CN111385949B - Control terminal, lamp assembly, control method, and computer-readable storage medium - Google Patents

Abstract

The invention provides a control terminal, a lamp assembly, a control method and a computer readable storage medium, wherein the control terminal is used for pairing with at least one lamp and comprises the following steps: the first communication device is connected to the first control device; the first control device is configured to receive the pairing instruction, send a switch control signal to the switch device after receiving the pairing instruction, and control the first communication device to send the pairing signal to the lamp; and the switching device controls the power on or off of the lamp connected to the switching device according to the switching control signal from the first control device. Through the technical scheme of the invention, the user can realize the pairing of the control terminal and the lamps only by one-time operation, and can pair with a plurality of lamps at the same time by one-time operation, so that the operation steps are greatly simplified, the time of the user is saved, and the working efficiency of the user and the convenience for using the lamps are improved.

Description

Control terminal, lamp assembly, control method, and computer-readable storage medium

Technical Field

The invention relates to the technical field of intelligent lighting, in particular to a control terminal, a lamp assembly, a control method and a computer readable storage medium.

Background

With the continuous development of the internet of things and smart homes, various wireless technologies have been utilized to realize wireless remote control of lighting products.

When the remote control illumination product is used for the first time at present, a user needs to pair a remote controller with a corresponding illumination product, and the steps of the remote control illumination product pairing at present are as follows:

(1) manually powering off the lamps needing to be paired and controlled;

(2) long pressing a pairing key of the remote controller, and sending a pairing code to the lamp;

(3) and manually powering on the lamp, receiving the pairing code by the lamp, and pairing and binding.

The pairing process requires gradual manual operation of a user, the process is complicated, and the user cannot pair a plurality of lamps at the same time.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

In view of the above, an object of the present invention is to provide a control terminal.

Another object of the present invention is to provide a lamp.

It is another object of the present invention to provide a lamp assembly.

Another object of the present invention is to provide a control method.

It is another object of the present invention to provide yet another control method.

It is another object of the present invention to provide a computer-readable storage medium.

In order to achieve the above object, a technical solution of a first aspect of the present invention provides a control terminal for pairing with at least one luminaire, including: the first communication device is connected to the first control device; the first control device is configured to receive the pairing instruction, send a switch control signal to the switch device after receiving the pairing instruction, and control the first communication device to send the pairing signal to the lamp; and the switching device controls the power on or off of the lamp connected to the switching device according to the switching control signal from the first control device.

In the technical scheme, the switch device is arranged in the control terminal and is connected with the lamp, so that the control terminal can control the on and off of the switch device through a switch control signal sent by the first control device, the power on or off of the lamp connected with the switch device is controlled, manual operation of a user is not needed, and the operation steps of the user are simplified; furthermore, after the pairing instruction is received, the first control device sends a switch control signal to control the power on and off of the lamp, and controls the first communication device to send the pairing signal to the lamp, namely, as long as a user inputs the pairing instruction, the control terminal can automatically send the switch control signal to control the power on and off of the lamp, and automatically send the pairing signal, so that the steps of manual operation one by the user are required in the prior art, the step is simplified into a process that the user only needs to input the instruction once, and then the process is automatically executed by the control terminal, so that when the user pairs the lamp, no matter one lamp or a plurality of lamps, the operation time can be greatly saved, and the convenience of the pairing operation is improved; furthermore, the switch device can be connected with a plurality of lamps at the same time and then is combined with signal control, so that a user can pair the lamps at the same time, the operation process is further simplified, the time of the user is saved, and the working efficiency is improved.

In the above technical solution, the switching device, according to a switching control signal from the first control device, controls a lamp connected to the switching device to be powered on or powered off, specifically including: the switching device controls the lamp to be powered off according to a switching control signal from the first control device, and controls the lamp to be powered on after the lamp is powered off for a first time period.

In the technical scheme, the switching device firstly controls the lamp to be powered off according to the switching control signal from the first control device, and then controls the lamp to be powered on after the power off is carried out for the first time, so that the lamp is conveniently triggered to receive the pairing signal, the lamp which is not triggered is prevented from participating in pairing, and the pairing accuracy is improved.

In the above technical solution, the first duration is longer than a duration required for the first communication device to transmit at least one pairing signal.

In the technical scheme, the first time length is set to be longer than the time length required by the first communication device to send the at least one pairing signal, so that the at least one pairing signal is conveniently sent out in the gap between the power-off and the power-on of the lamp, the lamp can receive the complete pairing signal at the first time after the power-on, the time for the lamp to wait for receiving the pairing signal is reduced, the pairing process is shortened, and the pairing efficiency is improved.

In any one of the above technical solutions, the first control device is configured to control the first communication device to send the pairing signal to the lamp, and specifically includes: the first control device is configured to control the first communication device to send at least one pairing signal every second time length; and controlling the first communication device to stop sending the pairing signal after the total sending time of the pairing signal reaches a third time or after the total sending time of the pairing signal reaches a first preset number.

In the technical scheme, at least one pairing signal is sent every second time length, and after the third time length or after the total sending quantity of the pairing signals reaches a first preset quantity, the first communication device is controlled to stop sending the pairing signals, so that a certain quantity of pairing signals are sent, the success rate of receiving the pairing signals by the lamp is improved, the success rate of pairing is improved, the condition that the lamp receives too few pairing signals or does not receive the pairing signals is reduced, the resource waste caused by sending the pairing signals for a long time can be avoided, and the interference caused by sending of too many pairing signals to other electronic equipment can be avoided.

