CN109697931B - Decorative material and electric appliance control system thereof - Google Patents

Abstract

The invention provides a decorative material which can present the same texture or pattern as a common material and be hidden in a display closing state and can enable a user to timely open the display function of the decorative material without remembering the exact position of each decorative material. The decorative material comprises a base material and a plurality of grooves, wherein the base material is provided with one or more grooves; the surface layer is arranged to cover the groove body and is made of a material which is matched with the surface appearance of the base material and is transparent and opaque; an image generating unit which is provided in the tank body and can project an image onto the surface layer; a non-contact sensor module; and a controller electrically coupled to the non-contact sensor module and the image generating unit, and capable of turning on the image generating unit according to a detection condition of the non-contact sensor.

Description

Decorative material and electric appliance control system thereof

Technical Field

The invention relates to the field of decorative materials, in particular to a decorative material.

Background

With the continuous development of display technology, electronic products can dynamically display rich image information on a display screen at extremely low cost. However, electronic products also cause a great deal of light pollution to users at the same time. In the fields of home decoration and the like, the decorative material (such as wood boards and marble boards) usually tends to show complete and natural-style textures. After a display screen is arranged on the surface of the decorative material, the surface texture is damaged, so that the appearance is influenced; once the electronic product is hidden, the user is required to remember the exact position of each piece of material to turn on the display at the right time.

Disclosure of Invention

In view of the above problems of the prior art, the present invention provides a decorating material that can be hidden by presenting the same texture or pattern as that of a general material in a state where the display is closed, and that can be timely turned on by a user without remembering the exact position of each decorating material.

The decorative material comprises a base material and a plurality of grooves, wherein the base material is provided with one or more grooves; the surface layer is arranged to cover the groove body and is made of a material which is matched with the surface appearance of the base material and is transparent and opaque; an image generating unit which is provided in the tank body and can project an image onto the surface layer; a non-contact sensor module; and a controller electrically coupled to the non-contact sensor module and the image generating unit, and capable of turning on the image generating unit according to a detection condition of the non-contact sensor.

The surface layer made of the material which is matched with the surface appearance of the base material and is transparent and opaque is used for covering the groove body, so that an image generation part in the groove can be hidden, and the decorative material presents the same texture or pattern as a common material in a closed display state; meanwhile, as the image generating part is opened by adopting the non-contact sensor module, a user does not need to remember the specific position of each decorative material with the image display function, and can open the image generating part only by sending out an opening instruction in a non-contact manner; after the image generating part is opened, the originally hidden surface layer presents a shape different from the shapes of other materials playing a background role and base materials of the decorative materials, so that the user can conveniently recognize the surface layer.

In a preferred embodiment of the present invention, the non-contact sensor module includes a human body sensor configured to detect a human body in a detection area near the finishing material.

Further, in a preferred embodiment of the present invention, the body sensor is one or a combination of several of inductive, eddy current, capacitive, hall, reed, photoelectric, pyroelectric, doppler, electromagnetic induction, microwave, or ultrasonic body sensors.

Furthermore, in a preferred embodiment of the present invention, the body sensor is embedded in the substrate.

Optionally, in a preferred technical scheme of the present invention, the body sensor is located inside the tank body and is disposed facing the surface layer, and the surface layer has a through hole at a position corresponding to the body sensor.

In a preferred technical scheme of the invention, the non-contact sensor module comprises a mobile equipment identification module which can verify the identity information of the mobile equipment; the decorative material further comprises an information pushing module, and if the identity information is verified to pass, the information pushing module sends the information to be pushed to the mobile equipment.

Further, in a preferred technical solution of the present invention, the decorating material further includes: and the prompting module can be connected with the server and prompts the state of the information to be pushed on the server.

Further, in a preferred technical solution of the present invention, the status of the information to be pushed includes whether there is information to be pushed and/or the quantity of the information to be pushed.

Furthermore, in a preferred embodiment of the present invention, the prompt module is communicatively connected to the controller, and is capable of controlling the image generation unit to project the prompt information to the surface layer.

Further, in a preferred technical solution of the present invention, the radio frequency identification module and/or the information push module are implemented by using a near field communication technology.

