CN215345179U - Intelligent lamp - Google Patents

Abstract

The utility model provides an intelligent lamp, comprising: the intelligent lamp comprises a key control module, an intelligent lamp control module and a light-emitting element; the key control module includes: a wireless transmission circuit; the intelligent lamp control module includes: a wireless receiving circuit and a switching element; the key control module is wirelessly connected with the intelligent lamp control module through a wireless transmitting circuit and a wireless receiving circuit; the intelligent lamp control module is electrically connected with the light-emitting element through the switch element; the key control module is used for generating a corresponding intelligent lamp control instruction according to the triggering of a user and sending the instruction to the intelligent lamp control module through the wireless sending circuit; and the intelligent lamp control module is used for receiving an intelligent lamp control instruction through the wireless receiving circuit and controlling the corresponding switch element according to the intelligent lamp control instruction so as to control the light-emitting element corresponding to the switch element through the switch element. The scheme can solve the inconvenience caused by the existence of the power line.

Description

Intelligent lamp

Technical Field

The utility model relates to the technical field of communication, in particular to an intelligent lamp.

Background

With the explosion of communication technology, household appliances are becoming more and more intelligent, and the most common lamps used as household appliances are also becoming more and more intelligent.

For example, patent application No. CN201320481917.9 discloses an integrated intelligent switch module. In the disclosed scheme, an intelligent switch incoming terminal assembly, an intelligent switch on-off mechanism, an intelligent switch operating handle and an intelligent switch outgoing terminal assembly form a primary loop of an integrated intelligent switch; the intelligent module component forms a secondary loop of the integrated intelligent switch, so that the intelligent control of the switch is realized. However, in this solution, wires are required to connect the controlled device and the switch, which not only wastes the power cord, but also has a large limitation on the installation of the switch position due to the presence of the power cord.

Therefore, it is desirable to provide an intelligent switch to solve the inconvenience caused by the presence of the power cord.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent lamp which can solve the inconvenience caused by the existence of a power line. This intelligence lamp includes: the intelligent lamp comprises a key control module, an intelligent lamp control module and at least one light-emitting element;

the key control module comprises: a wireless transmission circuit;

the intelligent lamp control module comprises: a wireless receiving circuit and at least one switching element;

the key control module is wirelessly connected with the intelligent lamp control module through the wireless transmitting circuit and the wireless receiving circuit;

the intelligent lamp control module is electrically connected with the at least one light-emitting element through the at least one switch element; wherein each of the light emitting elements is electrically connected with at least one of the switch elements;

the key control module is used for generating a corresponding intelligent lamp control instruction according to the triggering of a user and sending the intelligent lamp control instruction to the intelligent lamp control module through the wireless sending circuit;

and the intelligent lamp control module is used for receiving the intelligent lamp control instruction through the wireless receiving circuit and controlling the corresponding switch element according to the intelligent lamp control instruction so as to control the light-emitting element corresponding to the switch element through the switch element.

In a possible implementation manner, the key control module further includes: the key-press circuit comprises a key-press trigger circuit, a key-press identification circuit and a key-press power supply circuit;

the key trigger circuit, the key power supply circuit and the wireless transmitting circuit are all connected with the key identification circuit;

the key trigger circuit is used for generating an electric signal for controlling the intelligent lamp according to the trigger of a user and sending the electric signal to the key identification circuit;

the key identification circuit is used for generating the intelligent lamp control instruction in the form of an analog signal according to the received electric signal and sending the intelligent lamp control instruction to the wireless sending circuit;

the wireless transmitting circuit is used for transmitting the received intelligent lamp control instruction in the analog signal form to the intelligent lamp control module;

and the key power supply circuit is used for supplying power to the key control module.

In one possible implementation, the smart lamp control module further includes: the circuit comprises a signal processing circuit, a power supply circuit and a switch control circuit;

the wireless receiving circuit and the switch control circuit are both connected with the signal processing circuit;

the power supply circuit is respectively connected with the signal processing circuit and the switch control circuit;

the wireless receiving circuit is used for receiving the intelligent lamp control instruction and sending the intelligent lamp control instruction to the signal processing circuit;

the signal processing circuit is used for generating a corresponding switch action instruction according to the received intelligent lamp control instruction and sending the switch action instruction to the switch control circuit;

the switch control circuit is used for controlling the corresponding switch element according to the received switch action command;

and the power supply circuit is used for respectively supplying power to the signal processing circuit and the switch control circuit.

In one possible implementation, the switch control circuit includes: a relay control circuit;

the relay control circuit is connected with the at least one light-emitting element;

and the relay control circuit is used for controlling the relay according to the received switch action command so as to control the light-emitting element connected with the relay.

