CN112767674A - Intelligent tea table and infrared household appliance control method - Google Patents

Abstract

The invention discloses an intelligent tea table and an infrared household appliance control method, wherein the intelligent tea table comprises the following steps: the infrared emitters are embedded in the intelligent tea table, and one infrared emitter is arranged in the middle of each of the four side edges and the middle of the top surface of the intelligent tea table; the display screen is used for receiving the infrared control instruction selected by the user; the main control unit is used for sending the infrared control instruction and the polling emission instruction to the signal distributor; the signal distributor is used for receiving the infrared control instruction and the polling emission instruction and controlling the plurality of infrared emitters to emit the infrared control signals in turn according to the polling emission instruction; the infrared transmitter is used for transmitting the infrared control signal to the corresponding infrared household appliances in the alternate transmission process according to the control of the signal distributor so as to control the infrared household appliances to execute the infrared control instruction, and the intelligent tea table is used for controlling a plurality of infrared household appliances.

Description

Intelligent tea table and infrared household appliance control method

Technical Field

The invention relates to the technical field of intelligent home control, in particular to an intelligent tea table and an infrared household appliance control method.

Background

The tea table is used as central furniture of a family living room, and is an indispensable furniture product in most places such as families, guest rooms, offices and the like.

With the development of science and technology and the demand of people for product energization, the home is also developed towards intellectualization. The tea table is used as furniture in a living room center, not only for decoration and storage, but also for an intelligent control center in places such as families, guest rooms, offices and the like by integrating an intelligent module in the tea table. The intelligent control center carries an AI (artificial intelligence) system, and the intelligent tea table can become an AIOT center (AIOT is AI + IOT (Internet of things) and also called artificial intelligence Internet of things) for controlling all peripheral electrical equipment by AI voice. When peripheral electrical product equipment is controlled, only networked equipment can be controlled, and infrared remote control non-intelligent equipment cannot be controlled. Therefore, a universal infrared remote control device is needed to be added to an intelligent control center, so that the universal infrared remote control device can control non-networked and non-intelligent infrared devices, such as an infrared remote control device: air conditioner, fan, TV set, robot, ceiling lamp etc..

The placement positions of the intelligent tea table control center are mostly fixed, such as in front of a sitting room sofa, in the center of a guest room, on one side of an office and the like. The positions of infrared devices to be controlled, such as an air conditioner, a television, a fan and a lamp, are changeable along with different layout styles, the infrared remote control has directivity, is similar to flashlight lighting, has limited upper, lower, left and right emitting angles, and can weaken light signals along with the increase of the angles, and all infrared devices in the whole living room or a passenger room are difficult to cover only by one infrared emitting head.

Most infrared control equipment and electric appliances are in single-item communication, so that only infrared control instructions can be received, and infrared signals cannot be fed back to equipment for sending the infrared instructions. Therefore, when a user controls infrared equipment such as a television and an air conditioner at home, the infrared equipment is often controlled by facing the television or the air conditioner with a remote controller, and different equipment also needs different remote controllers, so that the operation is very inconvenient.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention mainly aims to provide an intelligent tea table and a control method of infrared household appliances, and aims to solve the problem that all infrared control appliances in a home cannot be controlled by one appliance in the prior art.

In order to achieve the purpose, the invention provides an intelligent tea table which comprises a plurality of infrared emitters embedded in the intelligent tea table, wherein the infrared emitters are arranged in the middles of four side edges and the middle of the top surface of the intelligent tea table respectively;

the intelligence tea table still includes:

the display screen is used for receiving the infrared control instruction selected by the user and displaying a related interface;

the main control unit is used for sending the infrared control instruction and the polling emission instruction to the signal distributor;

the signal distributor is used for receiving the infrared control instruction and the polling emission instruction and controlling the plurality of infrared emitters to emit the infrared control signals in turn according to the polling emission instruction;

the infrared transmitter is used for transmitting the infrared control signal to corresponding infrared household appliances in the alternate transmission process according to the control of the signal distributor so as to control the infrared household appliances to execute the infrared control instruction.

