A stepless rotating high-brightness intelligent stage pattern moving head light

By designing a stepless rotating high-brightness intelligent stage pattern moving head light, and using components such as a rotating bracket, lamp head, and pattern zoom adjustment mechanism, the problem of simple functions and poor heat dissipation of existing stage pattern lights is solved, achieving rich pattern and color combinations and good heat dissipation.

CN224454513UActive Publication Date: 2026-07-03广东斯芭克舞台设备有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
广东斯芭克舞台设备有限公司
Filing Date
2025-07-09
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing stage pattern lights have simple functions, limited patterns and color combinations, lack focus adjustment, and have poor heat dissipation.

Method used

A stepless rotating high-brightness intelligent stage pattern moving head light was designed. It adopts a rotating bracket, lamp head, pattern zoom adjustment mechanism, color disc rotating component, prism adjustment component and heat dissipation component to realize automated multi-style automatic zoom adjustment, enrich pattern and color combination, and improve heat dissipation effect through heat dissipation component.

Benefits of technology

It achieves a high degree of automation with multiple styles of automatic zoom adjustment, rich patterns and color combinations, good heat dissipation, and improved lifespan of the lamp head, resulting in excellent stage effects.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model provides a stepless rotating high-brightness intelligent stage pattern moving head light, comprising: a main unit; a rotating bracket mounted on the main unit; and a lamp head mounted on the rotating bracket. The lamp head includes a lampshade with bracket docking holes on both sides, allowing the lampshade to dock with the rotating bracket via these holes. A pattern zoom adjustment mechanism is installed inside the lampshade, comprising a mounting plate with a central light-emitting hole at its center. A color disc rotating assembly and a pattern disc rotating assembly are mounted at the bottom of the mounting plate. A prism adjustment assembly, a focusing assembly, and an inner lens adjustment assembly are mounted at the top of the mounting plate. A head cover is mounted at the front of the lampshade, and an outer lens is mounted on the head cover, secured to the head cover by an outer lens fixing cap. A heat dissipation assembly is mounted at the rear of the lampshade. This stepless rotating high-brightness intelligent stage pattern moving head light can automatically achieve multi-style automatic zoom adjustment, offering a wide variety of pattern and color combinations with rich variations and excellent heat dissipation.
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Description

Technical Field

[0001] This utility model relates to the field of stage lighting technology, specifically to a stepless rotating high-brightness intelligent stage pattern moving head light. Background Technology

[0002] Stage lights effectively enhance the stage effect. Moving head pattern lights are a commonly used type of stage light. The pattern is usually installed inside the pattern light using a pattern disc, and the pattern is projected through a zoom lens. Moving head stage pattern lights are high-tech products integrating electronics, mechanics, and optics. A qualified moving head stage pattern light must be stable and reliable, have excellent light efficiency, accurate positioning, good heat dissipation, and its lamp body and material structure must meet ergonomic requirements.

[0003] In the prior art, there are many reports on stage pattern lights. For example, Chinese patent CN208365345U discloses a moving head pattern light, including a base, support blocks installed at the four corners of the bottom of the base, a U-shaped arm installed on the base, a rack installed inside the U-shaped arm, a limit block installed at the top of one side of the rack, a spring buckle installed at the bottom of the other side of the rack, a gear meshing on the rack, a beam light installed on the U-shaped arm, a mounting plate installed on one side of the beam light, a reinforcing groove symmetrically arranged about the mounting plate of the beam light, reinforcing blocks installed on both sides of the reinforcing groove, a pattern disc installed on the mounting plate, a connecting plate installed on one side of the mounting plate, reinforcing plates installed on both sides of the top of the mounting plate, a fixing groove opened on both sides of the beam light, and a spring buckle groove provided at the bottom of the fixing groove. This utility model makes it easier to replace the parts of the pattern disc and is more convenient to use. However, the above-mentioned moving head pattern lights generally have the following defects: (1) simple function, limited patterns and color combinations, and few variations; (2) lack of focus adjustment function, poor adaptability. (3) Poor heat dissipation. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model proposes a stepless rotating high-brightness intelligent stage pattern moving head light, which has a high degree of automation, can automatically achieve multi-style automatic zoom adjustment, and offers a variety of patterns and color combinations with rich variations and good heat dissipation.

