CN212910136U - Switch, lamp and lamp system - Google Patents

Abstract

The utility model discloses a switch is applied to the lamps and lanterns system, and this switch includes switch body, first wireless control module and a AC-DC conversion module. In the scheme, the first AC-DC conversion module converts an external AC power supply into a DC power supply and then supplies power to the switch body and the first wireless control module, and the first wireless control module can correspondingly control the lamp according to corresponding action information generated by a user operating the switch body or control information received in a wireless mode. Therefore, the first wireless control module can be powered on all the time by the scheme, so that a user can control the on/off of the lamp through the switch body at any time, and can control the on/off of the lamp through a remote controller or a terminal APP and other wireless modes at any time, and the flexibility is high. The utility model also discloses a lamps and lanterns and lamps and lanterns system has the same beneficial effect with above-mentioned switch.

Description

Switch, lamp and lamp system

Technical Field

The utility model relates to a sensor field, power line carrier technical field and structure field especially relate to a switch, lamps and lanterns and lamps and lanterns system.

Background

With the development of electronic technology, more and more lamp types appear in the market, and the switch of the lamp is more and more intelligent. The switch usually includes wireless control module and all sets up mechanical switch and the controllable switch on zero line or live wire for the lamps and lanterns power supply, and the user can the shutoff or the closure of manual control mechanical switch, and wherein, when mechanical switch closed, lamps and lanterns and wireless control module all got electric, and lamps and lanterns are bright, and the user can also be through the shutoff or the closure of remote controller or terminal APP (Application) wireless control controllable switch. When the mechanical switch is turned off, the lamp and the wireless control module are both powered off, and a user cannot control the on and off of the lamp through the wireless control module. Therefore, by adopting the switch in the prior art, a user cannot wirelessly control the on and off of the lamp through the remote controller or the terminal APP at any time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a switch, lamps and lanterns and lamps and lanterns system can make first wireless control module get the electricity always for the user both can control the bright going out of lamps and lanterns through the switch body at any time, also can control the bright going out of lamps and lanterns through wireless mode such as remote controller or terminal APP at any time, and the flexibility ratio is high.

In order to solve the technical problem, the utility model provides a switch is applied to the lamps and lanterns system, the lamps and lanterns system still includes the lamps and lanterns of being connected with outside alternating current power supply, the switch includes:

the switch body is used for generating corresponding action information according to user operation;

the first wireless control module is connected with the switch body and used for correspondingly controlling the lamp according to the action information or the first control information received in a wireless mode;

the first alternating current-direct current conversion module is used for converting the external alternating current power supply into direct current and then supplying power to the switch body and the first wireless control module.

Preferably, the luminaire comprises a demodulation module;

further comprising:

and the modulation module is respectively connected with the first wireless control module and the first AC-DC conversion module and is used for modulating the action information or the first control information to a live wire and a zero wire of the external AC power supply so as to send the action information or the first control information to the demodulation module.

Preferably, the switch body includes:

the poking baffle is used for driving the magnetic element to be close to or far away from the Hall sensor under the operation of a user;

the magnetic element is arranged on the poking baffle;

the Hall sensor is connected with the magnetic element and used for generating corresponding ground level signals when the magnetic element is close to or far away from the magnetic element.

In order to solve the above problem, the utility model also provides a lamp for the lamp system, the lamp system still includes the switch of being connected with outside alternating current power supply, lamp includes:

a lamp body;

the driving module is connected with the lamp body;

the control module is connected with the driving module and used for correspondingly controlling the lamp body through the driving module according to the action information or the first control information sent by the switch; the action information is information generated according to user operation, and the first control information is information received by the switch in a wireless mode;

and the second AC-DC conversion module is used for converting the external AC power supply into DC and then supplying power to the driving module and the control module.

Preferably, the control module is a second wireless control module, and is specifically configured to receive the action information or the first control information sent by the switch in a wireless manner and correspondingly control the lamp body through the driving module.

Preferably, the switch comprises a modulation module;

further comprising:

and the demodulation module is respectively connected with the control module and the second AC-DC conversion module and is used for demodulating the action information or the first control information modulated to the live wire and the zero wire of the external AC power supply by the modulation module.