Optionally, the intelligent tea table, wherein the main control unit is arranged inside the display screen, the main control unit is connected with the signal distributor, and the signal distributor is respectively connected with the plurality of infrared emitters.

Optionally, the intelligent tea table, wherein the main control unit is internally pre-integrated with the infrared control instruction of the infrared household appliance, or downloads the infrared control instruction of the infrared household appliance from a network.

Optionally, the intelligent tea table, wherein the display screen receives an infrared control instruction selected by the user through touch or voice, and sends the infrared control instruction to the main control unit.

In addition, in order to achieve the above object, the present invention further provides an infrared household appliance control method based on the intelligent tea table, wherein the infrared household appliance control method based on the intelligent tea table comprises:

the main control unit receives an infrared control instruction sent by a user;

the main control unit sends the infrared control instruction and the polling emission instruction to the signal distributor;

the signal distributor controls the corresponding infrared transmitter to transmit the infrared control instruction to the corresponding infrared household appliance according to the polling transmission instruction;

and the infrared household appliance executes corresponding operation according to the infrared control instruction.

Optionally, the method for controlling infrared household electrical appliances based on an intelligent tea table, wherein the signal distributor controls the corresponding infrared transmitter to transmit the infrared control command to the corresponding infrared household electrical appliances according to the polling transmission command, and specifically includes:

the signal distributor controls each infrared transmitter to sequentially transmit the infrared control instructions according to the sequence in a preset time according to the polling transmission instructions;

and in the process that each infrared transmitter sequentially transmits the infrared control instruction within preset time according to the sequence, if the infrared household electrical appliance corresponding to the infrared control instruction is detected, the infrared household electrical appliance receives the infrared control instruction.

Optionally, in the method for controlling an infrared household appliance based on an intelligent tea table, the infrared household appliance receives the infrared control finger, and then the method further includes:

if the infrared control commands are not finished by sequentially transmitting the infrared control commands by each infrared transmitter within the preset time, the infrared transmitter which does not transmit the infrared control commands stops transmitting actions.

Optionally, in the method for controlling an infrared household appliance based on an intelligent tea table, the method for controlling an infrared household appliance based on an intelligent tea table further includes:

when the infrared household appliance needing to be controlled is a specific device, the main control unit sends the infrared control instruction to the signal distributor, and then the signal distributor selects the infrared transmitter corresponding to the specific device to transmit the infrared control instruction.

Optionally, in the method for controlling an infrared household appliance based on an intelligent tea table, the method for controlling an infrared household appliance based on an intelligent tea table further includes:

and the main control unit receives the infrared control instruction transmitted by one of the infrared transmitters selected by a user according to actual requirements.

Optionally, in the method for controlling an infrared household appliance based on an intelligent tea table, the method for controlling an infrared household appliance based on an intelligent tea table further includes:

and the main control unit receives the operation of adjusting the selected transmitting power of the infrared transmitter through the display screen by a user and enhances the transmitting power of the infrared transmitter according to the operation of the user.

The invention discloses an intelligent tea table and an infrared household appliance control method, wherein the intelligent tea table comprises the following steps: the infrared emitters are embedded in the intelligent tea table, and at least one infrared emitter is arranged in the middle of the four side edges and the middle of the top surface of the intelligent tea table respectively; the display screen is used for receiving the infrared control instruction selected by the user and displaying a related interface; the main control unit is used for sending the infrared control instruction and the polling emission instruction to the signal distributor; the signal distributor is used for receiving the infrared control instruction and the polling emission instruction and controlling the plurality of infrared emitters to emit the infrared control signals in turn according to the polling emission instruction; the infrared transmitter is used for transmitting the infrared control signal to corresponding infrared household appliances in the alternate transmission process according to the control of the signal distributor so as to control the infrared household appliances to execute the infrared control instruction. According to the intelligent tea table, the infrared control instructions are transmitted by the plurality of infrared transmitters in turn, so that the instantaneous transmitting power can be reduced, the purpose of reducing power consumption is achieved, meanwhile, the control signals are fully covered, and the intelligent tea table can control a plurality of infrared household appliances.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent tea table according to a preferred embodiment of the present invention;

fig. 2 is a plan view of the intelligent tea table according to the preferred embodiment of the invention;

fig. 3 is a schematic diagram illustrating the connection of the main components of the intelligent tea table according to the preferred embodiment of the invention;

