CN112867211A

CN112867211A - Intelligent lighting system

Info

Publication number: CN112867211A
Application number: CN202110083290.0A
Authority: CN
Inventors: 周平; 王海龙; 周海斌
Original assignee: Zhejiang Chenji Lighting Technology Co ltd
Current assignee: Zhejiang Chenji Lighting Technology Co ltd
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-05-28
Anticipated expiration: 2041-01-21
Also published as: CN112867211B

Abstract

The application relates to an intelligent lighting system, comprising: a bulb; the power supply module is used for accessing commercial power to supply power to the bulb; the battery is used for supplying the electric energy stored in the battery to the bulb; the energy converter is used for converting energy generated when the bulb works into electric energy and storing the electric energy in the battery; the first switch module is used for switching on and off the power supply module to supply power to the bulb; and the time delay module is used for starting the battery to supply power to the bulb for a preset time and then cutting off the power supply when the first switch module cuts off the power supply of the power supply module to the bulb. The utility model has the effect of reducing the commercial power consumption.

Description

Intelligent lighting system

Technical Field

The application relates to the field of lighting, in particular to an intelligent lighting system.

Background

With the improvement of living standard, people gradually pursue higher living quality, and in lighting, the people can not only stay at the degree of simple light switch.

In the related art, in order to enable the lamp to still keep a certain period of light-emitting state and then gradually extinguish after the lamp is turned off by pressing a switch, a charging capacitor is added in a power circuit, the charging capacitor is charged when the switch is turned on, and the lamp can still keep a certain period of light-emitting state when the switch is turned off due to the fact that the charged charging capacitor discharges to supply power to the lamp when the switch is turned off.

In view of the above-mentioned related art, the inventor believes that the lamp turned off with a delay in the related art needs to charge the charging capacitor, and the charging of the charging capacitor consumes a certain amount of electric energy.

Disclosure of Invention

In order to reduce the consumption of electrical energy, the present application provides an intelligent lighting system.

The application provides an intelligent lighting system adopts following technical scheme:

an intelligent lighting system comprising: a bulb; the power supply module is used for accessing commercial power to supply power to the bulb; the battery is used for supplying the electric energy stored in the battery to the bulb; the energy converter is used for converting energy generated when the bulb works into electric energy and storing the electric energy in the battery; the first switch module is used for switching on and off the power supply module to supply power to the bulb; and the time delay module is used for starting the battery to supply power to the bulb for a preset time and then cutting off the power supply when the first switch module cuts off the power supply of the power supply module to the bulb.

By adopting the technical scheme, when the bulb is powered by the power supply module connected with the commercial power, the energy generated by the light emitting and heating of the bulb is converted into the electric energy by the energy converter to charge the battery, when the first switch cuts off the power supply of the power supply module to the bulb, the battery is started to supply power to the bulb so as to realize the delayed closing of the bulb, at the moment, the power supply of the bulb is provided by the battery, and the electric energy of the battery is the electric energy recovered by the energy converter, so the battery replaces the commercial power when the bulb is powered off in a delayed mode, and the effect of saving power is achieved.

Optionally, the energy converter includes thermoelectric generation pieces, the thermoelectric generation pieces are spaced apart or abut against the bulb arrangement.

Through adopting above-mentioned technical scheme, the heat energy direct conversion that the difference in temperature piece that generates heat produced the bulb during operation utilizes the seebeck effect to electric energy to charge for the battery.

Optionally, the energy converter includes a photovoltaic power generation panel, and a light receiving surface of the photovoltaic power generation panel is disposed toward the bulb.

By adopting the technical scheme, the photovoltaic power generation board utilizes the photovoltaic effect of the semiconductor interface to directly convert the light energy emitted by the bulb during working into electric energy, thereby charging the battery.

Optionally, the lamp further comprises an electric quantity monitoring module for monitoring the electric quantity of the battery, and when the electric quantity of the battery is lower than a preset first electric quantity threshold value and the first switch module cuts off the power supply of the power module to the bulb, the delay module prolongs the power supply of the power module to the bulb for a preset time and then cuts off the power supply.

By adopting the technical scheme, when the electric quantity of the battery is lower than the preset first electric quantity threshold value, the electric quantity of the battery is insufficient to supply power for the delayed turn-off of the bulb, so that the original battery power supply mode is switched to the power supply module by the delay module to supply power for the delayed turn-off of the bulb.