[0005] This utility model provides a stepless rotating high-brightness intelligent stage pattern moving head light, comprising: a main unit; a rotating bracket mounted on the main unit; and a lamp head mounted on the rotating bracket. The lamp head includes a lampshade, and bracket docking holes are provided on both sides of the lampshade. The lampshade docks with the rotating bracket through the bracket docking holes. A pattern zoom adjustment mechanism is installed inside the lampshade. The pattern zoom adjustment mechanism includes a mounting plate, and a central light-emitting hole is provided at the center of the mounting plate. A color filter disk rotating assembly is installed on the bottom of the mounting plate, on one side of the central light-emitting hole. The color filter disk rotates... A pattern disk rotating assembly is installed below the component. An LED light source is installed at the bottom of the central light-emitting hole, directly opposite the central light-emitting hole. A prism adjustment assembly is installed on the top of the mounting plate above the central light-emitting hole. A focusing assembly is installed above the prism adjustment assembly. An inner lens adjustment assembly is installed above the focusing assembly. The inner lens is mounted on the inner lens adjustment assembly. A head cover is installed at the front end of the lampshade. An outer lens is installed on the head cover and fixed to the head cover by an outer lens fixing cover. A heat dissipation assembly is installed at the rear end of the lampshade.

[0006] In the above technical solution, during actual operation, the host can control the rotation of the rotating bracket and simultaneously control the swaying of the lamp head mounted on it. When the lamp head is in operation, the LED light source installed below the central light outlet emits light outwards through the central light outlet. Through the cooperation of the color disc rotating assembly and pattern disc rotating assembly mounted on the mounting plate to one side of the central light outlet, a rich variety of patterns and color combinations can be produced, greatly enriching the styles of pattern and color combinations. Then, according to actual requirements, the beam can be dispersed through the prism adjustment assembly to form even richer colors and patterns. Furthermore, the focusing assembly and inner lens adjustment assembly allow for different forms of zooming of the beam passing through the central light outlet, enhancing beam rendering, blurring, and other effects, thereby further enriching the styles of beam changes and achieving excellent stage effects. In addition, the heat dissipation assembly installed at the rear of the lampshade ensures good heat dissipation for the lamp head, thereby improving its lifespan.

[0007] Preferably, the heat dissipation assembly includes a heat sink base, an LED light source mounted on the heat sink base, a heat sink fin mounted on the bottom of the heat sink base, a cooling fan mounted behind the heat sink fin, and a heat dissipation cover mounted on the rear end of the lampshade via a threaded connection, enclosing the heat sink fin and the cooling fan. In actual operation, the heat generated by the LED light source during operation can be quickly dissipated through the heat sink fin and the cooling fan, preventing heat accumulation.

[0008] Preferably, the pattern disk rotating assembly includes a pattern disk and a pattern disk drive motor. The pattern disk drive motor is fixed on a mounting base, and the pattern disk is mounted on the output shaft of the pattern disk drive motor. When the pattern disk rotates, it covers the central light-emitting hole. In actual operation, the pattern disk drive motor can drive the pattern disk to rotate. When different patterns rotate to the central light-emitting hole, different patterns will be generated.

[0009] Preferably, the color plate rotating assembly includes a color plate disk and a color plate disk drive motor. The color plate disk drive motor is mounted on a mounting plate, and the color plate disk is mounted on the output shaft of the color plate disk drive motor. The color plate disk and the pattern disk are arranged parallel to each other vertically and at intervals. In actual operation, the color plate disk drive motor can drive the color plate disk to rotate. When different color plates rotate to the central light-emitting hole, different colors will be produced, and they will cooperate with different patterns to create a variety of patterns and color combinations, greatly enriching the styles of pattern and color combinations.

[0010] Preferably, the prism adjustment assembly includes a prism adjustment motor and a prism sheet. The prism adjustment motor is mounted on a mounting plate, and the prism sheet is mounted on the output shaft of the prism adjustment motor and located directly above the central light-emitting aperture. In actual operation, the prism sheet can disperse the light beam, forming richer colors and patterns.

