A type of moving head light

By combining the quick-lock assembly and the locking parts, the problem of inconvenient disassembly and assembly of the lamp hook fixing method is solved, realizing the quick installation and multi-angle adjustment of the moving head light, and improving the applicability and functional versatility of the lamp.

CN224434264UActive Publication Date: 2026-06-30GUANGZHOU BAOLUN ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU BAOLUN ELECTRONICS CO LTD
Filing Date
2025-07-01
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing method of fixing lamp hooks is inconvenient to install and remove and has poor versatility, resulting in low efficiency in installation and replacement.

Method used

The mounting plate with locking mechanism is fixed to the chassis using a quick-lock assembly and locking mechanism. The quick-lock assembly and locking mechanism work together to quickly lock or release the hanging parts from the chassis. It is also equipped with first and second movable components to facilitate the rotation and angle adjustment of the lamp body.

Benefits of technology

It enables quick installation and removal of moving head lights and wide-ranging hanging and fixing, improving the convenience and compatibility of disassembly and assembly, and enhancing the applicability and functional diversity of the lights.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of lighting technology, specifically a moving head light. The moving head light includes a support base; a lamp body mounted on the support base, with both sides of the lamp body rotatably connected to the support base to allow the lamp body to rotate to different angles along the support base; a housing located below the support base, containing a control component electrically connected to the lamp body; and a hanging component, with at least one hanging component located below the housing, each hanging component connected to the housing via a quick-lock assembly. The quick-lock assembly includes a locking element, and a mounting plate at the lower end of the housing, with a locking element on the mounting plate. The locking element passes through the hanging component, the mounting plate, and is movably connected to the locking element to lock or release the hanging component. By fixing the hanging component to the housing via the quick-lock assembly and the mounting plate with the locking element, and through the cooperation of the quick-lock assembly and the locking element, the hanging component and the housing can be quickly locked or released, facilitating the quick installation and removal of the moving head light and broadening its applicability.
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Description

Technical Field

[0001] This utility model relates to the field of lighting technology, specifically to a moving head light. Background Technology

[0002] Currently, during the installation of indoor and outdoor lighting or decorative lamps, it is usually necessary to install hook structures on the lamps to suspend and fix them to poles, brackets, or other supporting structures. Traditional lamp hooks typically use screws for detachable connection to the lamp housing, for example, by setting mounting holes on the top of the lamp and tightening the hook with bolts or screws.

[0003] However, this fixing method has the following drawbacks: 1. Inconvenient installation and removal: Installation and removal require tools such as screwdrivers, making the operation cumbersome, especially when the position of the light fixture needs to be frequently adjusted or maintenance is required, resulting in low efficiency; 2. Poor versatility: The connection methods between different light fixtures and hooks may not be standardized, leading to limited compatibility when replacing or adapting hooks. Therefore, it is necessary to improve the existing light fixture hook fixing method to enhance the ease of installation and removal. Utility Model Content

[0004] The purpose of this utility model is to propose a moving head light that aims to solve the technical problem of inconvenient assembly and disassembly of existing lamps and hook fixing methods.

[0005] To achieve the above objectives, this utility model proposes a moving head light, including a support base;

[0006] The lamp body is mounted on the support base, and both sides of the lamp body are rotatably connected to the support base so that the lamp body can rotate along the support base to different angles;

[0007] A chassis is disposed below the support base, and a control component is provided inside the chassis. The control component is electrically connected to the lamp body.

[0008] The chassis has at least one hanging component at its lower part, and each hanging component is connected to the chassis via a quick-lock assembly.

[0009] The quick-lock assembly includes a locking member, and the lower end of the chassis is provided with a mounting plate. The mounting plate is provided with a locking member. The locking member passes through the hanging member, and the mounting plate is movably connected to the locking member to lock or release the hanging member.

[0010] Preferably, the locking component includes a quick-lock button, a guide post, and a locking pin. The guide post has the quick-lock button at its head and the locking pin at its tail. The guide post passes through the hanging component and the mounting plate in sequence, allowing the locking pin to be movably positioned at the locking component.