In order to solve the above problem, the present invention further provides a lamp system, which includes the switch and the lamp as described above.

The utility model provides a switch is applied to the lamps and lanterns system, and this switch includes switch body, first wireless control module and a AC-DC conversion module. In the scheme, the first AC-DC conversion module converts an external AC power supply into a DC power supply and then supplies power to the switch body and the first wireless control module, and the first wireless control module can correspondingly control the lamp according to corresponding action information generated by a user operating the switch body or control information received in a wireless mode. Therefore, the first wireless control module can be powered on all the time by the scheme, so that a user can control the on/off of the lamp through the switch body at any time, and can control the on/off of the lamp through a remote controller or a terminal APP and other wireless modes at any time, and the flexibility is high.

The utility model also provides a lamps and lanterns are applied to the lamps and lanterns system, and these lamps and lanterns include lamp body, drive module, control module and second AC-DC conversion module. In the scheme, the second AC-DC conversion module converts an external AC power supply into a DC power supply and then supplies power to the lamp body and the control module, and the control module correspondingly controls the lamp body when receiving action information generated by a switch body in a switch or first control information received by a first wireless control module connected with the switch body in the switch in a wireless mode. It is thus clear that this scheme makes the first wireless control module in the switch and the drive module in the lamps and lanterns to be electrified always, and alright realize controlling the bright or dark of lamp body after receiving action information or first control information for the user both can control the bright or dark of lamps and lanterns through the switch body at any time, also can be through the bright or dark of remote controller or terminal APP wireless control lamps and lanterns at any time, and the flexibility ratio is high.

The utility model also provides a lamp system, include the same beneficial effect with above-mentioned switch and lamps and lanterns.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required in the prior art and the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a switch provided by the present invention;

fig. 2 is a schematic structural diagram of another switch provided by the present invention;

fig. 3 is a schematic structural view of a lamp provided by the present invention;

fig. 4 is a working schematic diagram of a lamp system provided by the present invention;

fig. 5a is a schematic view of a lamp system when the switch body is in a light-on state;

fig. 5b is a schematic view of a lamp system when the switch body is in the off state;

fig. 6 is a schematic structural diagram of a lamp system provided by the present invention.

Detailed Description

The core of the utility model is to provide a switch, lamps and lanterns and lamps and lanterns system can make first wireless control module always get electric for the user both can control the bright going out of lamps and lanterns through the switch body at any time, also can control the bright going out of lamps and lanterns through wireless mode such as remote controller or terminal APP at any time, and the flexibility ratio is high.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying 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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a switch according to the present invention.

This switch is applied to the lamps and lanterns system, and the lamps and lanterns that the lamps and lanterns system still includes and is connected with outside alternating current power supply, and the switch includes:

the switch body 1 is used for generating corresponding action information according to user operation;

the first wireless control module 2 is connected with the switch body 1 and used for correspondingly controlling the lamp according to the action information or the first control information received in a wireless mode;

the first AC-DC conversion module 3 is connected with the switch body 1 and the first wireless control module 2 at the input end and the output end respectively, and is used for supplying power to the switch body 1 and the first wireless control module 2 after converting the external AC power into the DC power.

The applicant considers that the switches in the prior art generally comprise a wireless control module, and a mechanical switch and a controllable switch both arranged on a zero line or a live line for supplying power to a lamp, and a user can manually control the on/off of the mechanical switch, wherein when the mechanical switch is turned off, the lamp and the wireless control module are both powered on, the lamp is on, and the user can also wirelessly control the on/off of the controllable switch through a remote controller or a terminal APP. However, when the mechanical switch is turned off, the lamp and the wireless control module are both powered off, and at the moment, the user cannot control the on/off of the lamp through the wireless control module.

