WO2015109959A1 - Light-direction adjustment device - Google Patents

Light-direction adjustment device Download PDF

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Publication number
WO2015109959A1
WO2015109959A1 PCT/CN2015/070562 CN2015070562W WO2015109959A1 WO 2015109959 A1 WO2015109959 A1 WO 2015109959A1 CN 2015070562 W CN2015070562 W CN 2015070562W WO 2015109959 A1 WO2015109959 A1 WO 2015109959A1
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WO
WIPO (PCT)
Prior art keywords
driving
light
adjusting
unit
housing
Prior art date
Application number
PCT/CN2015/070562
Other languages
French (fr)
Chinese (zh)
Inventor
武良举
Original Assignee
武良举
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Publication date
Priority to CN201420058368.9 priority Critical
Priority to CN201420058368 priority
Priority to CN201420159481.6U priority patent/CN203893076U/en
Priority to CN201420159481.6 priority
Application filed by 武良举 filed Critical 武良举
Publication of WO2015109959A1 publication Critical patent/WO2015109959A1/en

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V14/00Controlling the distribution of the light emitted by adjustment of elements
    • F21V14/02Controlling the distribution of the light emitted by adjustment of elements by movement of light sources
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S8/00Lighting devices intended for fixed installation
    • F21S8/02Lighting devices intended for fixed installation of recess-mounted type, e.g. downlighters
    • F21S8/026Lighting devices intended for fixed installation of recess-mounted type, e.g. downlighters intended to be recessed in a ceiling or like overhead structure, e.g. suspended ceiling
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V29/00Protecting lighting devices from thermal damage; Cooling or heating arrangements specially adapted for lighting devices or systems
    • F21V29/50Cooling arrangements
    • F21V29/70Cooling arrangements characterised by passive heat-dissipating elements, e.g. heat-sinks
    • F21V29/74Cooling arrangements characterised by passive heat-dissipating elements, e.g. heat-sinks with fins or blades
    • F21V29/77Cooling arrangements characterised by passive heat-dissipating elements, e.g. heat-sinks with fins or blades with essentially identical diverging planar fins or blades, e.g. with fan-like or star-like cross-section
    • F21V29/773Cooling arrangements characterised by passive heat-dissipating elements, e.g. heat-sinks with fins or blades with essentially identical diverging planar fins or blades, e.g. with fan-like or star-like cross-section the planes containing the fins or blades having the direction of the light emitting axis
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V21/00Supporting, suspending, or attaching arrangements for lighting devices; Hand grips
    • F21V21/02Wall, ceiling, or floor bases; Fixing pendants or arms to the bases
    • F21V21/04Recessed bases
    • F21V21/041Mounting arrangements specially adapted for false ceiling panels or partition walls made of plates
    • F21V21/042Mounting arrangements specially adapted for false ceiling panels or partition walls made of plates using clamping means, e.g. for clamping with panel or wall
    • F21V21/044Mounting arrangements specially adapted for false ceiling panels or partition walls made of plates using clamping means, e.g. for clamping with panel or wall with elastically deformable elements, e.g. spring tongues
    • F21V21/046Mounting arrangements specially adapted for false ceiling panels or partition walls made of plates using clamping means, e.g. for clamping with panel or wall with elastically deformable elements, e.g. spring tongues being tensioned by rotation of parts
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V21/00Supporting, suspending, or attaching arrangements for lighting devices; Hand grips
    • F21V21/14Adjustable mountings
    • F21V21/30Pivoted housings or frames
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V29/00Protecting lighting devices from thermal damage; Cooling or heating arrangements specially adapted for lighting devices or systems
    • F21V29/50Cooling arrangements
    • F21V29/502Cooling arrangements characterised by the adaptation for cooling of specific components
    • F21V29/507Cooling arrangements characterised by the adaptation for cooling of specific components of means for protecting lighting devices from damage, e.g. housings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V29/00Protecting lighting devices from thermal damage; Cooling or heating arrangements specially adapted for lighting devices or systems
    • F21V29/50Cooling arrangements
    • F21V29/70Cooling arrangements characterised by passive heat-dissipating elements, e.g. heat-sinks
    • F21V29/83Cooling arrangements characterised by passive heat-dissipating elements, e.g. heat-sinks the elements having apertures, ducts or channels, e.g. heat radiation holes
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V7/00Reflectors for light sources
    • F21V7/04Optical design
    • F21V7/041Optical design with conical or pyramidal surface
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21WINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
    • F21W2131/00Use or application of lighting devices or systems not provided for in codes F21W2102/00-F21W2121/00
    • F21W2131/30Lighting for domestic or personal use
    • F21W2131/301Lighting for domestic or personal use for furniture
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2115/00Light-generating elements of semiconductor light sources
    • F21Y2115/10Light-emitting diodes [LED]

Abstract

Disclosed is a light-direction adjustment device, comprising a housing (10), a lamp body unit (20), a light emitting unit (30), and an adjustment unit (40). The light emitting unit (30) comprises a light source (31), which light source (31) is mounted on the adjustment unit (40). The adjustment unit (40) comprise a first drive member (41) and a second drive member (42). The first drive member (41) and the second drive member (42) are respectively provided at one end of the adjustment unit (40), and the first drive member (41) and the second drive member (42) move synchronously, so as to change the direction of light irradiation from the light source (31).

Description

光向调整装置Light direction adjustment device 技术领域Technical field
本申请涉及一种光向调整装置,特别涉及一种包括一调整单元的光向调整装置,一光源安装于所述调整单元,以使得所述光源产生的光线照射的方向得以随着所述调整单元角度的调整而改变,从而,用户可以方便地使用所述光向调整装置来照明。The present invention relates to a light direction adjusting device, and more particularly to a light direction adjusting device including an adjusting unit, a light source is mounted on the adjusting unit such that a direction of light generated by the light source is adjusted according to the adjustment The adjustment of the unit angle is changed so that the user can conveniently use the light to illuminate the adjustment device.
技术背景technical background
射灯,是一种典型的无定规模的现代流派照明设备,利用其可自由变化角度的特点,可以把有限个射灯按照一定的规律组合起来,用来营造气氛,烘托环境,因此,射灯的出现,给人们的生活带来了很大的便利。Spotlights are a typical modern genre lighting equipment of unlimited scale. With its freely variable angle, a limited number of spotlights can be combined according to certain rules to create an atmosphere and set off the environment. Therefore, shooting The appearance of lights has brought great convenience to people's lives.
传统地,射灯包括一用来固定所述射灯的基座,一支撑构件以及一灯体,所述支撑构件的一端部固定于所述基座,所述灯体可活动地安装于所述支撑构件的另一端部,通过所述灯体做相对于所述支撑构件的旋转运动,来实现所述射灯产生的光线照射的方向的变化。Conventionally, the spotlight includes a base for fixing the spotlight, a support member and a lamp body, one end of the support member is fixed to the base, and the lamp body is movably mounted on the base The other end portion of the supporting member realizes a change in the direction in which the light generated by the spotlight is irradiated by the rotation of the lamp body with respect to the supporting member.
基于上述所揭露的传统的所述射灯,可以理解的是,当所述基座被安装于天花板或者类似的位置时,所述支撑构件向下延伸,换言之,所述支撑构件在天花板或者类似的位置的下部占用一定的空间,并且,当所述灯体做相对于所述支撑构件的旋转运动时,所述灯体必须占用除了所述射灯本身空间以外的其他空间。也就是说,当所述灯体做相对于所述支撑构件的旋转运动时,所述射灯外部的整体空间处于不断变化的状态,从而,来满足用户的使用需求。Based on the conventional spotlight disclosed above, it will be understood that the support member extends downward when the base is mounted to a ceiling or the like, in other words, the support member is on the ceiling or the like. The lower portion of the position takes up a certain space, and when the lamp body makes a rotational movement with respect to the support member, the lamp body must occupy a space other than the space of the spotlight itself. That is to say, when the lamp body is rotated relative to the support member, the overall space outside the spotlight is in an ever-changing state, thereby satisfying the user's use requirements.
因此,需要一款能够在安装完成以后以及调整光线的过程中都占用较小空间的装置来满足用户的需求。Therefore, there is a need for a device that can take up less space after the installation is completed and during the adjustment of the light to meet the needs of the user.
实用新型内容Utility model content
本实用新型的主要优势在于提供一种光向调整装置以及方法,其中所述光向调整装置包括一调整单元,一光源安装于所述调整单元,以使得所述光源产生的光线照射的方向得以随着所述调整单元角度的调整而改变,从而,用户可以方便地使用所述光向调整装置来 照明。The main advantage of the present invention is to provide a light direction adjusting device and method, wherein the light direction adjusting device comprises an adjusting unit, and a light source is mounted on the adjusting unit, so that the direction of the light generated by the light source can be illuminated. With the adjustment of the adjustment unit angle, the user can conveniently use the light to adjust the device. illumination.