[0011] The quick-lock assembly further includes an elastic element, which is sleeved on the outer wall of the guide post, and both ends of the elastic element abut against the quick-lock button and the hanging component, respectively. The locking component has a notch and a limiting groove, such that:

[0012] When the elastic element is in the extended state, it abuts against the quick-lock button and the hanging part respectively, and the locking pin is in the limiting slot of the locking part. At this time, the hanging part is locked to the chassis.

[0013] Press down and turn the quick-lock button to compress the elastic element, causing the guide post to rotate and move upward. The locking pin moves from the limiting slot to the notch, and then the quick-lock assembly is pulled down. At this time, the hanging part is released from the chassis.

[0014] Preferably, two locking pins are symmetrically arranged on both sides of the guide post, and the locking member is provided with two corresponding notches and two limiting slots.

[0015] Preferably, it further includes a first movable component for driving the support base and the lamp body to rotate horizontally. The first movable component includes a first motor, a first drive wheel, a first synchronous belt, a first driven wheel, a first main shaft, and a first bushing. The first motor is disposed in the support base, and the output shaft of the first motor is connected to the first drive wheel. The first drive wheel and the first driven wheel are connected by the first synchronous belt arranged horizontally. A bracket is provided in the housing, and the first main shaft is disposed on the bracket. The first bushing is movably sleeved on the outside of the first main shaft. The first bushing is connected to the first driven wheel, and the support base and the first bushing are detachably fixed.

[0016] The first motor is also equipped with a first magnetic encoder for detecting the rotation angle of the first moving component.

[0017] Preferably, at least one side of the support base is provided with a second movable component for driving the lamp body to rotate to different angles. The second movable component includes a second motor, a second drive wheel, a second synchronous belt, a second driven wheel, and a second main shaft. The second motor is disposed in the support base, and the output shaft of the second motor is connected to the second drive wheel. The second drive wheel and the second driven wheel are connected by the vertically arranged second synchronous belt. One end of the second main shaft is fitted with the second driven wheel, and the other end of the second main shaft is connected to the lamp body.

[0018] The second motor is also equipped with a second magnetic encoder for detecting the rotation angle of the second moving component.

[0019] Preferably, the lamp body includes a heat sink assembly, an LED lamp panel, a focusing assembly, a lens assembly, a radiating lamp panel, and a fogging cover arranged sequentially from bottom to top;

[0020] The LED light board is provided with multiple LED beads, and each LED bead is provided with a corresponding light guide column.

[0021] Preferably, the focusing assembly includes a focusing motor, a focusing lead screw, a focusing sliding sleeve, a focusing magnet, a focusing slide bar, and a focusing base plate. The LED light panel is provided with a plurality of focusing motors and a plurality of focusing sliding sleeves spaced apart. One end of the focusing lead screw is connected to the focusing motor, and the other end of the focusing lead screw is connected to the focusing base plate. One end of the focusing slide bar is movably inserted into the focusing sliding sleeve, and the other end of the focusing slide bar is connected to the focusing base plate. The lower end of the focusing base plate is provided with the focusing magnet. The LED light panel is provided with a Hall sensor for detecting the movement stroke of the focusing magnet.

[0022] Preferably, the side of the focusing motor is connected to the LED light panel via an elastic shock-absorbing column; the focusing slide sleeve is made of aluminum alloy, and an inner slide sleeve made of plastic is also provided inside the focusing slide sleeve, and the focusing slide rod is movably inserted into the inner slide sleeve.

[0023] Preferably, the heat sink assembly includes heat sink fins, with multiple heat sink copper pipes embedded in the heat sink fins, and a cooling fan is provided at the lower end of the heat sink fins.

[0024] Preferably, the front side of the chassis is also provided with a display panel, the outer side of the display panel is provided with a touch glass panel, and the display panel is electrically connected to the control component.