Optionally, the electric quantity monitoring module is further configured to switch the power supply module to supply power to the bulb to the battery when the electric quantity of the battery is higher than a preset third electric quantity threshold and the first switch module starts the power supply module to supply power to the bulb, until the electric quantity of the battery is lower than the second electric quantity threshold or the first switch module controls the bulb to be turned off.

By adopting the technical scheme, when the electric quantity of the battery is higher than the preset third electric quantity threshold value, the electric quantity of the battery is higher, if the battery is continuously charged through the energy converter, the battery is possibly fully charged, and the electric energy converted by the energy converter cannot be continuously stored in the battery to cause waste, so that the electric energy converted by the energy converter is prevented from being wasted, and the battery supplies power when the bulb is turned on, and partial electric quantity in the battery is consumed. And when the bulb is turned on, the battery supplies power, so that the use of commercial power can be reduced, and the effect of saving power is achieved.

Optionally, the lamp further comprises a power supply monitoring module, and when the power supply monitoring module monitors that no commercial power is input and the first switch module starts the power supply module to supply power to the lamp bulb, the power supply module switches power supply to the lamp bulb to supply power to the battery.

By adopting the technical scheme, when the power supply monitoring module monitors that no commercial power is input, the power failure condition is explained, and at the moment, in order to meet an emergency, when the bulb needs to be started, the bulb can be powered by the battery.

Optionally, the socket comprises a base and a fixing seat, the base is detachably connected with the fixing seat, the fixing seat is provided with a plug, the plug is connected with a wire of a mains supply, the fixing seat is provided with a socket matched with the plug, the base is provided with a slot connected with the bulb, and the battery, the energy converter, the delay module and the power module are arranged on the base.

Through adopting above-mentioned technical scheme, the base can be taken off from the fixing base, is supplied power for the bulb by the battery, uses as mobilizable lamps and lanterns. The electric wire of commercial power is connected with the plug on the fixing base, so that the commercial power is isolated from the base, and the situation that the mobile position is not convenient to take down due to the fact that the base is connected with the electric wire of the commercial power is avoided.

Optionally, clamping plates are arranged on two sides of the edge of the fixed seat, a clamping block is arranged at the end, far away from the fixed seat, of each clamping plate, a clamping groove for the clamping plates to be inserted is formed in the base, a clamping opening communicated with the clamping groove is formed in the side wall of the base, a gap is formed between each clamping plate and the corresponding clamping groove after each clamping plate is inserted into the corresponding clamping groove, and the clamping blocks are clamped with the clamping openings.

Through adopting above-mentioned technical scheme, when needs take off the base from the fixing base, press the fixture block, the joint of cancellation fixture block and bayonet socket, then the base is pulled towards the direction of keeping away from the fixing base, can take off the base from the fixing base, uses as mobilizable lamps and lanterns with the bulb.

Optionally, the first switch module is connected in series with the mains supply and between the plug, and the first switch is connected with the plug through a wire.

By adopting the technical scheme, the first switch module is separated from the base, and when the first switch module is a switch operated by hands such as a toggle switch, the first switch module can be arranged at a position which is convenient for the hands to operate.

Optionally, the lamp further comprises a second switch module, the second switch module is arranged on the base, and the second switch module is connected between the battery and the bulb and used for controlling the on-off of the current between the battery and the bulb.

Through adopting above-mentioned technical scheme, when waiting that the base takes off from the fixing base, through controlling second switch module to the switching to the bulb is controlled.

In summary, the present application includes at least one of the following beneficial technical effects:

the battery charged by the energy converter provides electric energy when the bulb is powered off in a delayed manner, so that the battery replaces commercial power when the bulb is powered off in a delayed manner, and the effect of saving electricity is achieved.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent lighting system according to an embodiment of the present application;

fig. 2 is an exploded view of an intelligent lighting system according to an embodiment of the present application;

fig. 3 is a schematic block diagram of an intelligent lighting system according to an embodiment of the present application;

fig. 4 is a schematic diagram of an intelligent lighting system according to an embodiment of the present application.

