CN210637933U - Intelligent colorful rotary ferris wheel lamp - Google Patents

Abstract

The utility model discloses an intelligent colorful rotary ferris wheel lamp, which comprises a base, a lamp bracket, a lamp housing, a lamp string, a rotary mechanism and a PCB; the lamp bracket is arranged on the base; the lamp shell can rotate around the self axis and is arranged on the lamp holder, the lamp shell is divided into a first shell and a second shell, and the first shell and the second shell are buckled to form an accommodating groove; the lamp string is arranged in the accommodating groove and comprises a plurality of lamp beads, and a light outlet is formed in the position, corresponding to each lamp bead, of the lamp shell; the rotating mechanism is arranged in the accommodating groove at the inner side of the lamp string and is meshed with the second shell; the PCB is arranged in the containing groove at one side of the rotating mechanism and is respectively electrically connected with the lamp string and the rotating mechanism. The utility model discloses a rotary mechanism realizes the rotation of lamps and lanterns to realize self-adaptation regulation light brightness through photosensitive device, realize the illumination of conventional ornamental lamps and lanterns outstanding interest, use and experience well, promoted the commercial value of product.

Description

Intelligent colorful rotary ferris wheel lamp

Technical Field

The utility model relates to the technical field of lighting fixtures, especially, relate to a seven various rotatory roller coaster lamps of intelligence.

Background

With the rapid development of scientific technology and social economy, people increasingly pay more attention to life experience, so that the development of the cultural industry is promoted, and a plurality of lamps with ornamental and decorative effects are successively released on the market, wherein the lamps comprise ferris wheel modeling lamps; however, the conventional ferris wheel modeling lamp can only control the on/off of the lamp through an independent mechanical switch, cannot realize the rotation of the lamp, cannot realize the self-adaptive adjustment of the brightness of the lamp, and is poor in use experience.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide a seven various rotatory roller coaster lamps of intelligence.

The technical scheme of the utility model as follows: an intelligent colorful rotary ferris wheel lamp, comprising: the lamp comprises a base, a lamp bracket, a lamp shell, a lamp string, a rotating mechanism and a PCB; the lamp holder consists of a first bracket and a second bracket, and the first bracket and the second bracket are respectively arranged on the base; the lamp shell can be rotatably arranged on the first support and the second support around the axis of the lamp shell, the lamp shell is divided into a first shell and a second shell, and the first shell and the second shell are buckled to form an accommodating groove; the lamp string is arranged in the accommodating groove and comprises a plurality of lamp beads, and a light outlet is formed in the position, corresponding to each lamp bead, of the lamp shell and used for allowing the lamp beads to emit light; the rotating mechanism is arranged in the accommodating groove on the inner side of the lamp string, and the output end of the rotating mechanism is meshed with the second shell; the PCB is arranged in the containing groove on one side of the rotating mechanism, and is respectively electrically connected with the lamp string and the rotating mechanism and used for controlling the operation of the lamp string and the rotating mechanism.

Preferably, the ferris wheel lamp further comprises a power supply; the PCB is electrically connected with a power supply and is used for controlling and supplying electric energy to the lamp string and the rotating mechanism; a touch switch is arranged on the PCB, and a touch window is arranged at the position of the lamp shell corresponding to the touch switch; still be equipped with the interface that charges on the PCB board, be used for to the power charges.

Preferably, each light outlet is sleeved with a lampshade for preventing impurities such as dust from entering the lamp housing.

Preferably, the PCB board includes an MCU logic control unit, a touch control unit, a illuminance control unit, a power module, a light source driving module, and a rotation control unit, the touch control unit is electrically connected to the MCU logic control unit for implementing touch control operation, the illuminance control unit is electrically connected to the MCU logic control unit for implementing automatic light brightness adjustment operation, and the power module is electrically connected to the charging interface and the MCU logic control unit respectively for providing electric energy; the light source driving module is respectively electrically connected with the light string and the MCU logic control unit and is used for driving the light string to run; and the rotation control unit is respectively electrically connected with the rotation mechanism and the MCU logic control unit and is used for controlling the operation of the rotation mechanism.

Preferably, the MCU logic control unit includes an MCU chip U1 and its working circuit, and the MCU chip U1 is electrically connected to the touch control unit, the illuminance control unit, the power supply module, the light source driving module, and the rotation control unit through its own working circuit;

the illuminance control unit consists of the photosensitive device and a working circuit thereof, and the photosensitive device is electrically connected with the MCU chip U1 through the working circuit of the photosensitive device.