In this embodiment, the switch body 1, the first wireless control module 2 and the first ac-dc conversion module 3 are disposed in the switch, and the first ac-dc conversion module 3 converts an external ac power into a dc power and then supplies power to the switch body 1 and the first wireless control module 2, so that the switch body 1 and the first wireless control module 2 are always powered on. The user can control the lamp by performing corresponding operation on the switch body 1, specifically, when the user operates the switch body 1, the switch body 1 can generate corresponding action information according to the user operation, and the first wireless control module 2 can correspondingly control the lamp according to the action information, for example, the user can toggle the switch body 1 for different times, and can control the lamp to be turned on or off or switch different color temperatures and the like; the first wireless control module 2 may also receive control information sent by the user through a remote controller or a terminal APP in a wireless manner, so as to control the lamp accordingly, for example, the user may wirelessly control the lamp to turn on or off or switch different color temperatures through the remote controller or the terminal APP on the mobile phone.

Specifically, the action information here may be level information, and specifically may be high level or low level. The first wireless control module 2 here includes a wireless module and a processor, wherein the wireless module here may be WiFi, bluetooth, etc., and the application is not limited thereto.

In addition, the use habits of a plurality of customers are considered, the switch can adopt a gear shifting switch, and the adoption of the gear shifting switch can lead the customers to adapt to the use habits, thereby improving the humanization degree of the switch. However, the switch is not limited to the shift switch, and it is specifically the type of switch that is used, and the present application is not limited thereto.

To sum up, the utility model provides a switch is applied to the lamps and lanterns system, and this switch includes switch body 1, first wireless control module 2 and first AC-DC conversion module 3. In this scheme, the first ac-dc conversion module 3 converts an external ac power into a dc power and then supplies power to the switch body 1 and the first wireless control module 2, and the first wireless control module 2 can correspondingly control the lamp according to corresponding action information generated by the user operating the switch body 1 or control information received in a wireless manner. It is thus clear that this scheme can make first wireless control module 2 get electric always for the user both can control the bright of lamps and lanterns through switch body 1 at any time, also can control the bright of lamps and lanterns through wireless modes such as remote controller or terminal APP at any time, and the flexibility ratio is high.

Please refer to fig. 2, fig. 3 and fig. 4, fig. 2 is a schematic structural diagram of another switch provided by the present invention, fig. 3 is a schematic structural diagram of a lamp provided by the present invention, and fig. 4 is a schematic working diagram of a lamp system provided by the present invention.

On the basis of the above-described embodiment:

as a preferred embodiment, the controlling the light fixture according to the motion information comprises:

generating second control information according to the combination of action information received at preset time, wherein the preset time takes the received first action information as a time starting point and a time stopping point after a preset fixed time period;

and correspondingly controlling the lamp according to the second control information.

Considering that the switch body 1 usually includes only two states of "on" and "off", but the control of the lamp may include a plurality of types such as on control, off control, color temperature control, etc., in order to perform a plurality of types of control on the lamp through the switch body 1, in the present application, the lamp is controlled in a plurality of types by performing different operations on the switch body 1 within a preset time, so that the lamp is controlled in a plurality of types based on a combination of the operation information of the switch body 1 within the preset time. For example: when the combination of the operation information of the switch body 1 is "on" within 3s, the second control information generated at this time is on control information to control lighting of the lamp. When the combination of the operation information of the switch body 1 is "off" within 3s, the second control information generated at this time is off control information so as to control the lamp to be turned off. When the combination of the action information of the switch body 1 in 3s is "switch on", the second control information generated at this time is the first color temperature control information, so as to control the lamp to adjust to the first color temperature. When the combination of the action information of the switch body 1 in 3s is "switch", the second control information generated at this time is second color temperature control information so as to control the lamp to adjust to the second color temperature.

Based on this, in the present application, the first wireless control module 2 generates the second control information according to the combination of the action information received within the preset time, specifically, the first wireless control module 2 starts timing after receiving the first action information sent by the switch body 1, and is terminated after a preset fixed time period, and then generates the second control information based on the combination of all the action information within the time period, so as to correspondingly control the lamp based on the second control information. Therefore, through acquiring the combination of the action information in the preset time, the lamps can be controlled in various ways based on one switch body 1, a plurality of switch bodies 1 are not required to be arranged, and the size and the cost of the switch are reduced.

It should be noted that, in consideration of the time of the user operation in the practical application, the preset time is usually set to 3 seconds, but of course, the preset time is not limited to 3 seconds, and the specific preset time is set, and the present application is not particularly limited herein and is determined according to the practical situation.