In a preferred embodiment of the present invention, the decorating material further comprises: a control port; and the touch equipment is arranged in the groove body and is electrically coupled with the control port.

Further, in a preferred embodiment of the present invention, the image projected to the surface layer by the image generating section includes a switch image capable of revealing a coupling position of the surface layer and the touch device.

Further, in a preferred technical solution of the present invention, the touch device is a capacitive switch or a microwave inductor.

Further, in a preferred embodiment of the present invention, the touch device is further electrically coupled to the controller, and the image generating unit can be turned on according to a touch of a user.

In a preferred embodiment of the present invention, the image generating portion is one or a combination of a plurality of nixie tubes, a dot matrix module and a self-luminous display module.

In a preferred embodiment of the present invention, the image generating portion includes a light emitting portion and a cap layer, and the cap layer is disposed between the surface layer and the light emitting portion and has a light transmitting region and a light non-transmitting region, so that the light emitting portion can project a pattern of the light transmitting region on the surface layer through the cap layer.

Further, in a preferred technical solution of the present invention, the contactless sensor module further includes an environment sensor, and the environment sensor is one or more of a temperature sensor, a humidity sensor, an air sensor, a photosensitive sensor, a microwave sensor, an acoustic sensor, and an image sensor.

Furthermore, in a preferred embodiment of the present invention, the decorating material further includes an alarm module, and the alarm module can send alarm information to a server or a mobile device in response to the environment sensor detecting the environment parameter higher than the threshold value.

The invention also provides an electrical appliance control system with the decorative material, which comprises one or more electrical appliances electrically connected with the decorative material.

In a preferred technical scheme of the invention, the electric appliance control system comprises a plurality of decorative materials, and at least one part of the decorative materials are connected by wireless communication.

Drawings

FIG. 1 is a schematic view of the structure of a decorative sheet material in one embodiment of the present invention;

FIG. 2 is a schematic structural view of a decorative sheet material according to another embodiment of the present invention;

fig. 3 is a schematic structural view of a decorative plate according to still another embodiment of the present invention.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in general with reference to the accompanying drawings. The embodiments of the present invention are not limited to the following embodiments, and various embodiments within the technical concept of the present invention can be adopted.

Example one

Referring to fig. 1, the present embodiment provides a decorative plate 1, the decorative plate 1 includes a substrate 100, in some embodiments of the present invention, the substrate 100 may be made of a single material, such as wood or marble, and the upper and lower surfaces of the substrate 100 have the same texture material; in other embodiments of the present invention, the substrate 100 may also be formed of a composite material, such as a composite wood board. The substrate topography is different according to the surface material of the substrate, wherein the upper surface 100a of the substrate 100 for displaying images is provided with a groove 100b for accommodating the image generating portion 104.

In this embodiment, the image generating portion 104 is disposed in the slot 100b and is composed of a plurality of LED light-emitting units, each LED light-emitting unit corresponds to one LED lamp bead, and the controller 108 is electrically connected to each LED light-emitting unit and can control the on and off of each LED light-emitting unit, so as to display an image by the combination of each LED light-emitting unit; in other embodiments of the present invention, the image generating part 104 may also be a nixie tube, a dot matrix module or other suitable light emitting array. In other embodiments of the present invention, the image generating portion 104 may also be a combination of a light emitting portion and a cover layer formed with a hollow or transparent pattern, wherein the part of the cover layer formed with the hollow or transparent pattern is a transparent region, and the rest is a non-transparent region. After the light emitted by the light-emitting part passes through the mask layer, the pattern of the light-transmitting area on the mask layer is projected outwards. The image generating section 104 may be formed in other suitable structures capable of projecting an image to the notch position.

In order to hide the image generating portion 104, the decorative plate 1 provided by this embodiment is provided with a panel 102 at the notch position of the slot body 100b, the panel 102 covers the slot body 100b and the image generating portion 104 inside the slot body 100b, and the material of the panel 102 is selected to be matched with the surface topography of the substrate 100, so that the difference between the surface textures of the panel 102 and the substrate 100 is not easily seen when a user observes the decorative plate. In addition, the top of the panel 102 is flush with the upper surface 100a of the base plate 100, and the contour line of the panel 102 corresponds to the contour line of the notch of the slot 100b, so as to avoid a large gap and improve the stealth performance. In this embodiment, in order to better match the surface texture of the face plate 102 with the base plate 100, the face plate 102 is a veneer patch made of wood taken from the surface of the base plate 100 when the slot 100b is opened in the base plate 100. In other embodiments of the present invention where the substrate 100 is a composite wood board, the panel 102 is preferably of the wood board type used for the surface layer of the substrate 100 to display an image, so that it matches the surface topography of the substrate 100.