Preferably, the power module comprises a battery power supply circuit and a battery charging and discharging management circuit, and the battery power supply circuit is electrically connected with the battery charging and discharging management circuit and the MCU chip U1 respectively; the battery charging and discharging management circuit is also electrically connected with the power supply and is used for performing overshoot and over-discharge monitoring protection on the power supply.

Preferably, the battery power supply circuit includes a charge indication circuit composed of a diode Q1, a diode Q2, and a diode Q3, for indicating a charge state.

Preferably, the light source driving module comprises a warm color light source driving unit, a red light source driving unit, a green light source driving unit and a blue light source driving unit, the warm color light source driving unit, the red light source driving unit, the green light source driving unit and the blue light source driving unit are respectively electrically connected with the light string and the MCU chip U1, and when the LED light source driving module is used, the warm color light source driving unit, the red light source driving unit, the green light source driving unit and the blue light source driving unit are controlled by the MCU chip U1 to change the light string connected with the warm color light source driving unit to emit light, so that a color gradual change or a color illusion effect is.

By adopting the scheme, the utility model discloses following beneficial effect has:

1. the utility model comprises a rotating mechanism and a photosensitive device, realizes the rotation of the lamp through the rotating mechanism, realizes the self-adaptive adjustment of the brightness of the lamp through the photosensitive device, realizes the illumination of the conventional ornamental lamp, simultaneously shows the interest, has good use experience, and improves the commercial value of the product;

2. the touch switch in the preferred scheme is applied to realize touch control; on the other hand, the touch switch and the power supply module are integrated into a whole, so that integrated control is realized.

Drawings

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

FIG. 1 is an exploded view of the structure of the present invention;

FIG. 2 is a block diagram of the system of the present invention;

fig. 3 is a circuit diagram of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 3, the utility model provides an intelligent seven-color rotary ferris wheel lamp, which comprises a base 1, a lamp bracket, a lamp housing, a lamp string 2, a rotary mechanism 3 and a PCB board 8; the lamp holder consists of a first support 4 and a second support 5, and the first support 4 and the second support 5 are respectively and fixedly arranged on the base 1 through two screws; the lamp housing can be rotatably mounted on the first support 4 and the second support 5 around the axis of the lamp housing, specifically, the lamp housing is divided into a first housing 6 and a second housing 7 which can be mutually buckled and connected, and the first housing 6 and the second housing 7 are mutually buckled to form a containing groove for containing the lamp string 2, the rotating mechanism 3 and the PCB 8; the lamp string 2 is installed in the accommodating groove, the lamp string 2 comprises a plurality of lamp beads 201, light outlets are formed in the positions, corresponding to the lamp beads 201, of the lamp shell, light is emitted by the lamp beads 201, in order to prevent impurities such as dust from entering the lamp shell, a lampshade 202 is sleeved on each light outlet, and specifically, the lampshade 202 is an acrylic ball; the rotating mechanism 3 is arranged in the accommodating groove at the inner side of the lamp string 2, and the output end of the rotating mechanism 3 is meshed with the second shell 7, specifically, the rotating mechanism 3 is a speed reducing motor, and when the lamp string 2 is used, the rotating mechanism 3 drives the second shell 7 to rotate, so that the lamp string 2 rotates along with the rotation of the second shell 7; the PCB 8 is arranged in the containing groove at one side of the rotating mechanism 3, and the PCB 8 is respectively electrically connected with the lamp string 2 and the rotating mechanism 3 and used for controlling the operation of the lamp string 2 and the rotating mechanism 3;

the ferris wheel lamp also comprises a power supply 9, specifically, the power supply 9 is a rechargeable battery, and the PCB 8 is electrically connected with the power supply 9 and used for controlling and providing electric energy for the lamp string 2 and the rotating mechanism 3; a touch switch 801 is arranged on the PCB 8, a touch window is arranged at the position of the lamp shell corresponding to the touch switch 801, and a user contacts the touch switch 801 through the touch window during use, so that a touch control function is realized; the PCB board 8 is further provided with a charging interface 802, specifically, the charging interface 802 is a USB interface, and when the PCB board 8 is used, the operation of charging the power supply 9 is completed through the charging interface 802;