本实用新型的另一优势在于提供一种光向调整装置,其中所述调整单元能够进行多个角度的调整,并且,在所述调整单元角度调整的过程中,当所述光源产生的光线照射的方向能够满足用户的预定需求时,所述调整单元可以方便地固定于该位置。Another advantage of the present invention is to provide a light direction adjusting device, wherein the adjusting unit is capable of adjusting a plurality of angles, and in the process of adjusting the angle of the adjusting unit, when the light generated by the light source is irradiated The adjustment unit can be conveniently fixed to the position when the direction of the user can meet the predetermined requirements of the user.
本实用新型的另一优势在于提供一种光向调整装置,所述调整单元的弧面结构得以在所述调整单元角度的调整的过程中较好地配合所述灯体单元以及所述壳体的弧面结构,从而,使得所述调整单元的角度得以方便地进行调整。Another advantage of the present invention is to provide a light direction adjusting device, wherein the curved surface structure of the adjusting unit can better match the lamp body unit and the casing during the adjustment of the adjusting unit angle The curved surface structure, so that the angle of the adjustment unit can be easily adjusted.
本实用新型的另一优势在于提供一种光向调整装置,在所述调整单元角度调整的过程中,所述调整单元始终处于所述灯体单元与所述壳体形成的所述第一接受腔内部,换言之,在所述调整单元角度调整的过程汇总,所述调整单元不需要占用除了所述光向调整装置以外的空间,因此,使得所述光向调整装置得以在狭小的空间内使用。Another advantage of the present invention is to provide a light direction adjusting device, in the process of adjusting the angle of the adjusting unit, the adjusting unit is always in the first acceptance formed by the lamp body unit and the casing Inside the cavity, in other words, in the process of adjusting the angle of the adjustment unit, the adjustment unit does not need to occupy a space other than the light adjustment device, so that the light adjustment device can be used in a small space. .
本实用新型的另一优势在于提供一种光向调整装置,其中所述光条调整装置提供多个密封元件,当所述光向调整装置在户外或者容易受到水或灰尘侵袭的环境中使用时,每所述密封元件能够确保所述光源所处的环境相对稳定。Another advantage of the present invention is to provide a light direction adjusting device, wherein the light strip adjusting device provides a plurality of sealing elements when the light is used in an environment where the adjusting device is outdoors or is susceptible to water or dust. Each of the sealing elements is capable of ensuring that the environment in which the light source is located is relatively stable.
本实用新型的另一优势在于提供一种光向调整装置,其中所述光向调整装置提供多个固定元件,以用于固定输电导线,并且可以在不影响所述光向调整装置正常使用的前提下,防止人手误操作所述调整单元时,输出导线在所述光向调整装置内部缠绕而损坏。Another advantage of the present invention is to provide a light direction adjusting device, wherein the light provides a plurality of fixing elements to the adjusting device for fixing the power transmission wire, and can not affect the normal use of the light to the adjusting device. Under the premise, when the manual unit is prevented from mishandling the adjustment unit, the output wire is entangled in the light to the inside of the adjustment device and is damaged.
本实用新型的另一优势在于提供一种光向调整装置,其中所述光向调整装置的所述壳体得以依据不同的使用需要而调整,从而,有利于提高所述光向调整装置的散热效果。Another advantage of the present invention is to provide a light direction adjusting device, wherein the housing of the light adjusting device can be adjusted according to different use requirements, thereby facilitating heat dissipation of the light to the adjusting device. effect.
本实用新型的另一优势在于提供一种光向调整装置,其中所述光向调整装置包括一固持构件,用户可以方便地利用所述固持构件配合所述限位部将所述光向调整装置安装于预设位置,并且所述固持构件配合所述限位部还可以使得用户将所述光向调整装置方便地从预设位置上拆卸下来。Another advantage of the present invention is to provide a light direction adjusting device, wherein the light direction adjusting device includes a holding member, and the user can conveniently use the holding member to cooperate with the limiting portion to adjust the light to the adjusting device. The fixing member is mounted in the preset position, and the holding member cooperates with the limiting portion to enable the user to conveniently detach the light guiding device from the preset position.
本实用新型的另一优势在于提供一种光向调整装置,其中所述发光单元包括一聚光元件,所述聚光元件设置于所述光源产生的光线照射的方向,以对经由所述聚光元件的所述光源产生的光线产生聚光的效果,从而,使得所述光源产生的光线具有良好的方向性。Another advantage of the present invention is to provide a light direction adjusting device, wherein the light emitting unit includes a light collecting element, and the light collecting element is disposed in a direction in which light generated by the light source is irradiated to The light generated by the light source of the light element produces an effect of concentrating, thereby making the light generated by the light source have good directivity.
本实用新型的另一优势在于提供一种光向调整装置,其中所述光向调整装置的每部分构件设计巧妙,结构合理,布局科学,有利于提高所述光向调整装置的耐用度,并且,所述光向调整装置在使用过程中可靠性和安全性也能够得到很好地保证。Another advantage of the present invention is to provide a light direction adjusting device, wherein the light is ingeniously designed to each part of the adjusting device, has a reasonable structure, and has a scientific layout, which is advantageous for improving the durability of the light adjusting device, and The reliability and safety of the light direction adjusting device during use can also be well ensured.
本实用新型的另一优势在于提供一种光向调整装置,其中所述光向调整装置操作简单,能够有效地满足市场的需求。 Another advantage of the present invention is to provide a light direction adjusting device, wherein the light steering device is simple to operate and can effectively meet market demands.
本实用新型的另一优势在于提供一种光向调整装置,其中所述光向调整装置复杂的架构和精密的构建,原材料来源广泛,因此,有利于控制所述光向调整装置的制作成本,从而,所述光向调整装置具有良好的市场空间和前景。Another advantage of the present invention is to provide a light direction adjusting device, wherein the light direction adjusting device has a complicated structure and precise construction, and the raw materials are widely used, thereby facilitating control of the manufacturing cost of the light adjusting device. Thereby, the light direction adjusting device has a good market space and prospect.
依本实用新型,能够实现上述优势以及其他优势的一种光向调整装置,其包括:According to the present invention, an optical direction adjusting device capable of achieving the above advantages and other advantages includes:
一壳体;a housing
一灯体单元;a lamp body unit;
一发光单元,其中所述发光单元包括一光源;以及An illumination unit, wherein the illumination unit comprises a light source;
一调整单元,其中所述光源安装于所述调整单元,所述调整单元包括一第一驱动构件以及一第二驱动构件,所述第一驱动构件与所述第二驱动构件分别设置于所述调整单元的一端部,其中所述第一驱动构件与所述第二驱动构件的运动同步,从而,改变所述光源产生的光线照射的方向。An adjusting unit, wherein the light source is mounted on the adjusting unit, the adjusting unit includes a first driving member and a second driving member, and the first driving member and the second driving member are respectively disposed on the Adjusting one end of the unit, wherein the first driving member is synchronized with the movement of the second driving member, thereby changing a direction in which the light generated by the light source is irradiated.
根据本实用新型一实例,所述壳体包括一第一壳体、一第二壳体以及至少两散热元件,每所述散热元件的两端部分别延伸至所述第一壳体与所述第二壳体,并且每相邻所述散热元件之间形成一热交换空间。According to an example of the present invention, the housing includes a first housing, a second housing, and at least two heat dissipating components, and the two ends of each of the heat dissipating components respectively extend to the first housing and the a second housing, and a heat exchange space is formed between each adjacent heat dissipating member.
根据本实用新型一实例,所述灯体单元包括一第一定位元件,其中所述壳体具有至少一第一安装孔,所述灯体单元具有至少一第二安装孔,所述灯体单元还包括至少一第一安装元件,当所述灯体单元装配于所述壳体时,所述第一定位元件围设于所述壳体,每所述第一安装元件得以经由每所述第二安装孔与每所述第一安装孔将所述灯体单元安装于所述壳体,其中所述壳体与所述灯体单元形成一第一接受腔,所述调整单元位于所述第一接受腔。According to an example of the present invention, the lamp body unit includes a first positioning component, wherein the housing has at least one first mounting hole, and the lamp body unit has at least one second mounting hole, the lamp body unit Also included is at least one first mounting member, the first positioning member enclosing the housing when the lamp body unit is mounted to the housing, each of the first mounting members being capable of passing each of the first Mounting the lamp body unit to the housing with each of the first mounting holes, wherein the housing and the lamp body unit form a first receiving cavity, and the adjusting unit is located at the first One accepts the cavity.
根据本实用新型一实例,所述灯体单元包括一第一定位元件,其中所述壳体具有至少一第一安装孔,所述灯体单元具有至少一第二安装孔,所述灯体单元还包括至少一第一安装元件,当所述灯体单元装配于所述壳体时,所述第一定位元件围设于所述壳体,每所述第一安装元件得以经由每所述第二安装孔与每所述第一安装孔将所述灯体单元安装于所述壳体,其中所述壳体与所述灯体单元形成一第一接受腔,所述调整单元位于所述第一接受腔。According to an example of the present invention, the lamp body unit includes a first positioning component, wherein the housing has at least one first mounting hole, and the lamp body unit has at least one second mounting hole, the lamp body unit Also included is at least one first mounting member, the first positioning member enclosing the housing when the lamp body unit is mounted to the housing, each of the first mounting members being capable of passing each of the first Mounting the lamp body unit to the housing with each of the first mounting holes, wherein the housing and the lamp body unit form a first receiving cavity, and the adjusting unit is located at the first One accepts the cavity.