The basis for stopping sending the pairing signal can be based on time, namely, the sending is stopped after the total sending time length reaches the third time length; the sending number of the pairing signals can also be used as a standard, namely the sending is stopped after the total sending number reaches a first preset number; it is understood that there is a certain relation between the first preset number and the third time duration, and specifically, the time required for the first preset number of pairing signals to be completely transmitted is less than the third time duration.

In any of the above technical solutions, the first control device is further configured to control the first communication device to start sending the pairing signal before the lamp is powered on.

In the technical scheme, the pairing signal is sent before the lamp is powered on, so that the lamp can start to receive the pairing signal at the first time after the lamp is powered on, the time for the lamp to wait for receiving the pairing signal is shortened, the pairing process is shortened, and the pairing efficiency is improved.

In any of the above technical solutions, the control terminal is provided with a pairing key, the pairing key is connected with the first control device, and the pairing key is used for inputting a pairing instruction.

In the technical scheme, the pairing key is arranged on the control terminal and is connected with the first control device, so that the user can conveniently input the pairing instruction by pressing the pairing key, that is, the user does not need to input a complex instruction or operate, and can input the pairing instruction by pressing the pairing key, the operation of the user is simplified, and the convenience of pairing is improved.

A second aspect of the present invention provides a lamp, configured to pair with a control terminal in any one of the first aspect, including: the second communication device is connected to the second control device and configured to receive the pairing signal sent by the control terminal and send the pairing signal to the second control device; and the second control device is configured to determine the identification code of the control terminal according to the pairing signal, so that the lamp and the control terminal are paired.

In this technical solution, since the lamp is paired with the control terminal of any one of the above technical solutions in the first aspect, all beneficial effects of the above technical solutions are achieved, and are not described herein again; the lamp is convenient to receive the pairing signal sent by the control terminal by arranging the second communication device, and the second control device connected with the second communication device determines the identification code of the control terminal according to the pairing signal, so that the lamp can be automatically paired with the control terminal, multiple operations of a user are not needed in the process, the lamp pairing process is simplified, and the purpose of simultaneously pairing a plurality of lamps with the control terminal is achieved.

In the above technical solution, the second control device is configured to determine the identification code of the control terminal according to the pairing signal, and specifically includes: the second control device is configured to count the number of received pairing signals; and when the number of the received pairing signals is larger than or equal to a second preset number, the second control device is also configured to control the second communication device to stop receiving the pairing signals, analyze the pairing signals and acquire the identification codes of the control terminals in the pairing signals.

In the technical scheme, the number of the received pairing signals is counted through the second control device, when the number of the received pairing signals is larger than or equal to the second preset number, the second communication device is controlled to stop receiving the pairing signals, the pairing signals are analyzed, the identification codes of the control terminals in the pairing signals are obtained, namely, whether the pairing signals are paired or not is determined through number identification of the pairing signals, so that the control logic is simple, the requirement on the second control device is low, the lamp pairing efficiency is improved, the reduction of components of the second control device is facilitated, the size is reduced, and the occupied space is reduced.

In any one of the above technical solutions, the luminaire further includes a memory connected to the second control device, and the memory is configured to store the identification code.

In the technical scheme, the identification code is stored by the memory, so that the situation that the identification code is lost to cause pairing failure or the lamp needs to be paired again after power failure is avoided.

In any one of the above technical solutions, the lamp at least includes any one or a combination of several of a ceiling lamp, a barrel spotlight and a lamp strip.

In this technical scheme, lamps and lanterns include any one or several kinds of combinations in ceiling lamp, section of thick bamboo shot-light, the lamp area at least, are favorable to the user as required, choose for use the lamps and lanterns of different grade type to install and pair, both can promote the flexibility and the richness of lighting methods, optimize indoor environment, still be convenient for through with the pairing of these different grade type lamps and lanterns, promote the convenience to lamps and lanterns control.

A third aspect of the present invention provides a lamp assembly, including: the control terminal according to any one of the above first aspects; at least one lamp in any one of the above second aspects, connected to the switching device of the control terminal; the control terminal is configured to control a lamp connected with the switch device to be powered off or powered on according to the pairing instruction after receiving the pairing instruction, and send a pairing signal to the lamp; the lamp is configured to receive a pairing signal to pair with the control terminal.

In this technical solution, by using the control terminal according to any one of the above technical solutions in the first aspect and the lamp according to any one of the above technical solutions in the second aspect, all beneficial effects of the above technical solutions are achieved, and details are not described herein.

An aspect of a fourth aspect of the present invention provides a control method for a control terminal according to any one of the first aspect, including: receiving a pairing instruction; and according to the pairing instruction, sending a switch control signal to the switch device, controlling the lamp connected with the switch device to be powered on or powered off, and controlling the first communication device to send a pairing signal to the lamp.

In the technical scheme, after the pairing instruction is received, the switch control signal is sent to the switch device to control the power on or power off of the switch device, and the first communication device is controlled to send the pairing signal to the lamp, so that the control terminal can automatically complete the power off and power on of the lamp and the sending work of the pairing signal only by inputting the pairing instruction, the operation steps of a user are reduced, the time of the user is saved, the user can pair the control terminal with a plurality of lamps in the same time, the time of the user is further saved, and the use convenience of the control terminal is improved.

