CN215222548U - Tile lamp control circuit and solar tile lamp - Google Patents

Abstract

The utility model provides a tile lamp control circuit and a solar tile lamp, which comprises a main control circuit, a boosting and voltage stabilizing circuit, a battery overcharge and over-discharge protection circuit, a solar light control detection circuit, a battery electric quantity detection circuit and an LED lamp output control circuit; the battery overcharge and overdischarge protection circuit is connected with the solar panel; the solar light control detection circuit is connected with the solar panel; the battery overcharge and overdischarge protection circuit is connected with the voltage boosting and stabilizing circuit; the boosting voltage stabilizing circuit, the solar light control detection circuit, the battery electric quantity detection circuit and the LED lamp output control circuit are all connected with the main control circuit; and the battery electric quantity detection circuit and the LED lamp output control circuit are both connected with the battery overcharge and overdischarge protection circuit. The utility model discloses the advantage: can realize carrying out light source automatic control to the light source module, make the control of LED tile lamp no longer rely on artifical manual control completely, can bring very big convenience for the use of reality.

Description

Tile lamp control circuit and solar tile lamp

[ technical field ] A method for producing a semiconductor device

The utility model discloses the lamps and lanterns field, in particular to tile lamp control circuit and solar tile lamp.

[ background of the invention ]

The LED tile lamp is also called as an LED corrugated lamp, an LED crescent lamp, an LED tile lamp, an LED historic building decorative lamp, an LED glazed tile lamp and the like, and the high-power LED is used as a light source. The LED tile lamp is a high-tech product specially designed for square buildings or ancient buildings, is bright in color, dazzles various charming people, and can bring more attractive effect for the buildings. The existing LED tile lamp is powered by an external power supply, so that the following defects exist in practical use: the LED tile lamp needs to be connected with an external electric wire to realize power supply, and manual control is adopted to turn on and off the lamp, so that the control is inconvenient, the wiring is troublesome, the structure of a building can be damaged, and the realization cost is high. In view of the above problems, the present inventors have conducted extensive studies and have made the present invention.

[ Utility model ] content

The to-be-solved technical problem of the utility model lies in providing a tile lamp control circuit and solar tile lamp, and it is inconvenient to solve the control that current tile lamp exists, and the wiring is troublesome, can destroy the structure of building, realizes problem with high costs.

The utility model discloses a realize like this:

in a first aspect, a tile lamp control circuit comprises a main control circuit, a boosting and voltage stabilizing circuit, a battery overcharge and overdischarge protection circuit, a solar light-operated detection circuit, a battery electric quantity detection circuit and an LED lamp output control circuit;

the battery overcharge and overdischarge protection circuit is connected with the solar panel; the solar light control detection circuit is connected with the solar panel; the battery overcharge and overdischarge protection circuit is connected with the voltage boosting and stabilizing circuit; the boosting voltage stabilizing circuit, the solar light control detection circuit, the battery electric quantity detection circuit and the LED lamp output control circuit are all connected with the main control circuit; the battery electric quantity detection circuit and the LED lamp output control circuit are both connected with the battery overcharge and overdischarge protection circuit.

Further, the battery overcharge and overdischarge protection circuit comprises an overcharge and overdischarge protection chip U5, a charging diode D1, a MOS tube switching circuit U5, a lithium battery BAT, a resistor R8, a resistor R9 and a capacitor C4;

the input end of the charging diode D1 is connected with the solar panel, and the other end of the solar panel is grounded; the output end of the charging diode D1 is connected with a lithium battery BAT; the VDD end of the overcharge and overdischarge protection chip U5 is connected with the lithium battery BAT through the resistor R8; the S pole of the MOS tube switching circuit U5 and the VSS end of the overcharge and overdischarge protection chip U5 are both connected with a lithium battery BAT; the VDD end of the over-charge and over-discharge protection chip U5 is connected with the VSS end of the over-charge and over-discharge protection chip U5 through the capacitor C4; the G pole of the MOS tube switching circuit U5 is connected with the overcharge and overdischarge protection chip U5; the V-end of the over-charge and over-discharge protection chip U5 is connected with one end of the resistor R9; the D pole of the MOS tube switch circuit U5 and the other end of the resistor R9 are grounded.