根据本实用新型一实例,所述灯体单元包括一第二定位元件,其中所述第一定位元件与所述第二定位元件形成一定位槽,当所述灯体单元装配于所述壳体时,所述第一壳体的一端部安装于所述定位槽。According to an example of the present invention, the lamp body unit includes a second positioning component, wherein the first positioning component and the second positioning component form a positioning slot, and when the lamp body unit is mounted on the housing One end of the first housing is mounted to the positioning slot.
根据本实用新型一实例,所述第二壳体形成一第一驱动面,所述第一驱动面为下弧面,所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动构件与所 述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。According to an example of the present invention, the second housing forms a first driving surface, the first driving surface is a lower curved surface, and the second positioning component forms a second driving surface, the second driving surface The upper curved surface, the first driving member and the The second driving member is synchronously moved along the track formed by the first driving surface and the second driving surface, respectively, thereby changing the direction in which the light generated by the light source is irradiated.
根据本实用新型一实例,所述第二壳体包括一第一连接体以及一第二连接体,其中所述第一连接体的一端部延伸至所述第二壳体,所述第一连接体的另一端部形成一连接腔;其中所述第二连接体的一端部形成一第一驱动面,所述第二连接体的另一端部形成一第二连接元件,其中所述第二连接元件得以安装于所述连接腔,其中所述第一驱动面为下弧面;所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动面与所述第二驱动面得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。According to an example of the present invention, the second housing includes a first connecting body and a second connecting body, wherein one end of the first connecting body extends to the second housing, the first connection The other end of the body forms a connecting cavity; wherein one end of the second connecting body forms a first driving surface, and the other end of the second connecting body forms a second connecting component, wherein the second connecting An element is mounted to the connecting cavity, wherein the first driving surface is a lower curved surface; the second positioning element forms a second driving surface, and the second driving surface is an upper curved surface, the first driving The surface and the second driving surface are respectively synchronized to move along the track formed by the first driving surface and the second driving surface, thereby changing the direction in which the light generated by the light source is irradiated.
根据本实用新型一实例,所述连接腔具有一螺纹结构,所述第二连接元件具有一螺纹结构,其中当所述第二连接元件安装于所述接受腔时,所述第二连接元件的螺纹结构得以适配于所述接受腔的螺纹结构,以用于固定所述第二连接体与所述第一连接体。According to an example of the present invention, the connecting cavity has a threaded structure, and the second connecting element has a threaded structure, wherein when the second connecting component is mounted to the receiving cavity, the second connecting component A threaded structure is adapted to the threaded structure of the receiving cavity for securing the second connector and the first connector.
根据本实用新型一实例,所述发光单元包括一散热构件,其中所述散热构件包括一安装基板,所述安装基板具有一安装位,所述光源安装于所述安装位,从而,所述光源得以安装于所述安装基板。According to an example of the present invention, the light emitting unit includes a heat dissipating member, wherein the heat dissipating member includes a mounting substrate, the mounting substrate has a mounting position, and the light source is mounted on the mounting position, thereby the light source It can be mounted on the mounting substrate.
根据本实用新型一实例,所述安装基板一侧部垂直方向延伸形成一第一散热以及至少两第二散热,每所述第二散热间隔地设置,其中每相邻所述第二散热之间形成一第一散热腔,所述第一散热与所述安装基板形成一第二散热腔,其中每所述第二散热的两相邻部分别延伸至所述第一散热与所述安装基板。According to an example of the present invention, one side of the mounting substrate extends in a vertical direction to form a first heat dissipation and at least two second heat dissipation, and each of the second heat dissipation spaces is disposed at intervals, wherein each adjacent the second heat dissipation is disposed. Forming a first heat dissipation cavity, the first heat dissipation and the mounting substrate form a second heat dissipation cavity, wherein two adjacent portions of each of the second heat dissipations respectively extend to the first heat dissipation and the mounting substrate.
根据本实用新型一实例,所述安装基板具有至少一第三安装孔以及至少一第二安装元件,所述第二驱动构件具有至少一第四安装孔,其中每所述第二安装元件得以经由每所述第三安装孔与每所述第四安装孔将所述第二驱动构件安装于所述安装基板,其中所述安装基板与所述第二安装基板形成一第二接受腔,所述光源位于所述第二接受腔。According to an example of the present invention, the mounting substrate has at least one third mounting hole and at least one second mounting component, and the second driving component has at least one fourth mounting hole, wherein each of the second mounting components is Mounting the second driving member to the mounting substrate for each of the third mounting holes and each of the fourth mounting holes, wherein the mounting substrate and the second mounting substrate form a second receiving cavity, A light source is located in the second receiving cavity.
根据本实用新型一实例,所述安装基板的一侧部垂直方向延伸形成一第一安装轴以及一第二安装轴,其中所述第二安装轴的直径小于所述第一安装轴的直径;所述第一驱动构件具有一第一安装腔以及一第二安装腔,其中所述第二安装腔的直径小于所述第一安装腔的直径,其中在所述第一驱动构件与所述第二驱动构件分别沿着所述第一驱动面与所述第二驱动面形成的轨道运动的过程中,所述第二安装轴得以沿着所述第二安装腔形成的轨道运动。According to an example of the present invention, one side of the mounting substrate extends in a vertical direction to form a first mounting shaft and a second mounting shaft, wherein the diameter of the second mounting shaft is smaller than the diameter of the first mounting shaft; The first driving member has a first mounting cavity and a second mounting cavity, wherein the diameter of the second mounting cavity is smaller than a diameter of the first mounting cavity, wherein the first driving member and the first During the orbital motion of the two drive members along the first drive surface and the second drive surface, respectively, the second mounting shaft is movable along an orbit formed by the second mounting cavity.
根据本实用新型一实例,所述调整单元还包括一弹性元件,其中所述弹性元件的两端部分别朝向所述第一安装轴与所述第一安装腔,其中所述弹性元件得以使得所述第一安装 轴具有返回预设位置的运动和位移。According to an example of the present invention, the adjusting unit further includes an elastic member, wherein both ends of the elastic member face the first mounting shaft and the first mounting cavity, respectively, wherein the elastic member enables First installation The axis has motion and displacement that return to the preset position.
根据本实用新型一实例,所述发光单元还包括一反射元件,所述反射元件安装于所述安装基板,其中所述反射元件具有一第三光线通道,以使得经由所述光源产生的光线得以通过所述第三光线通道辐射至所述光向调整装置的外部。According to an embodiment of the present invention, the light emitting unit further includes a reflective component, the reflective component is mounted on the mounting substrate, wherein the reflective component has a third light passage to enable light generated via the light source to be Radiation to the outside of the adjustment device by the third light tunnel.
根据本实用新型一实例,所述发光单元进一步包括一聚光元件,所述聚光元件包括一固定部以及一聚光部,所述固定部与所述聚光部一体地形成,所述第二驱动构件具有一止退部,其中所述固定部固定于所述止退部,所述光源产生的光线得以经由所述聚光部辐射至所述光向调整装置的外部。According to an embodiment of the present invention, the light emitting unit further includes a light collecting element, the light collecting element includes a fixing portion and a light collecting portion, and the fixing portion is integrally formed with the light collecting portion, the first The two driving members have a retreating portion, wherein the fixing portion is fixed to the retreating portion, and light generated by the light source is radiated to the outside of the adjusting device via the concentrating portion.
根据本实用新型一实例,所述发光单元还包括一第二密封元件,所述第二密封元件安装于所述止退部。According to an example of the present invention, the light emitting unit further includes a second sealing member, and the second sealing member is mounted on the retaining portion.
根据本实用新型一实例,所述第一定位元件两侧部朝向所述壳体方向分别延伸形成一固持部,所述光向调整装置进一步包括两固持构件,每所述固持构件的一端部安装于每所述固持部,所述灯体单元还包括一限位部,所述限位部设置于所述第一定位元件的外侧,其中每所述固持构件与所述限位部之间形成一夹持腔。According to an example of the present invention, the two sides of the first positioning component respectively extend toward the housing direction to form a holding portion, and the light direction adjusting device further comprises two holding members, one end of each of the holding members is mounted. In each of the holding portions, the lamp body unit further includes a limiting portion disposed on an outer side of the first positioning member, wherein each of the holding member and the limiting portion is formed A clamping cavity.
根据本实用新型一实例,所述第一壳体、所述第二壳体以及每所述散热元件一体地形成。According to an example of the present invention, the first housing, the second housing, and each of the heat dissipating components are integrally formed.