In the above technical solution, controlling a lamp connected to the switching device to be powered on or powered off specifically includes: and controlling the lamp to be powered off, and controlling the lamp to be powered on after the lamp is powered off for a first time.

In the technical scheme, the lamp connected with the switch device is triggered to start receiving the pairing signal for pairing by first powering off and then powering on, so that the condition that the lamp not connected with the switch device participates in pairing is avoided, and the pairing accuracy is improved.

In the above technical solution, the first duration is longer than a duration required for the first communication device to transmit at least one pairing signal.

In the technical scheme, the first time length is set to be longer than the time length required by the first communication device to send the at least one pairing signal, so that the at least one complete pairing signal can be sent within the first time length, the complete pairing signal can be received at the first time after the lamp is powered on, the time for the lamp to wait for receiving the pairing signal is shortened, the pairing process is shortened, and the pairing efficiency is improved.

In any one of the above technical solutions, controlling the first communication device to send the pairing signal to the lamp specifically includes: controlling the first communication device to send at least one pairing signal every second time length; and controlling the first communication device to stop sending the pairing signal after the total sending time of the pairing signal reaches a third time or after the total sending time of the pairing signal reaches a first preset number.

In the technical scheme, at least one pairing signal is sent every second time length, and after the third time length or after the total sending quantity of the pairing signals reaches a first preset quantity, the first communication device is controlled to stop sending the pairing signals, so that a certain quantity of pairing signals are sent, the success rate of receiving the pairing signals by the lamp is improved, the success rate of pairing is improved, the condition that the lamp receives too few pairing signals or does not receive the pairing signals is reduced, the resource waste caused by sending the pairing signals for a long time can be avoided, and the interference caused by sending of too many pairing signals to other electronic equipment can be avoided.

The basis for stopping sending the pairing signal can be based on time, namely, the sending is stopped after the total sending time length reaches the third time length; the sending number of the pairing signals can also be used as a standard, that is, after the total sending number of the pairing signals reaches a first preset number, the sending is stopped; it is understood that there is a certain relation between the first preset number and the third time duration, and specifically, the time required for the first preset number of pairing signals to be completely transmitted is less than the third time duration.

In any of the above technical solutions, before the lamp is powered on, the first communication device is controlled to start sending the pairing signal.

In the technical scheme, the pairing signal is sent before the lamp is powered on, so that the lamp can start to receive the pairing signal at the first time after the lamp is powered on, the time for the lamp to wait for receiving the pairing signal is shortened, the pairing process is shortened, and the pairing efficiency is improved.

An aspect of a fifth aspect of the present invention provides a control method for a lamp according to any one of the second aspect, including: controlling a second communication device to receive a pairing signal sent by a control terminal; and determining the identification code of the control terminal according to the pairing signal to realize pairing of the lamp and the control terminal.

In the technical scheme, the second communication device is controlled to receive the pairing signal sent by the control terminal, and the second control device connected with the second communication device determines the identification code of the control terminal according to the pairing signal, so that the lamp can be automatically paired with the control terminal, multiple operations of a user are not required in the process, the lamp pairing process is simplified, and the aim of simultaneously pairing a plurality of lamps with the control terminal is fulfilled.

In the above technical solution, determining the identification code of the control terminal according to the pairing signal specifically includes: counting the number of received pairing signals; when the number of the received pairing signals is larger than or equal to a second preset number, controlling the second communication device to stop receiving the pairing signals; and analyzing the pairing signal to acquire the identification code of the control terminal in the pairing signal.

In the technical scheme, the received pairing signals are counted, when the number of the received pairing signals is larger than or equal to a second preset number, the receiving of the pairing signals is stopped, the pairing signals are analyzed, the identification codes of the control terminals in the pairing signals are obtained, namely whether the pairing is carried out or not is determined through the number identification of the pairing signals, so that the control logic is simple, the operation speed is high, whether the pairing signals meet the pairing requirements or not is easily and quickly determined, and the lamp pairing efficiency is improved.

In any one of the above technical solutions, the control method further includes: after the identification code of the control terminal is determined, the identification code is stored in a memory.

In this technical scheme, through saving the identification code in memory, be favorable to avoiding the identification code to lose and lead to pairing failure or after the lamps and lanterns outage, need pair again.

An aspect of the sixth aspect of the present invention provides a computer-readable storage medium on which a computer program is stored, the computer program, when executed by a processor, implementing the steps of the control method according to any one of the fourth or fifth aspects.

In this technical solution, the steps of the control method according to any one of the fourth aspect and the fifth aspect are implemented when the computer program is executed by the processor, so that all the beneficial effects of the above technical solutions are achieved, and details are not described herein.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a block diagram schematically illustrating the structure of a control terminal according to an embodiment of the present invention;

fig. 2 is a block diagram schematically illustrating the structure of a control terminal according to another embodiment of the present invention;

FIG. 3 is a block diagram schematically illustrating the structure of a lamp according to an embodiment of the present invention;

FIG. 4 is a block diagram schematically illustrating the structure of a lamp according to another embodiment of the present invention;

FIG. 5 is a block diagram schematic of the construction of a lamp assembly of one embodiment of the present invention;

FIG. 6 is a flow chart diagram of a control method of one embodiment of the present invention;

FIG. 7 is a flow chart diagram of a control method of one embodiment of the present invention;

FIG. 8 is a flow chart diagram of a control method of one embodiment of the present invention;

FIG. 9 is a flow chart diagram of a control method of one embodiment of the present invention;

FIG. 10 is a system diagram of a lamp assembly according to an embodiment of the invention;

FIG. 11 is a system diagram of an intelligent switch according to an embodiment of the present invention;

FIG. 12 is a schematic diagram of a system configuration of a luminaire according to an embodiment of the present invention;

FIG. 13 is a system diagram of a lamp assembly according to another embodiment of the invention;

fig. 14 is a flowchart illustrating a control method according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 5, and fig. 10 to 13 is:

10 control terminal, 100 first control device, 102 first communication device, 104 switch device, 106 pairing key, intelligent switch 108, 20 lamp, 200 second control device, 202 second communication device, 204 memory, 3 lamp component.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Some embodiments of the invention are described below with reference to fig. 1-14.