As a preferred embodiment, the first control information and/or the second control information includes light-on control information, light-off control information, and color temperature control information.

In consideration of the fact that in practical application, a lamp generally has an on state and an off state, and different color temperatures also exist in the on state, in this embodiment, the first control information and/or the second control information includes lamp-on control information, lamp-off control information, and color temperature control information, which not only can control the lamp to be turned on and off by means of on-off or wireless control, but also can switch the lamp with different color temperatures by means of on-off or wireless control, and the intelligence is high.

Here, the switching method of the color temperature generally includes setting lamp bodies 5 with different color temperatures in the lamp, and switching the color temperature of the lamp by controlling on and off of the lamp bodies 5 with different color temperatures. However, the method for switching the color temperature is not limited to this method, and the present application is not limited thereto.

In addition, the first control information and/or the second control information are not limited to the light-on control information, the light-off control information, and the color temperature control information, and the application is not limited thereto.

As a preferred embodiment, the luminaire comprises a second wireless control module;

the first wireless control module 2 is specifically configured to receive the motion information or the first control information received in a wireless manner, and send the motion information or the first control information to the second wireless control module in a wireless manner.

Considering that the first wireless control module 2 of the switch includes a wireless module for wirelessly receiving the second control information sent by the user in a wireless manner through a remote controller or a terminal APP, etc., when the lamp includes the second wireless control module, that is, the lamp has a wireless receiving function, at this time, when the first wireless control module 2 receives the action information or the first control information received in a wireless manner, the action information or the first control information can be sent to the second wireless control module in a wireless manner, so that the switch can wirelessly control the on, off or color temperature switching of the lamp, and the intelligence degree of the lamp system is improved.

Here, the manner of transmitting the operation information or the first control information to the second wireless control module is not limited to a wireless manner, and the specific manner is not particularly limited in the present application.

As a preferred embodiment, the luminaire comprises a demodulation module 9;

further comprising:

and the modulation module 4 is connected to the first wireless control module 2 and the first ac-dc conversion module 3, and is configured to modulate the motion information or the first control information onto the live wire and the neutral wire of the external ac power source, so as to send the motion information or the first control information to the demodulation module 9.

In the present application, the switch may transmit the operation information or the first control information to the lamp wirelessly, or may transmit the operation information or the first control information to the lamp by wire. Specifically, in this embodiment, a modulation module 4 connected to the first wireless control module 2 and the first ac-dc conversion module 3 is further provided, after the first wireless control module 2 receives corresponding action information generated by the user operating the switch body 1 or receives the first control information in a wireless manner, the modulation module 4 modulates the action information or the first control information onto the live wire and the zero wire of the external ac power supply, so as to send the action information or the first control information to the demodulation module 9 in the lamp through the live wire and the zero wire, so that the demodulation module 9 demodulates the action information or the first control information, thereby realizing control of the switch on/off or color temperature switching of the lamp, and realizing multiplexing of the live wire and the zero wire, without additionally increasing a signal transmission line, and reducing cost.

It should be noted that, here, the first ac-dc conversion module 3 converts an external ac power into a dc power and then supplies power to the modulation module 4.

In addition, which modulation module 4 and demodulation module 9 are specifically used here is not particularly limited in this application.

Referring to fig. 5a and 5b, fig. 5a is a schematic view of a lamp system when the switch body is in the on state, and fig. 5b is a schematic view of the lamp system when the switch body is in the off state.

As a preferred embodiment, the switch body 1 comprises:

the poking baffle is used for driving the magnetic element 11 to be close to the Hall sensor 12 or to be far away from the Hall sensor 12 under the operation of a user;

a magnetic element 11 arranged on the baffle;

a hall sensor 12 connected to the magnetic element 11 for generating a corresponding ground level signal when the magnetic element 11 is close to or far away from.