[0011] Preferably, the focusing assembly includes a focusing drive motor, a sleeve shaft is sleeved on the output shaft of the focusing drive motor, a focusing transmission gear is mounted on the top of the output shaft of the focusing drive motor, one end of the focusing lens is fixed on the sleeve shaft, and the other end of the focusing lens extends directly above the central light-emitting aperture. A focusing gear is mounted on the top of the focusing lens, and the focusing gear meshes with the focusing transmission gear. In actual operation, the focusing drive motor drives the focusing transmission gear to rotate, which in turn drives the focusing gear to rotate, thereby enabling the adjustment of the focusing lens and achieving fine-tuning of the light beam.

[0012] Preferably, the inner lens adjustment assembly includes an inner lens adjustment motor, a lead screw lifting frame mounted on the output shaft of the inner lens adjustment motor, and an inner lens fixing plate mounted on the lead screw lifting frame. One end of the inner lens is fixed to the inner lens fixing plate and located directly above the focusing lens. In actual operation, the inner lens adjustment motor can drive the lead screw lifting frame to move up and down, thereby changing the position of the inner lens mounted on the inner lens fixing plate and achieving a wide-range zoom function.

[0013] Preferably, the lampshade also includes a lamp head swing drive assembly, which comprises a support plate, on which a swing drive motor and a swing drive pulley are mounted. The swing drive motor and the swing drive pulley are connected by a transmission belt, and the swing drive pulley is connected to a lug on the rotating bracket. In actual operation, the swing drive motor drives the swing drive pulley to rotate, thereby causing the entire lampshade to swing relative to the rotating bracket.

[0014] Preferably, the main unit includes a main unit housing. A rotating shaft extending into the main unit housing is mounted on the top of the main unit housing. The top of the rotating shaft is connected to a rotating bracket. A main shaft drive gear is mounted on the bottom of the rotating shaft. A rotating drive motor is mounted inside the main unit housing and connected to the main shaft drive gear via a belt. A main control circuit board is mounted inside the main unit housing. A control panel mounting plate is mounted on the front of the main unit housing, and the control panel is mounted on the control panel mounting plate. A power supply and signal input / output module is mounted on the rear of the main unit housing, and a main unit mounting base is mounted on the bottom of the main unit housing. In actual operation, the power supply and signal input / output module can be used to connect to a power source and control the input and output of external signals. The control panel allows for the adjustment of the device's operating parameters. The rotating drive motor can drive the rotating shaft to rotate the entire rotating bracket.

[0015] Preferably, the rotating bracket includes a U-shaped bracket body. A rotating shaft docking hole is provided at the center of the bottom of the bracket body, through which the bracket body docks with the rotating shaft on the main unit. The inner top surface of the bracket body is provided with inwardly extending lugs, which dock with the bracket docking holes on the lampshade. In actual operation, the rotating bracket can rotate relative to the main unit under the drive of the rotating shaft, and under the drive of the lamp head swing drive assembly, the lampshade as a whole can swing relative to the rotating bracket.

[0016] The beneficial effects of this infinitely rotating high-brightness intelligent stage pattern moving head light are as follows: This infinitely rotating high-brightness intelligent stage pattern moving head light has a high degree of automation and intelligence, can automatically achieve multi-style automatic zoom adjustment, and offers a wide variety of pattern and color combinations with rich variations and good heat dissipation. In actual operation, the main unit can control the rotation of the rotating bracket, and simultaneously control the swaying of the lamp head mounted on the rotating bracket. During operation, the LED light source installed below the central light outlet emits light outwards through the central light outlet. Through the cooperation of the color plate rotating component and the pattern plate rotating component mounted on the mounting plate on one side of the central light outlet, a rich variety of pattern and color combinations can be produced, greatly enriching the styles of pattern and color combinations. Then, according to actual requirements, the beam can be dispersed through the prism adjustment component to form even richer colors and patterns. Furthermore, the set focusing component and inner lens adjustment component can achieve different forms of zooming of the beam passing through the central light outlet, enhancing beam rendering, blurring, and other effects, thereby further enriching the styles of beam changes and achieving excellent stage effects. In addition, the heat dissipation component installed at the rear of the lamp cover can achieve good heat dissipation of the lamp head, thereby improving the lifespan of the lamp head. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0018] Figure 2 This is an exploded three-dimensional structural diagram of this utility model.