Example one

As shown in fig. 1, a control terminal 10 according to an embodiment of the present invention, for pairing with at least one luminaire 20, includes: a first communication device 102, a first control device 100 and a switching device 104, wherein the switching device 104 is used for connecting with the luminaire 20.

Specifically, the first communication device 102 is connected to the first control device 100, and the first control device 100 is connected to the switching device 104; the first control apparatus 100 is configured to receive the pairing instruction and, after receiving the pairing instruction, send a switching control signal to the switching device 104, the switching device 104 controlling the lighting fixture 20 connected to the switching device 104 to be powered on or off according to the switching control signal from the first control apparatus 100; the first control device 100 is further configured to control the first communication device 102 to send a pairing signal to the luminaire 20.

In this embodiment, by providing the switch device 104 in the control terminal 10, and the switch device 104 is used for connecting with the lamp 20 and is also connected with the first control device 100, the control terminal 10 can control the on and off of the switch device 104 through the switch control signal sent by the first control device 100, so that when the switch device 104 is on, the circuit of the lamp 20 connected with the switch device 104 is disconnected, the lamp 20 is powered off, and when the switch device 104 is closed, the circuit of the lamp 20 connected with the switch device 104 is switched on, the lamp 20 is powered on, and the lamp 20 is triggered to start receiving the pairing signal sent by the first communication device 102, and then pairing is started; in the whole pairing process, the user only needs to input the pairing instruction, so that the operation of the user is simplified, the convenience of the user in pairing operation is improved, and the time of the user is saved; further, the switch device 104 can be connected to the plurality of lamps 20 at the same time, that is, the switch device 104 can control the plurality of lamps 20 to be powered on or powered off at the same time, and then, in combination with signal control, a user can pair the plurality of lamps 20 at the same time, so that the operation process is further simplified, the time of the user is saved, and the work efficiency is improved.

In some embodiments, the pairing command may be input by physical key pressing or virtual key pressing on the display screen.

Further, the switching device 104, according to the switching control signal from the first control device 100, controls the light fixture 20 connected to the switching device 104 to be powered on or powered off, specifically including: the switching device 104 controls the lamp 20 to be powered off according to the switching control signal from the first control device 100, and after the lamp 20 is powered off for a first time period, the switching device 104 controls the lamp 20 to be powered on; therefore, the lamp 20 is triggered to receive the pairing signal, the lamp 20 which is not triggered is prevented from participating in pairing, and the pairing accuracy is improved.

In some embodiments, the switching device 104 is included as any one of a relay or thyristor or contactor.

It can be understood that if there is no triggering process of first powering off and then powering on, the light fixture 20 may be always in a state of receiving the pairing signal, which is easily interfered by signals sent by other terminals, and affects the pairing of the control terminal 10 and the light fixture 20; it is also possible that the luminaire 20 is always in a state of not being able to receive the pairing signal, so that the control terminal 10 and the luminaire 20 cannot be paired; in addition, through the mode of powering off first and then powering on, other lamps which are not connected with the switching device 104 can be prevented from participating in pairing, and the pairing accuracy is ensured.

Further, in some embodiments, the first duration is longer than a duration required for the first communication device 102 to send at least one pairing signal, so that at least one pairing signal can be sent out in a gap between the power-off and the power-on of the lamp 20, which is beneficial to the lamp 20 to receive a complete pairing signal at the first time after the power-on, reduces a time for the lamp 20 to wait for receiving the pairing signal, shortens a pairing process, and improves pairing efficiency.

Further, the first control device 100 is configured to control the first communication device 102 to send the pairing signal to the light fixture 20, and specifically includes: the first control device 100 is configured to control the first communication device 102 to transmit at least one pairing signal every second time period; and after the total sending time of the pairing signals reaches the third time, controlling the first communication device 102 to stop sending the pairing signals, which is beneficial to ensuring that the first communication device 102 can send a certain amount of pairing signals in sufficient time, and the pairing signals cannot be in a sending state for a long time, so that the success rate of receiving the pairing signals by the lamp 20 can be improved, the situation that the lamp 20 receives too few or does not receive the pairing signals is reduced, resource waste caused by sending the pairing signals for a long time can be avoided, and interference caused by sending the pairing signals for a long time to other electronic equipment can be avoided.

In other embodiments, the basis for the sending stop of the pairing signal is not time, but the total sending amount of the pairing signal is at least one of the pairing signals sent every second time period, and after the total sending amount of the pairing signal reaches the first preset amount, the first communication device 102 is controlled to stop sending the pairing signal.

