CN212029239U - Novel more portable and small bee-eye shaking-head lamp - Google Patents

Abstract

The utility model discloses a novel more portable and small bee-eye shaking head lamp, which comprises a base, a supporting arm and a lamp body component, wherein the lamp body component comprises a rotary lens, a light-through component and the like; the light passing assembly comprises a light passing frame and a rotating mechanism, the rotating mechanism comprises a driving motor, a synchronous belt and a synchronous belt driven wheel assembly, the synchronous belt driven wheel assembly is embedded and installed in the light passing frame, the synchronous belt driven wheel assembly is connected with the driving motor through the synchronous belt, and a rotating lens cover and the synchronous belt driven wheel assembly are arranged. The novel rotating structure adopts the synchronous belt to be matched with the synchronous belt pulley for transmission, the whole rotating structure is almost completely embedded in the light-transmitting assembly, and the gap between the lens and the light-transmitting assembly is fully utilized, so that the structure is more compact, the lamp body can be smaller in size and lighter in weight, and the problems of large weight, large size, low power and low brightness of the bee-eye oscillating lamp are solved.

Description

Novel more portable and small bee-eye shaking-head lamp

Technical Field

The utility model relates to a lamps and lanterns product technical field, concretely relates to lamp of shaking head that is used for stage, place of entertainment etc. to perform or use when amusement.

Background

With the development of science and technology, the development of moving head lamps puts forward higher and higher technical requirements on the field of stage lighting, the quality requirements on the lighting are higher and higher, and the use of lamps is more finely classified. Generally, the moving head light needs to be capable of aiming at any direction, and has the advantages of being not influenced by weather conditions, displaying the environment, rendering the atmosphere, highlighting central characters by using light color and changes thereof, shaping the external image of the stage performance, providing necessary lighting effect and creating the best ornamental effect for audiences. The method is mainly used for large entertainment places, bars, discos, dance halls, KTV rooms, television stations, operas, speech plays, concert stages, performance activities and the like. However, the following problems are common to the current commercial bee-eye moving head lamps: for example, most moving head lamps have large lamp bodies, heavy weight, unmatched brightness and body type and easy random rotation, and bring serious inconvenience to installation and transportation processes of engineering personnel; for another example, a few lamps are hung on a single truss, the variety of lamps is few, the utilization rate is low, the number of the trusses is large, engineering personnel are heavily loaded, the power consumption is serious, and the like.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a can accomplish the lamp body that the volume is littleer, weight is lighter but luminance is higher, can not rotate at will, transportation and installation operation are more convenient novel bee eye lamp of shaking the head. The utility model discloses a bee eye lamp of shaking head has used the technical scheme in the "bee eye lamp of shaking head of improvement structure (the patent number is CN201920030659. X)" of prior patent at the locking structure of X axle and Y axle.

In order to solve the technical problem, the utility model adopts the following technical scheme: a more portable and small novel bee-eye shaking lamp comprises a base, a supporting arm and a lamp body assembly, wherein the lamp body assembly is movably arranged on the supporting arm, and the supporting arm is movably arranged on the base; the lamp body assembly comprises a rotary lens, a light-passing assembly, a light source assembly, a focusing assembly and a heat dissipation assembly, the rotary lens is movably arranged on the light-passing assembly, the light-passing assembly is fixedly arranged on the focusing assembly to realize focusing movement together, and the focusing assembly and the heat dissipation assembly are fixedly arranged on the light source assembly; rotatory camera lens is provided with logical light camera lens, its characterized in that including rotatory lens cap in the rotatory lens cap: the light-transmitting assembly comprises a light-transmitting frame and a rotating mechanism, the rotating mechanism is arranged between the light-transmitting frame and the rotating lens cover in an embedded mode, and the light-transmitting frame is connected with the focusing assembly; the rotating mechanism comprises a driving motor, a synchronous belt and a synchronous belt driven wheel assembly, the synchronous belt driven wheel assembly is embedded in the through optical frame and connected with the driving motor through the synchronous belt, and the rotating lens cover and the synchronous belt driven wheel assembly are connected to form a rotatable structure.

