing cavity 313, each pull plate 510 is provided with a threaded column 511 extending out of the strip-shaped groove 314, and the threaded columns 511 are provided with nuts 512 for fixing the pull plates 510.

Through the structure in the embodiment, the nut 512 is screwed and the threaded column 511 is toggled to drive the pulling plate 510 to move in the drawing cavity 313, so that the pulling plate 510 can open and close the ventilation groove 111 conveniently, and meanwhile, the blocking plate 120 is prevented from leaving the drawing cavity 313 and being inconvenient to use due to the fact that the pulling plate 510 is drawn out of the drawing cavity 313.

When the intelligent home system based on the 5G + AI wireless sensor network of this embodiment is specifically used, temperature sensor detects the temperature in the installation cabin 211 and sends the detected signal to the controller, and the controller judges the detected temperature and the set temperature to control radiator fan and heating wire work, make the temperature in the installation cabin 211 be in the set temperature scope, be convenient for well accuse node use under different temperatures.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims (9)

1. Intelligent home systems based on 5G + AI wireless sensor network, its characterized in that: the system comprises a mobile terminal, a central control node, a gateway node and a plurality of equipment nodes, wherein the central control node interacts with the equipment nodes through the gateway node; the mobile terminal is used for sending a control instruction to the central control node, the central control node is provided with a controller, and the controller is used for controlling the corresponding equipment node to act through the gateway node after receiving the control instruction;

the central control node is arranged in a shell (100), an installation cabin (211) with one open end is arranged in the shell (100), and a plugging cover plate (110) is arranged at the opening of the installation cabin (211); a temperature sensor for detecting the temperature of the installation cabin (211) is arranged in the installation cabin (211), and the temperature sensor is connected with a controller; the side wall opposite to the installation cabin (211) is relatively provided with a groove (212), and an electric heating wire connected with a controller is arranged in the groove (212); the plugging cover plate (110) is provided with a ventilation groove (111) communicated with the installation cabin (211), and a heat radiation fan connected with the controller is arranged at the position, located in the ventilation groove (111), of the plugging cover plate (110).

2. The intelligent home system based on the 5G + AI wireless sensor network of claim 1, wherein: the central control node further comprises a 5G communication module arranged in the shell (100), and the 5G communication module is used for realizing remote communication between the mobile terminal and the controller.

3. The intelligent home system based on the 5G + AI wireless sensor network of claim 1, wherein: the central control node further comprises a Wifi communication module arranged in the shell (100), and the Wifi communication module is used for realizing near field communication between the controller and the gateway node.

4. The intelligent home system based on the 5G + AI wireless sensor network of claim 1, wherein: the central control node further comprises a voice recognition module arranged in the shell (100), and the voice recognition module is used for recognizing the voice command.

5. The intelligent home system based on the 5G + AI wireless sensor network of claim 1, wherein: the plugging cover plate (110) is provided with an installation cavity (311) for installing a cooling fan.

6. The intelligent home system based on the 5G + AI wireless sensor network of claim 5, wherein: an opening of the mounting cavity (311) is provided with a mounting stepped groove (312), and the heat radiation fan is mounted in the mounting stepped groove (312) through a screw.

7. The intelligent home system based on the 5G + AI wireless sensor network of claim 6, wherein: the plugging cover plate (110) is provided with a convex block (320) extending into the mounting cabin (211), the side surface of the convex block (320) is symmetrically provided with mounting grooves (411) along the direction vertical to the groove (212), and guide rods (412) are arranged in the mounting grooves (411); sliding plates (420) with one ends extending out of the mounting grooves (411) are arranged in the mounting grooves (411), guide rods (412) are arranged through the corresponding sliding plates (420), and springs (430) used for pushing the corresponding sliding plates (420) to be close to the side walls of the mounting cabin (211) are sleeved on the guide rods (412); the sliding plate (420) is provided with a baffle (421) extending into the corresponding groove (212), the baffle (421) is used for being abutted against the side wall of the groove (212) close to the opening of the installation cabin (211) to fix the blocking cover plate (110) on the shell (100), the baffle (421) is provided with a first inclined surface (422), and the side wall of the groove (212) close to the opening of the installation cabin (211) is provided with a second inclined surface (213) matched with the first inclined surface (422).

8. The intelligent home system based on the 5G + AI wireless sensor network of claim 7, wherein: the plugging cover plate (110) is provided with a drawing cavity (313) which is positioned on the outer side of the mounting cavity (311) and penetrates through the ventilation groove (111), and a plugging plate (120) which can be drawn and used for plugging the ventilation groove (111) is arranged in the drawing cavity (313).

9. The intelligent home system based on the 5G + AI wireless sensor network of claim 8, wherein: a strip-shaped groove (314) communicated with the drawing cavity (313) is arranged on the plugging cover plate (110); the plugging plate (120) comprises pull plates (510) symmetrically arranged in the drawing cavity (313), threaded columns (511) extending out of the strip-shaped grooves (314) are arranged on the pull plates (510), and nuts (512) used for fixing the pull plates (510) are arranged on the threaded columns (511) in a threaded mode.

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