[0019] Figure 3 This is an exploded three-dimensional structural diagram of the lamp holder in this utility model.

[0020] Figure 4 This is an assembly diagram of the heat dissipation component, the pattern zoom adjustment mechanism, and the lamp head swing drive component in this utility model.

[0021] Figure 5 This is an exploded view of the heat dissipation component, the pattern zoom adjustment mechanism, and the lamp head swing drive component in this utility model.

[0022] Figure 6 This is an exploded top view of the three-dimensional structure of the pattern zoom adjustment mechanism in this utility model.

[0023] Figure 7 This is an exploded bottom view of the three-dimensional structure of the pattern zoom adjustment mechanism in this utility model.

[0024] Figure 8 This is an exploded three-dimensional structural diagram of the rotating support in this utility model.

[0025] Figure 9This is an exploded three-dimensional structural diagram of the host unit in this utility model.

[0026] In the diagram: 1. Lamp head; 11. Heat dissipation assembly; 110. LED light source; 111. Heat sink; 112. Heat sink fin; 113. Cooling fan; 114. Heat dissipation back cover; 12. Pattern zoom adjustment mechanism; 121. Mounting plate; 122. Pattern disk rotation assembly; 1221. Pattern disk; 1222. Pattern disk drive motor; 123. Color filter disk rotation assembly; 1231. Color filter disk; 1232. Color filter disk drive motor; 124. Center light outlet; 125. Focusing assembly; 1251. Focusing drive motor; 1252. Focusing transmission gear; 1253. Focusing gear; 1254. Focusing lens; 126. Prism adjustment assembly; 1261. Prism adjustment motor; 1262. Prism sheet; 127. Endoscope 1. Head adjustment assembly; 1271. Inner lens adjustment motor; 1272. Lifting frame; 1273. Inner lens fixing plate; 13. Lamp head swing drive assembly; 131. Support plate; 132. Oscillating drive motor; 133. Oscillating drive pulley; 134. Transmission belt; 14. Inner lens; 15. Lamp cover; 16. Bracket docking hole; 17. Head cover; 18. Outer lens; 19. Outer lens fixing cover; 2. Rotating bracket; 21. Bracket body; 22. Rotating shaft docking hole; 23. Support ear; 24. End cover; 3. Main unit; 31. Main unit housing; 32. Rotating drive motor; 33. Main shaft drive gear; 34. Rotating shaft; 35. Main control circuit board; 36. Control panel mounting plate; 37. Control panel; 4. Main unit mounting base. Detailed Implementation

[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0028] Example: A stepless rotating high-brightness intelligent stage pattern moving head light.

[0029] Reference Figures 1 to 9 As shown, a stepless rotating high-brightness intelligent stage pattern moving head light includes:

[0030] The host unit 3 includes a host housing 31. A rotating shaft 34 extending into the host housing 31 is mounted on the top of the host housing 31. The top of the rotating shaft 34 is connected to the rotating bracket 2. A main shaft drive gear 33 is mounted on the bottom of the rotating shaft 34. A rotating drive motor 32 is mounted inside the host housing 31 and connected to the main shaft drive gear 33 by a belt. A main control circuit board 35 is mounted inside the host housing 31. A control panel mounting plate 36 is mounted on the front of the host housing 31, and a control panel 37 is mounted on the control panel mounting plate 36. A power supply and signal input / output module is mounted on the rear of the host housing 31, and a host mounting base 4 is mounted on the bottom of the host housing 31. In actual operation, the power supply and signal input / output module can be used to connect to the power supply and control the input and output of external signals. The control panel 37 is used to adjust the operating parameters of the equipment. The rotating shaft 34 can be driven by the rotating drive motor 32 to rotate the rotating bracket 2 as a whole.