Further, the voltage boosting and stabilizing circuit comprises a voltage boosting inductor L1, a voltage boosting chip U2, a diode D2, a voltage stabilizing chip U3, a capacitor C1, a capacitor C2 and a capacitor C6;

one end of the boosting inductor L1 is connected with the lithium battery BAT through the change-over switch K1, and the other end of the boosting inductor L1 is connected with the VIN end of the boosting chip U2; the VOUT end of the boosting chip U2 is connected with the VIN end of the voltage stabilizing chip U3; the other end of the boosting inductor L1 is connected with the VOUT end of a boosting chip U2 through the diode D2; one end of the capacitor C1 is connected with one end of the boost inductor L1, one end of the capacitor C2 is connected with the VOUT end of the boost chip U2, and one end of the capacitor C6 is connected with the VOUT end of the voltage stabilizing chip U3; the other end of the capacitor C1, the other end of the capacitor C2, the other end of the capacitor C6, the GND end of the boost chip U2 and the GND end of the voltage stabilization chip U3 are commonly grounded.

Further, the solar light-operated detection circuit comprises a resistor R2, a resistor R3 and a capacitor C3; one end of the resistor R2 is connected with one end of the resistor R3, the other end of the resistor R2 is connected with the solar panel, and the other end of the resistor R3 is grounded; the capacitor C3 is arranged in parallel with the resistor R3; the main control circuit is connected with the resistor R2 and the resistor R3.

Further, the battery level detection circuit comprises a resistor R1, a resistor R6 and a capacitor C7; one end of the resistor R1 is connected with one end of the resistor R6, the other end of the resistor R1 is connected with the lithium battery BAT, and the other end of the resistor R6 is grounded; the capacitor C7 is arranged in parallel with the resistor R6; the main control circuit is connected with the resistor R1 and the resistor R6.

Further, the LED lamp output control circuit comprises a resistor R10, a resistor R5 and a triode Q2; the main control circuit is connected with the b pole of a triode Q2 through the resistor R5, and the e pole of the triode Q2 is grounded; the c pole of the triode Q2 is connected with the resistor R10 through a light source module LED1, and the resistor R10 is connected with a lithium battery BAT.

In a second aspect, a solar tile lamp comprises a tile main body, a solar panel, a light source module and the control circuit;

a tile end plate is arranged at one end of the tile main body, a light source module assembly opening is formed in the tile end plate, and the light source module is installed on the light source module assembly opening;

a solar panel assembly groove is formed in the upper surface of the tile main body, and the solar panel is mounted on the solar panel assembly groove; the control circuit is fixedly arranged at the bottom of the solar panel.

Further, the tile main part include with the shape assorted arc tile board of pantile, tile end plate integrated into one piece in the one end of arc tile board, just the tile end plate leans out the setting from top to bottom.

Furthermore, the solar panel assembly groove is an arc-shaped groove, the solar panel is an arc-shaped solar panel matched with the arc-shaped groove, and the thickness of the solar panel is equal to the depth of the solar panel assembly groove;

the light source module assembling port is an arc assembling port or an oval assembling port; the light source module is provided with a fitting wall surface matched with the light source module assembling port.

Further, the other end of tile main part upwards extends and is provided with the arc leg, the slotted hole has been seted up to the upper surface of arc leg.

The utility model has the advantages that:

1. through the mutual matching of the main control circuit, the boosting and voltage stabilizing circuit, the battery overcharge and overdischarge protection circuit, the solar light control detection circuit, the battery electric quantity detection circuit and the LED lamp output control circuit, the automatic light source control of the light source module can be realized, so that the control of the LED tile lamp does not depend on manual control completely, and great convenience can be brought to actual use;

2. the utility model discloses a tile lamp can directly utilize solar energy to realize the power supply, need not to carry out outside wiring, not only can not destroy the building structure, can make the outward appearance of whole building more pleasing to the eye, and it is very convenient, swift to install and use moreover, still has environmental protection, energy-conserving advantage.