根据本实用新型一实例,所述第二驱动面还具有一定位通道以及一第一密封元件,其中所述第一密封元件位于所述定位通道,并且所述第一密封元件位于所述第二驱动面与所述调整单元之间。According to an example of the present invention, the second driving surface further has a positioning channel and a first sealing element, wherein the first sealing element is located in the positioning channel, and the first sealing element is located in the second Between the driving surface and the adjustment unit.
根据本实用新型一实例,所述第一密封元件为弹性材料制成。According to an embodiment of the invention, the first sealing element is made of an elastic material.
根据本实用新型一实例,所述灯体单元还包括一第一固定元件以及一第二固定元件,其中所述第一固定元件安装于所述第二散热,并且所述第一固定元件与所述第二散热之间形成一第一固定腔;所述第二固定元件安装于所述壳体,并且所述第二固定元件具有一第二固定腔,输电导线得以藉由所述第二固定腔与所述第一固定腔延伸至所述光向调整装置内部。According to an example of the present invention, the lamp body unit further includes a first fixing component and a second fixing component, wherein the first fixing component is mounted on the second heat dissipation, and the first fixing component and the Forming a first fixing cavity between the second heat dissipation; the second fixing component is mounted on the housing, and the second fixing component has a second fixing cavity, and the power transmission wire is supported by the second fixing The cavity and the first fixed cavity extend to the interior of the light adjustment device.
本实用新型还揭露了一种光向调整装置,其包括:The utility model also discloses a light direction adjusting device, which comprises:
一光源,以产生光线;a light source to generate light;
一壳体,所述壳体形成一第一驱动面;a housing, the housing forming a first driving surface;
一灯体单元,所述灯体单元形成一第二驱动面,其中所述壳体与所述灯体单元形成一第一接受腔;以及a lamp body unit, the lamp body unit forming a second driving surface, wherein the housing and the lamp body unit form a first receiving cavity;
一调整单元,所述光源安装于所述调整单元,所述调整单元位于所述第一接受腔,其 中所述调整单元包括:An adjusting unit, the light source is mounted on the adjusting unit, and the adjusting unit is located in the first receiving cavity, The adjustment unit described in the following includes:
一第一驱动构件;以及a first drive member;
一第二驱动构件,其中所述第一驱动构件与所述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动。a second driving member, wherein the first driving member and the second driving member are synchronously moved along a track formed by the first driving surface and the second driving surface, respectively.
根据本实用新型一实例,所述调整单元还包括一弹性元件,所述弹性元件的两端部分别朝向所述第一驱动构件与所述第二驱动构件,其中当所述第二驱动构件朝向所述第一驱动构件运动时,所述弹性元件得以使得所述第二驱动构件具有返回预设状态的趋势。According to an example of the present invention, the adjusting unit further includes an elastic member, the two ends of the elastic member respectively facing the first driving member and the second driving member, wherein when the second driving member faces The elastic member is caused to have a tendency to return the second driving member to a preset state when the first driving member is moved.
根据本实用新型一实例,所述壳体包括一第一壳体、一第二壳体以及至少两散热元件,每所述散热元件的两端部分别延伸至所述第一壳体与所述第二壳体,并且每相邻所述散热元件之间形成一热交换空间。According to an example of the present invention, the housing includes a first housing, a second housing, and at least two heat dissipating components, and the two ends of each of the heat dissipating components respectively extend to the first housing and the a second housing, and a heat exchange space is formed between each adjacent heat dissipating member.
根据本实用新型一实例,所述灯体单元包括一第一定位元件以及一第二定位元件,其中所述第一定位元件与所述第二定位元件间隔地设置,以形成一定位槽,当所述灯体单元装配于所述壳体时,所述第一壳体的一端部位于所述定位槽。According to an example of the present invention, the lamp body unit includes a first positioning component and a second positioning component, wherein the first positioning component is spaced apart from the second positioning component to form a positioning slot. When the lamp body unit is mounted on the housing, one end of the first housing is located in the positioning slot.
根据本实用新型一实例,所述第二壳体形成以第一驱动面,所述第一驱动面为下弧面,所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动构件与所述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。According to an example of the present invention, the second housing is formed with a first driving surface, the first driving surface is a lower curved surface, and the second positioning component forms a second driving surface, the second driving surface For the upper curved surface, the first driving member and the second driving member are respectively synchronized to move along the track formed by the first driving surface and the second driving surface, thereby changing the light generated by the light source. The direction of the illumination.
根据本实用新型一实例,所述第二壳体包括一第一连接体以及一第二连接体,其中所述第一连接体的一端部延伸至所述第二壳体,所述第一连接体的另一端部形成一连接腔;其中所述第二连接体的一端部形成一第一驱动面,所述第二连接体的另一端部形成一第二连接元件,其中所述第二连接元件得以安装于所述连接腔,其中所述第一驱动面为下弧面;所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动面与所述第二驱动面得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。According to an example of the present invention, the second housing includes a first connecting body and a second connecting body, wherein one end of the first connecting body extends to the second housing, the first connection The other end of the body forms a connecting cavity; wherein one end of the second connecting body forms a first driving surface, and the other end of the second connecting body forms a second connecting component, wherein the second connecting An element is mounted to the connecting cavity, wherein the first driving surface is a lower curved surface; the second positioning element forms a second driving surface, and the second driving surface is an upper curved surface, the first driving The surface and the second driving surface are respectively synchronized to move along the track formed by the first driving surface and the second driving surface, thereby changing the direction in which the light generated by the light source is irradiated.
根据本实用新型一实例,所述连接腔具有一螺纹结构,所述第二连接元件具有一螺纹结构,其中当所述第二连接元件安装于所述接受腔时,所述第二连接元件的螺纹结构得以适配于所述接受腔的螺纹结构,以用于固定所述第二连接体与所述第一连接体。According to an example of the present invention, the connecting cavity has a threaded structure, and the second connecting element has a threaded structure, wherein when the second connecting component is mounted to the receiving cavity, the second connecting component A threaded structure is adapted to the threaded structure of the receiving cavity for securing the second connector and the first connector.
根据本实用新型一实例,所述第二驱动面还具有一定位通道以及一第一密封元件,其中所述第一密封元件位于所述定位通道,并且所述第一密封元件位于所述第二驱动面与所述调整单元之间。According to an example of the present invention, the second driving surface further has a positioning channel and a first sealing element, wherein the first sealing element is located in the positioning channel, and the first sealing element is located in the second Between the driving surface and the adjustment unit.
根据本实用新型一实例,所述第一密封元件为弹性材料制成。 According to an embodiment of the invention, the first sealing element is made of an elastic material.
为了能够实现上述优势以及其他优势,本实用新型还提供一种通过一光向调整装置实现光向调整的方法,其中所述光向调整装置包括一光源,一用于安装所述光源的调整单元,以及一灯体单元和一壳体,其包括如下步骤:In order to achieve the above advantages and other advantages, the present invention also provides a method for realizing light direction adjustment by a light direction adjusting device, wherein the light direction adjusting device comprises a light source, and an adjusting unit for mounting the light source And a lamp body unit and a casing, comprising the steps of:
(a)经由所述光源产生光线。(a) generating light via the light source.
(b)施加外力作用于所述调整单元,其中当所述调整单元做相对于所述灯体单元与所述壳体的运动时,所述光源产生的光线照射方向得以改变。(b) applying an external force to the adjustment unit, wherein a direction of light irradiation by the light source is changed when the adjustment unit performs a movement relative to the lamp body unit and the housing.
根据本实用新型一实例,所述步骤(a)还包括步骤:According to an example of the present invention, the step (a) further comprises the steps of:
(a.1)藉由一反射元件反射所述光源产生的光线,以使得所述光源产生的光线具有良好的方向性。(a.1) reflecting light generated by the light source by a reflective element such that the light generated by the light source has good directivity.
(a.2)提供一聚光元件以聚集经由所述聚光元件的光线,从而,使得所述光源产生的光线具有良好的一致性。(a.2) A concentrating element is provided to collect light rays passing through the concentrating element, thereby making the light generated by the light source have good uniformity.
根据本实用新型一实例,所述步骤(b)还包括步骤:According to an example of the present invention, the step (b) further comprises the steps of:
(b.1)所述壳体包括一第二壳体,所述第二壳体形成一第一驱动面。(b.1) The housing includes a second housing that forms a first drive surface.
(b.2)所述灯体单元包括一第二定位元件,所述第二定位元件形成一第二驱动面。(b.2) The lamp body unit includes a second positioning member, and the second positioning member forms a second driving surface.
(b.3)所述调整单元包括一第一驱动构件以及一第二驱动构件,其中所述第一驱动构件与所述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。(b.3) the adjustment unit includes a first driving member and a second driving member, wherein the first driving member and the second driving member are respectively along the first driving surface and the first The tracks formed by the two driving faces are synchronously moved, thereby changing the direction in which the light generated by the light source is irradiated.