Furthermore, the light-transmitting frame comprises a light-transmitting bracket and a rotary fixing plate, the light-transmitting bracket is arranged on the rotary fixing plate, the rotary fixing plate is fixedly connected with a focusing guide shaft of the focusing assembly, a driving motor is arranged on the bottom surface of the rotary fixing plate, a transmission shaft of the driving motor penetrates through the rotary fixing plate and the light-transmitting bracket to be connected with a synchronous belt driving wheel, and the synchronous belt is connected with the synchronous belt driving wheel; the center of the rotary fixing plate is provided with a fixing shaft, the synchronous belt driven wheel assembly is arranged on the fixing shaft, the synchronous belt driven assembly is provided with a rotary main shaft, and the rotary lens cover is fixedly assembled with the synchronous belt driven wheel of the synchronous belt driven assembly.

Preferably, the light source assembly comprises a light source lamp bead plate assembly, 24 lamp bead light sources and 24 collecting lenses are arranged on the light source lamp bead plate assembly, each collecting lens corresponds to one lamp bead light source, each lamp bead light source is divided into 3 circles, and 3 lamp bead light sources are arranged in one circle and distributed in an equilateral triangle; the number of the second ring is 9, the number of the outermost ring is 12, and the second ring and the outermost ring are arranged according to the circumference.

Furthermore, light through holes for the condenser lenses to pass through are formed in the light through support and the rotary fixing plate, each light through hole in the outermost circle and each light through hole in the second circle corresponds to one condenser lens, and the central light through hole simultaneously accommodates the three condenser lenses in the middle; the fixed shaft, the rotating main shaft and the synchronous belt driven wheel component are all circular structures, and three condensing lenses in the middle sequentially penetrate through the fixed shaft and the rotating main shaft and then are in butt joint with a light-passing lens in the rotating lens cover; the rotating lens cover comprises a rotating upper lens cover and a rotating lower lens cover, the rotating upper lens cover is fixed on the rotating lower lens cover, the light-transmitting lens is embedded in the middle, and the rotating lower lens cover is connected and fixed with a synchronous belt driven wheel of a synchronous belt driven component.

Furthermore, the synchronous belt driven wheel assembly comprises a synchronous belt driven wheel and a bearing, the bearing is located inside the synchronous belt driven wheel, the synchronous belt driven wheel is installed on the fixed shaft through the bearing, and a bearing flange is padded on the fixed shaft to seal the bearing from the bottom surface.

Furthermore, the synchronous belt driven wheel is connected with the synchronous belt driving wheel through a synchronous belt to form a structure capable of stepless rotation; be fixed with two pinch rollers on rotation fixing plate, two pinch rollers pass to lead to the light support and stand in the position that the hold-in range passed through to compress tightly in the both sides outside of hold-in range, so that the hold-in range avoids the condensing lens that leads to the unthreaded hole from leading to the light support and passes, and the hold-in range is adjusted the elasticity by two pinch rollers, can accomplish to adjust the hold-in range elasticity, can prevent again that the hold-in range from blocking the light-emitting that leads to the unthreaded hole. The driving motor works, the synchronous belt is driven by the synchronous belt driving wheel, the synchronous belt drives the synchronous belt to rotate from the driving wheel, the rotating main shaft rotates along with the synchronous belt, and therefore the lens cover rotates under the driving rotation, namely the stepless rotation of the whole rotating lens is realized, and the effect that the light emitting has obvious bee-eye effect is realized.

Furthermore, an induction magnetic sensor for inducing the rotation angle of the rotary lens is arranged on the light-transmitting support, and the light-transmitting support is made of high-temperature-resistant and high-strength plastic materials.

Furthermore, 24 light source lamp beads and the lamp bead driving devices are arranged on the same copper substrate together to form a light source lamp bead assembly; the light through holes corresponding to 24 light source lamp beads are distributed on the two parts of assemblies, two circles of 21 light through holes are arranged on the light through assemblies, and 3 light through holes are arranged on the rotary lens; 3 light through holes of the inner ring in the lower lens cover are downwards embedded into the rotating main shaft and form a structure capable of synchronously rotating with the synchronous belt driven wheel; 3 light through holes of inner circle and two rings of 21 light through holes outside are located same horizontal plane, and the front end of light through hole is chamfered outward to prevent the facula from producing the reverberation.