In this embodiment, the substrate 100 is a solid wood board, the panel 102 is a veneer patch matched with the surface texture of the solid wood board, and the thickness of the veneer patch is preferably 0.1-0.8mm, and an excessively thin patch is difficult to process, and the panel 102 is easy to be transparent, so that a user can perceive the existence of the in-groove image generating portion 104 through the panel 102 under good external illumination; an excessively thick patch makes it difficult for the panel 102 to transmit light, and makes it difficult for the user to receive the image projected by the image generation unit 104, or makes the brightness or resolution of the image low.

In this embodiment, the image generating portion 104 is formed by directly projecting a plurality of LED beads on the back (lower surface) of the panel 102 after the LED beads emit light in combination, and imaging is performed by using the light transmittance and light scattering of the panel 102, so that the image generating portion 104 needs to be disposed close to or near the back of the panel 102 in order to improve the definition of the projected image, and the distance between the two is preferably less than 1 cm. In some embodiments of the present invention, a light shielding wall perpendicular to the panel 102 may also be disposed between the panel 102 and the image generating portion 104 to prevent light rays emitted by the LED lamp beads from interfering with each other and affecting image definition. In other embodiments of the present invention, the image generating portion 104 may also be a combination of a light emitting portion and a cover layer formed with a hollow or transparent pattern, wherein the part of the cover layer formed with the hollow or transparent pattern is a transparent region, and the rest is a non-transparent region. After the light emitted by the light-emitting part passes through the mask layer, the pattern of the light-transmitting region on the mask layer is projected outwards, and the mask layer is arranged close to or close to the back of the panel 102, so that the definition of the projected image can be improved.

It should be noted that the panel 102 is made of a transparent and opaque material, where the opaque material is used to prevent a user from perceiving the presence of the image generating portion 104, and the transparent material is used to facilitate the user to receive the image information of the image generating portion 104; in addition to the above functions, the light-transmitting and opaque material can soften the light emitted from the image generating portion 104, so as to prevent the light emitted from the light source from directly irradiating the eyes of the user, and improve the comfort level of the user when receiving information.

In some other embodiments of the present invention, the image generating portion 104 may also be composed of LED lamp beads with multiple colors, or may adjust the color temperature of the LED lamp beads by using a light adjusting device, so as to combine and present a more colorful pattern effect.

With continued reference to fig. 1, in the present embodiment, the decorative plate 1 further includes a non-contact sensor module 106, and the non-contact sensor module 106 is electrically connected to the controller 108 and the power supply 110. A user can send an opening instruction for opening the decorative plate 1 to the decorative plate 1 in a non-contact mode, and the non-contact sensor module 106 responds to the opening instruction sent by the user and sends a display opening control signal to the controller 108 electrically connected with the non-contact sensor module 106; in response to the control signal, the controller 108 can control the power source 110 to turn on the image generating part 104 and project the image onto the panel 102. In this way, the controller 108 can turn on the image generating unit 104 according to the detection of the proximity sensor 106. The user can turn on the image generating part 104 by only sending out the turn-on command in a non-contact manner without remembering the specific position of each decorative plate 1 with the image display function; after the image generating portion 104 is turned on, the originally hidden panel 102 will present a shape different from other panels functioning as a background and the substrate 100 of the decoration panel 1, so as to be convenient for a user to recognize.