为了能够达到上述目的和优势,本实用新型还提供一种光向调整装置的制造方法,其包括如下步骤:In order to achieve the above objects and advantages, the present invention also provides a method for manufacturing a light direction adjusting device, which includes the following steps:
(A)经由一光源产生光线。(A) Light is generated via a light source.
(B)模具分别成型具有一第一驱动面的一壳体以及具有一第二驱动面的一灯体单元。(B) The mold separately forms a casing having a first driving surface and a lamp body unit having a second driving surface.
(C)形成一调整单元,所述调整单元包括一第一驱动构件以及一第二驱动构件,所述第一驱动构件与所述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。(C) forming an adjustment unit, the adjustment unit including a first driving member and a second driving member, the first driving member and the second driving member being respectively along the first driving surface The track formed by the second driving surface is synchronously moved, thereby changing the direction in which the light generated by the light source is irradiated.
通过对随后的描述和附图的理解,本实用新型进一步的目的和优势将得以充分体现。Further objects and advantages of the present invention will be fully realized from the understanding of the description and appended claims.
本实用新型的这些和其它目的、特点和优势,通过下述的详细说明,附图和权利要求得以充分体现。These and other objects, features and advantages of the present invention will become apparent from
附图说明DRAWINGS
图1为依本实用新型,一优选实施例的立体示意图。 1 is a perspective view of a preferred embodiment in accordance with the present invention.
图2为依本实用新型,上述优选实施例的装配示意图。Figure 2 is a schematic view of the assembly of the above preferred embodiment in accordance with the present invention.
图3为依本实用新型,上述优选实施例的壳体示意图。Figure 3 is a schematic view of the housing of the above preferred embodiment in accordance with the present invention.
图4、图5、图6和图7为依本实用新型,上述优选实施例的剖视示意图。4, 5, 6, and 7 are schematic cross-sectional views of the above preferred embodiment in accordance with the present invention.
图8为依本实用新型,上述优选实施例的一变形实施方式的示意图。Figure 8 is a schematic illustration of a variant embodiment of the above described preferred embodiment in accordance with the present invention.
图9为依本实用新型,上述优选实施例的上述变形实施方式示意图。Figure 9 is a schematic view of the above-described modified embodiment of the above preferred embodiment in accordance with the present invention.
图10为依本实用新型,上述变形实施方式的一第一驱动面实现方式剖视示意图。FIG. 10 is a cross-sectional view showing the implementation of a first driving surface according to the above modified embodiment according to the present invention.
图11为依本实用新型,上述变形实施方式的再一第一驱动面实现方式剖视示意图。FIG. 11 is a cross-sectional view showing another embodiment of the first driving surface according to the modified embodiment of the present invention.
图12为依本实用新型,上述优选实施例的一具体实施方式示意图。Figure 12 is a schematic view of a specific embodiment of the above preferred embodiment in accordance with the present invention.
图13为依本实用新型,上述优选实施例的再一具体实施方式示意图。Figure 13 is a schematic view of still another embodiment of the above preferred embodiment in accordance with the present invention.
具体实施方式detailed description
以下描述用于揭露本实用新型以使本领域技术人员能够实现本实用新型。以下描述中的优选实施例只作为举例,本领域技术人员可以想到其他显而易见的变型。在以下描述中界定的本实用新型的基本原理可以引用于其他实施方案、变形方案、改进方案、等同方案以及没有背离本实用新型精神和范围的其他技术方案。The following description is presented to disclose the invention to enable those skilled in the art to practice the invention. The preferred embodiments in the following description are by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, which are defined in the following description, may be referenced to other embodiments, variants, modifications, equivalents, and other embodiments without departing from the spirit and scope of the invention.
如图1至图7所示,本实用新型一优选实施例举例说明了一种光向调整装置来阐述本实用新型的精神,其中所述光向调整装置在调整光线照射的方向时,不需要占用除了所述光向调整装置以外的空间,因此,所述光光向调整装置可以应用于狭小的空间内。As shown in FIG. 1 to FIG. 7 , a preferred embodiment of the present invention exemplifies a light direction adjusting device for explaining the spirit of the present invention, wherein the light direction adjusting device does not need to adjust the direction of light irradiation. The space other than the light direction adjusting means is occupied, and therefore, the light and light direction adjusting means can be applied to a narrow space.
依据本实用新型上述优选实施例所揭露的一种光向调整装置,其包括一壳体10,一灯体单元20,一发光单元30以及一调整单元40。An optical direction adjusting device according to the above preferred embodiment of the present invention includes a housing 10, a lamp body unit 20, a lighting unit 30, and an adjusting unit 40.
所述壳体10包括一第一壳体11,一第二壳体12以及至少两散热元件13,其中每所述散热元件13的两端部分别延伸至所述第一壳体11与所述第二壳体12,并且,每相邻所述散热元件13之间形成一热交换空间131,当所述壳体10内部的温度高于所述壳体10外部的温度时,所述壳体10内部的气体与所述壳体10外部的气体得以藉由所述热交换空间131进行交换,从而,确保了所述壳体10内部与外部的气压平衡。The housing 10 includes a first housing 11 , a second housing 12 and at least two heat dissipating components 13 , wherein both ends of each of the heat dissipating components 13 extend to the first housing 11 and the a second housing 12, and a heat exchange space 131 is formed between each adjacent heat dissipating member 13, and when the temperature inside the housing 10 is higher than the temperature outside the housing 10, the housing The gas inside the casing 10 and the gas outside the casing 10 are exchanged by the heat exchange space 131, thereby ensuring the balance of the air pressure inside and outside the casing 10.
值得一提的是,所述第一壳体11、所述第二壳体12以及每所述散热元件13一体地形成。It is worth mentioning that the first housing 11, the second housing 12 and each of the heat dissipating elements 13 are integrally formed.
所述壳体10进一步形成一第一接受腔14,以提供用于安装所述调整单元40的空间,其中每所述热交换空间131与所述第一接受腔14相连通,以使得所述壳体10内部的气体与所述壳体10外部的气体得以藉由所述热交换空间131进行交换。可以理解的是,当所述光向调整装置处于装配状态时,所述壳体10围设于所述调整单元40外部,以对所述调 整单元40起到保护作用。The housing 10 further defines a first receiving cavity 14 to provide a space for mounting the adjustment unit 40, wherein each of the heat exchange spaces 131 is in communication with the first receiving cavity 14 such that the The gas inside the casing 10 and the gas outside the casing 10 are exchanged by the heat exchange space 131. It can be understood that when the light is adjusted to the adjusting device, the housing 10 is disposed outside the adjusting unit 40 to The entire unit 40 serves as a protection.
具体地说,所述第一壳体11围设于所述调整单元40四周,所述第二壳体12位于所述调整单元40的一端部,其中所述第二壳体12朝向所述第一接受腔14的一侧部形成一第一驱动面15,所述调整单元40得以沿着所述第一驱动面15形成的轨道做相对于所述壳体10的运动。Specifically, the first housing 11 is disposed around the adjustment unit 40, and the second housing 12 is located at one end of the adjustment unit 40, wherein the second housing 12 faces the first A side portion of the receiving chamber 14 defines a first driving surface 15, and the adjusting unit 40 is configured to move relative to the housing 10 along a track formed by the first driving surface 15.
所述灯体单元20包括以第一定位元件21以及以第二定位元件22,其中所述第一定位元件21与所述第二定位元件22间隔地设置以形成一定位槽23。所述灯体单元20装配于所述壳体10,其中所述壳体10具有至少一第一安装孔101,所述灯体单元20具有至少一第二安装孔201,其中每所述第一安装孔101与每所述第二安装孔201相适配,所述灯体单元20进一步包括以第一安装元件24,当所述灯体单元20装配于所述壳体10时,所述第一壳体11的一端部安装于所述定位槽23,所述第一定位元件21位于所述第一壳体11的外侧,所述第二定位元件22位于所述第一壳体11的内侧,所述第一安装元件24藉由所述第一安装孔101与所述第二安装孔201将所述壳体10与所述灯体单元20固定。The lamp body unit 20 includes a first positioning element 21 and a second positioning element 22, wherein the first positioning element 21 and the second positioning element 22 are spaced apart to form a positioning groove 23. The lamp body unit 20 is mounted on the housing 10, wherein the housing 10 has at least one first mounting hole 101, and the lamp body unit 20 has at least one second mounting hole 201, wherein each of the first The mounting hole 101 is adapted to each of the second mounting holes 201, and the lamp body unit 20 further includes a first mounting member 24, when the lamp body unit 20 is mounted on the housing 10, the first One end of a housing 11 is mounted to the positioning slot 23, the first positioning element 21 is located outside the first housing 11, and the second positioning element 22 is located inside the first housing 11. The first mounting component 24 fixes the housing 10 and the lamp body unit 20 by the first mounting hole 101 and the second mounting hole 201.