In consideration of the usage habits of many customers in practical application, in the embodiment, the switch body 1 is a shift switch. Specifically, a magnetic element 11 and a hall sensor 12 connected to the magnetic element 11 are provided on a dial plate in the switch body 1. When the user operates the dial baffle, the dial baffle can drive the magnetic element 11 to be close to the Hall sensor 12 or be far away from the Hall sensor 12, the Hall sensor 12 can generate a corresponding ground level signal when the magnetic element 11 is close to or is far away from, the first wireless control module 2 generates second control information through the combination of the level signals in the preset time, and then the lamp is correspondingly controlled according to the second control information.

For example: when the combination of the level signals of the switch body 1 is "high" within 3s, the second control information generated at this time is on control information to control lighting of the lamp. When the combination of the level signals of the switch body 1 is "low" within 3s, the second control information generated at this time is off control information so as to control the lamp to be turned off. When the combination of the level signals of the switch body 1 is "high-low-high" within 3s, the second control information generated at this time is the first color temperature control information, so as to control the lamp to adjust to the first color temperature. When the combination of the level signals of the switch body 1 is "high-low" within 3s, the second control information generated at this time is second color temperature control information, so as to control the lamp to adjust to a second color temperature.

This scheme can generate the combination of corresponding ground level signal through the operation of the user to dialling the shelves in switch body 1 in the preset time, and first wireless control module 2 controls lamps and lanterns through the combination of corresponding ground level signal correspondingly, and in addition, the mode that adopts dialling the shelves can let the customer adapt in using to habitually, has promoted the humanized degree of switch.

The magnetic element 11 may be a magnet, but is not limited to a magnet, and specifically, the type of the magnetic element 11 is selected, and the present application is not limited thereto.

As a preferred embodiment, the switch bodies 1 are plural, and the lamp includes lamp bodies 5 corresponding to the plural switch bodies 1 one to one;

the first wireless control module 2 is further configured to generate a check code corresponding to the switch body 1 one to one when receiving the action information of the switch body 1, so as to correspondingly control the lamp body 5 corresponding to the check code according to the action information.

Considering that the switch bodies 1 correspond to the lamp bodies 5 one by one, and the switch bodies 1 and the lamp bodies 5 corresponding to the switch bodies can be controlled by one first wireless control module 2, in order to prevent the user from turning off other lamp bodies 5 by mistake when operating the switch bodies 1.

In this embodiment, the first wireless control module 2 generates a check code corresponding to the switch body 1 one to one when receiving the action information of the switch body 1, and the lamp determines the lamp body 5 to be controlled based on the check code after receiving the check code and the action information. As can be seen, by controlling the lamp body 5 corresponding to the check code according to the operation information, it is possible to prevent the user from turning off the other lamp bodies 5 by mistake when operating the switch body 1.

It should be noted that, after the first wireless control module 2 receives the action information of the switch body 1 and generates the check code corresponding to the switch body 1 one by one, the modulation module 4 modulates the check code to the live line and the zero line of the external ac power supply and sends the check code to the demodulation module 9, so as to correspondingly control the lamp body 5 corresponding to the switch body 1.

In addition, the check code can be customized according to the actual situation, and the application is not particularly limited herein.

The utility model also provides a lamps and lanterns are applied to the lamps and lanterns system, and the lamps and lanterns system still includes the switch of being connected with outside alternating current power supply, and this lamps and lanterns include:

a lamp body 5;

a driving module 6 connected with the lamp body 5;

the control module 7 is connected with the driving module 6 and is used for correspondingly controlling the lamp body 5 through the driving module 6 according to the action information or the first control information sent by the switch; the action information is information generated according to user operation, and the first control information is information received by the switch in a wireless mode;

and the second AC-DC conversion module 8 is used for converting the external AC power supply into DC power and then supplying power to the driving module 6 and the control module 7.

The applicant considers that in the prior art, the switch generally comprises a wireless control module, and a mechanical switch and a controllable switch both arranged on a zero line or a live line for supplying power to the lamp, and a user can manually control the on/off of the mechanical switch, wherein when the mechanical switch is turned off, the lamp and the wireless control module are both powered on, the lamp is on, and the user can also wirelessly control the on/off of the controllable switch through a remote controller or a terminal APP. However, when the mechanical switch is turned off, the lamp and the wireless control module are both powered off, so that the driving module 6 in the lamp is powered off, and at the moment, the user cannot control the lamp to be turned on or off through the wireless control module.