3. The tile main body of the utility model is designed by imitating the shape of the shell tile, so that when the tile lamp is needed to be installed on a building in specific use, the original shell tile on the building is only needed to be dismantled, and the tile lamp of the utility model can be directly installed; therefore, the installation and the use are convenient, and the engineering reconstruction cost is low.

[ description of the drawings ]

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of a tile lamp control circuit according to the present invention;

fig. 2 is a specific circuit diagram of the main control circuit of the present invention;

FIG. 3 is a specific circuit diagram of the solar light-operated detection circuit of the present invention;

fig. 4 is a specific circuit diagram of the LED lamp output control circuit of the present invention;

fig. 5 is a specific circuit diagram of the battery overcharge and overdischarge protection circuit of the present invention;

FIG. 6 is a specific circuit diagram of the middle voltage boost and stabilizing circuit of the present invention;

fig. 7 is a specific circuit diagram of the battery power detection circuit of the present invention;

fig. 8 is one of the schematic structural diagrams of a solar tile lamp of the present invention;

fig. 9 is a second schematic structural view of a solar tile lamp according to the present invention;

FIG. 10 is a schematic view of the structure of the tile body according to the present invention;

fig. 11 is a schematic structural view of a solar panel according to the present invention;

fig. 12 is a schematic structural diagram of the middle light source module according to the present invention.

[ detailed description ] embodiments

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. 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. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the 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.

Example 1

Referring to fig. 1 to 7, a preferred embodiment of a tile lamp control circuit 100 of the present invention includes a main control circuit 1, a voltage boosting and stabilizing circuit 2, a battery overcharge and overdischarge protection circuit 3, a solar light-controlled detection circuit 4, a battery electric quantity detection circuit 5, and an LED lamp output control circuit 6;

the battery overcharge and overdischarge protection circuit 3 is connected with the solar panel 7; the solar light-operated detection circuit 4 is connected with the solar panel 7; the battery overcharge and overdischarge protection circuit 3 is connected with the boost voltage stabilizing circuit 2; the boosting voltage stabilizing circuit 2, the solar light-operated detection circuit 4, the battery electric quantity detection circuit 5 and the LED lamp output control circuit 6 are all connected with the main control circuit 1; the battery electric quantity detection circuit 5 and the LED lamp output control circuit 6 are both connected with the battery overcharge and overdischarge protection circuit 3.

The utility model discloses a control circuit 100 is at the during operation, and under the condition of daytime, solar light accuse detection circuit 4 detects solar panel 7 and works, and main control circuit 1 controls solar panel 7 to charge the lithium cell BAT in the battery overcharge overdischarge protection circuit 3, and battery overcharge overdischarge protection circuit 3 plays the guard action to the charging process of solar panel 7 simultaneously; under the condition of night, the solar light control detection circuit 4 detects that the solar panel 7 does not work, the main control circuit 1 controls the lithium battery BAT in the battery overcharge and overdischarge protection circuit 3 to discharge the LED lamp output control circuit 6, and the discharge process of the lithium battery BAT is protected, so that the light source module LED1 in the LED lamp output control circuit 6 is turned on to illuminate; meanwhile, the battery power detection circuit 5 detects the power of the lithium battery BAT in the battery overcharge and overdischarge protection circuit 3, and the main control circuit 1 controls the brightness of the light source module LED1 according to the detected power. In the working process of the whole control circuit, the lithium battery BAT in the battery overcharge and overdischarge protection circuit 3 supplies power to the main control circuit 1, and the working voltage is stabilized at 3.3V by the boost voltage stabilizing circuit 2.

According to the above, through the utility model discloses well main control circuit 1, step up voltage stabilizing circuit 2, battery overcharge overdischarge protection circuit 3, solar light-operated detection circuit 4, battery electric quantity detection circuit 5 and LED lamp output control circuit 6 mutually support, can realize carrying out light source automatic control to light source module LED1, make the control of LED tile lamp no longer rely on artifical manual control completely, can bring very big convenience for the use of reality.