In some embodiments of the present invention, the contactless sensor module 106 may be a human body sensor, preferably a human body proximity sensor. The human body sensor can be one or a combination of more of an inductive type, an eddy current type, a capacitive type, a Hall type, a reed type, a photoelectric type, a pyroelectric type, a Doppler type, an electromagnetic induction type, a microwave type or an ultrasonic type human body sensor. In other embodiments of the present invention, the contactless sensor module 106 may also be a mobile device identification module, which may use an infrared transmission protocol such as IrDA, an Internet of things such as HomeRF, Thread and Zigbee, a smart home transmission protocol, a radio frequency technology such as RFID-Mifare and NFC, a Bluetooth communication protocol (IEEE 802.15.1), a Wi-fi technology (IEEE 802.11b or IEEE 802.11g, other suitable short-range wireless communication technologies, or a combination thereof, to identify the mobile device of the user and establish a communication connection with the mobile device One or more of an acoustic sensor and an image sensor. The module formed by the non-contact environmental sensor or the combination thereof can be used independently, and can also be used by matching with a human body proximity sensor or a mobile equipment identification module.

Preferably, the non-contact sensor module 106 is implemented by using an optical sensing technology in a non-visible light frequency band or other sensing technologies not based on optical principles, so as to perform non-contact detection on the external environment parameters through the panel 102 or the substrate 100, and by the above manner, grooves or holes can be prevented from being formed on the surface of the panel 102 or the substrate 100, thereby preventing the surface topography from being changed. In some embodiments of the present invention, holes, grinding or other treatments may also be applied to the surface of the panel 102 and/or the substrate 100 to differentiate the surface texture of both the panel 102 and the substrate 100 to an extent that is difficult for the human eye to recognize, depending on the type and mounting location of the sensor.

It should be noted that the possible forms of the non-contact sensor module 106 are not limited to the above list, and the functions of different types of non-contact sensors 106 and the combination thereof with each other will be described below with reference to the specific embodiments, which are combined with the effects produced by the structure of the decorative plate 1.

In addition, although the decorative material of the present invention is described by taking a plate as an example in some embodiments of the present invention, it is understood that the technical solution provided by the present invention can also be used in other types of decorative materials such as stone, sheet, section, wire, etc., and the simple change of the shape of the above materials does not exceed the protection scope of the present invention.

Example two

The present embodiment provides a decorative plate 2 as shown in fig. 2, and the decorative plate 2 has a structure somewhat similar to but different from the decorative plate 1 provided in the first embodiment, except for the arrangement of the non-contact sensor module 206.

In this embodiment, the contactless sensor module 206 includes a mobile device identification module and an information pushing module. In some embodiments of the present invention, the mobile device identification module and the information pushing module may be implemented by separate devices, for example, a bluetooth device is used to complete the identification function of the mobile device, and a wifi device is used to perform data transmission, so as to implement the information pushing function. In the present embodiment, the contactless sensor module 206 supports a reader mode and a point-to-point mode based on Near Field Communication (NFC) technology. In the reader mode, the NFC technology-based contactless sensor module 206 can verify the identity information of the mobile device by reading the rfid code of the mobile device; if the identity information passes the verification, in the peer-to-peer mode, the contactless sensor module 206 also has the function of an information push module, so as to realize information transmission with the mobile device. The communication protocol between the contactless sensor module 206 and the mobile device may be selected according to parameters such as the required identification distance and transmission bandwidth between the two. Alternative short-range wireless communication protocols have been partially enumerated above and will not be described in detail here.

In this embodiment, the decorative plate 2 further includes a network communication device 212, and the network communication device 212 can establish a communication connection with a local area network and/or the internet. Specifically, in some embodiments of the present invention, the network communication device 212 may be capable of establishing a communication connection with a local area network including a plurality of decorative plates 2, the non-contact sensor module 206 of each decorative plate 2 further includes an environment sensor (not shown in the figure), the environment sensor may be one or more of a temperature sensor, a humidity sensor, an air sensor, a photosensitive sensor, a microwave sensor, an acoustic sensor, and an image sensor, and may be capable of measuring various environment parameters in the detection area, the measurement information is synchronized among the decorative plates 2 in the local area network through the network communication device 212, and a user may obtain environment parameter data in all the detection areas through a mobile device by downloading information to be pushed from any decorative plate 2. In other embodiments of the present invention, the network communication device 212 may also establish a communication connection with the internet, and the user may also download the information directly from the server through the mobile device by sending the data to the server. In addition, the controller 108 connected to the environmental sensors in communication may further have an alarm module, and in response to the environmental sensors detecting the environmental parameters above a preset threshold, the controller 108 may send alarm information to a server through the network communication device 212 or push the alarm information to a mobile device of the user through the information push module. In some embodiments of the present invention, the environmental parameters detected by the environmental sensor may also be projected on the panel 102 in real time by the image generating part 104 for display.