In one possible implementation, the switch control circuit includes: a triode control circuit;

the triode control circuit is connected with the at least one light-emitting element;

and the triode control circuit is used for controlling the triode according to the received switching action instruction so as to control the light-emitting element connected with the triode.

In one possible implementation, the power supply circuit includes: the intelligent lamp power supply circuit comprises an alternating current-direct current conversion circuit and an intelligent lamp power supply circuit;

the alternating current-direct current conversion circuit is connected with an alternating current power supply;

the alternating current-direct current conversion circuit is respectively connected with the signal processing circuit and the intelligent lamp power supply circuit;

the intelligent lamp power supply circuit is connected with the triode control circuit;

and the alternating current-direct current conversion circuit is used for converting alternating current generated by the alternating current power supply into direct current, supplying power to the signal processing circuit by utilizing the direct current and supplying power to the intelligent lamp power supply circuit by utilizing the direct current.

In one possible implementation, the wireless transmission circuit includes: bluetooth, ZIGBEE protocol ZIGBEE and 433 protocol.

In one possible implementation, the wireless receiving circuit includes: bluetooth, ZIGBEE protocol ZIGBEE and 433 protocol.

According to the technical scheme, the intelligent lamp provided by the embodiment of the utility model can comprise a key control module, an intelligent lamp control module and at least one light-emitting element, wherein the key control module can also comprise a wireless sending circuit, and the intelligent lamp control module can also comprise a wireless receiving circuit and a switch element. Therefore, the key control module and the intelligent lamp control module can be wirelessly connected through the wireless transmitting circuit and the wireless receiving circuit, and the intelligent lamp control module and the light-emitting element can be connected through the switch element and the light-emitting element. Therefore, when a user wants to control the lamp, the user can control the lamp through the keys on the key control module. Therefore, the key control module generates a corresponding intelligent lamp control instruction according to the triggering of the user and sends the instruction to the intelligent lamp control module through the wireless sending circuit. And when the wireless transmitting circuit receives the intelligent lamp control instruction, the instruction is processed and a corresponding instruction for controlling the switch element is generated, so that the control of the light-emitting element is realized by controlling the switch element. Therefore, the scheme provided by the utility model is controlled by a wireless function, a power line is not needed, and the key control module is not influenced by the power line and can be arranged at any position, so that the key control module is more convenient for a user to use and has better use experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a smart light provided in accordance with an embodiment of the present invention;

FIG. 2 is a diagram of a key control module according to an embodiment of the present invention;

fig. 3 is a schematic diagram of an intelligent lamp control module according to an embodiment of the present invention;

fig. 4 is a schematic diagram of another intelligent lamp control module provided by an embodiment of the utility model;

fig. 5 is a schematic diagram of another intelligent lamp control module provided by an embodiment of the utility model;

fig. 6 is a schematic diagram of another intelligent lamp control module according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a smart lamp, which may include: a key control module 100, an intelligent lamp control module 200 and at least one light emitting element 300;

the key control module 100 includes: a wireless transmission circuit 101;

the smart lamp control module 200 includes: a wireless receiving circuit 201 and at least one switching element 202;

the key control module 100 is wirelessly connected with the intelligent lamp control module 200 through a wireless transmitting circuit 101 and a wireless receiving circuit 201;

the smart lamp control module 200 is electrically connected with the at least one light emitting element 300 through the at least one switch element 202; wherein each light emitting device 300 is electrically connected to at least one switch device 202;

the key control module 100 is used for generating a corresponding intelligent lamp control instruction according to the triggering of a user and sending the intelligent lamp control instruction to the intelligent lamp control module 200 through the wireless sending circuit 101;

the intelligent lamp control module 200 is configured to receive an intelligent lamp control instruction through the wireless receiving circuit 201, and control the corresponding switch element 202 according to the intelligent lamp control instruction, so as to control the light emitting element 300 corresponding to the switch element 202 through the switch element 202.