Description of reference numerals: 1. a bulb; 2. an energy converter; 3. a first switch module; 4. a base; 5. a fixed seat; 6. a plug; 7. a socket; 8. clamping a plate; 9. a clamping block; 10. a card slot; 11. a bayonet; 12. a second switch module; 13. a joint; 14. a through hole; 15. a housing; 16. and (4) a slot.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a device. Referring to fig. 1, the intelligent lighting system includes a bulb 1, a fixing base 5 and a base 4, a connector 13 of the bulb 1 is inserted into a slot 16 formed in the base 4, and the slot 16 supplies power to the bulb 1. The base 4 is detachably connected on the fixed seat 5. The surface of the base 4 departing from the fixed seat 5 is provided with a shell 15, and a closed cavity is formed between the shell 15 and the base 4. The housing 15 and the base 4 are fixed by bolts.

Referring to fig. 2, a through hole 14 is formed in the fixing base 5, and a bolt penetrates through the through hole 14 to be in threaded connection with a wall surface or other positions, so that the fixing base 5 is fixed. One side surface of fixing base 5 is provided with plug 6 for be connected with socket 7 that sets up on base 4, and plug 6 passes through the connection of electric lines commercial power, has established ties first switch module 3 between commercial power and plug 6, and first switch module 3 passes through the connection of electric lines with plug 6, and first switch module 3 can be other steerable electric current break-make electronic component such as toggle switch, button switch. In some embodiments, the arrangement of the plug 6 and the socket 7 may be reversed, that is, the socket 7 is arranged on the fixing base 5, and the plug 6 is arranged on the base 4. In the present application, the plug 6 is not disposed on the base 4, so that the plug 6 can avoid the obstruction when the person holds the base 4. Fixing base 5 is provided with cardboard 8 towards the marginal both sides of base 4 respectively, and cardboard 8 is perpendicular with fixing base 5, and cardboard 8 keeps away from the tip outside of fixing base 5 an organic whole and is provided with fixture block 9, and the transversal right triangle-shaped that personally submits of fixture block 9 makes the side of fixture block 9 form the spigot surface. The base 4 is towards the side of fixing base 5, has seted up draw-in groove 10 with the corresponding position of cardboard 8, and wherein, the cross section of draw-in groove 10 is greater than the cross section of cardboard 8, forms certain clearance between cardboard 8 and the draw-in groove 10 when making cardboard 8 insert in the draw-in groove 10, has seted up the bayonet socket 11 that communicates with each other with draw-in groove 10 at base 4's week side. The material of the catch plate 8 is plastic and a certain bending can take place. In the process that cardboard 8 inserted draw-in groove 10, the notch of draw-in groove 10 is contradicted to the spigot surface of fixture block 9, makes 8 crooked backs of cardboard get into draw-in groove 10, and when cardboard 8 inserted the draw-in groove 10 completely, fixture block 9 got into bayonet 11 and buckle joint, and crooked cardboard 8 resets. When the base 4 needs to be taken down from the fixing seat 5, the clamping block 9 is pushed into the clamping groove 10 by hand to cancel the matching of the clamping block 9 and the clamping opening 11, then the base 4 is moved towards the direction far away from the fixing seat 5, and the base 4 can be taken down from the fixing seat 5.

Referring to fig. 2, an energy converter 2 is mounted on the base 4 for converting energy generated when the bulb 1 operates into electric energy. In the present application, the energy converter 2 may be a thermoelectric power generation sheet, and may also be a photovoltaic power generation panel. When energy converter 2 is the thermoelectric generation piece, the thermoelectric generation piece utilizes the direct conversion of the heat energy that produces of seebeck effect with bulb 1 during operation to the electric energy, and in order to make the thermoelectric generation piece receive the heat energy that the during operation produced, the thermoelectric generation piece needs interval or butt bulb 1 sets up. When the thermoelectric generation piece and the bulb 1 are arranged at intervals, the thermoelectric generation piece is arranged behind the bulb 1, the cooled surface of the thermoelectric generation piece is abutted and fixed on the base 4, and the heated surface of the thermoelectric generation piece faces the bulb 1 and keeps a certain distance from the bulb 1. When the energy converter 2 is a photovoltaic panel, the photovoltaic panel utilizes the photovoltaic effect of the semiconductor interface to directly convert the light energy emitted by the bulb 1 during operation into electric energy, and in order to avoid the light obstruction of the photovoltaic panel, the photovoltaic panel can also be installed behind the bulb 1, and the light receiving surface of the photovoltaic panel faces the bulb 1, and the backlight surface is attached to and fixed with the base 4. The photovoltaic power generation panel has the advantage that only light is not only the light of the bulb 1, but also light of other lamps and ambient light can provide light energy for the photovoltaic power generation panel.