[0025] This utility model discloses a moving head light, which has the following advantages: The hanging component of this design is not fixed to the chassis using bolts or similar structures, but rather secured to the chassis via a quick-lock assembly and a mounting plate with locking mechanisms. The quick-lock assembly and locking mechanisms allow for quick locking or unlocking of the hanging component and chassis, facilitating rapid installation and removal of the moving head light. Furthermore, the quick-lock assembly and mounting plate with locking mechanisms are applicable to the installation of various hanging components and chassis / lighting fixtures, thus broadening its applicability. Attached Figure Description

[0026] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.

[0027] Figure 1This is a schematic diagram of the structure of the moving head lamp of this utility model;

[0028] Figure 2 This is a partial structural schematic diagram of the moving head lamp of this utility model;

[0029] Figure 3 This is an exploded view of the moving head light portion of the present invention;

[0030] Figure 4 This is an exploded view of the moving head light portion of the present invention;

[0031] Figure 5 This is an exploded view of the lamp body in the moving head lamp of this utility model;

[0032] Figure 6 This is an exploded view of the chassis of the moving head light of this utility model;

[0033] Figure 7 This is a schematic diagram of the internal structure of the moving head lamp of this utility model.

[0034] In the attached diagram: 1-Support base, 2-Lamp body, 21-Heat sink assembly, 211-Heat sink fins, 212-Cooling fan, 22-LED lamp panel, 221-Light guide column, 222-Hall sensor, 23-Focusing assembly, 231-Focusing motor, 232-Focusing screw, 233-Focusing sliding sleeve, 234-Focusing magnet, 235-Focusing slide bar, 236-Focusing base plate, 237-Elastic shock absorber column, 238-Inner sliding sleeve, 24-Lens assembly, 25-Radiant lamp panel, 26-Atomizing cover, 3-Chassis, 31-Mounting plate, 311-Locking component, 3111-Notch, 3112-Limiting clip 32-Slot, 33-Bracket, 34-Display panel, 4-Touch glass panel, 5-Hanging component, 5-Quick lock assembly, 51-Locking component, 511-Quick lock button, 512-Guide post, 513-Pin, 52-Elastic component, 6-First movable assembly, 61-First motor, 62-First drive wheel, 63-First timing belt, 64-First driven wheel, 65-First spindle, 66-First bushing, 67-First magnetic encoder, 7-Second movable assembly, 71-Second motor, 72-Second drive wheel, 73-Second timing belt, 74-Second driven wheel, 75-Second spindle, 76-Second magnetic encoder.

[0035] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0036] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0037] It should be noted that if the embodiments of this utility model involve directional indication, the directional indication is only used to explain the relative positional relationship and movement of each component in a certain specific posture. If the specific posture changes, the directional indication will also change accordingly.

[0038] Furthermore, if the embodiments of this utility model involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of indicated technical features. Therefore, features defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. If the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.

[0039] like Figures 1 to 7 As shown, a moving head light includes a support base 1;

[0040] The lamp body 2 is mounted on the support base 1, and both sides of the lamp body 2 are rotatably connected to the support base 1 so that the lamp body 2 can rotate along the support base 1 to different angles.

[0041] A housing 3 is disposed below the support base 1, and a control component is provided inside the housing 3. The control component is electrically connected to the lamp body 2.

[0042] Hanging component 4: At least one hanging component 4 is provided below the chassis 3, and each hanging component 4 is connected to the chassis 3 by a quick-lock assembly 5;

[0043] The quick-lock assembly 5 includes a locking member 51. The lower end of the chassis 3 is provided with a mounting plate 31. The mounting plate 31 is provided with a locking member 311. The locking member 51 passes through the hanging member 4 and is movably connected to the mounting plate 31 and the locking member 311 to lock or release the hanging member 4.