FIG. 4 is a schematic flow chart illustrating a method for controlling an infrared household appliance according to a preferred embodiment of the present invention;

fig. 5 is a schematic flow chart of the signal distributor controlling the corresponding infrared transmitter to transmit the infrared control command to the corresponding infrared household electrical appliance according to the polling transmission command in the preferred embodiment of the infrared household electrical appliance control method based on the intelligent tea table according to the present invention;

fig. 6 is a schematic flow chart illustrating the selection of the operating mode of the infrared transmitter in the preferred embodiment of the method for controlling the infrared household electrical appliance based on the intelligent tea table.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a display screen (for example, a position indicated by a blue display frame in fig. 1 is a position where the display screen is disposed) is embedded in the top of a table top (i.e., on a horizontal plane), the display screen is used for receiving an infrared control instruction selected by a user, the display screen can receive an operation instruction of the user through a touch screen (i.e., a touch display screen 101 in fig. 2) and display a related interface (e.g., a selection interface of the infrared control instruction, etc.), and the intelligent tea table is a tea table made of tempered glass (i.e., 102 in fig. 2); as shown in fig. 2, a main control unit is arranged inside the display screen, the main control unit is used for sending the infrared control command and the round-trip transmitting command to a signal distributor, as shown in fig. 3, the main control unit is connected with the signal distributor, the main control unit sends the infrared control command and the round-trip transmitting command to the signal distributor, and the signal distributor is respectively connected with a plurality of infrared transmitters (i.e. infrared transmitting tubes in fig. 3).

Wherein, intelligence tea table is including embedding a plurality of infrared emitter that set up inside, is at least four side middle parts and the top surface middle part of intelligence tea table are provided with one respectively infrared emitter, that is the preferred 5 (but not limited to 5) of quantity of infrared emitter to reach indoor single-room infrared signal full coverage's purpose.

In order to achieve full signal coverage, the transmission power needs to be increased to achieve the purpose of wider and longer control range. Because infrared emission signal is stronger, transmission power is bigger, if 5 infrared transmitter worked simultaneously, will make the power grow in the twinkling of an eye, will reach the space range and cover more than 8 meters, the electric current will reach 5A in the twinkling of an eye, and the power will reach 15W, and big current damages circuit device easily in the twinkling of an eye like this, still needs the power to provide bigger power. In order to ensure the coverage and reduce the power consumption, a polling type emission mode can be used, namely, each infrared emitter emits infrared control signals at fixed intervals in turn.

As shown in fig. 1, 5 infrared emitters (i.e., infrared emitting tubes 1-5 in fig. 1) are respectively disposed at the middle positions of four side surfaces (1-4) and the middle position (5) of the top surface of the intelligent tea table.

As shown in fig. 2, the 5 infrared emitters are respectively represented as an infrared emitter a (103), an infrared emitter b (104), an infrared emitter c (105), an infrared emitter d (106) and an infrared emitter e (107) in fig. 2, wherein the infrared emitter a (103), the infrared emitter b (104), the infrared emitter c (105) and the infrared emitter d (106) are respectively arranged at the middle positions of the four side surfaces of the intelligent tea table, and are mainly used for controlling infrared household appliances around the room, such as an air conditioner, a television, a fan, a sweeping robot, and the like; and the infrared emitter e (107) is arranged in the middle of the top surface of the intelligent tea table and is used for controlling electric appliances in the upper space, such as a ceiling lamp, a ceiling fan and the like.

As shown in fig. 3, the 5 infrared emitters are respectively represented as an infrared emitter tube a, an infrared emitter tube b, an infrared emitter tube c, an infrared emitter tube d and an infrared emitter tube e in fig. 3, and the signal distributor is respectively connected with the infrared emitter tube a, the infrared emitter tube b, the infrared emitter tube c, the infrared emitter tube d and the infrared emitter tube e.