Preferably, the light-transmitting assembly and the rotary lens can perform up-and-down focusing movement under the driving of the focusing assembly, and the light-emitting angle can be kept between 3 and 60 degrees.

Preferably, the 24 lamp bead light sources of the light source component are colored RGBW lamp beads, CW lamp beads or pure colored W lamp beads; the driving voltage of the lamp bead light source is 48V, and each lamp bead is of a unified control structure or a single-point control structure; the input voltage of the power supply is 90-240V, the output voltage is 48V and 28V, and under the condition of certain power, the switching power supply can achieve good heat dissipation and small size.

The novel rotating structure adopts the synchronous belt to be matched with the synchronous belt pulley for transmission, the whole rotating structure is almost completely embedded in the light-transmitting assembly, and the gap between the lens and the light-transmitting assembly is fully utilized, so that the structure is more compact, the lamp body can be smaller in size and lighter in weight, the power of the whole lamp can be higher under the same size, and the problems of large weight, large size, low power and low brightness of the bee-eye shaking lamp are solved. In addition, the arrangement mode of 24 light sources in an inner circle, a middle circle and an outer circle is adopted, so that a 3-circle bee-eye effect can be formed, and the lighting effect is good.

Drawings

FIG. 1 is a three-dimensional structure of the present invention;

FIG. 2 is an overall exploded view of the present invention;

fig. 3 is an exploded view of the lamp body assembly of the present invention;

FIG. 4 is a block diagram of a light passing assembly;

FIG. 5 is a schematic cross-sectional view of a light passing assembly;

fig. 6 is an exploded view of the light passing assembly in cooperation with the rotating lower lens cap.

In the figure, 1 is a lamp body assembly, 11 is a lamp cap upper cover, 12 is a rotary upper lens cover, 13 is a rotary lower lens cover, 14 is a light-passing assembly, 141 is a rotary main shaft, 142 is a pinch roller, 143 is a synchronous belt driving wheel, 144 is an induction magnetic sensor, 145 is a driving motor, 146 is a synchronous belt, 147 is a synchronous belt driven wheel assembly, 148 is a bearing flange, 149 is a fixed shaft, 1410 is a light-passing support, 1411 is a rotary fixed plate, 1471 is a synchronous belt driven wheel, 1472 is a bearing, 15 is a focusing guide shaft, 16 is a lamp cap housing mounting frame, 17 is a light source lamp bead assembly, 18 is a heat sink, 19 is a focusing driving motor, 110 is a heat dissipation fan, 111 is a lamp cap rear cover, 112 is a light-passing lens, 113 is a condenser lens, 114 is a focusing shaft guide sleeve, 115 is a heat dissipation fan mounting frame, 116 is a focusing guide block, 2 is a support arm.

Detailed Description

In this embodiment, referring to fig. 1 to 6, the novel, more portable and smaller bee-eye shaking head lamp includes a base 3, a support arm 2 and a lamp body assembly 1, wherein the lamp body assembly 1 is movably mounted on the support arm 2, and the support arm 2 is movably mounted on the base 3; the lamp body assembly 1 comprises a rotary lens, a light-passing assembly 14, a light source assembly, a focusing assembly and a heat dissipation assembly, the rotary lens is movably mounted on the light-passing assembly 14, the light-passing assembly 14 is fixedly mounted on the focusing assembly to realize focusing movement together, and the focusing assembly and the heat dissipation assembly are fixedly mounted on the light source assembly; the lamp body assembly 1 further includes a lamp cap upper cover 11, a focusing guide shaft 15, a lamp cap housing mounting frame 16, a light source lamp bead assembly 17, a heat sink 18, a focusing driving motor 19, a heat dissipation fan 110, a lamp cap rear cover 111, a light-transmitting lens 112, a condenser lens 113, a focusing shaft guide sleeve 114, a heat dissipation fan fixing frame 115, a focusing guide block 116, and the like, which can all use the prior art. The rotary lens includes a rotary lens cover in which a light-passing lens 112 is disposed. The rotary lens cover comprises a rotary upper lens cover 12 and a rotary lower lens cover 13, the light-passing assembly 14 comprises a light-passing frame and a rotary mechanism, the rotary mechanism is arranged between the light-passing frame and the rotary lens cover in an embedded mode, and the light-passing frame is connected with the focusing assembly; the rotating mechanism comprises a driving motor 145, a synchronous belt 146 and a synchronous belt driven wheel assembly 147, the synchronous belt driven wheel assembly 147 is embedded in the light passing frame, the synchronous belt driven wheel assembly 147 is connected with the driving motor 145 through the synchronous belt 146, and the rotary lens cover is connected with the synchronous belt driven wheel assembly 147 to form a rotatable structure.