Referring to fig. 2, the base 4 is further provided with a battery, an energy converter 2, a delay module, an electric quantity monitoring module and a power supply monitoring module. In order to isolate and protect the battery, the delay module, the electric quantity monitoring module and the power supply monitoring module from the outside, the battery, the delay module, the electric quantity monitoring module and the power supply monitoring module are arranged in a cavity formed by the shell 15 and the base 4. The battery and the power module are respectively connected with the slot 16 through wires to supply power to the slot 16. The battery is connected to the output of the energy converter 2 by a wire. The power module is electrically connected to the socket 7 of the base 4. The first switch module 3 controls the on-off of the current of the commercial power and the plug 6, namely the on-off of the current of the socket 7 and the power supply module, so that the power supply of the power supply module to the bulb 1 is turned on or off. The power supply module mainly comprises a voltage transformation circuit to convert the mains supply into the voltage for the operation of the lamp bulb 1.

The power monitoring module is connected with the power module and used for monitoring the on-off state of the mains supply input and the first switch module 3, when no mains supply is input, the first switch module 3 starts the power supply to the power module, at the moment, the power module can not supply power to the bulb 1 and needs to open the bulb 1, so that the power monitoring module can switch the power supply of the power module to the bulb 1 into the power supply of the battery to the bulb 1, and the bulb 1 can be turned on for a period of time under the condition of power failure.

Referring to fig. 1, a second switch module 12 is further installed on the base 4, and the second switch module 12 may be a toggle switch, a button switch, or other electronic component capable of controlling current on/off, and is operable by a human hand. The second switch module 12 is located between the battery and the bulb 1, and is connected with the battery and the bulb 1 through wires, respectively. The human hand controls the on-off of the second switch so as to control the on-off of the current of the battery and the bulb 1.

And the time delay module is used for starting the battery to supply power to the bulb 1 for a preset time and then cutting off the power supply when the first switch module 3 cuts off the power supply of the power supply module to the bulb 1. The delay module can monitor the power supply of the power module to the bulb 1, immediately switch the power supply of the bulb 1 to the power supply of the battery after the power module is powered off, and automatically disconnect the power supply of the battery to the bulb 1 after the battery supplies power to a preset time, so that the delay closing of the bulb 1 is realized. The delay function of the delay module can be realized by electronic elements with equivalent functions, such as a delay circuit or a clock circuit.

As shown in fig. 4, the electric quantity monitoring module is provided with a first electric quantity threshold, a second electric quantity threshold and a third electric quantity threshold which are sequentially from small to large. When the electric quantity of the battery is lower than the first electric quantity threshold value, the battery can not normally supply power to the bulb 1. Under the condition that the first switch module 3 cuts off the power supply of the power supply module to the bulb 1, when the electric quantity monitoring module monitors that the electric quantity of the battery is lower than a preset first electric quantity threshold value, the power supply is cut off after the power supply module prolongs the preset time of the power supply of the bulb 1 by the delay module, so that the function of delayed closing of the bulb 1 is realized under the condition that the battery cannot normally supply power. When the electric quantity of the battery is higher than the third electric quantity threshold, it indicates that the electric quantity of the battery is high, and if the battery is continuously charged by the energy converter 2, the battery may be fully charged and the electric energy converted by the energy converter 2 cannot be continuously stored in the battery, which may cause waste, so as to avoid waste of the electric energy converted by the energy converter. Therefore, under the condition that the first switch module 3 starts the power supply module to supply power to the bulb 1, when the power monitoring module monitors that the power of the battery is higher than a preset third power threshold, the power monitoring module switches the power supply module to supply power to the bulb 1 to the battery to supply power to the bulb 1 until the power of the battery is lower than the second power threshold or the first switch module 3 controls the bulb 1 to be turned off. If the power supply is cut off after the lamp bulb 1 is powered by the battery and the electric quantity of the battery is not reduced to the second electric quantity threshold value, the lamp bulb 1 is powered by the power supply module when being started again. When the bulb 1 is started, the battery supplies power, so that the use of commercial power can be reduced, and the effect of saving power is achieved.