in order to realize the function of automatically adjusting the light brightness, a photosensitive device is arranged at the axis of the lamp shell, specifically, the photosensitive device adopts a CDS photosensitive tube, the photosensitive device is electrically connected with the PCB 8, when in use, the photosensitive device collects the illuminance data of the external environment and feeds the illuminance data back to the PCB 8, and the PCB 8 adjusts the light brightness of the lamp string 2 according to the illuminance data, so that the function of automatically adjusting the light brightness is realized;

the PCB 8 comprises an MCU (microprogrammed control unit) logic control unit 80, a touch control unit 81, a illuminance control unit 82, a power supply module, a light source driving module and a rotation control unit 83, the touch control unit 81 is electrically connected with the MCU logic control unit 80 and used for realizing touch control operation, the illuminance control unit 82 is electrically connected with the MCU logic control unit 80 and used for realizing automatic light brightness adjustment operation, and the power supply 9 module is respectively electrically connected with the charging interface and the MCU logic control unit 80 and used for providing electric energy; the light source driving module is respectively electrically connected with the light string 2 and the MCU logic control unit 80 and is used for driving the light string 2 to run; the rotation control unit 83 is electrically connected with the rotation mechanism 3 and the MCU logic control unit 80, respectively, and is configured to control the operation of the rotation mechanism 3;

the MCU logic control unit 80 comprises an MCU chip U1 and its working circuit, and the MCU chip U1 is electrically connected to the touch control unit 81, the illuminance control unit 82, the power supply module, the light source driving module, and the rotation control unit 83 through its own working circuit;

the illuminance control unit 82 comprises a CDS photodiode and a working circuit thereof, the CDS photodiode is electrically connected with the MCU chip U1 through the working circuit thereof, when in use, the CDS photodiode feeds back a potential signal to the MCU chip U1 according to illuminance of an external environment, and the MCU chip U1 controls an output potential according to the potential signal, so as to control the magnitude of current output by the resistor R3, the resistor R5, the resistor R7, and the resistor R9, and further control the on and off of a moss tube electrically connected with the resistor R3, the resistor R5, the resistor R7, and the resistor R9, respectively, thereby realizing a function of automatically adjusting the brightness of light;

the power supply module comprises a battery power supply circuit 84 and a battery charging and discharging management circuit 85, wherein the battery power supply circuit 84 is electrically connected with the battery charging and discharging management circuit 85 and the MCU chip U1 respectively; the battery charging and discharging management circuit 85 is also electrically connected with the power supply 9 and is used for performing overshoot and over-discharge monitoring protection on the power supply 9;

the battery power supply circuit 84 includes a charge indication circuit composed of a diode Q1, a diode Q2, and a diode Q3 for indicating a charge state;

the battery power supply circuit 84 further includes a filter circuit formed by a filter capacitor C2, for filtering out circuit noise;

the light source driving module comprises a warm color light source driving unit 86 consisting of a Moss tube MOS1 and peripheral components thereof, a red light source driving unit 87 consisting of a Moss tube MOS2 and peripheral components thereof, a green light source driving unit 88 consisting of a Moss tube MOS3 and peripheral components thereof, and a blue light source driving unit 89 consisting of a Moss tube MOS4 and peripheral components thereof, wherein the warm color light source driving unit 86, the red light source driving unit 87, the green light source driving unit 88 and the blue light source driving unit 89 are respectively electrically connected with the lamp string 2 and the MCU chip U1, and when the light source driving module is used, the MCU chip U1 outputs PWM control voltage to control the G pole control voltage of the Moss tube MOS1, the Moss tube MOS2, the Moss tube MOS3 and the Moss tube MOS4 connected with the LED driving unit, so as to control the conduction, saturation and cut-off states of the Moss tube MOS1, the Moss tube 2, the Moss tube MOS3 and the Moss tube 4, and change the PWM control voltage 1 by changing the output PWM control voltage of the MCU chip U1, The D poles of the MOS2, the MOS3 and the MOS4 are used for inputting voltages, so that the S poles of the MOS1, the MOS2, the MOS3 and the MOS4 are used for outputting different voltages, thereby changing the light color of the string light 2 connected with the LED lamp, and presenting different light color gradual change or magic color effects.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model comprises a rotating mechanism and a photosensitive device, realizes the rotation of the lamp through the rotating mechanism, realizes the self-adaptive adjustment of the brightness of the lamp through the photosensitive device, realizes the illumination of the conventional ornamental lamp, simultaneously shows the interest, has good use experience, and improves the commercial value of the product;