[0031] A rotating bracket 2 is mounted on the host unit 3. The rotating bracket 2 includes a U-shaped bracket body 21. A rotating shaft docking hole 22 is provided at the bottom center of the bracket body 21. The bracket body 21 is connected to the rotating shaft 34 on the host unit 3 through the rotating shaft docking hole 22. The inner side of the top of the bracket body 21 is provided with inwardly extending lugs 23. The bracket body 21 is connected to the bracket docking hole 16 on the lampshade 15 through the lugs 23. In actual operation, the rotating bracket 2 can rotate relative to the host unit 3 under the drive of the rotating shaft 34, and under the drive of the lamp head swing drive assembly 13, it can drive the lampshade 15 to swing relative to the rotating bracket 2. Removable end caps 24 are also provided on the left and right sides of the bracket body 21.

[0032] A lamp head 1 is mounted on a rotating bracket 2. The lamp head 1 includes a lampshade 15. The lampshade 15 has bracket docking holes 16 on its left and right sides. The lampshade 15 is docked with the rotating bracket 2 through the bracket docking holes 16. A pattern zoom adjustment mechanism 12 is installed inside the lampshade 15. The pattern zoom adjustment mechanism 12 includes a mounting plate 121. A central light-emitting hole 124 is provided in the center of the mounting plate 121. A color plate rotating assembly 123 is installed at the bottom of the mounting plate 121 on one side of the central light-emitting hole 124. A pattern plate rotating assembly 122 is installed below the color plate rotating assembly 123. An LED light source 110 is installed at the bottom of the central light-emitting hole 124, facing the central light-emitting hole 124. The pattern disk rotation assembly 122 includes a pattern disk 1221 and a pattern disk drive motor 1222. The pattern disk drive motor 1222 is fixed on the mounting base 121, and the pattern disk 1221 is mounted on the output shaft of the pattern disk drive motor 1222. When the pattern disk 1221 rotates, it covers the central light-emitting hole 124. In actual operation, the pattern disk drive motor 1222 can drive the pattern disk 1221 to rotate. When different patterns rotate to the central light-emitting hole 124, different patterns will be produced. The color plate rotation assembly 123 includes a color plate 1231 and a color plate drive motor 1232. The color plate drive motor 1232 is mounted on the mounting plate 121, and the color plate 1231 is mounted on the output shaft of the color plate drive motor 1232. The color plate 1231 and the pattern disk 1221 are arranged parallel to each other vertically and at intervals. In actual operation, the color disc drive motor 1232 can drive the color disc 1231 to rotate. When different color discs rotate to the central light-emitting hole 124, different colors will be produced and they will be combined with different patterns to create a variety of patterns and color combinations, greatly enriching the styles of pattern and color combinations.

[0033] A prism adjustment assembly 126 is mounted on the top of the mounting plate 121, above the central light-emitting hole 124. The prism adjustment assembly 126 includes a prism adjustment motor 1261 and a prism sheet 1262. The prism adjustment motor 1261 is mounted on the mounting plate 121, and the prism sheet 1262 is mounted on the output shaft of the prism adjustment motor 1261 and located directly above the central light-emitting hole 124. In actual operation, the prism sheet 1262 disperses the light beam, creating richer colors and patterns.

[0034] A focusing assembly 125 is mounted above the prism adjustment assembly 126. The focusing assembly 125 includes a focusing drive motor 1251, with a sleeve shaft fitted onto the output shaft of the focusing drive motor 1251. A focusing transmission gear 1252 is mounted on the top of the output shaft of the focusing drive motor 1251. One end of the focusing lens 1254 is fixed to the sleeve shaft, and the other end of the focusing lens 1254 extends directly above the central light outlet 124. A focusing gear 1253 is mounted on the top of the focusing lens 1254, and the focusing gear 1253 meshes with the focusing transmission gear 1252. In actual operation, the focusing drive motor 1251 drives the focusing transmission gear 1252 to rotate, which in turn drives the focusing gear 1253 to rotate, thereby enabling the adjustment of the focusing lens 1254 and achieving fine-tuning of the light beam.

[0035] An inner lens adjustment assembly 127 is mounted above the focusing assembly 125. An inner lens 14 is mounted on the inner lens adjustment assembly 127. The inner lens adjustment assembly 127 includes an inner lens adjustment motor 1271. A lead screw lifting frame 1272 is mounted on the output shaft of the inner lens adjustment motor 1271. An inner lens fixing plate 1273 is mounted on the lead screw lifting frame 1272. One end of the inner lens 14 is fixed to the inner lens fixing plate 1273 and is located directly above the focusing lens 1254. In actual operation, the inner lens adjustment motor 1271 drives the lead screw lifting frame 1272 to move up and down, thereby changing the position of the inner lens 14 mounted on the inner lens fixing plate 1273, achieving a wide-range zoom function.