The implementation principle of the intelligent lighting system in the embodiment of the application is as follows:

when the electric quantity of the battery is higher than the first electric quantity threshold value and the bulb 1 is turned off, the battery provides electric energy for the bulb 1 to be turned off in a delayed mode, and therefore the effect of saving electricity is achieved;

when the electric quantity of the battery is higher than the third electric quantity threshold value and the bulb 1 is turned on, the power module supplies power to the bulb 1 until the electric quantity is lower than the second electric quantity threshold value or the bulb 1 is turned off, so that the effect of saving power is achieved;

when the mains supply is cut off, the base 4 can be taken down from the fixed seat 5 for emergency, and the battery supplies power to the bulb 1 to be used as a movable lamp.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An intelligent lighting system, comprising:

a bulb (1);

the power supply module is used for accessing commercial power to supply power to the bulb (1);

a battery for supplying the bulb (1) with the electric energy stored therein;

the energy converter (2) is used for converting energy generated by the bulb (1) during working into electric energy and storing the electric energy in a battery;

the first switch module (3) is used for switching on and off the power supply module to supply power to the bulb (1);

and the time delay module is used for switching off the power supply of the bulb (1) by the first switch module (3) after the battery is started to supply power to the bulb (1) for a preset time.

2. The intelligent lighting system according to claim 1, wherein the energy converter (2) comprises thermoelectric generation pieces, which are arranged spaced apart or abutting the light bulb (1).

3. The intelligent lighting system according to claim 1, wherein the energy converter (2) comprises a photovoltaic panel having a light receiving surface disposed towards the bulb (1).

4. The intelligent lighting system according to claim 1, further comprising a power monitoring module for monitoring the power of the battery, wherein when the power of the battery is lower than a preset first power threshold and the first switch module (3) cuts off the power supply of the power module to the bulb (1), the delay module cuts off the power supply after the power module prolongs the preset time period for supplying the power to the bulb (1).

5. The intelligent lighting system according to claim 4, wherein the power monitoring module is further configured to switch the power supply module to supply power to the light bulb (1) to the battery to supply power to the light bulb (1) when the power of the battery is higher than a preset third power threshold and the first switch module (3) activates the power supply module to supply power to the light bulb (1), until the power of the battery is lower than the second power threshold or the first switch module (3) controls the light bulb (1) to turn off.

6. The intelligent lighting system according to claim 1, further comprising a power monitoring module, wherein when the power monitoring module monitors that no commercial power is input and the first switch module (3) starts the power module to supply power to the bulb (1), the power supply module is switched to supply power to the bulb (1) by the battery.

7. The intelligent lighting system according to claim 1, further comprising a base (4) and a fixing base (5), wherein the base (4) is detachably connected with the fixing base (5), a plug (6) is arranged on the fixing base (5), the plug (6) is connected with a line of a mains supply, a socket (7) matched with the plug (6) is arranged on the fixing base (5), a slot (16) connected with the bulb (1) is arranged on the base (4), and the battery, the energy converter (2), the delay module and the power module are arranged on the base (4).

8. The intelligent lighting system according to claim 7, wherein clamping plates (8) are arranged on two sides of the edge of the fixed seat (5), a clamping block (9) is arranged at the end part, far away from the fixed seat (5), of each clamping plate (8), a clamping groove (10) for the clamping plate (8) to be inserted is arranged on the base (4), a bayonet (11) communicated with the clamping groove (10) is formed in the side wall of the base (4), after the clamping plates (8) are inserted into the clamping grooves (10), a gap is formed between each clamping plate (8) and each clamping groove (10), and the clamping blocks (9) are clamped with the bayonet (11).

9. The intelligent lighting system according to claim 7, wherein the first switch module (3) is connected in series between the mains and the plug (6), and the first switch and the plug (6) are connected by a wire.

10. The intelligent lighting system according to claim 7, further comprising a second switch module (12), wherein the second switch module (12) is disposed on the base (4), and the second switch module (12) is connected between the battery and the light bulb (1) for controlling on/off of current between the battery and the light bulb (1).