It can be understood that the first control device 100 is further configured to control the first communication device 102 to start sending the pairing signal before the lamp 20 is powered on, so that the lamp 20 can start receiving the pairing signal at the first time after being powered on, the time for the lamp 20 to wait for receiving the pairing signal is reduced, the pairing process is shortened, and the pairing efficiency is improved; it is understood that the first control device 100 may be configured to start transmitting the pairing signal after the power-off of the lamp 20 and before the power-on, or may be configured to transmit the pairing signal before the power-off of the lamp 20.

As shown in fig. 2, in order to facilitate the user operation, the control terminal 10 is provided with a pairing key 106 for inputting a pairing instruction, the pairing key 106 is connected with the first control device 100, and the user can input the pairing instruction by pressing the pairing key 106; in some embodiments, pairing key 106 is a physical key; in other embodiments, the control terminal 10 has a touch screen, the pairing key 106 is a virtual key on the touch screen, and the user can input the pairing instruction by clicking the virtual pairing key 106.

In other embodiments, the input of the pairing instruction may be input by a user voice, a user gesture, or the like.

Example two

As shown in fig. 3, an embodiment of the second aspect of the present invention provides a luminaire 20, for pairing with the control terminal 10 of any one of the embodiments of the first aspect, including a second communication device 202 and a second control device 200 connected to each other.

The second communication device 202 is configured to receive the pairing signal sent by the control terminal 10 and send the pairing signal to the second control device 200; the second control device 200 is configured to determine the identification code of the control terminal 10 according to the pairing signal received by the second communication device 202, so as to pair the luminaire 20 with the control terminal 10.

Specifically, the second control device 200 is configured to determine the identification code of the control terminal 10 according to the pairing signal, and specifically includes: the second control apparatus 200 is configured to count the number of received pairing signals; when the number of the received pairing signals is greater than or equal to a second preset number, the second control device 200 is further configured to control the second communication device 202 to stop receiving the pairing signals, and analyze the received pairing signals, so as to obtain the identification code of the control terminal 10 in the pairing signals, and realize the pairing between the lamp 20 and the control terminal 10; if not, the second control device 200 controls the second communication device 202 to continue receiving the pairing signal.

In other embodiments, as shown in fig. 4, the luminaire 20 further comprises a memory 204 connected to the second control device 200, so as to store the identification code and avoid the identification code from being lost.

In some embodiments, the light fixture 20 is a ceiling light; in other embodiments, the light fixture 20 is a barrel spotlight; in still other embodiments, the light fixture 20 is a combination of multiple types, such as a downlight, a light strip, or a combination of a ceiling light and a downlight.

In this embodiment, since the lamp 20 is paired with the control terminal 10 of any embodiment of the first aspect, all beneficial effects of the embodiments are achieved, and are not described herein again; the lamp 20 is provided with the second communication device 202, so that the pairing signal sent by the control terminal 10 can be received conveniently, and the second control device 200 connected with the second communication device 202 determines the identification code of the control terminal 10 according to the pairing signal, so that the lamp 20 can be paired with the control terminal 10 automatically, multiple operations by a user are not required in the process, the pairing process of the lamp 20 is simplified, and the purpose of simultaneously pairing a plurality of lamps 20 and the control terminal 10 is achieved.

It should be further noted that the second control device 200 determines the identification code of the control terminal 10 according to the pairing signal, which is implemented by counting the number of the pairing signals received by the second communication device 202 and analyzing the pairing signal, so that the control logic is simple, only simple counting and judgment are needed, the requirement on the second control device 200 is low, which is beneficial to reducing components of the second control device 200, reducing the volume of the second control device 200, and simplifying the structure of the lamp 20.

EXAMPLE III

As shown in fig. 5, an embodiment of the third aspect of the present invention provides a lamp assembly 3, including: the control terminal 10 of any embodiment of the first aspect and the light fixture 20 of any embodiment of the second aspect are provided, the number of the light fixtures 20 is one or more, and the light fixture 20 is connected to the switching device 104 of the control terminal 10, so that the switching device 104 controls the light fixture 20 to be powered off or powered on.

Specifically, the control terminal 10 is configured to, after receiving the pairing instruction, control the power-off or power-on of the light fixture 20 connected to the switching device 104 according to the pairing instruction, and send a pairing signal to the light fixture 20; the luminaire 20 is configured to receive a pairing signal for pairing with the control terminal 10.

More specifically, after receiving the pairing instruction, the control terminal 10 controls the switching device 104 to be turned on according to the pairing instruction, disconnects the circuits of all the lamps 20 connected to the switching device 104, and turns off the lamps 20, and after the power is turned off for a first time period, controls the switching device 104 to be turned on, so that the circuits of all the lamps 20 connected to the switching device 104 are turned on, the lamps 20 are triggered, and the pairing signal starts to be received; in addition, the control terminal 10 starts to send the pairing signal before the lamp 20 is powered on, and after the power on of the lamp 20 is triggered, the pairing signal sent by the control terminal 10 can be received immediately, so that the pairing with the control terminal 10 is realized.

In this embodiment, by using the control terminal 10 of any embodiment of the first aspect and the lamp 20 of any embodiment of the second aspect, and connecting the switching device 104 of the control terminal 10 and the lamp 20, all beneficial effects of the embodiments are achieved, and are not described again here.

Example four

As shown in fig. 6, an embodiment of a fourth aspect of the present invention provides a control method, for a control terminal according to any of the foregoing first aspects, including: step S100: receiving a pairing instruction; step S102: and according to the pairing instruction, sending a switch control signal to the switch device, controlling the lamp connected with the switch device to be powered on or powered off, and controlling the first communication device to send a pairing signal to the lamp.