In the intelligence tea table signal distributor is used for receiving the master control unit sends infrared control command with round patrol the firing order, and according to round patrol the firing order and control in turn a plurality ofly infrared emitter launches in turn infrared control signal, infrared emitter is used for the basis signal distributor's control will in the firing process in turn infrared control signal launches for corresponding infrared household electrical appliances, in order to control infrared household electrical appliances carry out infrared control command.

For example, when the number of the infrared transmitters is 5 (for example, 5 infrared transmitting tubes a-e in fig. 3), the signal distributor controls the infrared transmitting tubes a, b, c, d, e to sequentially transmit the infrared control signals outwards according to the round-robin transmitting instruction flow, for example, the transmitting time of each infrared transmitting tube is 10ms, the infrared control signals are transmitted according to the sequence of the infrared transmitting tubes a-e, and each infrared transmitting tube transmits the instruction for 1 time, so that the infrared transmission in the whole space range can be completed within 50ms without simultaneously transmitting signals by 5 infrared transmitting tubes, and the simultaneous transmission by 5 infrared transmitting tubes may cause an increase in instantaneous transmitting power, which requires a high requirement on a power supply circuit.

And transmitting the infrared control signals to corresponding infrared household appliances in the alternate transmitting process of the infrared transmitting tubes a-e.

The infrared control instruction of the infrared household electrical appliance is pre-integrated in the main control unit, or the infrared control instruction of the infrared household electrical appliance is downloaded by a user from a network. The display screen receives an infrared control instruction selected by the user through touch or voice, and sends the infrared control instruction to the main control unit.

Further, as shown in fig. 3, 5 infrared emission tubes (an infrared emission tube a, an infrared emission tube b, an infrared emission tube c, an infrared emission tube d, and an infrared emission tube e) are respectively connected to the signal distributor, the signal distributor is connected to the main control unit, and the main control unit respectively sends an infrared control instruction and a round trip emission instruction to the signal distributor; the infrared control instruction is an infrared control signal sent by the main control unit and is used for controlling the infrared household appliances, for example, the infrared control instruction is used for controlling the volume of a television to be increased, the channel to be changed and the like; the round patrol control instruction is a group of communication signals used for distributing the working time sequence of the infrared transmitting tubes, the signal distributor receives the infrared control instruction and the round patrol control instruction, then controls 5 infrared transmitting tubes to transmit infrared control signals according to the round patrol control instruction, and the transmitting time, the sequence and the transmitting intensity of each infrared transmitting tube can be set according to the requirements of users.

Further, based on the intelligent tea table, the invention also provides an infrared household appliance control method based on the intelligent tea table, and the infrared household appliance control method based on the intelligent tea table in the preferred embodiment of the invention is as shown in fig. 4, and the infrared household appliance control method based on the intelligent tea table comprises the following steps:

step S10, the main control unit receives an infrared control instruction sent by a user;

step S20, the main control unit sends the infrared control instruction and the polling emission instruction to the signal distributor;

step S30, the signal distributor controls the corresponding infrared transmitter to transmit the infrared control instruction to the corresponding infrared household electrical appliance according to the polling transmission instruction;

and step S40, the infrared household electrical appliance executes corresponding operation according to the infrared control instruction.

Fig. 5 is a flowchart of step S30 in the station caption adjusting method according to the present invention, where the process of the signal distributor controlling the corresponding infrared transmitter to transmit the infrared control command to the corresponding infrared household electrical appliance according to the polling transmission command is shown in fig. 5.

As shown in fig. 5, the step S30 includes:

s11, the signal distributor controls each infrared emitter to sequentially emit the infrared control instructions according to the sequence in a preset time according to the polling emission instructions;

and S12, when each infrared transmitter sequentially transmits the infrared control instructions within a preset time according to the sequence, if the infrared household electrical appliance corresponding to the infrared control instructions is detected, the infrared household electrical appliance receives the infrared control instructions.