In this embodiment, the lamp includes a lamp body 5, a driving module 6, a control module 7, and a second ac-dc conversion module 8. The second ac-dc conversion module 8 in the lamp directly supplies power to the lamp body 5, the driving module 6 and the control module 7 after converting the external ac power into the dc power with the live wire and the zero line of the external ac power, so that the lamp body 5, the driving module 6 and the control module 7 are always powered on, and the control module 7 can correspondingly control the lamp body 5 through the driving module 6 according to the action information or the first control information sent by the switch at any time.

Here, the operation information is information generated by a user operation, and the first control information is information received wirelessly by the switch.

The lamp body 5 is an LED (Light Emitting Diode), but is not limited to an LED lamp, and specifically, which type of lamp body 5 is used, and the present application is not limited thereto.

To sum up, the utility model provides a lamp is applied to the lamps and lanterns system, and this lamps and lanterns include lamp body 5, drive module 6, control module 7 and second AC-DC conversion module 8. In this scheme, the second ac-dc conversion module 8 converts an external ac power into a dc power and then supplies power to the lamp body 5, the driving module 6 and the control module 7, and the control module 7 correspondingly controls the driving module 6 when receiving the action information generated by the switch body 1 in the switch or the first control information wirelessly received by the first wireless control module 2 connected to the switch body 1 in the switch, thereby controlling the on/off of the lamp body 5. It can be seen that this scheme makes the first wireless control module 2 in the switch and the drive module 6 in the lamps and lanterns to be electrified always, and alright realize controlling the bright and dark of lamp body 5 after receiving action information or first control information for the user both can control the bright and dark of lamps and lanterns through switch body 1 at any time, also can control the bright and dark of lamps and lanterns through remote controller or terminal APP wireless control lamps and lanterns at any time, and the flexibility ratio is high.

On the basis of the above-described embodiment:

as a preferred embodiment, the control module 7 is a second wireless control module, and is specifically configured to receive the action information or the first control information sent by the switch in a wireless manner and control the lamp body 5 accordingly through the driving module 6.

Specifically, in this embodiment, the control module 7 may be a second wireless control module, that is, includes a wireless module, when the first wireless control module 2 receives the action information or the first control information received in a wireless manner, the action information or the first control information is sent to the second wireless control module in a wireless manner, the second wireless control module receives the action information or the first control information sent by the switch in a wireless manner, and correspondingly controls the lamp body 5 through the driving module 6 based on the action information or the first control information, thereby implementing wireless communication between the switch and the lamp, and improving the intelligence degree of the lamp system.

Here, the manner of transmitting the operation information or the first control information to the second wireless control module is not limited to a wireless manner, and the specific manner is not particularly limited in the present application.

As a preferred embodiment, the switch comprises a modulation module 4;

further comprising:

and the demodulation module 9 is respectively connected with the control module 7 and the second AC-DC conversion module 8 and is used for demodulating the action information or the first control information modulated to the live wire and the zero wire of the external AC power supply by the modulation module 4.

In the present application, the switch may transmit the operation information or the first control information to the lamp wirelessly, or may transmit the operation information or the first control information to the lamp by wire. Specifically, the switch modulates the action information onto the live wire and the zero wire of the external alternating current power supply, in this embodiment, a demodulation module 9 connected to the control module 7 and the second ac-dc conversion module 8 is further provided, and the demodulation module 9 demodulates the action information or the first control information modulated onto the live wire and the zero wire of the external alternating current power supply by the modulation module 4, and sends the action information or the first control information to the control module 7, so that the control module 7 correspondingly controls the lamp body 5 through the driving module 6 based on the action information or the first control information.

It should be noted that, which modulation module 4 and demodulation module 9 are specifically used here, the present application is not particularly limited herein.

As a preferred embodiment, the lamp bodies 5 are plural, and the switch includes a switch body 1 corresponding to the plural lamp bodies 5 one to one;

the control module 7 is further configured to correspondingly control the lamp body 5 corresponding to the check code according to the action information when the action information and the check code are received; wherein, the check code corresponds to the switch body 1 which sends the action information one by one.