In the embodiment of the present invention, the smart lamp may include a key control module 100, a smart lamp control module 200, and at least one light emitting element 300, where the key control module 100 may further include a wireless transmitting circuit 101, and the smart lamp control module 200 may further include a wireless receiving circuit 201 and a switching element 202. In this way, the key control module 100 and the smart lamp control module 200 can be wirelessly connected through the wireless transmitting circuit 101 and the wireless receiving circuit 201, and the smart lamp control module 200 and the light emitting element 300 can be connected through the switch element 202 and the light emitting element 300. It can be seen that when a user wants to control the lamp, it can be controlled by the keys on the key control module 100. In this way, the key control module 100 generates a corresponding intelligent lamp control command according to the triggering of the user, and sends the command to the intelligent lamp control module 200 through the wireless sending circuit 101. When the wireless transmission circuit 101 receives the smart lamp control instruction, the instruction is processed, and a corresponding instruction for controlling the switch element 202 is generated, so that the switch element 202 is controlled to control the light emitting element 300. Therefore, the scheme provided by the utility model is controlled by a wireless function, a power line is not needed, and the key control module 100 is not influenced by the power line and can be installed at any position, so that the use is more convenient for a user and better use experience is achieved.

In one possible implementation, the wireless transmission circuit 101 may include bluetooth, ZIGBEE, 433, and the like; likewise, the wireless receiving circuit 201 may also include bluetooth, ZIGBEE, 433, and the like. So, can couple together button control module 100 and intelligent lamp control module 200 through wireless connection modes such as bluetooth, ZIGBEE agreement ZIGBEE and 433 agreement, avoided adopting the power cord to connect to can solve because the existence of power cord is the inconvenience that the user brought.

In addition, in this embodiment, the switch element 202 in the smart lamp control module 200 may include components such as a relay and a triode, and the light emitting element 300 may include a light bulb, an LED, and the like. By connecting the switch element 202 and the light-emitting element 300 in this manner, the light-emitting and the turn-off of the light-emitting element 300 can be controlled by controlling the on/off of the switch element 202.

It is easy to understand that the smart lamp control module 200 and the key control module 100 may be in two independent product forms, and the wireless connection between the two modules may be completed in the factory pairing, or the corresponding relationship between the smart lamp control module 200 and the key control module 100 may be reconfigured; similarly, the light emitting element 300 may be in a separate product form, and the light emitting element 300 may be mounted by purchasing a light bulb, a light emitting diode, or the like.

In one possible implementation manner, as shown in fig. 2, the key control module 100 further includes: a key trigger circuit 102, a key identification circuit 103 and a key power supply circuit 104;

the key trigger circuit 102, the key power supply circuit 104 and the wireless transmitting circuit 101 are all connected with the key identification circuit 103;

the key triggering circuit 102 is used for generating an electric signal for controlling the intelligent lamp according to the triggering of a user and sending the electric signal to the key identification circuit 103;

the key identification circuit 103 is used for generating an intelligent lamp control instruction in an analog signal form according to the received electric signal and sending the intelligent lamp control instruction to the wireless sending circuit 101;

the wireless transmitting circuit 101 is used for transmitting the received intelligent lamp control instruction in the form of the analog signal to the intelligent lamp control module 200;

and the key power supply circuit 104 is used for supplying power to the key control module 100.

In the embodiment of the present invention, the key control module 100 may further include a key triggering circuit 102, a key identification circuit 103, and a key power supply circuit 104, in addition to the wireless transmission circuit 101. The key power supply circuit 104 and the wireless transmission circuit 101 are both connected to the key identification circuit 103. In this way, when the user generates an electrical signal for controlling the smart lamp through the key triggering circuit 102, the key identification circuit 103 can generate a corresponding smart lamp control instruction according to the electrical signal, and send the instruction to the smart lamp control module 200 through the wireless sending circuit 101, so as to control the light emitting element 300 by the smart lamp. Therefore, the key control module 100 can be set at any position, and can be set at a specific position without being limited by a power line, so that the use experience of a user can be improved.

In this embodiment, the key power supply circuit 104 is connected to the key identification circuit 103, so as to supply power to the key control module 100. The input end of the key power supply circuit 104 may be 220v of household alternating current, or may be direct current formed by a battery or a battery pack. It is easy to understand that when the input terminal of the key power supply circuit 104 is 220V household ac, in a possible implementation manner, ac needs to be converted into dc by the ac/dc conversion element or the ac/dc conversion circuit 2031, so as to supply power to the key control module 100.

It should be noted that the key identification circuit 103 may include at least one processor, so that the processor processes the received electrical signals and generates corresponding intelligent control commands.

In one possible implementation, as shown in fig. 3, the smart lamp control module 200 further includes: a signal processing circuit 205, a power supply circuit 203, and a switch control circuit 204;

the wireless receiving circuit 201 and the switch control circuit 204 are both connected with the signal processing circuit 205;

the power supply circuit 203 is connected with the signal processing circuit 205 and the switch control circuit 204 respectively;

the wireless receiving circuit 201 is used for receiving the intelligent lamp control instruction and sending the intelligent lamp control instruction to the signal processing circuit 205;

the signal processing circuit 205 is used for generating a corresponding switch action instruction according to the received intelligent lamp control instruction and sending the switch action instruction to the switch control circuit 204;

a switch control circuit 204 for controlling the corresponding switch element 202 according to the received switch action command;

and a power supply circuit 203 for supplying power to the signal processing circuit 205 and the switch control circuit 204, respectively.