In this embodiment, the controller 108 of the decorative plate 2 further has a prompt module, the controller 108 is in communication connection with the network communication device 212, and can obtain the state of the information to be pushed on the server through the network communication device 212, where the state of the information to be pushed includes whether the information to be pushed exists on the server or not and the number of the information to be pushed. The controller 108 generates the prompt information 214 according to the state of the information to be pushed, and controls the image generation part 104 to project a pattern with the prompt information 214 on the panel 102 through the electrical connection with the image generation part 104.

In this embodiment, the decorative plate 2 establishes communication connection with the local area network or the internet at regular or irregular time to receive information to be pushed. When the mobile equipment of the user approaches the decorative plate 2, the mobile equipment identification module in the decorative plate 2 can sense the approach of the mobile equipment, and the user identity is verified by acquiring the RFID identification code of the mobile equipment in a reader mode; after the mobile device of the user passes the authentication, the information to be pushed is transmitted to the mobile device through the information pushing module, namely, through the point-to-point mode of the NFC technology. In some embodiments of the present invention, the information to be pushed may be service information related to the decorative plate 2, user information in a certain range nearby, or a contact request of a user using the same decorative plate 2 or an environmental parameter detected by an environmental sensor, etc.

In this embodiment, the non-contact sensor module 206 is disposed inside the slot 100b and on a side of the image generating portion 104 away from the panel 102, and this manner of disposition can avoid forming an additional slot 100b on the surface of the substrate 100, which is more beautiful while facilitating production. In addition, the identification distance of the non-contact sensor module 206 based on the near field communication technology is short, and the user needs to attach the mobile device to the surface of the decorative plate 2 to realize the identification and data transmission functions, so that the user can know the identifiable region through the image projected on the panel 102 by the image generating part 104, and the phenomenon that the integrated visual effect is damaged due to the fact that the indication mark is printed on the surface of the substrate 100 or the panel 102 is avoided.

EXAMPLE III

The present embodiment provides a decorative plate 3 as shown in fig. 3, and the decorative plate 3 has a structure similar to but different from the structure of the decorative plate 2 provided in the second embodiment, except that: the decorative plate 3 provided in the present embodiment is a switch device having a control port 314 connectable to a home appliance, and the controller 108 of the decorative plate 3 can control a switch of the home appliance electrically connected thereto through the control port 314; correspondingly, in order to realize the instruction input of the user, the decoration plate 3 further has a touch device 316 electrically connected to the controller 108, in this embodiment, the touch device 316 is a capacitive switch, and is capable of sensing the touch of the user on the panel 102 and converting the touch into a switch signal sent to the controller 108, and the controller 108 controls the switch of the household appliance electrically connected thereto through the port 314 according to the switch signal.

In addition, in this embodiment, the contactless sensor module includes a first contactless sensor module 306a and a second contactless sensor module 306b, where the first contactless sensor module 306a includes a contactless sensor with a strong signal penetration capability, such as a contactless sensor that performs data transmission based on the electromagnetic wave principle, that is completely embedded inside the substrate 100; the second non-contact sensor module 306b includes a non-contact sensor, such as a temperature sensor, a photosensor, etc., which is required to be close to the surface of the substrate 100 and partially embedded in the substrate 100 and has weak signal penetration capability, and according to different penetrability characteristics of the sensor, the surface of the substrate 100 or the surface of the panel 102 may be further perforated, polished or otherwise processed appropriately, so as to improve the signal strength of the sensor under the precondition that human eyes cannot recognize the sensor.

In this embodiment, the first contactless sensor module 306a includes a mobile device identification module based on a radio frequency identification sensor, and is capable of sensing a mobile device located in the second detection area 320 and acquiring identity information of the mobile device; the second non-contact sensor module 306b includes a human body sensor and an environment sensor, wherein the human body sensor includes a pyroelectric infrared sensing module and a microwave sensor, and is capable of detecting a human body approaching the first detection area 318 of the decorative plate 3; the environmental sensors include an air sensor, a temperature sensor, a light sensitive sensor, and a microphone, each of which is electrically connected to the controller 108. The first detection zone 318 is further away and more extensive than the second detection zone 320.