[0044] The moving head light in this design mainly consists of a support base 1, a lamp body 2, and a housing 3. The lamp body 2 is rotatably mounted on the support base 1, which is typically U-shaped. The lamp body 2 is housed within the U-shaped support base 1 and can rotate to different angles to meet the user's requirements for different lighting angles. The housing 3 contains a control component, which may include an existing controller and power supply. This control component controls the switching and rotation of the lamp body 2, enabling the moving head light to be used as a stage light. To facilitate the fixing of the moving head light, one or more hanging brackets 4 are provided at the bottom of the housing 3. The hanging brackets 4 include hooks; when the moving head light needs to be fixed in a certain position, the hanging bracket 4 can be directly hooked into the corresponding position for quick fixing. In actual production, fans can also be installed inside the housing 3 for heat dissipation.

[0045] In this design, the hanging component 4 is not fixed to the housing 3 using bolts or similar structures. Instead, it is fixed to the housing 3 via a quick-lock assembly 5. The quick-lock assembly 5 and the locking element 311 work together to quickly lock or release the hanging component 4 from the housing 3, facilitating the rapid installation and removal of the moving head light. Furthermore, the quick-lock assembly 5 and the mounting plate 31 with the locking element 311 are suitable for installing various types of hanging components 4 onto the housing 3 / light fixture, thus broadening its applicability.

[0046] Furthermore, the locking member 51 includes a quick-lock button 511, a guide post 512, and a locking pin 513. The guide post 512 has the quick-lock button 511 at its head end and the locking pin 513 at its tail end. The guide post 512 passes through the hanging member 4 and the mounting plate 31 in sequence, so that the locking pin 513 is movably disposed at the locking member 311.

[0047] The quick-lock assembly 5 further includes an elastic element 52, which is sleeved on the outer wall of the guide post 512. Both ends of the elastic element 52 abut against the quick-lock button 511 and the hanging member 4, respectively. The locking member 311 has a notch 3111 and a limiting groove 3112, such that:

[0048] When the elastic element 52 is in the extended state, it abuts against the quick-lock button 511 and the hanging part 4 respectively. The locking pin 513 is in the limiting slot 3112 of the locking part 311. At this time, the hanging part 4 is locked to the chassis 3.

[0049] Press down and turn the quick-lock button 511 to compress the elastic element 52, causing the guide post 512 to rotate and move upward. The locking pin 513 moves from the limiting slot 3112 to the notch 3111. Then pull the quick-lock assembly 5 down, at which point the hanging part 4 is released from the chassis 3.

[0050] In this embodiment, as Figures 1 to 2As shown, two hanging parts 4 can be provided at the lower end of the chassis 3. Each hanging part 4 has a quick-lock assembly 5 on each side of its top end, which engages with a locking part 311 for locking. Specifically, the mounting plate 31 protrudes upward to form the locking part 311, and the locking part 311 has a recessed limiting groove 3112 in the middle. In addition, the locking part 311 also has a notch 3111. During installation, the quick-lock button 511 is pressed down, which drives the guide post 512 to press down, so that the locking pin 513 is vertically inserted into the through hole of the locking part. Then, the quick-lock button 511 is rotated 90° so that the locking pin 513 is just locked in the limiting groove 3112. The elastic member 52 presses against the quick-lock button 511 and the hanging part 4 respectively, so that the hanging part 4 and the chassis 3 can be quickly locked. When it is necessary to loosen the hanging part 4 from the chassis 3, press down slightly and rotate the quick-release button 90° in the opposite direction. The guide post 512 drives the locking pin 513 to rotate in the opposite direction, so that the locking pin 513 slides from the limiting slot 3112 to the notch 3111. The locking pin 513 is no longer pressed and re-enters the through hole of the locking part through the notch 3111. The quick-lock assembly 5 can be pulled out directly. At this time, the hanging part 4 is no longer locked to the chassis 3 and can be removed directly.

[0051] In actual production, the locking pin 513 is cylindrical, and the limiting groove 3112 is also a recessed arc-shaped groove. From the limiting groove 3112 to the notch 3111, the top of the locking member 311 curves downwards to facilitate the sliding of the locking pin 513. Of course, in other embodiments, the number of hanging parts 4 / quick-lock assembly 5 can be increased or decreased according to user needs.