Specifically, the infrared control instruction is sent by a user operating the display screen of the intelligent tea table, and the infrared household appliance equipment to be controlled can be selected by clicking the display screen of the intelligent tea table, and the option to be controlled is clicked, such as increasing the volume of a television; the main control unit of intelligence tea table can with infrared control command sends for signal distributor sends control simultaneously the signal of signal distributor work (promptly the round patrols the firing order), signal distributor receives infrared control command converts the infrared firing signal of telecommunication into and according to round patrols the firing order and sends for corresponding infrared transmitter to control infrared transmitter operating time, infrared transmitter converts the telecommunication into infrared light signal and sends for the TV set, and the TV set makes the response after receiving the signal and adjusts the volume. For example, the control instruction can be obtained intelligently through AI voice input, for example, if the user inputs that the television volume is turned up by voice 10, the main control unit receives the instruction, starts the television remote control function after intelligent analysis, and transmits the television volume adding signal to the infrared signal distributor.

When the working mode of the infrared transmitter is a full-coverage mode, for example, the intelligent tea table is used for controlling certain electrical equipment in a home, such as a function of increasing the volume of a television, the main control unit of the intelligent tea table receives that a user presses a volume + button, the main control unit converts the instruction into a group of specific digital signals and sends the specific digital signals to the signal distributor, and the signal distributor decodes the digital signals into signals capable of being used for infrared transmission. And simultaneously, the main control unit sends a group of polling time sequence signals to the signal distributor, and the signal distributor controls the infrared transmitter to transmit infrared signals according to the received distribution instruction. For example: the 5 infrared transmitting tubes of the infrared transmitting tubes a-e have the transmitting time of 10ms, the transmitting time is transmitted according to the sequence of the infrared transmitting tubes a-e, each infrared transmitting tube transmits 1 instruction, thus the infrared transmission of the whole space range can be completed within 50ms without simultaneously transmitting signals by the 5 infrared transmitting tubes, and the instantaneous transmitting power is increased due to the simultaneous transmission of the 5 infrared tubes, so that the requirement on a power supply circuit is higher.

In addition, if each infrared transmitter sequentially transmits the infrared control commands in a sequence within a preset time without completion, the infrared transmitter which has not transmitted the infrared control commands terminates the transmission action; for example, the 5 infrared transmitting tubes of the infrared transmitting tubes a-e, the transmitting time of each infrared transmitting tube is 10ms, the transmission is carried out according to the sequence of the infrared transmitting tubes a-e, if the television set which is just in the direction of the infrared transmitting tube c receives the infrared control command when the infrared transmitting tube c transmits the command of increasing the volume of the television set, the following infrared transmitting tube d and the infrared transmitting tube e do not need to transmit the infrared control command, and the power consumption can be saved.

Further, when the operating mode of the infrared transmitter is the intelligent control mode, and when the infrared household appliance device to be controlled is a specific device, the main control unit sends the infrared control instruction to the signal distributor, and then the signal distributor selects the infrared transmitter corresponding to the specific device to transmit the infrared control instruction. I.e. when it is desired to control certain specific devices, it is often only necessary to emit infrared control signals in one or some directions. For example, when the light is controlled, only an infrared control signal is required to be transmitted to an infrared transmitting tube e above the intelligent tea table. For example, the intelligent tea table needs to adjust the light brightness, the main control unit can send an infrared control instruction for controlling the light brightness to the signal distributor, and meanwhile, a group of control signals only for the operation of the infrared emission tube e are sent, so that the control purpose can be achieved, and the power consumption can be reduced. For example, when the intelligent tea is to control a sweeping robot, the infrared transmitting tubes a-d of the intelligent tea for 4 weeks are required to work in a round, and the infrared transmitting tube e is not required to work, so that the round-going time can be shortened, and the power consumption can be reduced.

Further, when the operating mode of the infrared transmitter is the user mode, the main control unit receives the infrared control command transmitted by the user by selecting one of the plurality of infrared transmitters according to actual requirements. The user can be the self-defined certain infrared emission pipe work of direction of equipment through the infrared household electrical appliances in the family, for example the TV set is in the dead ahead of intelligence tea table, the user's accessible the display screen of intelligence tea table edits, only needs infrared emission pipe c work when controlling the TV set, and other infrared emission pipes a, b, d, e do not need work. When the air conditioner in the living room is controlled, the air conditioner is positioned between the b and the c in the emission direction of the infrared emission tube, and at the moment, a user can set that only the b and the c of the infrared emission tube work, so that the work of the infrared emission tube is reduced, and the service lives of the infrared emission tube and a circuit can be prolonged.