In the embodiment of the present invention, the battery overcharge and overdischarge protection circuit 3 includes an overcharge and overdischarge protection chip U5, a charging diode D1, a MOS transistor switch circuit U5, a lithium battery BAT, a resistor R8, a resistor R9, and a capacitor C4;

the input end of the charging diode D1 is connected with the solar panel 7, the other end of the solar panel 7 is grounded, the output end of the charging diode D1 is connected with the lithium battery BAT, and when the solar charging device works and is in sunshine in the daytime, the solar panel 7 can charge the lithium battery BAT through the charging diode D1, so that the lithium battery BAT can discharge the light source module LED1 at night; the VDD end of the overcharge and overdischarge protection chip U5 is connected with the lithium battery BAT through the resistor R8; the S pole of the MOS tube switching circuit U5 and the VSS end of the overcharge and overdischarge protection chip U5 are both connected with a lithium battery BAT; the VDD end of the over-charge and over-discharge protection chip U5 is connected with the VSS end of the over-charge and over-discharge protection chip U5 through the capacitor C4; the G pole of the MOS tube switching circuit U5 is connected with the overcharge and overdischarge protection chip U5; the V-end of the over-charge and over-discharge protection chip U5 is connected with one end of the resistor R9; the D pole of the MOS tube switch circuit U5 and the other end of the resistor R9 are grounded. The MOS tube switching circuit U5 mainly plays a role of a switch and can be used for controlling the on or off of the charging and discharging process of the lithium battery BAT; the resistor R8 and the capacitor C4 are matched to play a role in protecting overshoot and over-discharge; the resistor R9 is used to detect the input voltage.

The utility model discloses when concrete implementation, overcharge protection chip U5's model is R5408N185KH, the model of diode D1 that charges is 1N5819, MOS pipe switch circuit U5's model is 8205A.

In the embodiment of the present invention, the voltage boosting and stabilizing circuit 2 includes a voltage boosting inductor L1, a voltage boosting chip U2, a diode D2, a voltage stabilizing chip U3, a capacitor C1, a capacitor C2, and a capacitor C6;

one end of the boosting inductor L1 is connected with the lithium battery BAT through a change-over switch K1, the other end of the boosting inductor L1 is connected with the VIN end of the boosting chip U2, the change-over switch K1 is a manual control switch, and under a normal condition, the change-over switch K1 is in a normally closed state; the VOUT end of the boosting chip U2 is connected with the VIN end of the voltage stabilizing chip U3; the other end of the boosting inductor L1 is connected with the VOUT end of a boosting chip U2 through the diode D2; one end of the capacitor C1 is connected with one end of the boost inductor L1, one end of the capacitor C2 is connected with the VOUT end of the boost chip U2, and one end of the capacitor C6 is connected with the VOUT end of the voltage stabilizing chip U3; the other end of the capacitor C1, the other end of the capacitor C2, the other end of the capacitor C6, the GND end of the boost chip U2 and the GND end of the voltage stabilization chip U3 are commonly grounded. The boosting inductor L1 is used for cooperating with the boosting chip U2 to play a boosting role; the diode D2 is used for cooperating with the boost chip U2 to play a role in oscillating and boosting; the capacitor C1 and the capacitor C6 are used for matching boosting; the capacitor C2 functions as a filter.

The utility model discloses a voltage boost and voltage stabilizing circuit 2 is at concrete during operation, and 3.2V voltage that lithium cell BAT provided steps up to 5V via boost inductance L1, boost chip U2, diode D2, electric capacity C1 and electric capacity C6, and 5V voltage is again through voltage stabilizing chip U3 steady voltage to 3.3V to provide main control circuit 1 and use after carrying out the filtering elimination interference via electric capacity C2.

The utility model discloses when concrete implementation, main control circuit 1 adopts EM78F811N chip, the model of chip U2 that steps up is QX2302, steady voltage chip U3's model is GF9901A33L 3M.