The light-transmitting frame comprises a light-transmitting bracket 1410 and a rotary fixing plate 1411, the light-transmitting bracket 1410 is mounted on the rotary fixing plate 1411, the rotary fixing plate 1411 is fixedly connected with a focusing guide shaft 15 of the focusing assembly, the driving motor 145 is mounted on the bottom surface of the rotary fixing plate 1411, a transmission shaft of the driving motor 145 passes through the rotary fixing plate 1411 and the light-transmitting bracket 1410 and is connected with a synchronous belt driving wheel 143, and the synchronous belt 146 is connected with the synchronous belt driving wheel 143; a fixed shaft 149 is attached to the center of the rotation fixing plate 1411, the timing belt driven wheel assembly 147 is attached to the fixed shaft 149, the rotation main shaft 141 is attached to the timing belt driven wheel assembly 147, and the lower lens cover 13 is attached to the timing belt driven wheel 1471.

The light source lamp bead plate component 17 is provided with 24 lamp bead light sources and 24 collecting lenses 113, each collecting lens 113 corresponds to one lamp bead light source, wherein the lamp bead light sources are divided into 3 circles, and 3 lamps are arranged in one circle and distributed in an equilateral triangle; the number of the second ring is 9, the number of the outermost ring is 12, and the second ring and the outermost ring are arranged according to the circumference.

The light-transmitting bracket 1410 and the rotary fixing plate 1411 are respectively provided with a light-transmitting hole for the condenser lens 113 to pass through, each light-transmitting hole of the outermost circle and the second circle corresponds to one condenser lens 113, and the central light-transmitting hole simultaneously accommodates the three condenser lenses 113 in the middle; the fixed shaft 149, the rotating main shaft 141 and the synchronous belt driven wheel component 147 are all circular structures, three collecting lenses 113 in the middle sequentially penetrate through the fixed shaft 149 and the rotating main shaft 141 and then are in butt joint with the light-transmitting lenses 113 in the rotating lens cover, the rotating upper lens cover 12 is fixed on the rotating lower lens cover 13 to enable the light-transmitting lenses 113 to be embedded in the middle, and the rotating lower lens cover 13 is connected and fixed with the synchronous belt driven wheel 1471.

The synchronous belt driven wheel assembly 147 comprises a synchronous belt driven wheel 1471 and a bearing 1472, the bearing 1472 is arranged in the synchronous belt driven wheel 1471, the synchronous belt driven wheel 1471 is arranged on the fixed shaft 149 through the bearing 1472, and a bearing rib 148 is padded on the fixed shaft 149 to seal the bearing 1472 from the bottom surface.

The synchronous belt driven wheel 1471 is connected with the synchronous belt driving wheel 1471 through a synchronous belt 146 to form a structure capable of stepless rotation; be fixed with two pinch rollers 142 on rotation fixing plate 1411, two pinch rollers 142 pass and lead to light support 1410 and stand in the position that hold-in range 146 passed through to compress tightly in the both sides outside at hold-in range 146, so that hold-in range 146 avoids the condensing lens 113 that leads to the unthreaded hole from leading to light support 1410 and pass, hold-in range 146 is adjusted the elasticity by two pinch rollers 142, can accomplish to adjust the hold-in range 146 elasticity, can prevent again that hold-in range 146 from blocking the light-emitting of logical unthreaded hole. The driving motor 145 works, the synchronous belt 146 is driven by the synchronous belt driving wheel 143, the synchronous belt driven wheel 1471 is driven to rotate by the synchronous belt 146, and therefore the lens cover 13 is driven to rotate, namely the whole rotary lens rotates in a stepless mode, and the effect that obvious bee-eye effect is achieved when light is emitted is achieved.