[0036] A head cover 17 is installed at the front end of the lampshade 15, and an external lens 18 is installed on the head cover 17. The external lens 18 is fixed to the head cover 17 by an external lens fixing cover 19. A heat dissipation assembly 11 is installed at the rear end of the lampshade 15. The heat dissipation assembly 11 includes a heat sink 111, an LED light source 110 is installed on the heat sink 111, a heat sink 112 is installed at the bottom of the heat sink 111, and a cooling fan 113 is installed behind the heat sink 112. A heat dissipation rear cover 114 is installed at the rear end of the lampshade 15 by a threaded connection and covers the heat sink 112 and the cooling fan 113. In actual operation, the heat generated by the LED light source 110 during operation can be quickly dissipated by the heat sink 112 and the cooling fan 113 to avoid heat accumulation.

[0037] The lampshade 15 is also equipped with a lamp head swing drive assembly 13. The lamp head swing drive assembly 13 includes a support plate 131, on which a swing drive motor 132 and a swing drive pulley 133 are mounted. The swing drive motor 132 and the swing drive pulley 133 are connected by a transmission belt 134. The swing drive pulley 133 is connected to a lug 23 provided on the rotating bracket 2. In actual operation, the swing drive motor 132 drives the swing drive pulley 133 to rotate, thereby causing the lampshade 15 to swing relative to the rotating bracket 2.

[0038] This infinitely rotating, high-brightness intelligent stage pattern moving head light boasts a high degree of automation and intelligence. It can automatically adjust zoom in multiple styles, offering a wide variety of pattern and color combinations with excellent heat dissipation. In actual operation, the main unit 3 controls the rotation of the rotating bracket 2, and simultaneously controls the swaying of the lamp head 1 mounted on the bracket 2. During operation, the LED light source 110, mounted below the central light-emitting hole 124, emits light outwards through the hole. The cooperation between the color plate rotating assembly 123 and the pattern rotating assembly 122, located on the mounting plate 121 to one side of the central light-emitting hole 124, creates a rich variety of pattern and color combinations, greatly enriching the styles. Furthermore, according to actual requirements, the beam is dispersed via the prism adjustment assembly 126, resulting in even richer colors and patterns. Furthermore, the focusing component 125 and the inner lens adjustment component 127 allow for different forms of zooming of the light beam passing through the central light outlet 124, enhancing beam rendering, blurring, and other effects, thereby further enriching the patterns of beam changes and achieving excellent stage effects. In addition, the heat dissipation component 11 installed at the rear of the lampshade 15 enables good heat dissipation of the lamp head 1, thereby improving the service life of the lamp head 1.

[0039] The above description is only a preferred embodiment of the present utility model. However, the present utility model should not be limited to the content disclosed in the embodiment and the accompanying drawings. Therefore, any equivalent or modified embodiments made without departing from the spirit disclosed in the present utility model shall fall within the protection scope of the present utility model.

Claims

1. A non-polar rotating high-brightness intelligent stage pattern moving head lamp, characterized in that include: Host; A rotating bracket mounted on the main unit; A lamp head mounted on a rotating bracket includes a lampshade. The lampshade has bracket docking holes on its left and right sides, allowing it to connect with the rotating bracket. A pattern zoom adjustment mechanism is installed inside the lampshade. This mechanism includes a mounting plate with a central light-emitting hole at its center. A color filter disk rotating assembly is mounted on the bottom of the mounting plate, one side of the central light-emitting hole. A pattern disk rotating assembly is mounted below the color filter disk rotating assembly. An LED light source is mounted at the bottom of the central light-emitting hole, directly opposite it. A prism adjustment assembly is mounted on the top of the mounting plate, above the central light-emitting hole. A focusing assembly is mounted above the prism adjustment assembly. An inner lens adjustment assembly is mounted above the focusing assembly, and the inner lens is mounted on the inner lens adjustment assembly. A head cover is mounted at the front of the lampshade, and an outer lens is mounted on the head cover. The outer lens is fixed to the head cover by an outer lens fixing cover. A heat dissipation assembly is mounted at the rear of the lampshade.