In the embodiment of the present invention, the solar light-operated detection circuit 4 includes a resistor R2, a resistor R3, and a capacitor C3; one end of the resistor R2 is connected with one end of the resistor R3, the other end of the resistor R2 is connected with the solar panel 7, and the other end of the resistor R3 is grounded; the capacitor C3 is arranged in parallel with the resistor R3; the main control circuit 1 is connected with the resistor R2 and the resistor R3. During specific work, the resistor R2, the resistor R3 and the capacitor C3 are matched with each other to detect the work of the solar panel 7.

In the embodiment of the present invention, the battery level detection circuit 5 includes a resistor R1, a resistor R6, and a capacitor C7; one end of the resistor R1 is connected with one end of the resistor R6, the other end of the resistor R1 is connected with the lithium battery BAT, and the other end of the resistor R6 is grounded; the capacitor C7 is arranged in parallel with the resistor R6; the main control circuit 1 is connected with the resistor R1 and the resistor R6. During specific work, the electric quantity of the lithium battery BAT can be detected through mutual matching of the resistor R1, the resistor R6 and the capacitor C7.

In the embodiment of the present invention, the LED lamp output control circuit 6 includes a resistor R10, a resistor R5, and a transistor Q2; the main control circuit 1 is connected with the b pole of a triode Q2 through the resistor R5, and the e pole of the triode Q2 is grounded; the c pole of the triode Q2 is connected with the resistor R10 through a light source module LED1, and the resistor R10 is connected with a lithium battery BAT. The resistor R10 is a current-limiting resistor for limiting current; the resistor R5 is an output resistor. During specific work, when the main control circuit 1 drives the triode Q2 to be conducted, the light source module LED1 is lightened; when the main control circuit 1 drives the transistor Q2 to be turned off, the light source module LED1 is turned off.

Example 2

Referring to fig. 1 to 12, in a preferred embodiment of a solar tile light 200 of the present invention, the tile light 200 includes a tile main body 8, a solar panel 7, a light source module LED1 and the control circuit 100;

a tile end plate 81 is arranged at one end of the tile main body 8, a light source module assembly port 82 is formed in the tile end plate 81, and the light source module LED1 is installed on the light source module assembly port 82 to fix the light source module LED 1;

a solar panel assembly groove 83 is formed in the upper surface of the tile main body 8, and the solar panel 7 is mounted on the solar panel assembly groove 83 to better acquire solar energy for power generation and ensure that the power consumption requirement of the tile lamp 200 can be met; the control circuit 100 is fixedly arranged at the bottom of the solar panel 7 to protect the control circuit 100.

When the tile lamp 200 of the present invention is in operation, the solar panel 7 can acquire solar energy to generate electricity in the daytime and store electric energy in the lithium battery BAT; at night, the lithium battery BAT can be used for supplying power to the light source module LED1, so that the light source module LED1 can be lighted for illumination; meanwhile, the entire control circuit 100 may also be powered by the lithium battery BAT. Therefore, through adopting the utility model discloses a tile lamp 200 can directly utilize solar energy to realize the power supply, need not to carry out outside wiring, not only can not destroy the building structure, can make the outward appearance of whole building more pleasing to the eye, and it is very convenient, swift to install and use moreover, still has environmental protection, energy-conserving advantage. And simultaneously, the utility model discloses a tile lamp 200 still is provided with control circuit 100, can realize automatic control to light source module LED1, makes LED tile lamp 100's control no longer rely on artifical manual control completely, can bring very big convenience for the use of reality.

In the embodiment of the utility model, tile main part 8 include with the shape assorted arc tile board 84 of pantile, tile end plate 81 integrated into one piece in arc tile board 84's one end, just tile end plate 81 leans out the setting from top to bottom. The utility model discloses a tile main part 8 designs through the shape of imitate section of thick bamboo tile for when specifically using, when needs install tile lamp 200 on the building, only need with the building on original section of thick bamboo tile demolish, and will the utility model discloses a tile lamp 200 direct mount go can. Because the prior shell tile is made of ceramic materials, when the night scene lightening needs to be added in the engineering, the shell tile needs to be damaged, the wire wiring needs to be added, and the alternating current is used for supplying power; and through adopting the technical scheme of the utility model afterwards, can save the wiring, decorate operations such as roof again, consequently installation convenient to use, the engineering cost is low. In addition, the design of the arc-shaped tile plate 84 also prevents rainwater from being retained on the upper surface of the arc-shaped tile plate 84 in rainy days, and the solar panel 7 can be prevented from being soaked in the rainwater.