Further, when the infrared transmitter needs to perform signal enhancement, the main control unit receives the operation of adjusting the selected transmitting power of the infrared transmitter through the display screen by a user, and enhances the transmitting power of the infrared transmitter according to the operation of the user. For example, in a large indoor space, some household appliances may be far away from the intelligent tea table, and thus, a larger transmission power is required to enable the household appliances far away to receive the control signal. Because only one infrared transmitter works in a period of time, each infrared transmitter can obtain larger power to transmit a signal farther, and a user can adjust the required transmitting power through a menu so as to obtain a longer control distance.

Further, as shown in fig. 6, the whole process of the infrared household appliance control method based on the intelligent tea table in the present invention is as follows: the user passes through the intelligence tea table the display screen selects need to be controlled infrared household electrical appliances equipment (for example air conditioner, TV, washing machine, refrigerator, fan, robot of sweeping the floor, ceiling lamp, ceiling fan etc.), thereby send corresponding infrared control instruction, the intelligence tea table judges earlier whether infrared control instruction does the infrared control instruction that has existed in the intelligence tea table (or intelligent accuse center, can include intelligent tea table, also can include the equipment of other structures), if judge infrared control instruction is not when the infrared control instruction that has existed in the intelligence tea table, then can indicate the user passes through the control instruction set of the online loading corresponding equipment of network, if judge infrared control instruction is when the infrared control instruction that has existed in the intelligence tea table, the intelligence tea table is according to being controlled infrared household electrical appliances equipment selects corresponding control mode (full coverage mode), Any one of the intelligent control mode and the user mode), the control processes corresponding to the three modes are as described above, and are not described herein again.

According to the invention, intelligent equipment (an intelligent tea table) is combined with an infrared remote control function, one intelligent tea table can control a plurality of infrared point adding equipment, and the problems that different infrared point adding equipment needs to be provided with different remote controllers, the plurality of remote controllers are disordered and equipment operation needs to be aligned are solved.

According to the invention, when the infrared control instruction is received, the infrared transmitters are controlled to send the infrared control instruction in turn, instead of controlling all the infrared transmitters to send the infrared control instruction at the same time, so that the instantaneous transmitting power can be reduced, and the purpose of reducing the power consumption is achieved.

According to the invention, through the alternate infrared control instruction, the power consumption is reduced, the signal full coverage can be kept, and the problem of overlarge instantaneous transmitting power is solved. .

The invention can reduce the service time of the infrared emitter by transmitting the external control instruction in turn, and can prolong the service life of the infrared emitter.

The invention reduces the power consumption of the circuit, can reduce the cost of the power supply and simultaneously reduces the impact of large current on the circuit.

Compared with the simultaneous transmission, the invention can ensure that a single infrared transmitter can obtain larger transmission power and the control distance is longer by the round of transmission.

The invention can more accurately and efficiently control the household appliances required to be operated according to different emission modes.

In summary, the present invention provides an intelligent tea table and a control method for infrared household appliances, wherein the intelligent tea table comprises: the infrared emitters are embedded in the intelligent tea table, and at least one infrared emitter is arranged in the middle of the four side edges and the middle of the top surface of the intelligent tea table respectively; the display screen is used for receiving the infrared control instruction selected by the user and displaying a related interface; the main control unit is used for sending the infrared control instruction and the polling emission instruction to the signal distributor; the signal distributor is used for receiving the infrared control instruction and the polling emission instruction and controlling the plurality of infrared emitters to emit the infrared control signals in turn according to the polling emission instruction; the infrared transmitter is used for transmitting the infrared control signal to corresponding infrared household appliances in the alternate transmission process according to the control of the signal distributor so as to control the infrared household appliances to execute the infrared control instruction. According to the intelligent tea table, the infrared control instructions are transmitted by the plurality of infrared transmitters in turn, so that the instantaneous transmitting power can be reduced, the purpose of reducing power consumption is achieved, meanwhile, the control signals are fully covered, and the intelligent tea table can control a plurality of infrared household appliances.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. An intelligent tea table is characterized by comprising a plurality of infrared emitters embedded in the intelligent tea table, wherein at least one infrared emitter is arranged in the middle of each of four side edges and the middle of the top surface of the intelligent tea table;