The motion sensor continuously scans the environment change condition in the first detection area 318 around the decorative plate 3, and when detecting that a person approaches, the motion sensor outputs a signal to notify the controller 108. The controller 108 receives the approach notification, starts the image generation part 104 to display the switch image, accesses the server through the network communication device 212, inquires whether the information is to be pushed, and if the information is to be pushed, the image generation part 104 projects a prompt message 214 or lights an indicator lamp (not shown in the figure) on the surface of the decorative plate 3 to notify the user that a message can be received.

If the user needs to receive the push information, the mobile device whose authentication is completed may be placed in the second detection area 320, and the rfid sensor of the decorative plate 3 senses the proximity of the mobile device, acquires the identity information thereof, and notifies the controller 108. The controller 108 verifies the identity information, and if the identity information passes the verification, the server is notified to send the information to be pushed to the mobile device of the user, or the downloaded information to be pushed is directly transmitted to the mobile device of the user by using a point-to-point mode.

In this embodiment, the switch image projected to the panel by the image generating part 104 reveals the coupling position of the panel 102 and the touch device 316. If the user needs to use the decoration plate 3 to control the switch function of the household appliance, the user can touch, click or press the position of the panel 102 where the switch image is projected to send a switch instruction, the touch device 316 receives the switch instruction of the user, converts the switch instruction into an electric signal and sends the electric signal to the controller 108, and the controller 108 can control the switch state of the household appliance electrically connected with the control port 314 according to the switch instruction.

In this embodiment, when the user taps to make a specific sound, the microphone of the decorative plate 3 may also start the display function, scroll the display data, and delay the display for a period of time and then turn off the display. In other embodiments of the present invention, the decorative plate 3 may also provide a wireless charging function, which provides a charging function for a user's mobile device through a specific area of the surface.

The embodiment also provides a household appliance control system with a plurality of the decorative plates 3, each household appliance is electrically connected with the corresponding decorative plate 3 through the control port 314, and wireless communication can be carried out between the decorative plates 3 through the network communication device 212. Through above mode, the user can use arbitrary dalle 3 to control all domestic appliance in the system, and this control system need not to install wireless communication device additional on current domestic appliance, can directly adapt to the intelligent transformation of traditional domestic appliance system.

In some other embodiments of the present invention, the household electrical control system may include a plurality of device boards, the plurality of decorative boards are composed of a main decorative board disposed on a wall surface and a plurality of sub-decorative boards disposed on different furniture surfaces, a single wireless receiving circuit is installed in the main decorative board, a single wireless transmitting circuit is installed in the sub-decorative boards, and the main decorative board is electrically connected to each household electrical appliance in the system to control the on/off of each household electrical appliance. Through the mode, install the partial shipment decorative board on furniture surface and need not the circuit intercommunication with domestic appliance, can carry out on-off control to each domestic appliance in the system, convenience of customers operation, reduce cost simultaneously.

In addition, in some embodiments of the present invention, a plurality of control ports 314 may be included, and the live wire and/or the neutral wire of the circuit in which each household appliance is located is connected to the control ports 314, and the switching of each household appliance is controlled by controlling the connection and disconnection between the control ports 314. The arrangement mode ensures that the decorative plate can also conveniently control each household appliance under the condition of not accessing to a network.

It should be noted that the controller 108 may be a general purpose processor, a processor core, a multiprocessor, a reconfigurable processor, a Micro Control Unit (MCU), a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Graphics Processing Unit (GPU), a Field Programmable Gate Array (FPGA), a Programmable Logic Device (PLD), a state machine, gated logic, discrete hardware components, or any other possible form of control unit, or a combination thereof. In this embodiment, the controller 108 is a micro-control unit.

The controller 108 is connected with the wireless communication device 212 and the radio frequency identification module through a serial interface or an SPI bus, reads the pyroelectric infrared sensing module through a universal I/O interface, and reads the analog outputs of the microwave sensor, the air sensor, the temperature sensor and the photosensitive sensor through an ADC interface. The state of the wireless charging module is monitored through the I/O interface, and the image generating part 104 is controlled to project information on the surface of the decorative plate 3.