The light-transmitting support 1410 is provided with an induction magnetic sensor 144 for inducing the rotation angle of the rotary lens, and the light-transmitting support 1410 is made of high-temperature-resistant and high-strength plastic materials.

24 light source lamp pearls and lamp pearl drive set up on same copper base plate together and form light source lamp pearl board subassembly 17, have saved lamp pearl drive plate like this greatly and will occupy space, the head space is compact, makes whole lamp body occupy small, light in weight. The light through holes corresponding to 24 light source lamp beads are distributed on the two parts of assemblies, two circles of 21 light through holes are arranged on the light through assembly 14, and 3 light through holes are arranged on the rotary lens; the 3 light through holes of the inner ring in the lower lens cover 13 are embedded in the rotating main shaft 141 downwards to form a rotatable structure with the rotating main shaft 141; 3 light through holes of inner circle and two rings of 21 light through holes outside are located same horizontal plane, and the front end of light through hole is chamfered outward to prevent the facula from producing the reverberation.

The light-transmitting component 14 and the rotary lens can perform up-and-down focusing movement under the driving of the focusing component, and the light-emitting angle can be kept between 3 and 60 degrees.

The 24 lamp bead light sources of the light source component are colored RGBW lamp beads, CW lamp beads or pure colored W lamp beads; the driving voltage of the lamp bead light source is 48V, and each lamp bead is of a unified control structure or a single-point control structure; the input voltage of the power supply is 90-240V, the output voltage is 48V and 28V, and under the condition of certain power, the switching power supply can achieve good heat dissipation and small size.

The radiator 18 is arranged on the back of the light source lamp bead plate component 17 and is tightly attached to the bottom surface of the lamp bead, so that heat generated by the light source is quickly conducted to the radiator 18. The focus axis guide 114 is placed on the heat sink 18 and the lamp head housing mount 16 and condenser lens 113 are placed on the light source lamp bead assembly 17 as an integral assembly. The focusing driving motor 19 and the heat dissipation fan 110 are respectively disposed above and below the heat dissipation fan fixing frame 115, and the focusing driving motor 19 is clamped between the heat dissipation fan fixing frame 115 and the heat sink 18 to save the internal space of the lamp body assembly 1. The focusing guide shaft 15 is placed on the focusing guide block 116, passes through the focusing shaft guide sleeve 114, and can move smoothly in a straight line.

The supporting arm 2 is a U-shaped arm, the supporting arm 2 can perform 0-540 degree angle scanning rotation on the base 3, and the lamp body assembly 1 can perform 0-270 degree angle scanning rotation on the supporting arm 2.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (10)

1. A more portable and small novel bee-eye shaking lamp comprises a base, a supporting arm and a lamp body assembly, wherein the lamp body assembly is movably arranged on the supporting arm, and the supporting arm is movably arranged on the base; the lamp body assembly comprises a rotary lens, a light-passing assembly, a light source assembly, a focusing assembly and a heat dissipation assembly, the rotary lens is movably arranged on the light-passing assembly, the light-passing assembly is fixedly arranged on the focusing assembly to realize focusing movement together, and the focusing assembly and the heat dissipation assembly are fixedly arranged on the light source assembly; rotatory camera lens is provided with logical light camera lens, its characterized in that including rotatory lens cap in the rotatory lens cap: the light-transmitting assembly comprises a light-transmitting frame and a rotating mechanism, the rotating mechanism is arranged between the light-transmitting frame and the rotating lens cover in an embedded mode, and the light-transmitting frame is connected with the focusing assembly; the rotating mechanism comprises a driving motor, a synchronous belt and a synchronous belt driven wheel assembly, the synchronous belt driven wheel assembly is embedded in the through optical frame and connected with the driving motor through the synchronous belt, and the rotating lens cover and the synchronous belt driven wheel assembly are connected to form a rotatable structure.

2. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 1, characterized in that: the light-transmitting frame comprises a light-transmitting support and a rotary fixing plate, the light-transmitting support is arranged on the rotary fixing plate, the rotary fixing plate is fixedly connected with a focusing guide shaft of the focusing assembly, a driving motor is arranged on the bottom surface of the rotary fixing plate, a transmission shaft of the driving motor penetrates through the rotary fixing plate and the light-transmitting support to be connected with a synchronous belt driving wheel, and the synchronous belt is connected with the synchronous belt driving wheel; the center of the rotary fixing plate is provided with a fixing shaft, the synchronous belt driven wheel assembly is arranged on the fixing shaft, the synchronous belt driven assembly is provided with a rotary main shaft, and the rotary lens cover is fixedly assembled with the synchronous belt driven assembly.

3. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 2, characterized in that: the light source component comprises a light source lamp bead plate component, 24 lamp bead light sources and 24 collecting lenses are arranged on the light source lamp bead plate component, each collecting lens corresponds to one lamp bead light source, each lamp bead light source is divided into 3 circles, 3 lamp bead light sources are arranged in the inner circle, and the lamp bead light sources are distributed in an equilateral triangle shape; the number of the second ring is 9, the number of the outermost ring is 12, and the second ring and the outermost ring are arranged according to the circumference.

4. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 3, characterized in that: the light-transmitting bracket and the rotary fixing plate are respectively provided with a light-transmitting hole for the condenser to pass through, each light-transmitting hole of the outermost ring and the second ring corresponds to one condenser, and the central light-transmitting hole simultaneously accommodates the middle three condensers; the fixed shaft, the rotating main shaft and the synchronous belt driven wheel component are all circular structures, and three condensing lenses in the middle sequentially penetrate through the fixed shaft and the rotating main shaft and then are in butt joint with a light-passing lens in the rotating lens cover; the rotating lens cover comprises a rotating upper lens cover and a rotating lower lens cover, the rotating upper lens cover is fixed on the rotating lower lens cover, the light-transmitting lens is embedded in the middle, and the rotating lower lens cover is fixedly connected with the synchronous belt driven assembly.

5. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 4, characterized in that: the synchronous belt driven wheel assembly comprises a synchronous belt driven wheel and a bearing, the bearing is located inside the synchronous belt driven wheel, the synchronous belt driven wheel is installed on the fixed shaft through the bearing, and a bearing flange is padded on the fixed shaft to seal the bearing from the bottom surface.

6. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 5, characterized in that: the synchronous belt driven wheel is connected with the synchronous belt driving wheel through the synchronous belt to form a structure capable of rotating in an electrodeless mode, two pressing wheels are fixed on the rotary fixing plate, penetrate through the light passing support to stand at the passing position of the synchronous belt and are pressed on the outer sides of two sides of the synchronous belt, and therefore the synchronous belt is enabled to avoid a collecting lens passing through a light passing hole of the light passing support.

7. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 6, characterized in that: the light-transmitting support is provided with an induction magnetic sensor for inducing the rotation angle of the rotary lens, and is made of high-temperature-resistant and high-strength plastic materials.

8. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 6, characterized in that: 24 light source lamp beads and lamp bead driving are arranged on the same copper substrate together to form a light source lamp bead assembly; the light through holes corresponding to 24 light source lamp beads are distributed on the two parts of assemblies, two circles of 21 light through holes are arranged on the light through assemblies, and 3 light through holes are arranged on the rotary lens; 3 light through holes of the inner ring in the lower lens cover are downwards embedded into the rotating main shaft and form a structure capable of synchronously rotating with the synchronous belt driven wheel; 3 light through holes of inner circle and two rings of 21 light through holes outside are located same horizontal plane, and the front end of light through hole is chamfered outward, forms the structure that prevents that the facula from producing the reverberation.

9. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 1, characterized in that: the light-transmitting assembly and the rotary lens form an up-and-down focusing movement structure which can make a light angle of 3-60 degrees under the driving of the focusing assembly.

10. A novel, more lightweight and compact, bee-eye moving head lamp according to claim 3, characterized in that: the 24 lamp bead light sources of the light source component are colored RGBW lamp beads, CW lamp beads or pure colored W lamp beads; the driving voltage of the lamp bead light source is 48V, and each lamp bead is of a unified control structure or a single-point control structure; the input voltage of the power supply is 90-240V, and the output voltage is 48V and 28V.

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