[0052] Furthermore, two locking pins 513 are symmetrically arranged on both sides of the guide post 512, and the locking member 311 is provided with two corresponding notches 3111 and two limiting slots 3112. In order to better achieve the locking of the hanging part 4, a locking pin 513 is provided on each side of the end of the guide post 512, and the locking member 311 is also provided with two symmetrical notches 3111 and two limiting slots 3112. When locked, the two locking pins 513 are respectively locked in the corresponding limiting slots 3112; when released, the two locking pins 513 are respectively located at the corresponding notches 3111, which facilitates the removal of the quick-lock assembly 5.

[0053] Furthermore, it also includes a first movable component 6 for driving the support base 1 and the lamp body 2 to rotate horizontally. The first movable component 6 includes a first motor 61, a first drive wheel 62, a first synchronous belt 63, a first driven wheel 64, a first main shaft 65, and a first bushing 66. The first motor 61 is disposed inside the support base 1. The output shaft of the first motor 61 is connected to the first drive wheel 62. The first drive wheel 62 and the first driven wheel 64 are connected by the horizontally disposed first synchronous belt 63. The housing 3 is provided with a bracket 32. The first main shaft 65 is disposed on the bracket 32, and the first bushing 66 is movably sleeved on the outside of the first main shaft 65. The first bushing 66 is connected to the first driven wheel 64. The support base 1 and the first bushing 66 are detachably fixed.

[0054] The first motor 61 is also provided with a first magnetic encoder 67 for detecting the rotation angle of the first active component 6.

[0055] In this embodiment, as Figures 3 to 4 As shown, to enhance the lighting effect of the stage lights, a first movable component 6 is provided to drive the entire support base 1 and the lamp body 2 mounted on the support base 1 to rotate horizontally. Specifically, a first motor 61 (which can actually be a three-phase stepper motor) drives the first drive wheel 62 to rotate, and the first driven wheel 64 also rotates synchronously under the drive of the first synchronous belt 63, which in turn drives the first bushing 66 on the first main shaft 65 to rotate, thereby driving the entire support base 1 to rotate. The first motor 61 is also equipped with a first magnetic encoder 67, which makes the tracking of the rotation angle of the support base 1 more accurate.

[0056] Furthermore, at least one side of the support base 1 is provided with a second movable component 7 for driving the lamp body 2 to rotate to different angles. The second movable component 7 includes a second motor 71, a second drive wheel 72, a second synchronous belt 73, a second driven wheel 74, and a second main shaft 75. The second motor 71 is disposed in the support base 1, and the output shaft of the second motor 71 is connected to the second drive wheel 72. The second drive wheel 72 and the second driven wheel 74 are connected by the vertically arranged second synchronous belt 73. One end of the second main shaft 75 is fitted with the second driven wheel 74, and the other end of the second main shaft 75 is connected to the lamp body 2.

[0057] The second motor 71 is also equipped with a second magnetic encoder 76 for detecting the rotation angle of the second active component 7.

[0058] In this embodiment, as Figure 3As shown, the second movable component 7 drives the lamp body 2 to rotate along the support base 1 to different angles. Specifically, the second motor 71 (or a three-phase stepper motor) drives the second drive wheel 72 to rotate, and the second driven wheel 74 also rotates synchronously under the drive of the second synchronous belt 73, thereby driving the second main shaft 75 to rotate. Since the lamp body 2 is connected to the second main shaft 75, it can rotate. In addition, a second magnetic encoder 76 is also provided on the second motor 71, which makes the positioning of the lamp body 2 more accurate. Under the control of the control component, the lamp body 2 can be reset and the angle can be corrected. Furthermore, compared with the existing photoelectric switch positioning, the first / second magnetic encoder 76 of this solution operates more accurately and has a lower error rate.