the intelligence tea table still includes:

the display screen is used for receiving the infrared control instruction selected by the user and displaying a related interface;

the main control unit is used for sending the infrared control instruction and the polling emission instruction to the signal distributor;

the signal distributor is used for receiving the infrared control instruction and the polling emission instruction and controlling the plurality of infrared emitters to emit the infrared control signals in turn according to the polling emission instruction;

the infrared transmitter is used for transmitting the infrared control signal to corresponding infrared household appliances in the alternate transmission process according to the control of the signal distributor so as to control the infrared household appliances to execute the infrared control instruction.

2. The intelligent tea table according to claim 1, wherein the main control unit is disposed inside the display screen, the main control unit is connected to the signal distributor, and the signal distributor is connected to the plurality of infrared emitters respectively.

3. The intelligent tea table according to claim 1, wherein the infrared control instructions of the infrared household appliances are pre-integrated in the main control unit, or the infrared control instructions of the infrared household appliances are downloaded from a network.

4. The intelligent tea table according to claim 2, wherein the display screen receives the infrared control instruction selected by the user through touch or voice, and sends the infrared control instruction to the main control unit.

5. The method for controlling the infrared household appliances based on the intelligent tea table of any one of claims 1 to 4, wherein the method for controlling the infrared household appliances based on the intelligent tea table comprises the following steps:

the main control unit receives an infrared control instruction sent by a user;

the main control unit sends the infrared control instruction and the polling emission instruction to the signal distributor;

the signal distributor controls the corresponding infrared transmitter to transmit the infrared control instruction to the corresponding infrared household appliance according to the polling transmission instruction;

and the infrared household appliance executes corresponding operation according to the infrared control instruction.

6. The infrared household appliance control method based on the intelligent tea table according to claim 5, wherein the signal distributor controls the corresponding infrared transmitter to transmit the infrared control command to the corresponding infrared household appliance according to the round-robin transmission command, and specifically comprises:

the signal distributor controls each infrared transmitter to sequentially transmit the infrared control instructions according to the sequence in a preset time according to the polling transmission instructions;

and in the process that each infrared transmitter sequentially transmits the infrared control instruction within preset time according to the sequence, if the infrared household electrical appliance corresponding to the infrared control instruction is detected, the infrared household electrical appliance receives the infrared control instruction.

7. The infrared household appliance control method based on the intelligent tea table as claimed in claim 6, wherein the infrared household appliance receives the infrared control finger, and then further comprises:

if the infrared control commands are not finished by sequentially transmitting the infrared control commands by each infrared transmitter within the preset time, the infrared transmitter which does not transmit the infrared control commands stops transmitting actions.

8. The method for controlling infrared household appliances based on the intelligent tea table as claimed in claim 6, wherein the method for controlling infrared household appliances based on the intelligent tea table further comprises:

when the infrared household appliance needing to be controlled is a specific device, the main control unit sends the infrared control instruction to the signal distributor, and then the signal distributor selects the infrared transmitter corresponding to the specific device to transmit the infrared control instruction.

9. The method for controlling infrared household appliances based on the intelligent tea table as claimed in claim 6, wherein the method for controlling infrared household appliances based on the intelligent tea table further comprises:

and the main control unit receives the infrared control instruction transmitted by one of the infrared transmitters selected by a user according to actual requirements.

10. The method for controlling infrared household appliances based on the intelligent tea table as claimed in claim 6, wherein the method for controlling infrared household appliances based on the intelligent tea table further comprises:

and the main control unit receives the operation of adjusting the selected transmitting power of the infrared transmitter through the display screen by a user and enhances the transmitting power of the infrared transmitter according to the operation of the user.

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