The utility model discloses when concrete implementation, arc tile board 84 and tile end plate 81 can adopt ageing-resistant plastics through the mode integrated into one piece that moulds plastics, and not only production is convenient, and the tile main part 8 of producing have lightly, be difficult to advantages such as ageing, damage.

In the embodiment of the present invention, the solar panel assembling groove 83 is an arc-shaped groove, the solar panel 7 is an arc-shaped solar panel matched with the arc-shaped groove, and the thickness of the solar panel 7 is equal to the depth of the solar panel assembling groove 83; thus, after the solar panel 7 is mounted in the solar panel assembly groove 83, the upper surface of the solar panel 7 is flush with the upper surface of the arc tile plate 84, so that the whole tile main body 8 is simpler in structure and more attractive; meanwhile, the outer end wall of the solar panel 7 is attached to the groove wall of the solar panel assembling groove 83, so that the upper surface of the whole tile main body 8 is smoother, and rainwater is not easy to penetrate into the solar panel assembling groove 83; the utility model discloses when concrete implementation, can also set up the circuit mounting groove 831 that is used for installing control circuit 100 in solar panel assembly groove 83.

In the embodiment of the present invention, in order to improve the conversion efficiency, the solar panel 7 may adopt a monocrystalline silicon solar panel.

The light source module assembling port 82 is an arc assembling port or an oval assembling port, so that the light source module LED1 can be conveniently installed; the light source module LED1 has a fitting wall 1a that fits into the light source module mounting opening 82 to better facilitate mounting of the light source module LED1 to the light source module mounting opening 82.

In the embodiment of the present invention, the other end of tile main body 8 extends upward and is provided with arc-shaped enclosure wall 85, slotted hole 86 has been seted up to arc-shaped enclosure wall 85's upper surface, plays better decorative effect.

To sum up, the utility model discloses a tile lamp 200 compares with current tile lamp, has and need not to carry out outside wiring, can not destroy building structure, install and use convenient and fast, can the direct mount use after demolising original pantile, production convenience, various advantages such as with low costs, can bring very big convenience for the use of reality, be fit for using widely.

Claims (10)

1. A tile lamp control circuit which characterized in that: the device comprises a main control circuit, a boosting and voltage stabilizing circuit, a battery overcharge and overdischarge protection circuit, a solar light-operated detection circuit, a battery electric quantity detection circuit and an LED lamp output control circuit;

the battery overcharge and overdischarge protection circuit is connected with the solar panel; the solar light control detection circuit is connected with the solar panel; the battery overcharge and overdischarge protection circuit is connected with the voltage boosting and stabilizing circuit; the boosting voltage stabilizing circuit, the solar light control detection circuit, the battery electric quantity detection circuit and the LED lamp output control circuit are all connected with the main control circuit; the battery electric quantity detection circuit and the LED lamp output control circuit are both connected with the battery overcharge and overdischarge protection circuit.

2. A tile lamp control circuit according to claim 1, wherein: the battery overcharge and overdischarge protection circuit comprises an overcharge and overdischarge protection chip U5, a charging diode D1, a MOS transistor switch circuit U5, a lithium battery BAT, a resistor R8, a resistor R9 and a capacitor C4;

the input end of the charging diode D1 is connected with the solar panel, and the other end of the solar panel is grounded; the output end of the charging diode D1 is connected with a lithium battery BAT; the VDD end of the overcharge and overdischarge protection chip U5 is connected with the lithium battery BAT through the resistor R8; the S pole of the MOS tube switching circuit U5 and the VSS end of the overcharge and overdischarge protection chip U5 are both connected with a lithium battery BAT; the VDD end of the over-charge and over-discharge protection chip U5 is connected with the VSS end of the over-charge and over-discharge protection chip U5 through the capacitor C4; the G pole of the MOS tube switching circuit U5 is connected with the overcharge and overdischarge protection chip U5; the V-end of the over-charge and over-discharge protection chip U5 is connected with one end of the resistor R9; the D pole of the MOS tube switch circuit U5 and the other end of the resistor R9 are grounded.