In the embodiment, after the pairing instruction is received, the switch control signal is sent to the switch device to control the power on or power off of the switch device, and the first communication device is controlled to send the pairing signal to the lamp, so that the control terminal can automatically complete the power off and power on of the lamp and the sending work of the pairing signal only by inputting the pairing instruction, the operation steps of the user are reduced, the time of the user is saved, the user can pair the control terminal and a plurality of lamps at the same time, the time of the user is further saved, and the use convenience of the control terminal is improved.

EXAMPLE five

As shown in fig. 7, this embodiment provides another control method, for a control terminal according to any of the foregoing first aspect, including: step S200: receiving a pairing instruction; step S202: according to the pairing instruction, sending a switch control signal to a switch device to control the lamp to be powered off; step S204: controlling the first communication device to start to send at least one pairing signal every second time length; step S206: after the power is off for a first time, controlling the lamp to be powered on; the first time length is longer than the time length required by the first communication device for sending at least one pairing signal; step S208: and controlling the first communication device to stop sending the pairing signal after the total sending time of the pairing signal reaches the third time.

In the embodiment, the lamp connected with the switch device is triggered to start pairing by first powering off and then powering on, so that the lamp which is not connected with the switch device is prevented from participating in pairing, and the pairing accuracy is improved; further, after the lamp is powered off and before the lamp is powered on, the pairing signal starts to be sent, and the first time length between the power-off and the power-on is longer than the time length required by the first communication device to send the at least one pairing signal, so that the first communication device can send the at least one complete pairing signal before the lamp is powered on, the lamp can receive the complete pairing signal at the first time after the lamp is powered on, the time for the lamp to wait for receiving the pairing signal is shortened, the pairing process is shortened, and the pairing efficiency is improved.

In addition, after the third duration, the first communication device is controlled to stop sending the pairing signals, so that a certain number of pairing signals are sent, the condition that the pairing signals are too few or not received by the lamp is reduced, resource waste caused by sending the pairing signals for a long time can be avoided, or interference on other electronic equipment caused by sending of too many pairing signals is avoided.

It should be noted that, in other embodiments, the basis for controlling the first communication device to stop sending the pairing signal is the sending number of the pairing signals, rather than the third time length, specifically, when the total sending number of the pairing signals reaches the first preset number, the sending of the pairing signal is stopped; for example, if the first preset number is 100, the transmission total number of the pairing signals is greater than or equal to 100, and the transmission of the pairing signals is stopped; the first number may also be 50, 80, etc.

EXAMPLE six

As shown in fig. 8, an embodiment of a fifth aspect of the present invention provides a control method for a luminaire according to any one of the embodiments of the second aspect, including: step S300: controlling a second communication device to receive a pairing signal sent by a control terminal; step S302: and determining the identification code of the control terminal according to the pairing signal to realize pairing of the lamp and the control terminal.

In the embodiment, the lamp is automatically paired with the control terminal by receiving the pairing signal and determining the identification code of the control terminal according to the pairing signal, multiple operations of a user are not required in the process, the lamp pairing process is simplified, and the aim of simultaneously pairing a plurality of lamps with the control terminal is fulfilled.

EXAMPLE seven

As shown in fig. 9, the present invention provides another control method for a luminaire according to any one of the embodiments of the second aspect, including: step S400: controlling a second communication device to receive a pairing signal sent by a control terminal; step S402: counting the number of received pairing signals; step S404: when the number of the received pairing signals is larger than or equal to a second preset number, controlling the second communication device to stop receiving the pairing signals; step S406: and analyzing the pairing signal, acquiring the identification code of the control terminal in the pairing signal and storing the identification code in a memory, so as to realize pairing of the lamp and the control terminal.

In the embodiment, the number of the received pairing signals and the second preset number are counted, when the number of the received pairing signals is larger than or equal to the second preset number, the reception of the pairing signals is stopped, the received pairing signals are analyzed, and therefore the identification codes of the control terminals in the pairing signals, namely whether the pairing is performed or not, are obtained, and the identification codes are determined through the number counting of the pairing signals, so that the control logic is simple, the operation speed is high, whether the pairing signals meet the pairing requirement or not is easily and quickly determined, and the lamp pairing efficiency is improved; in addition, the identification code is stored, so that the loss of the identification code is avoided, and the pairing stability is ensured.

In other embodiments, the number of pairing codes in the pairing signal may be compared with a second preset number, and when the number of pairing codes is greater than or equal to the second preset number, the receiving of the pairing signal is stopped.

In other embodiments, whether to perform pairing may also be confirmed according to the strength of the pairing signal, the transmission frequency, a specific pairing code, and the like.

Example eight

An embodiment of a sixth aspect of the invention provides a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the control method according to any one of the embodiments described above.

In this embodiment, the steps of the control method of any one of the above embodiments are implemented by a computer program when being executed by a processor, so that all the beneficial effects of the above embodiments are achieved, and are not described herein again.

Example nine

According to the lamp assembly provided by the application, the one-key pairing of the plurality of intelligent lamps 20 can be realized, and the lamp assembly comprises an intelligent switch 108 and the plurality of intelligent lamps 20; as shown in fig. 10, the plurality of intelligent lamps 20 are connected in a circuit loop controlled by the on-off of the intelligent switch 108, the intelligent switch 108 is used as a control terminal, and can simultaneously control the on-off of the circuits of the plurality of intelligent lamps 20, and can also simultaneously perform 2.4G (2.4G module, a wireless technology, the frequency band of which is between 2.400GHz and 2.4835GHz, 2.4G wireless technology for short, which is one of three major wireless technologies in the market) communication with the plurality of intelligent lamps 20; it is understood that the intelligent switch 108 and the intelligent lamp 20 may also communicate wirelessly using bluetooth technology or radio frequency technology.