[0059] The specific structure of the second main shaft 75 may include a main shaft, a bearing and a bearing sleeve. The main shaft is provided with a bearing on the outside, and the bearing is provided with a bearing sleeve on the outside. A washer is also provided between the bearing and the bearing sleeve. Its main purpose is to support the main shaft and the outer shell (gear plate) of the lamp body 2 to prevent gaps and ensure stable fixation between the second main shaft 75 and the lamp body 2.

[0060] Furthermore, the lamp body 2 includes a heat sink assembly 21, an LED lamp panel 22, a focusing assembly 23, a lens assembly 24, a radiant lamp panel 25, and a fogging cover 26 arranged sequentially from bottom to top;

[0061] The LED light panel 22 is provided with a plurality of LED beads, and each LED bead is provided with a corresponding light guide post 221.

[0062] In this embodiment, as Figures 4 to 5 As shown, the lamp body 2 contains, in sequence, a heat sink assembly 21, an LED light panel 22, a focusing assembly 23, a lens assembly 24, a radiant light panel 25, and a fogging cover 26. The heat sink assembly 21 is used to dissipate heat from components such as the LED light panel 22. The LED light panel 22 has multiple LED beads and corresponding light guide columns 221. Specifically, it can use 7 six-color 457 LED beads. Under the control of the control component (the control component is electrically connected to the LED light panel 22), the color can be changed at a single point. The light is emitted from the LED beads and emitted to the lens, and the focusing is adjusted by the focusing assembly 23. Above the lens assembly 24, there is also a set of radiant light panels 25, and a fogging cover 26 is installed on the outside. The moving head light with the above structure has strong applicability in terms of function and effect. The addition of the radiant light panel 25 and the fogging cover 26 at the lamp head can achieve different effects such as coloring, beam, circle control, jump change, or flowing water. Combined with 7 45W LED beads, it can achieve a variety of effects in stage performances, which can be switched freely and have better practicality.

[0063] Further, the focusing assembly 23 includes a focusing motor 231, a focusing lead screw 232, a focusing sliding sleeve 233, a focusing magnet 234, a focusing slide bar 235, and a focusing base plate 236. The LED light panel 22 is provided with a plurality of focusing motors 231 and a plurality of focusing sliding sleeves 233 spaced apart. One end of the focusing lead screw 232 is connected to the focusing motor 231, and the other end of the focusing lead screw 232 is connected to the focusing base plate 236. One end of the focusing slide bar 235 is movably inserted into the focusing sliding sleeve 233, and the other end of the focusing slide bar 235 is connected to the focusing base plate 236. The focusing magnet 234 is provided at the lower end of the focusing base plate 236. The LED light panel 22 is provided with a Hall sensor 222 for detecting the movement stroke of the focusing magnet 234 (the control assembly is electrically connected to the Hall sensor 222).

[0064] The movement of the focusing base plate 236 in the focusing assembly 23 is achieved through the cooperation of the focusing motor 231 and the focusing lead screw 232. This cooperation converts the rotational motion of the focusing motor 231 into the linear motion of the lead screw, which in turn drives the adjusting base plate and lens assembly 24 to move up and down to complete the focusing process. During the movement of the focusing base plate 236, a focusing sleeve 233 and a focusing slide rod 235 are provided for guidance. In actual production, four focusing slide rods 235 and four focusing sleeves 233 can be installed. While the focusing base plate 236 moves up and down, the focusing slide rods 235 inserted in the focusing sleeves 233 also move synchronously, ensuring that the focusing base plate 236 moves in a linear direction. In order to monitor the moving distance of the focusing base plate 236 in real time, a focusing magnet 234 is provided at the lower end of the focusing base plate 236, and a corresponding Hall sensor 222 is provided above the LED light panel 22. The Hall sensor 222 can detect the moving stroke of the focusing magnet 234 / focusing base plate 236 in real time, and then control and monitor the movement of the focusing component 23 through the control component.

[0065] Furthermore, the side of the focusing motor 231 is connected to the LED light panel 22 via an elastic shock-absorbing column 237; the focusing slide sleeve 233 is made of aluminum alloy, and the focusing slide sleeve 233 is also provided with an inner slide sleeve 238 made of plastic, and the focusing slide rod 235 is movably inserted into the inner slide sleeve 238.