3. A tile lamp control circuit as defined in claim 2, wherein: the boosting voltage stabilizing circuit comprises a boosting inductor L1, a boosting chip U2, a diode D2, a voltage stabilizing chip U3, a capacitor C1, a capacitor C2 and a capacitor C6;

one end of the boosting inductor L1 is connected with the lithium battery BAT through the change-over switch K1, and the other end of the boosting inductor L1 is connected with the VIN end of the boosting chip U2; the VOUT end of the boosting chip U2 is connected with the VIN end of the voltage stabilizing chip U3; the other end of the boosting inductor L1 is connected with the VOUT end of a boosting chip U2 through the diode D2; one end of the capacitor C1 is connected with one end of the boost inductor L1, one end of the capacitor C2 is connected with the VOUT end of the boost chip U2, and one end of the capacitor C6 is connected with the VOUT end of the voltage stabilizing chip U3; the other end of the capacitor C1, the other end of the capacitor C2, the other end of the capacitor C6, the GND end of the boost chip U2 and the GND end of the voltage stabilization chip U3 are commonly grounded.

4. A tile lamp control circuit as defined in claim 2, wherein: the solar light-operated detection circuit comprises a resistor R2, a resistor R3 and a capacitor C3; one end of the resistor R2 is connected with one end of the resistor R3, the other end of the resistor R2 is connected with the solar panel, and the other end of the resistor R3 is grounded; the capacitor C3 is arranged in parallel with the resistor R3; the main control circuit is connected with the resistor R2 and the resistor R3.

5. A tile lamp control circuit as defined in claim 2, wherein: the battery capacity detection circuit comprises a resistor R1, a resistor R6 and a capacitor C7; one end of the resistor R1 is connected with one end of the resistor R6, the other end of the resistor R1 is connected with the lithium battery BAT, and the other end of the resistor R6 is grounded; the capacitor C7 is arranged in parallel with the resistor R6; the main control circuit is connected with the resistor R1 and the resistor R6.

6. A tile lamp control circuit as defined in claim 2, wherein: the LED lamp output control circuit comprises a resistor R10, a resistor R5 and a triode Q2; the main control circuit is connected with the b pole of a triode Q2 through the resistor R5, and the e pole of the triode Q2 is grounded; the c pole of the triode Q2 is connected with the resistor R10 through a light source module LED1, and the resistor R10 is connected with a lithium battery BAT.

7. A solar tile lamp is characterized in that: comprises a tile main body, a solar panel, a light source module and the control circuit of any one of claims 1-6;

a tile end plate is arranged at one end of the tile main body, a light source module assembly opening is formed in the tile end plate, and the light source module is installed on the light source module assembly opening;

a solar panel assembly groove is formed in the upper surface of the tile main body, and the solar panel is mounted on the solar panel assembly groove; the control circuit is fixedly arranged at the bottom of the solar panel.

8. A solar tile light as recited in claim 7, wherein: the tile main part include with the shape assorted arc tile board of pantile, tile end plate integrated into one piece in the one end of arc tile board, just the tile end plate leans out the setting from top to bottom.

9. A solar tile light as recited in claim 7, wherein: the solar panel assembling groove is an arc-shaped groove, the solar panel is an arc-shaped solar panel matched with the arc-shaped groove, and the thickness of the solar panel is equal to the depth of the solar panel assembling groove;

the light source module assembling port is an arc assembling port or an oval assembling port; the light source module is provided with a fitting wall surface matched with the light source module assembling port.

10. A solar tile light as recited in claim 7, wherein: the other end of tile main part upwards extends and is provided with the arc leg, the slotted hole has been seted up to the upper surface of arc leg.

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