进一步地,当所述灯体单元20装配于所述壳体10时,所述灯体单元20与所述壳体10形成所述第一接受腔14,所述调整单元40的一位于所述第一接受腔14内,其中所述第二定位元件22形成以第二驱动面25,所述调整单元40得以沿着所述第二驱动面25形成的轨道做相对于所述等体单元20的运动。Further, when the lamp body unit 20 is assembled to the housing 10, the lamp body unit 20 and the housing 10 form the first receiving cavity 14, and one of the adjusting units 40 is located at the In the first receiving cavity 14, wherein the second positioning element 22 is formed with a second driving surface 25, and the adjusting unit 40 is made along the track formed by the second driving surface 25 with respect to the equal body unit 20 exercise.
所述第二驱动面25环设形成一第一光线通道251,其中所述第一光线通道251与所述第一接受腔14相连通,以使得所述发光单元30产生的光线得以藉由所述第一光线通道251辐射至所述光向调整装置的外部。The second driving surface 25 is annularly formed to form a first light tunnel 251, wherein the first light tunnel 251 is in communication with the first receiving cavity 14 so that the light generated by the light emitting unit 30 can be The first light tunnel 251 radiates to the outside of the light adjustment device.
根据本实用新型的这个优选实施例,如图5和图6所示,所述第二驱动面25还具有一定位通道252以及一第一密封元件253,其中所述第一密封元件253位于所述定位通道252,并且,所述第一密封元件253位于所述第二驱动面25与所述调整单元40之间。当所述光向调整装置应用于湿度较大的环境中时,所述第一密封元件253得以确保所述光向调整装置外部的水汽无法进入所述光向调整装置内部,从而,所述第一密封元件253得以确保所述光向调整装置具有稳定的工作环境。According to this preferred embodiment of the present invention, as shown in FIGS. 5 and 6, the second driving surface 25 further has a positioning passage 252 and a first sealing member 253, wherein the first sealing member 253 is located at the The positioning channel 252 is described, and the first sealing element 253 is located between the second driving surface 25 and the adjusting unit 40. When the light directing adjustment device is applied to an environment with a relatively high humidity, the first sealing member 253 ensures that the water vapor outside the adjusting device cannot enter the light toward the inside of the adjusting device, thereby A sealing element 253 ensures that the light directioning device has a stable working environment.
值得一提的是,所述第一密封元件253由弹性材料制成,当所述调整单元40沿着所述第二驱动面25形成的轨道运动时,所述第一密封元件253得以始终保证所述调整单元40与所述第二驱动面25之间不存在缝隙。It is worth mentioning that the first sealing element 253 is made of an elastic material, and the first sealing element 253 is always guaranteed when the adjusting unit 40 moves along the track formed by the second driving surface 25. There is no gap between the adjustment unit 40 and the second driving surface 25.
进一步地,所述第一壳体11的一端部还包括一个或多个间隔设置的卡合元件111,并且每所述卡合元件111还具有弹性,当所述第一壳体11设置于所述第一定位元件21 与所述第二定位元件22形成的所述定位槽23时,每所述卡合元件111得以朝向所述第一定位元件21,以使得所述第一壳体11能够固定于所述定位槽23内。Further, the one end portion of the first housing 11 further includes one or more spaced apart engaging elements 111, and each of the engaging elements 111 further has elasticity when the first housing 11 is disposed at the First positioning element 21 Each of the engaging elements 111 is oriented toward the first positioning element 21 when the positioning groove 23 is formed with the second positioning element 22, so that the first housing 11 can be fixed to the positioning groove 23 inside.
所述发光单元30包括以光源31,所述光源31安装于所述调整单元40,从而,使得所述光源31产生的光线照射的方向得以随着所述调整单元40角度的调整而改变,进而,用户可以方便地使用所述光向调整装置来照明。可以理解的是,所述光源31产生的光线得以藉由所述第一光线通道251辐射至所述光向调整装置的外部。The light emitting unit 30 includes a light source 31, and the light source 31 is mounted on the adjusting unit 40, so that the direction of the light generated by the light source 31 is changed according to the adjustment of the angle of the adjusting unit 40, and further The user can conveniently use the light to illuminate the adjustment device. It can be understood that the light generated by the light source 31 can be radiated to the outside of the adjusting device by the first light passage 251.
值得一提的是,所述光源31优选为LED光源,以在降低所述光向调整装置制作成本的基础上,提高所述光向调整装置的使用寿命,并且,所述光源31所产生的光线还能够使得所述光向调整装置具有良好的照明效果。It is worth mentioning that the light source 31 is preferably an LED light source to improve the service life of the light to the adjusting device on the basis of reducing the manufacturing cost of the light to the adjusting device, and the light source 31 generates The light also enables the light to have a good illumination effect to the adjustment device.
所述发光单元30还包括一散热构件32,其中所述散热构件32还包括以安装基板321,所述安装基板321具有一安装位3211,其中所述光源31得以安装于所述安装位3211,从而,使得所述光源31安装于所述安装基板321,以进一步使得所述光源31与所述安装基板321具有稳定的位置关系。The light emitting unit 30 further includes a heat dissipating member 32, wherein the heat dissipating member 32 further includes a mounting substrate 321 having a mounting position 3211, wherein the light source 31 is mounted to the mounting position 3211. Thereby, the light source 31 is mounted on the mounting substrate 321 to further make the light source 31 and the mounting substrate 321 have a stable positional relationship.
进一步地,所述安装基板321一侧部垂直方向延伸形成一第一散热322以及至少两第二散热323,其中每所述第二散热323相互间隔地设置,每相邻所述第二散热323之间形成一第一散热腔324。每所述第二散热323的一侧部延伸至所述第一散热322,每所述第二散热323的另一侧部延伸至所述安装基板321,所述第一散热322形成一第二散热腔325。Further, one side of the mounting substrate 321 extends in a vertical direction to form a first heat dissipation 322 and at least two second heat dissipation holes 323, wherein each of the second heat dissipation holes 323 is spaced apart from each other, and each of the second heat dissipation holes 323 is adjacent to each other. A first heat dissipation cavity 324 is formed therebetween. One side of each of the second heat sinks 323 extends to the first heat sink 322, and the other side of each of the second heat sinks 323 extends to the mounting substrate 321, and the first heat sink 322 forms a second Heat dissipation cavity 325.
可以理解的是,当所述光向调整装置处于装配状态时,所述第一散热腔324和所述第二散热腔325得以藉由所述第一接受腔14与所述热交换空间131相连通。It can be understood that the first heat dissipation cavity 324 and the second heat dissipation cavity 325 are connected to the heat exchange space 131 by the first receiving cavity 14 when the light adjustment device is in an assembled state. through.
值得一提的是,所述安装基板321、所述第一散热322以及每所述第二散热323由铝材料一体地制成,以使得所述散热构件32具有良好的散热效果,从而,保证所述光向调整装置在使用的过程中,所述光源31所述的工作环境的温度不至于过高,进而,有利于延长所述光向调整装置的使用寿命。It is to be noted that the mounting substrate 321, the first heat dissipation 322, and each of the second heat dissipation 323 are integrally formed of an aluminum material, so that the heat dissipation member 32 has a good heat dissipation effect, thereby ensuring During the use of the light direction adjusting device, the temperature of the working environment described by the light source 31 is not excessively high, and further, it is advantageous to extend the service life of the light to the adjusting device.
具体地说,在安装于所述安装基板321的所述光源31产生光线的过程中,所述光源31会同时产生大量的热量,以至于所述光源31所述的工作环境的温度迅速的升高,进而,导致所述光源31所述的工作环境急速恶化。由于所述散热构件32选用铝材料制成,所述光源31产生的大量的热量通过所述安装基板321被传到至所述第一散热322与每所述第二散热323,从而,该热量得以通过所述第一散热腔324与所述第二散热腔325藉由每所述热交换空间131辐射至所述光向调整装置的外部,以确保所述光向调整装置的内部与外部的气压平衡,从而,保证了所述光向调整装置的所述光源31所处的工作环境的温度不 致于过程,进而,有利于延长所述光向调整装置的使用寿命。Specifically, in the process of generating light by the light source 31 mounted on the mounting substrate 321, the light source 31 generates a large amount of heat at the same time, so that the temperature of the working environment described by the light source 31 rises rapidly. High, and further, causes the working environment described by the light source 31 to rapidly deteriorate. Since the heat dissipating member 32 is made of an aluminum material, a large amount of heat generated by the light source 31 is transmitted to the first heat sink 322 and each of the second heat sinks 323 through the mounting substrate 321 , thereby, the heat The first heat dissipation cavity 324 and the second heat dissipation cavity 325 are radiated to the outside of the light adjustment device by each of the heat exchange spaces 131 to ensure the light is directed to the inside and the outside of the adjustment device. The air pressure is balanced, thereby ensuring that the temperature of the working environment in which the light source 31 of the adjusting device is located is not The process, and in turn, facilitates extending the useful life of the light to the adjustment device.