2. the touch switch in the preferred scheme is applied to realize touch control; on the other hand, the touch switch and the power supply module are integrated into a whole, so that integrated control is realized.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a seven various rotatory roller coasters of intelligence lamp which characterized in that includes: the lamp comprises a base, a lamp bracket, a lamp shell, a lamp string, a rotating mechanism and a PCB; the lamp holder consists of a first bracket and a second bracket, and the first bracket and the second bracket are respectively arranged on the base; the lamp shell can be rotatably arranged on the first support and the second support around the axis of the lamp shell, the lamp shell is divided into a first shell and a second shell, and the first shell and the second shell are buckled to form an accommodating groove; the lamp string is arranged in the accommodating groove and comprises a plurality of lamp beads, and a light outlet is formed in the position, corresponding to each lamp bead, of the lamp shell and used for allowing the lamp beads to emit light; the rotating mechanism is arranged in the accommodating groove on the inner side of the lamp string, and the output end of the rotating mechanism is meshed with the second shell; the PCB is arranged in the containing groove and is electrically connected with the lamp string and the rotating mechanism respectively and used for controlling the operation of the lamp string and the rotating mechanism.

2. The intelligent seven-color rotating ferris wheel lamp as claimed in claim 1, further comprising a power supply; the PCB is electrically connected with a power supply and is used for controlling and supplying electric energy to the lamp string and the rotating mechanism; a touch switch is arranged on the PCB, and a touch window is arranged at the position of the lamp shell corresponding to the touch switch; still be equipped with the interface that charges on the PCB board, be used for to the power charges.

3. The intelligent colorful rotary ferris wheel lamp as claimed in claim 1, wherein each light outlet is sleeved with a lampshade for preventing impurities such as dust from entering the lamp housing.

4. The intelligent colorful rotary ferris wheel lamp as claimed in claim 2, wherein a photosensitive device is arranged at the axis of the lamp housing, and the photosensitive device is electrically connected with the PCB board and used for monitoring the illuminance of the external environment in real time.

5. The intelligent seven-color rotary ferris wheel lamp according to claim 4, wherein the PCB board comprises an MCU logic control unit, a touch control unit, a illuminance control unit, a power supply module, a light source driving module and a rotary control unit, the touch control unit is electrically connected with the MCU logic control unit for realizing touch control operation, the illuminance control unit is electrically connected with the MCU logic control unit for realizing automatic light brightness adjustment operation, and the power supply module is respectively electrically connected with the charging interface and the MCU logic control unit for providing electric energy; the light source driving module is respectively electrically connected with the light string and the MCU logic control unit and is used for driving the light string to run; and the rotation control unit is respectively electrically connected with the rotation mechanism and the MCU logic control unit and is used for controlling the operation of the rotation mechanism.

6. The intelligent colorful rotary ferris wheel lamp as claimed in claim 5, wherein the MCU logic control unit comprises an MCU chip U1 and its working circuit, the MCU chip U1 is electrically connected with the touch control unit, the illuminance control unit, the power supply module, the light source driving module and the rotary control unit through its own working circuit respectively;

the illuminance control unit consists of the photosensitive device and a working circuit thereof, and the photosensitive device is electrically connected with the MCU chip U1 through the working circuit of the photosensitive device.

7. The intelligent colorful rotary ferris wheel lamp as claimed in claim 6, wherein the power supply module comprises a battery power supply circuit and a battery charging and discharging management circuit, the battery power supply circuit is respectively electrically connected with the battery charging and discharging management circuit and the MCU chip U1; the battery charging and discharging management circuit is also electrically connected with the power supply and is used for performing overshoot and over-discharge monitoring protection on the power supply.

8. The intelligent seven-color rotary ferris wheel lamp as claimed in claim 7, wherein the battery power supply circuit includes a charge indication circuit composed of a diode Q1, a diode Q2 and a diode Q3 for indicating a charging state.

9. The intelligent seven-color rotary ferris wheel lamp according to claim 6, wherein the light source driving module comprises a warm color light source driving unit, a red color light source driving unit, a green color light source driving unit and a blue color light source driving unit, the warm color light source driving unit, the red color light source driving unit, the green color light source driving unit and the blue color light source driving unit are respectively electrically connected with the lamp string and the MCU chip U1, and the warm color light source driving unit, the red color light source driving unit, the green color light source driving unit and the blue color light source driving unit are controlled by the MCU chip U1 to change the light emission of the lamp string connected therewith, so as to realize color gradual change or magical color effect.

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