[0066] On the one hand, the support column for fixing the focusing motor 231 in this solution adopts an elastic damping column 237 (actually a VD rubber column, with one end being a copper column and the other end being rubber), which can reduce the vibration generated by the focusing motor 231 during operation and reduce noise. On the other hand, the focusing slide sleeve 233 is supported by aluminum alloy and has an inner slide sleeve 238 made of POM / Igus material inside. The focusing slide rod 235 runs smoothly and without jamming or abnormal noise in the inner slide sleeve 238.

[0067] Furthermore, the heat sink assembly 21 includes heat sink fins 211, with multiple copper heat pipes embedded within the fins 211, and a cooling fan 212 located at the lower end of the fins 211. Thus, the heat sink assembly 21 primarily utilizes the heat sink fins 211 for heat dissipation. To further enhance the heat dissipation effect, seven liquid-cooled copper heat pipes can be used in conjunction with the finned heat sink for auxiliary heat dissipation. Combined with the cooling fan 212, the heat dissipation effect is even better, effectively reducing the attenuation of LED light efficiency.

[0068] In a better embodiment, silicone damping posts can be added to the intake fan blades of the cooling fan 212 for quieter operation.

[0069] Furthermore, the front of the chassis 3 is also provided with a display panel 33, and the outer side of the display panel 33 is provided with a touch glass panel 34. The display panel 33 is electrically connected to the control component. The front of the chassis 3 uses a capacitive display screen and a touch glass panel 34 (which can actually be tempered glass), eliminating the need for buttons and making it simpler and more intelligent.

[0070] On the other side of chassis 3, there is a DXM signal connection interface and a network interface, which is a higher configuration and more functions than conventional lighting fixtures. The control system adopts the RJ45 network protocol system.

[0071] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. All equivalent structural transformations made under the inventive concept of the present utility model using the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the patent protection scope of the present utility model.

Claims

1. A moving head light, characterized in that, include: Support base (1); The lamp body (2) is mounted on the support base (1), and the two sides of the lamp body (2) are rotatably connected to the support base (1) so that the lamp body (2) can rotate along the support base (1) to different angles; A chassis (3) is located below the support base (1), and a control component is provided inside the chassis (3). The control component is electrically connected to the lamp body (2). Hanging component (4), at least one hanging component (4) is provided below the chassis (3), and each hanging component (4) is connected to the chassis (3) by a quick-lock assembly (5); The quick-lock assembly (5) includes a locking member (51). The lower end of the chassis (3) is provided with a mounting plate (31). The mounting plate (31) is provided with a locking member (311). The locking member (51) passes through the hanging member (4), the mounting plate (31) and is movably connected to the locking member (311) to lock or release the hanging member (4).

2. A moving head light according to claim 1, characterized in that, The locking component (51) includes a quick-lock button (511), a guide post (512), and a locking pin (513). The guide post (512) has the quick-lock button (511) at its head end and the locking pin (513) at its tail end. The guide post (512) passes through the hanging component (4) and the mounting plate (31) in sequence, so that the locking pin (513) is movably disposed at the locking component (311). The quick-lock assembly (5) further includes an elastic element (52), which is sleeved on the outer wall of the guide post (512), and both ends of the elastic element (52) abut against the quick-lock button (511) and the hanging part (4) respectively. The locking part (311) is provided with a notch (3111) and a limiting groove (3112), such that: The elastic element (52) in the extended state abuts against the quick-lock button (511) and the hanging part (4) respectively, and the locking pin (513) is in the limiting slot (3112) of the locking part (311). At this time, the hanging part (4) is locked with the chassis (3). Press down and turn the quick-lock button (511) to compress the elastic element (52), causing the guide post (512) to rotate and move upward. The locking pin (513) moves from the limiting slot (3112) to the notch (3111), and then pull the quick-lock assembly (5) down. At this time, the hanging part (4) is released from the chassis (3).