所述调整单元40包括以第一驱动构件41以及一第二驱动构件42,其中所述第一驱动构件41与所述第二驱动构件42分别位于所述调整单元40的一端部,并且,所述第一驱动构件41与所述第二驱动构件42具有稳定的空间位置。换言之,当所述调整单元40做相对于所述壳体10与所述灯体单元10的运动时,所述第一驱动构件41与所述第二驱动构件42的运动同步。也就是说,所述第一驱动构件41与所述第二驱动构件42得以分别沿着所述第一驱动面15与所述第二驱动面25形成的轨道同步运动。The adjusting unit 40 includes a first driving member 41 and a second driving member 42 , wherein the first driving member 41 and the second driving member 42 are respectively located at one end of the adjusting unit 40, and The first drive member 41 and the second drive member 42 have a stable spatial position. In other words, when the adjustment unit 40 makes a movement relative to the housing 10 and the lamp body unit 10, the movement of the first drive member 41 and the second drive member 42 is synchronized. That is, the first driving member 41 and the second driving member 42 are synchronously moved along the track formed by the first driving surface 15 and the second driving surface 25, respectively.
具体地说,在所述光向调整装置处于装配状态时,所述第一驱动构件41与所述第一驱动面15相接触,并且,所述第一驱动构件41得以沿着所述第一驱动面15形成的轨道运动,优选地,所述第一驱动面15为下弧面;所述第二驱动构件42与所述第二驱动面25相接触,并且,所述第二驱动构件42得以沿着所述第二驱动面25形成的轨道运动,优选地,所述第二驱动面25为上弧面。Specifically, when the light direction adjusting device is in an assembled state, the first driving member 41 is in contact with the first driving surface 15, and the first driving member 41 is along the first The orbital motion formed by the driving surface 15, preferably, the first driving surface 15 is a lower curved surface; the second driving member 42 is in contact with the second driving surface 25, and the second driving member 42 The orbital movement formed along the second driving surface 25 is obtained, preferably the second driving surface 25 is an upper curved surface.
值得一提的是,所述灯体单元20所处的方向定义为下,所述壳体10所处的方向定位为上,可以理解的是,所述第一驱动面15形成的下弧面朝向所述灯体单元20,所述第二驱动面25形成的上弧面朝向所述壳体10。It should be noted that the direction in which the lamp body unit 20 is located is defined as the lower direction, and the direction in which the housing 10 is located is positioned upward. It can be understood that the lower surface of the first driving surface 15 is formed. The upper curved surface formed by the second driving surface 25 faces the housing 10 toward the lamp body unit 20.
所述安装基板321具有至少一第三安装孔3212以及至少一第二安装元件3213,所述第二驱动构件42具有至少一第四安装孔421,其中每所述第二安装元件3213得以藉由每所述第三安装孔3212与每所述第四安装孔421将所述散热构件32安装于所述第二驱动构件42,其中所述散热构件32与所述第二驱动构件32形成一第二接受腔422,所述光源31位于所述第二接受腔422。The mounting substrate 321 has at least one third mounting hole 3212 and at least one second mounting component 3213, and the second driving member 42 has at least one fourth mounting hole 421, wherein each of the second mounting components 3213 is The heat dissipation member 32 is mounted to the second driving member 42 in each of the third mounting holes 3212 and each of the fourth mounting holes 421, wherein the heat dissipation member 32 and the second driving member 32 form a first The receiving chamber 422 is located, and the light source 31 is located in the second receiving cavity 422.
进一步地,所述第二驱动构件42还具有一第二光线通道423,其中所述第二光线通道423与所述第二接受腔422相连通,以使得所述光源31产生的光线藉由所述第二光线通道423辐射至所述光向调整装置的外部。Further, the second driving member 42 further has a second light tunnel 423, wherein the second light tunnel 423 is in communication with the second receiving cavity 422, so that the light generated by the light source 31 is The second light tunnel 423 radiates to the outside of the light adjustment device.
所述安装基板321的一侧部垂直方向延伸形成一第一安装轴326以及一第二安装轴327,其中所述第二安装轴327的直径小于所述第一安装轴326的直径,所述第一驱动构件41具有以第一安装腔411以及以第二安装腔412,其中所述第二安装腔412的直径小于所述第一安装腔411的直径,其中所述第二安装轴327得以沿着所述第二安装腔412形成的轨道运动。One side of the mounting substrate 321 extends in a vertical direction to form a first mounting shaft 326 and a second mounting shaft 327, wherein the diameter of the second mounting shaft 327 is smaller than the diameter of the first mounting shaft 326, The first driving member 41 has a first mounting cavity 411 and a second mounting cavity 412, wherein the diameter of the second mounting cavity 412 is smaller than the diameter of the first mounting cavity 411, wherein the second mounting shaft 327 is Orbital motion formed along the second mounting cavity 412.
进一步地,所述调整单元40还包括一弹性元件43,所述弹性元件43的两端部分别朝向所述第一安装轴326与所述第一安装腔411,其中所述弹性元件43得以使得所述第一安装轴326具有返回预设状态的运动和位移。 Further, the adjusting unit 40 further includes an elastic member 43 having two ends of the elastic member 43 facing the first mounting shaft 326 and the first mounting cavity 411, respectively, wherein the elastic member 43 enables The first mounting shaft 326 has a motion and a displacement that return to a preset state.
具体地说,当所述第一驱动构件41与所述第二驱动构件42同时做分别相对于所述第一驱动面15与所述第二驱动面25的运动时,所述第二安装轴327得以沿着所述第二安装腔412形成的轨道运动,从而,使得所述第一驱动构件41与所述第二驱动构件42之间的距离被改变,并且,所述弹性元件43得以使得所述第一驱动构件41与所述第一驱动面15产生的摩擦力以及所述第二驱动构件42与所述第二驱动面25产生的摩擦力使得所述调整单元40固定于任何位置。Specifically, when the first driving member 41 and the second driving member 42 simultaneously move relative to the first driving surface 15 and the second driving surface 25, respectively, the second mounting shaft 327 is movable along a track formed by the second mounting cavity 412 such that a distance between the first driving member 41 and the second driving member 42 is changed, and the elastic member 43 is enabled The frictional force generated by the first driving member 41 and the first driving surface 15 and the frictional force generated by the second driving member 42 and the second driving surface 25 cause the adjustment unit 40 to be fixed at any position.
更具体地说,所述光向调整装置的所述光源31产生的光线照射的方向被改变的过程中,每部分构件之间的关系为:More specifically, in the process in which the direction of illumination of the light generated by the light source 31 of the adjusting device is changed, the relationship between each component is:
其中当所述光向调整装置被固定于某一具体位置时,所述调整单元40预设为与所述等体单元20以及所述壳体10处于垂直状态,此时,所述弹性元件43依靠所述第一安装轴326与所述第一安装腔411所产生的弹力保证所述调整单元40稳定地处于此位置。When the light adjustment device is fixed to a specific position, the adjustment unit 40 is preset to be in a vertical state with the body unit 20 and the housing 10, and at this time, the elastic member 43 The elastic force generated by the first mounting shaft 326 and the first mounting cavity 411 ensures that the adjusting unit 40 is stably in this position.
其中当对所述第二驱动构件42的一侧部施加朝向所述壳体10的外力时,所述第一驱动构件41与所述第二驱动构件42得以同步地分别沿着所述第一驱动面15与所述第二驱动面25形成的轨道运动,所述第二安装轴327得以沿着所述第二安装腔412形成的轨道运动。可以理解的是,该外力用于克服所述第一驱动构件41与所述第一驱动面15产生的摩擦力以及所述第二驱动构件42与所述第二驱动面25产生的摩擦力。从而,该过程实现了固定于所述调整单元40的所述光源31产生的光线照射的方向的改变。Wherein, when an external force toward the housing 10 is applied to one side of the second driving member 42, the first driving member 41 and the second driving member 42 are respectively synchronized along the first The orbital motion of the driving surface 15 and the second driving surface 25 allows the second mounting shaft 327 to move along the orbit formed by the second mounting cavity 412. It can be understood that the external force is used to overcome the frictional force generated by the first driving member 41 and the first driving surface 15 and the frictional force generated by the second driving member 42 and the second driving surface 25. Thereby, the process realizes a change in the direction in which the light generated by the light source 31 fixed to the adjustment unit 40 is irradiated.
值得一提的是,当撤消作用于所述第二驱动构件42的外力时,在所述弹性元件43的作用下,所述第一驱动构件41具有一朝向所述第一驱动面15的运动和位移,从而,使得所述第一驱动构件41与所述第一驱动面15之间产生摩擦力;相应地,所述第二驱动构件42具有一朝向所述第二驱动面25的运动和位移,从而,使得所述第二驱动构件42与所述第二驱动面15之间产生摩擦力,进而,上述每部分构件之间产生的摩擦力得以确保所述弹性元件40固定于被调整后的位置。换言之,当没有外力重新作用于所述第二驱动构件42时,所述光源31产生的光线照射的方向不再被改变,从而,最终使得所述光向调整装置满足用户的使用需求。It is worth mentioning that the first driving member 41 has a movement toward the first driving surface 15 under the action of the elastic member 43 when the external force acting on the second driving member 42 is cancelled. And displacement, thereby causing a frictional force between the first driving member 41 and the first driving surface 15; correspondingly, the second driving member 42 has a movement toward the second driving surface 25 and Displacement, thereby causing a frictional force between the second driving member 42 and the second driving surface 15, and further, the friction generated between each of the components ensures that the elastic member 40 is fixed after being adjusted s position. In other words, when no external force is applied to the second driving member 42, the direction in which the light generated by the light source 31 is irradiated is no longer changed, thereby finally making the light directing adjustment device satisfy the user's use requirement.