The embedded software carried by the controller 108 includes underlying drivers, middleware, and upper layer applications. The bottom layer driver comprises a wireless network module communication driver, a radio frequency identification module communication driver, an IO port driver and a display driver. The middleware comprises a TCP/IP protocol stack, an RFID protocol stack, an LED and a nixie tube display module. The upper-layer applications comprise Socket communication application, identity recognition communication application, sampling analysis, display application and system configuration interface application.

So far, the technical solutions of the present invention have been described with reference to the accompanying drawings, but it is obvious to those skilled in the art that the scope of the present invention is not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (16)

1. A decorative material, comprising:

a base material having one or more channels;

the surface layer is arranged to cover the groove body and is made of a material which is matched with the surface appearance of the base material, is transparent and is not transparent;

an image generating section provided in the groove body and capable of projecting an image onto the surface layer,

the image generating part includes a light emitting part and a cap layer disposed between the surface layer and the light emitting part, having a light transmitting area and a light non-transmitting area, so that the light emitting part can project a pattern of the light transmitting area on the surface layer through the cap layer;

a non-contact sensor module including a human body sensor configured to detect a human body in a detection area proximate to the trim material; and

a controller electrically coupled to the non-contact sensor module and the image generating unit, and capable of turning on the image generating unit according to a detection condition of the non-contact sensor;

the communication port is used for being in communication connection with each external household appliance;

the touch equipment is arranged in the groove body, is electrically coupled with the communication port, can sense the touch of a user on the surface layer, and controls each household appliance through the communication port;

the image projected by the image generating part to the surface layer comprises a switch image capable of revealing the coupling position of the surface layer and the touch control device.

2. The upholstery material of claim 1, wherein the body sensor is one or more of inductive, eddy current, capacitive, hall, reed, photoelectric, pyroelectric, doppler, electromagnetic induction, microwave, or ultrasonic body sensor.

3. The finishing material of claim 1 or 2, wherein the body sensor is embedded in the substrate.

4. The decorative material of claim 3, wherein the human body sensor is positioned inside the groove body and is arranged towards the surface layer, and the surface layer is provided with a through hole at a position corresponding to the human body sensor.

5. The upholstery material of claim 1, wherein the non-contact sensor module includes a mobile device identification module capable of verifying identity information of the mobile device; the decorative material further comprises an information pushing module, and if the identity information passes the verification, the information pushing module sends information to be pushed to the mobile equipment.

6. The trim material of claim 5, further comprising:

and the prompting module can be connected with the server and prompts the state of the information to be pushed on the server.

7. The upholstery material of claim 6, wherein the status of the information to be pushed comprises whether there is information to be pushed and/or a quantity of information to be pushed.

8. The upholstery material of claim 6 or 7, wherein the cue module is communicatively connected to the controller and is capable of controlling the image generating section to project a cue message to the face layer.

9. The upholstery material of claim 5, wherein the information push module is implemented using near field communication technology.

10. The upholstery material of claim 1, wherein the touch device is a capacitive switch or a microwave sensor.

11. The upholstery material as claimed in claim 1 or 10, wherein the touch device is further electrically coupled to the controller, and is capable of turning on the image generating portion according to a touch of a user.

12. The decoration material of claim 1, wherein the image generating part is one or more of a combination of a nixie tube, a dot matrix module and a self-luminous display module.

13. The upholstery material of claim 1 or 5, wherein the non-contact sensor module further comprises an environmental sensor, the environmental sensor being one or more of a temperature sensor, a humidity sensor, an air sensor, a light sensitive sensor, a microwave sensor, an acoustic sensor, an image sensor.

14. The upholstery material of claim 13, further comprising an alarm module, responsive to the environmental sensor detecting an environmental parameter above a threshold, the alarm module capable of sending an alarm message to a server or a mobile device.

15. An appliance control system comprising the trim material of any of claims 1-14 and one or more appliances electrically connected to the trim material.

16. The appliance control system of claim 15, including a plurality of the trim materials, at least some of the trim materials being connected by wireless communication.

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