3. A moving head light according to claim 2, characterized in that, Two locking pins (513) are symmetrically arranged on both sides of the guide post (512), and two corresponding notches (3111) and two limiting slots (3112) are provided on the locking member (311).

4. A moving head light according to claim 1, characterized in that, It also includes a first movable component (6) for driving the support base (1) and the lamp body (2) to rotate in the horizontal direction. The first movable component (6) includes a first motor (61), a first drive wheel (62), a first synchronous belt (63), a first driven wheel (64), a first main shaft (65), and a first bushing (66). The first motor (61) is disposed in the support base (1). The output shaft of the first motor (61) is connected to the first drive wheel (62). The first drive wheel (62) and the first driven wheel (64) are connected by the first synchronous belt (63) which is horizontally disposed. A bracket (32) is provided in the housing (3). The first main shaft (65) is disposed on the bracket (32). The first bushing (66) is movably sleeved on the outside of the first main shaft (65). The first bushing (66) is connected to the first driven wheel (64). The support base (1) and the first bushing (66) are detachably fixed. The first motor (61) is also provided with a first magnetic encoder (67) for detecting the rotation angle of the first active component (6).

5. A moving head light according to claim 1, characterized in that, At least one side of the support base (1) is provided with a second movable component (7) for driving the lamp body (2) to rotate to different angles. The second movable component (7) includes a second motor (71), a second drive wheel (72), a second synchronous belt (73), a second driven wheel (74), and a second main shaft (75). The second motor (71) is disposed in the support base (1). The output shaft of the second motor (71) is connected to the second drive wheel (72). The second drive wheel (72) and the second driven wheel (74) are connected by the vertically arranged second synchronous belt (73). One end of the second main shaft (75) is fitted with the second driven wheel (74), and the other end of the second main shaft (75) is connected to the lamp body (2). The second motor (71) is also provided with a second magnetic encoder (76) for detecting the rotation angle of the second active component (7).

6. A moving head light according to claim 1, characterized in that, The lamp body (2) includes a heat sink assembly (21), an LED lamp panel (22), a focusing assembly (23), a lens assembly (24), a radiant lamp panel (25), and a fogging cover (26) arranged sequentially from bottom to top. The LED light board (22) is provided with multiple LED beads, and each LED bead is provided with a corresponding light guide column (221).

7. A moving head light according to claim 6, characterized in that, The focusing assembly (23) includes a focusing motor (231), a focusing lead screw (232), a focusing slide sleeve (233), a focusing magnet (234), a focusing slide rod (235), and a focusing base plate (236). The LED light panel (22) is provided with several focusing motors (231) and several focusing slide sleeves (233) spaced apart. One end of the focusing lead screw (232) is connected to the focusing motor (231). The other end of the focusing slide rod (232) is connected to the focusing base plate (236). One end of the focusing slide rod (235) is movably inserted into the focusing slide sleeve (233). The other end of the focusing slide rod (235) is connected to the focusing base plate (236). The lower end of the focusing base plate (236) is provided with the focusing magnet (234). The LED light board (22) is provided with a Hall sensor (222) for detecting the movement stroke of the focusing magnet (234).

8. A moving head light according to claim 7, characterized in that, The side of the focusing motor (231) is connected to the LED light panel (22) via an elastic damping column (237); The focusing slide sleeve (233) is made of aluminum alloy. The focusing slide sleeve (233) is also provided with an inner slide sleeve (238) made of plastic. The focusing slide rod (235) is movably inserted into the inner slide sleeve (238).

9. A moving head light according to claim 6, characterized in that, The heat sink assembly (21) includes heat sink fins (211), which are embedded with multiple heat sink copper pipes, and a heat sink fan (212) is provided at the lower end of the heat sink fins (211).

10. A moving head light according to claim 1, characterized in that, The front side of the chassis (3) is also provided with a display panel (33), and the outer side of the display panel (33) is provided with a touch glass panel (34). The display panel (33) is electrically connected to the control component.