As shown in fig. 11, the switch device 104 is embedded in the intelligent switch 108 and is connected to the first communication device 102, and the first communication device 102 communicates using 2.4G wireless technology; the intelligent switch 108 is externally connected with the pairing key 106; the switching device 104 is a relay or a thyristor or a contactor, and can perform on-off control on the circuits of the plurality of lamps 20 connected with the switching device.

As shown in fig. 12, the intelligent lamp 20 is embedded with a second communication device 202 and a FLASH Memory 204, the second communication device 202 also adopts a 2.4G wireless technology, and the second communication device 202 can perform protocol communication with the first communication device 102 in the intelligent switch 108.

The control method for pairing the intelligent lamps by one key can realize wireless pairing of the lamps in all loops by one key, and comprises the following steps:

(1) the intelligent switch detects a pairing key instruction triggered by a user;

(2) the first control device of the intelligent switch controls the switch device to be disconnected, and the n intelligent lamps connected with the intelligent switch are powered off;

(3) the intelligent switch sends pairing signals outwards every m time, the pairing signals contain pairing codes Pd, and the sending total time is Tw;

(4) when the intelligent switch sends m1 pairing signals, a switch device in the intelligent switch is automatically closed, and n intelligent lamps connected with the intelligent switch are electrified;

(5) when one intelligent lamp receives the E pairing signals, the corresponding intelligent lamp stops receiving the pairing signals, analyzes and obtains an intelligent switch ID code in the pairing signals, and stores the ID code in a FLASH memory;

(6) when the total sending time of the intelligent switch is longer than Tw, the intelligent switch stops sending the pairing signal to the outside, and the pairing of the corresponding lamp is completed.

Attention is required to be paid to an Identity Document (ID) code of the intelligent switch, i.e., an identification code of the intelligent switch.

Fig. 10 shows 3 light fixtures connected to the intelligent switch, fig. 13 shows 4 light fixtures connected to the intelligent switch, but the number of light fixtures is not limited thereto, fig. 10 and 13 are only schematic, and actually, the number of light fixtures may be more, for example, 10, 50; wherein, the restriction of lamps and lanterns number n: the total rated current of the switching device is 2/3Ia, the rated current of a single lamp during maximum brightness work is Id, and n is less than Ia/Id; in the example, the switching device is a relay, Ia is 9A, and the rated current of a single lamp in the maximum brightness operation is Id is 200 mA; then n is 30.

Further, the data packet characteristics of the pairing code Pd are as follows: including the intelligent switch ID code; the ID code is randomly generated in the program.

The total transmission time is Tw, namely the third time length, Tw satisfies: tw > mx (m1+ E); and m1 is more than or equal to 1; e is more than or equal to 10.

As shown in fig. 13, the technical solution of the present embodiment is as follows:

1. the control system and the control method for pairing a plurality of intelligent lamps by one key comprise an intelligent switch 108 and an intelligent lamp 20;

(1) the intelligent switch 108 is an 86 × 90 embedded intelligent switch, and can be used for switching on and off n intelligent lamps 20 connected with the intelligent switch; the intelligent switch 108 is provided with a first communication device 102 which adopts 2.4G wireless technology; a relay as the switching device 104; a first control device 100, and a pairing control key that interacts with a user.

(2) The pairing control keys in the smart switch 108 include an on-off key, a pairing key 106, and the like.

(3) The second communication device 202 is embedded in the intelligent lamp 20, and the 2.4G communication technology is adopted, so that pairing, switching, brightness adjustment and color temperature adjustment are realized by receiving a 2.4G instruction of the intelligent switch 108.

2. The method for controlling a plurality of intelligent lamps by one-key pairing can realize wireless pairing of lamps in all loops by one key, as shown in fig. 14, the control method is as follows:

step S500: the intelligent switch detects a pairing instruction triggered by a user;

step S502: the first control device of the intelligent switch controls the switch device to be disconnected, and the n intelligent lamps connected with the intelligent switch are powered off;

step S504: the intelligent switch sends a pairing code Pd to the outside every m time, and the total sending time is Tw;

step S506: when the intelligent switch sends m1 pairing signals, a switch device in the intelligent switch is automatically closed, and n intelligent lamps connected with the intelligent switch are electrified;

step S508: and when one intelligent lamp receives the E pairing signals, the corresponding intelligent lamp stops receiving the pairing signals, analyzes and acquires the ID code of the intelligent switch in the pairing signals, and stores the ID code in the FLASH memory.

Step S510: when the total sending time of the intelligent switch is longer than Tw, the intelligent switch stops sending the pairing signal to the outside, and the pairing of the corresponding lamp is completed.

Wherein, the restriction of lamps and lanterns number n: the total rated current of the switching device is 2/3Ia, the rated current of a single lamp during maximum brightness work is Id, and n is less than Ia/Id; in the example, the switching device is a relay, Ia is 9A, and the rated current of a single lamp in the maximum brightness operation is Id is 200 mA; then n is 30.

Further, the data packet characteristics of the pairing code Pd are as follows: including the intelligent switch ID code; the ID code is randomly generated in the program.