Considering that the switch bodies 1 correspond to the lamp bodies 5 one by one, and the switch bodies 1 and the lamp bodies 5 corresponding to the switch bodies can be controlled by one first wireless control module 2, in order to prevent the user from turning off other lamp bodies 5 by mistake when operating the switch bodies 1.

In this embodiment, the first wireless control module 2 generates a check code corresponding to the switch body 1 one to one when receiving the action information of the switch body 1, and the lamp determines the lamp body 5 to be controlled based on the check code after receiving the check code and the action information. As can be seen, this scheme can prevent the user from turning off the other lamp bodies 5 by mistake when operating the switch body 1.

It should be noted that, after the first wireless control module 2 receives the action information of the switch body 1 and generates the check code corresponding to the switch body 1 one to one, the modulation module 4 modulates the check code onto the live wire and the zero wire of the external ac power supply and sends the modulated check code to the demodulation module 9, then, the demodulation module 9 demodulates the check code modulated onto the live wire and the zero wire of the external ac power supply by the modulation module 4 and sends the demodulated check code to the control module 7, and the control module 7 correspondingly controls the corresponding lamp body 5 according to the check code.

It should be further noted that, when there are a plurality of lamp bodies 5, the driving module 6 may include a plurality of sub-driving circuits corresponding to the lamp bodies 5 one to one, and when the control module 7 receives the action information or the first control information and the check code, the sub-driving circuits control the corresponding lamp bodies 5.

In addition, the check code can be customized according to the actual situation, and the application is not particularly limited herein.

Please refer to fig. 6, fig. 6 is a schematic structural diagram of a lamp system according to the present invention.

The utility model also provides a lamp system, include as above-mentioned switch and as above-mentioned lamps and lanterns.

To the utility model provides a please refer to above-mentioned utility model embodiment for the introduction of switch and lamps and lanterns among the lamps and lanterns system, the utility model discloses no longer give unnecessary details here.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A switch applied to a lamp system, characterized in that the lamp system further comprises a lamp connected with an external AC power supply, the switch comprises:

the switch body is used for generating corresponding action information according to user operation;

the first wireless control module is connected with the switch body and used for correspondingly controlling the lamp according to the action information or the first control information received in a wireless mode;

the first alternating current-direct current conversion module is used for converting the external alternating current power supply into direct current and then supplying power to the switch body and the first wireless control module.

2. The switch of claim 1, wherein the light fixture includes a demodulation module;

further comprising:

and the modulation module is respectively connected with the first wireless control module and the first AC-DC conversion module and is used for modulating the action information or the control information to a live wire and a zero wire of the external AC power supply so as to send the action information or the control information to the demodulation module.

3. The switch of claim 1, wherein the switch body comprises:

the poking baffle is used for driving the magnetic element to be close to or far away from the Hall sensor under the operation of a user;

the magnetic element is arranged on the poking baffle;

the Hall sensor is connected with the magnetic element and used for generating corresponding ground level signals when the magnetic element is close to or far away from the magnetic element.

4. A lamp applied to a lamp system, the lamp system further comprising a switch connected to an external AC power source, the lamp comprising:

a lamp body;

the driving module is connected with the lamp body;

the control module is connected with the driving module and used for correspondingly controlling the lamp body through the driving module according to the action information or the first control information sent by the switch; the action information is information generated according to user operation, and the first control information is information received by the switch in a wireless mode;

and the second AC-DC conversion module is used for converting the external AC power supply into DC and then supplying power to the driving module and the control module.

5. The lamp as claimed in claim 4, wherein the control module is a second wireless control module, and is specifically configured to receive the action information or the first control information sent by the switch in a wireless manner and control the lamp body accordingly through the driving module.

6. The luminaire of claim 4, wherein the switch comprises a modulation module;

further comprising:

and the demodulation module is respectively connected with the control module and the second AC-DC conversion module and is used for demodulating the action information or the first control information modulated to the live wire and the zero wire of the external AC power supply by the modulation module.

7. A luminaire system comprising a switch according to any of claims 1 to 3 and a luminaire according to any of claims 4 to 6.

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