In the embodiment of the present invention, the smart lamp control module 200 may further include a signal processing circuit 205, a power circuit 203, and a switch control circuit 204 in addition to the wireless receiving circuit 201. The wireless receiving circuit 201 and the switch control circuit 204 are both connected to the signal processing circuit 205, and the power supply circuit 203 is connected to the signal processing circuit 205 and the switch control circuit 204, respectively. In this way, after the wireless receiving circuit 201 receives the intelligent lamp control instruction, the signal processing circuit 205 may generate a corresponding switch action instruction according to the received intelligent lamp control instruction, so as to control the corresponding switch, and further realize the control of lighting and extinguishing of the light emitting element 300 through on-off control of the switch. Therefore, according to the scheme, the signal processing circuit 205 can accurately generate the command for controlling the switching action of the intelligent lamp according to the control command of the intelligent lamp, so that the switch control circuit 204 controls the corresponding switch element 202 to realize the lighting or extinguishing of the light-emitting element 300.

It should be noted that the signal processing circuit 205 may include at least one processor, so that when receiving the smart lamp control command, the signal processing circuit can process the smart lamp control command and generate a corresponding switch action command for controlling the switch element 202, thereby controlling the light emitting element 300.

In one possible implementation, as shown in fig. 4, the switch control circuit 204 includes: a relay control circuit 2041;

the relay control circuit 2041 is connected to the at least one light emitting element 300;

the relay control circuit 2041 is configured to control the relay according to the received switching operation command, so as to control the light emitting element 300 connected to the relay.

In the embodiment of the present invention, it is possible to control whether the light emitting element 300 emits light or not by on/off of the relay in consideration of the fact that the relay is principally one switching element 202. Therefore, in this embodiment, the switch control circuit 204 may include the relay control circuit 2041, such that by connecting the relay control circuit 2041 with the light emitting element 300 or by connecting the relay with the light emitting element 300, the relay control circuit 2041 may control the relay according to the received switch action command, so as to control the light emitting element 300 connected with the relay.

In another possible implementation manner, as shown in fig. 5, the switch control circuit 204 may also be a triode control circuit 2042; the triode control circuit 2042 is connected to the at least one light emitting element 300;

the triode control circuit 2042 is configured to control the triode according to the received switching operation command, so as to control the light emitting element 300 connected to the triode.

In the embodiment of the present invention, it is considered that a transistor may also be used as one of the switching elements 202, and whether the light emitting element 300 emits light or not may be controlled by turning on or off the transistor. Therefore, in this embodiment, the switching control circuit 204 may be a transistor control circuit 2042, and by connecting the transistor control circuit 2042 or a transistor to the light emitting element 300, the transistor control circuit 2042 may control the transistor according to the received switching operation command, so as to control the light emitting element 300 connected to the transistor.

It is to be understood that, in some other implementations, the switch control circuit 204 may be a circuit including the switching element 202 such as a field effect transistor.

Based on the switch control circuit 204 shown in fig. 5, in one possible implementation, as shown in fig. 6, the power supply circuit 203 may include: an alternating current-direct current conversion circuit 2031 and an intelligent lamp power supply circuit 2032;

the ac-dc conversion circuit 2031 is connected to an ac power supply;

the ac-dc conversion circuit 2031 is connected to the signal processing circuit 205 and the intelligent lamp power supply circuit 2032 respectively;

the intelligent lamp power supply circuit 2032 is connected to the triode control circuit 2042;

the ac-dc conversion circuit 2031 is configured to convert ac power generated by the ac power supply into dc power, supply power to the signal processing circuit 205 by using the dc power, and supply power to the smart lamp power supply circuit 2032 by using the dc power.