Wherein, the total sending time is Tw, that is, the third time duration, Tw satisfies: tw > mx (m1+ E); and m1 is more than or equal to 1; e is more than or equal to 10; in this particular example: m1 is 10; e is 100, m is 10 ms; tw is 3 seconds; or m1 ═ 20; e is 80, m is 10 ms; tw 2 seconds.

The beneficial effects of this embodiment are as follows:

(1) the problem that the user pairing process is complex is solved, and one-key pairing is realized;

(2) the problem that a user can not pair a plurality of lamps at the same time is solved, and one-key pairing of the lamps is realized

The technical scheme of the invention is described in detail in combination with the drawings, and through the technical scheme of the invention, a user can realize the pairing of the control terminal and the lamps only through one-time operation, and can pair with a plurality of lamps at the same time through one-time operation, so that the operation steps are greatly simplified, the time of the user is saved, and the working efficiency of the user and the convenience of using the lamps are improved.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. A control terminal for pairing with at least one luminaire, comprising:

the first communication device is connected to the first control device;

the first control device is configured to receive a pairing instruction, send a switch control signal to a switch device after receiving the pairing instruction, and control the first communication device to send a pairing signal to the lamp;

the switching device controls the light fixture connected to the switching device to be powered on or powered off according to the switching control signal from the first control device;

the switching device, according to the switching control signal from the first control device, controls the power on or off of the lamp connected to the switching device, and specifically includes:

the switching device controls the lamp to be powered off according to the switching control signal from the first control device, and after the lamp is powered off for a first time period, the switching device controls the lamp to be powered on;

the first time length is longer than the time length required by the first communication device to send at least one pairing signal;

the first control device is configured to control the first communication device to send a pairing signal to the lamp, and specifically includes:

the first control device is configured to control the first communication device to send at least one pairing signal every second time length; and

after the total sending time of the pairing signals reaches a third time or after the total sending time of the pairing signals reaches a first preset number, controlling the first communication device to stop sending the pairing signals;

the first control device is further configured to control the first communication device to start transmitting the pairing signal before the lamp is powered on.

2. The control terminal of claim 1,

and the control terminal is provided with a pairing key, the pairing key is connected with the first control device, and the pairing key is used for inputting the pairing instruction.

3. A luminaire for pairing with the control terminal of claim 1 or 2, comprising:

the second communication device is connected to a second control device, and is configured to receive the pairing signal sent by the control terminal and send the pairing signal to the second control device;

the second control device is configured to determine the identification code of the control terminal according to the pairing signal, so that the lamp and the control terminal are paired.

4. The luminaire of claim 3,

the second control device is configured to determine the identification code of the control terminal according to the pairing signal, and specifically includes:

the second control device is configured to count the number of the received pairing signals;

when the number of the received pairing signals is larger than or equal to a second preset number, the second control device is further configured to control the second communication device to stop receiving the pairing signals, analyze the pairing signals, and acquire the identification codes of the control terminals in the pairing signals.

5. Lamp according to claim 3 or 4,

the luminaire further comprises a memory connected with the second control means, the memory being configured to store the identification code.

6. Lamp according to claim 3 or 4,

the lamp at least comprises any one or a combination of a plurality of ceiling lamps, barrel spotlight lamps and lamp strips.

7. A light fixture assembly, comprising:

the control terminal of claim 1 or 2;

at least one light fixture as claimed in any one of claims 3 to 6 connected to a switching device of said control terminal;

the control terminal is configured to control the lamp connected with the switch device to be powered off or powered on according to a pairing instruction after receiving the pairing instruction, and send a pairing signal to the lamp;

the lamp is configured to receive the pairing signal to pair with the control terminal.

8. A control method for the control terminal according to claim 1 or 2, characterized by comprising:

receiving a pairing instruction;

according to the pairing instruction, sending a switch control signal to a switch device, controlling a lamp connected with the switch device to be powered on or powered off, and controlling a first communication device to send a pairing signal to the lamp;

the controlling and lamps and lanterns that switching device is connected switch on or cut off the power supply specifically includes:

controlling the lamp to be powered off, and controlling the lamp to be powered on after the lamp is powered off for a first time period;

the first time length is longer than the time length required by the first communication device to send at least one pairing signal;

the controlling the first communication device to send a pairing signal to the lamp specifically includes:

controlling the first communication device to send at least one pairing signal every second time length;

and controlling the first communication device to stop sending the pairing signal after the total sending time of the pairing signal reaches a third time or after the total sending time of the pairing signal reaches a first preset number.

9. The control method according to claim 8,

before the lamp is powered on, controlling the first communication device to start sending the pairing signal.

10. A control method for a luminaire as claimed in any one of claims 3 to 6, characterized in that it comprises:

controlling a second communication device to receive a pairing signal sent by a control terminal;

and determining the identification code of the control terminal according to the pairing signal to realize the pairing of the lamp and the control terminal.

11. The control method according to claim 10,

the determining the identification code of the control terminal according to the pairing signal specifically includes:

counting the number of the received pairing signals;

when the number of the received pairing signals is larger than or equal to a second preset number, controlling the second communication device to stop receiving the pairing signals;

and analyzing the pairing signal to acquire the identification code of the control terminal in the pairing signal.

12. The control method according to claim 10 or 11, characterized by further comprising:

after the identification code of the control terminal is determined, the identification code is stored in a memory.

13. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the control method according to any one of claims 8 to 12.

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