2. The endless rotary high-brightness intelligent stage pattern moving head lamp of claim 1, wherein: The heat dissipation assembly includes a heat sink base, an LED light source mounted on the heat sink base, a heat sink fin mounted on the bottom of the heat sink base, a cooling fan mounted behind the heat sink fin, and a heat dissipation cover mounted on the rear end of the lampshade via a threaded connection to enclose the heat sink fin and the cooling fan.

3. The endless rotary high-brightness intelligent stage pattern moving head lamp of claim 1, wherein: The pattern disk rotation assembly includes a pattern disk and a pattern disk drive motor. The pattern disk drive motor is fixed on the mounting base, and the pattern disk is mounted on the output shaft of the pattern disk drive motor. When the pattern disk rotates, it covers the central light-emitting hole.

4. The endless rotating high-brightness intelligent stage pattern moving head lamp of claim 3, wherein: The color plate rotating assembly includes a color plate and a color plate drive motor. The color plate drive motor is mounted on a mounting plate, and the color plate is mounted on the output shaft of the color plate drive motor. The color plate and the pattern plate are arranged parallel to each other at intervals.

5. The endless rotating high-brightness intelligent stage pattern moving head lamp of claim 1, wherein: The prism adjustment assembly includes a prism adjustment motor and a prism sheet. The prism adjustment motor is mounted on a mounting plate, and the prism sheet is mounted on the output shaft of the prism adjustment motor and located directly above the central light outlet.

6. The endless rotary high-brightness intelligent stage pattern moving head lamp of claim 1, wherein: The focusing assembly includes a focusing drive motor, a sleeve shaft is sleeved on the output shaft of the focusing drive motor, a focusing transmission gear is installed on the top of the output shaft of the focusing drive motor, one end of the focusing lens is fixed on the sleeve shaft, and the other end of the focusing lens extends directly above the central light outlet hole. A focusing gear is installed on the top of the focusing lens, and the focusing gear meshes with the focusing transmission gear.

7. The endless rotating high-brightness intelligent stage pattern moving head lamp of claim 6, wherein: The inner lens adjustment assembly includes an inner lens adjustment motor, a lead screw lifting frame is mounted on the output shaft of the inner lens adjustment motor, an inner lens fixing plate is mounted on the lead screw lifting frame, and one end of the inner lens is fixed on the inner lens fixing plate and located directly above the focusing lens.

8. The endless rotary high-brightness intelligent stage pattern moving head lamp of claim 1, wherein: The lampshade is also equipped with a lamp head swing drive assembly, which includes a support plate. The support plate is equipped with a swing drive motor and a swing drive pulley. The swing drive motor and the swing drive pulley are connected by a transmission belt. The swing drive pulley is connected to the lugs provided on the rotating bracket.

9. The endless rotary high-brightness intelligent stage pattern moving head lamp of claim 1, wherein: The main unit includes a main unit housing. A rotating shaft extending into the main unit housing is mounted on the top of the main unit housing. The top of the rotating shaft is connected to a rotating bracket. A main shaft drive gear is mounted on the bottom of the rotating shaft. A rotating drive motor is mounted inside the main unit housing. The rotating drive motor and the main shaft drive gear are connected by a belt. A main control circuit board is mounted inside the main unit housing. A control panel mounting plate is mounted on the front side of the main unit housing. The control panel is mounted on the control panel mounting plate. A power supply and signal input / output module is mounted on the rear side of the main unit housing. A main unit mounting bracket is mounted on the bottom of the main unit housing.

10. The endless rotary high-brightness intelligent stage pattern moving head lamp of claim 9, wherein: The rotating bracket includes a U-shaped bracket body. A rotating shaft docking hole is provided at the bottom center of the bracket body. The bracket body docks with the rotating shaft on the host through the rotating shaft docking hole. The inner side of the top of the bracket body is provided with inwardly extending ears. The bracket body docks with the bracket docking hole provided on the lampshade through the ears.