In the embodiment of the present invention, in consideration of the low-voltage dc operating characteristics of the triode, when the household 220V ac is used as the power supply, the ac/dc conversion circuit 2031 is required to convert the ac/dc into two paths of dc, one of the converted dc is used to supply power to the signal processing circuit 205, and the other is used to supply power to the triode control circuit 2042 through the intelligent lamp power supply circuit 2032, so as to meet the operating requirements of various components and realize the control of the light emitting element 300.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, 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 a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. Intelligent lamp, its characterized in that includes: the intelligent lamp control system comprises a key control module (100), an intelligent lamp control module (200) and at least one light-emitting element (300);

the key control module (100) comprises: a wireless transmission circuit (101);

the smart lamp control module (200) comprises: a wireless receiving circuit (201) and at least one switching element (202);

the key control module (100) is wirelessly connected with the intelligent lamp control module (200) through the wireless transmitting circuit (101) and the wireless receiving circuit (201);

the intelligent lamp control module (200) is electrically connected with the at least one light-emitting element (300) through the at least one switch element (202); wherein each of the light emitting elements (300) is electrically connected with at least one of the switch elements (202);

the key control module (100) is used for generating a corresponding intelligent lamp control instruction according to the triggering of a user and sending the intelligent lamp control instruction to the intelligent lamp control module (200) through the wireless sending circuit (101);

the intelligent lamp control module (200) is used for receiving the intelligent lamp control instruction through the wireless receiving circuit (201), and controlling the corresponding switch element (202) according to the intelligent lamp control instruction, so that the switch element (202) is used for controlling the light-emitting element (300) corresponding to the switch element (202).

2. The smart lamp of claim 1, wherein the key control module (100) further comprises: the key control circuit comprises a key trigger circuit (102), a key identification circuit (103) and a key power supply circuit (104);

the key trigger circuit (102), the key power supply circuit (104) and the wireless transmitting circuit (101) are all connected with the key identification circuit (103);

the key trigger circuit (102) is used for generating an electric signal for controlling the intelligent lamp according to the trigger of a user and sending the electric signal to the key identification circuit (103);

the key identification circuit (103) is used for generating the intelligent lamp control instruction in the form of an analog signal according to the received electric signal and sending the intelligent lamp control instruction to the wireless sending circuit (101);

the wireless transmitting circuit (101) is used for transmitting the received intelligent lamp control instruction in the form of the analog signal to the intelligent lamp control module (200);

the key power supply circuit (104) is used for supplying power to the key control module (100).

3. The smart lamp of claim 1, wherein the smart lamp control module (200) further comprises: a power supply circuit (203), a switch control circuit (204), and a signal processing circuit (205);

the wireless receiving circuit (201) and the switch control circuit (204) are both connected with the signal processing circuit (205);

the power supply circuit (203) is respectively connected with the signal processing circuit (205) and the switch control circuit (204);

the wireless receiving circuit (201) is used for receiving the intelligent lamp control instruction and sending the intelligent lamp control instruction to the signal processing circuit (205);

the signal processing circuit (205) is used for generating a corresponding switch action instruction according to the received intelligent lamp control instruction and sending the switch action instruction to the switch control circuit (204);

the switch control circuit (204) is used for controlling the corresponding switch element (202) according to the received switch action command;

the power supply circuit (203) is used for respectively supplying power to the signal processing circuit (205) and the switch control circuit (204).

4. The smart lamp of claim 3, wherein the switch control circuit (204) comprises: a relay control circuit (2041);

the relay control circuit (2041) is connected to the at least one light-emitting element (300);

and the relay control circuit (2041) is used for controlling the relay according to the received switch action command so as to control a light-emitting element (300) connected with the relay.

5. The smart lamp of claim 3, wherein the switch control circuit (204) comprises: a triode control circuit (2042);

the triode control circuit (2042) is connected with the at least one light-emitting element (300);

and the triode control circuit (2042) is used for controlling the triode according to the received switching action command so as to control the light-emitting element (300) connected with the triode.

6. The smart lamp of claim 5, wherein the power circuit (203) comprises: the intelligent lamp power supply circuit comprises an alternating current-direct current conversion circuit (2031) and an intelligent lamp power supply circuit (2032);

the alternating current-direct current conversion circuit (2031) is connected with an alternating current power supply;

the alternating current-direct current conversion circuit (2031) is respectively connected with the signal processing circuit (205) and the intelligent lamp power supply circuit (2032);

the intelligent lamp power supply circuit (2032) is connected with the triode control circuit (2042);

the alternating current-direct current conversion circuit (2031) is used for converting alternating current generated by the alternating current power supply into direct current, supplying power to the signal processing circuit (205) by using the direct current, and supplying power to the intelligent lamp power supply circuit (2032) by using the direct current.

7. The smart lamp according to any one of claims 1 to 6, wherein the wireless transmission circuit (101) comprises: bluetooth, ZIGBEE protocol ZIGBEE and 433 protocol.

8. The smart lamp according to any one of claims 1 to 6, wherein the wireless receiving circuit (201) comprises: bluetooth, ZIGBEE protocol ZIGBEE and 433 protocol.

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