基于上述的描述,可以理解的是,当有外力重新作用于所述第二驱动构件42时,所述光源31产生的光线照射的方向得以随着所述调整单元40的角度的调整而实现多个角度的调整。Based on the above description, it can be understood that when an external force is applied to the second driving member 42 , the direction of the light illumination generated by the light source 31 is realized as the angle of the adjusting unit 40 is adjusted. Adjustment of the angle.
可以理解的是,由于所述调整单元40位于所述壳体10与所述等体单元20形成的所述第一接受腔14内,从而,所述调整单元40改变所述光源31产生的光线照射的方向的过程中,不需要占用除了所述光向调整装置以外的其他空间,从而,使得所述光向调整装 置得以在较为狭小的空间内使用。It can be understood that, since the adjusting unit 40 is located in the first receiving cavity 14 formed by the housing 10 and the equal body unit 20, the adjusting unit 40 changes the light generated by the light source 31. In the process of illuminating the direction, it is not necessary to occupy a space other than the light direction adjusting device, thereby causing the light to be adjusted The device can be used in a relatively small space.
优选地,所述发光单元30包括一反射元件33,所述反射元件33安装于所述安装基板321,其中所述反射元件33具有一第三光线通道331,以使得经由所述光源31产生的光线通过所述第三光线通道331射出。所述反射元件33的优势在于,当所述光源31产生光线时,该光线以所述光源31为基点向周边射出,所述反射元件33得以将朝向所述安装基板321方向射出的光线反射,以使得所述光源31产生的光线照射的方向具有良好的方向性,从而,有利于增强所述光向调整装置的照明效果。Preferably, the light emitting unit 30 includes a reflective element 33 mounted on the mounting substrate 321, wherein the reflective element 33 has a third light tunnel 331 to be generated via the light source 31. Light is emitted through the third light tunnel 331. The reflective element 33 is advantageous in that when the light source 31 generates light, the light is emitted toward the periphery from the light source 31, and the reflective element 33 reflects the light emitted toward the mounting substrate 321 . The direction in which the light generated by the light source 31 is irradiated has a good directivity, thereby facilitating enhancement of the illumination effect of the light to the adjustment device.
基于上述对本实用新型精神的揭露,其中所述发光单元30还包括一聚光元件34,所述聚光元件34包括一固定部341以及一聚光部342,所述固定部341与所述聚光部342一体地形成,所述第二驱动构件42具有一止退部424,其中所述固定部341固定于所述止退部424,所述光源31产生的光线经由所述聚光部342射出,从而,所述聚光元件34得以使得所述光源31产生的光线具有良好的一致性,进而,提高所述光源31产生的光线的利用率。Based on the above disclosure of the spirit of the present invention, the light-emitting unit 30 further includes a concentrating element 34, and the concentrating element 34 includes a fixing portion 341 and a concentrating portion 342, and the fixing portion 341 and the concentrating portion The light-emitting portion 342 is integrally formed, and the second driving member 42 has a retaining portion 424, wherein the fixing portion 341 is fixed to the stopping portion 424, and light generated by the light source 31 passes through the collecting portion 342. The light concentrating element 34 is caused to have a good uniformity of light generated by the light source 31, thereby improving the utilization of light generated by the light source 31.
值得一提的是,由于传统的射灯使用的是阵列光源,从而,导致传统的射灯产生的光线的一致性较差。相对于传统的射灯来说,本实用新型所揭露的聚光元件34优选为光学透镜,具体地说,当所述光源31产生的光线经由所述聚光元件34射出时,所述聚光元件34的所述聚光部342得以将该光线聚集,以增强该光线的一致性,从而,使得所述光向调整装置具有更佳的使用效果。It is worth mentioning that, because the conventional spotlights use an array light source, the consistency of the light generated by the conventional spotlights is poor. Compared with the conventional spotlight, the concentrating element 34 disclosed in the present invention is preferably an optical lens. Specifically, when the light generated by the light source 31 is emitted through the concentrating element 34, the concentrating light The concentrating portion 342 of the element 34 is capable of aggregating the light to enhance the uniformity of the light, thereby enabling the light to the adjustment device to have a better use effect.
还值得一提的是,所述光向调整装置可以被应用于每种每样的场所,比如户外、衣柜或者室内等,为了能够使得所述光向调整装置具有良好的稳定性,确保所述光向调整装置能够尽量少的受到水或者灰尘等侵袭,所述发光单元30还包括一第二密封元件35,所述第二密封元件35安装于所述止退部424,以用于确保所述聚光元件34与所述第二驱动构件42之间具有较好的封闭性。可以理解的是,所述第二密封元件35位于所述聚光元件34与所述第二驱动构件42之间,以密封所述聚光元件34与所述第二驱动构件42之间产生的缝隙,进而延长所述光向调整装置的使用寿命,并且所述光向调整装置的安全性也得到了有效地保证。It is also worth mentioning that the light direction adjusting device can be applied to every kind of place, such as outdoor, closet or indoor, etc., in order to enable the light to adjust the device to have good stability, ensure the The light direction adjusting device can be invaded by water or dust as little as possible, and the light emitting unit 30 further includes a second sealing member 35, and the second sealing member 35 is mounted on the retaining portion 424 for securing the The concentrating element 34 and the second driving member 42 have a good sealing property. It can be understood that the second sealing element 35 is located between the concentrating element 34 and the second driving member 42 to seal between the concentrating element 34 and the second driving member 42. The gap, in turn, extends the service life of the light to the adjustment device, and the safety of the light to the adjustment device is also effectively ensured.
还值得一提的是,所述发光单元30与所述调整单元40的位置关系保持稳定,以使得所述光源31产生的光线照射的方向得以所述调整单元40的角度的调整而改变。It is also worth mentioning that the positional relationship between the light-emitting unit 30 and the adjustment unit 40 is kept stable, so that the direction in which the light generated by the light source 31 is irradiated is changed by the adjustment of the angle of the adjustment unit 40.
根据本实用新型的这个优选实施例,所述第一定位元件21两侧部向所述壳体10方向分别延伸形成一固持部26;相应地,所述第一壳体11还具有对称设置的卡合腔112,所述卡合腔112连通于所述壳体10的所述第一接受腔14与所述壳体10的外部环境,并且 每所述卡合腔112与每所述固持部26毗邻设置。所述光向调整装置进一步包括两固持构件50,每所述固持部50的一端部安装于所述固持部26,其中当每所述固持构件50以每所述固持部26为轴转动时,每所述卡合腔112得以为每所述固持构件50提供旋转空间。也就是说,在每所述固持构件50以每所述固持部26为轴旋转的过程中,每所述固持构件50不会碰触到所述第一壳体11,从而,使得所述壳体10与所述灯体单元20之间具有稳定的位置关系。According to the preferred embodiment of the present invention, the two sides of the first positioning component 21 respectively extend toward the housing 10 to form a holding portion 26; correspondingly, the first housing 11 further has a symmetric arrangement. a clamping cavity 112, the engagement cavity 112 is in communication with the first receiving cavity 14 of the housing 10 and an external environment of the housing 10, and Each of the engaging cavities 112 is disposed adjacent to each of the retaining portions 26. The light direction adjusting device further includes two holding members 50, one end portion of each of the holding portions 50 is mounted to the holding portion 26, wherein when each of the holding members 50 is rotated about each of the holding portions 26, Each of the engagement cavities 112 provides a rotational space for each of the retaining members 50. That is, in the process in which each of the holding members 50 is rotated about the holding portion 26, each of the holding members 50 does not touch the first casing 11, thereby causing the casing The body 10 has a stable positional relationship with the lamp body unit 20.
值得一提的是,每所述固持构件50由弹性材料制成。It is worth mentioning that each of the holding members 50 is made of an elastic material.
还值得一提的是,当所述光向调整装置都处于非安装状态时,每所述固持构件50预设靠近所述壳体10的所述第一壳体11,其中当有外力作用于每所述固持构件50,以使得每所述固持构件50的自由端部远离所述第一壳体11时,每所述固持构件50具有返回预设位置的能力。It is also worth mentioning that when the light direction adjusting device is in a non-installed state, each of the holding members 50 is preset to be close to the first casing 11 of the casing 10, wherein when an external force acts on Each of the holding members 50 has the ability to return to a preset position each of the holding members 50 when the free end of each of the holding members 50 is away from the first housing 11.
所述灯体单元20还包括一限位部27,所述限位部27设置于所述第一定位元件21的外侧,可以理解的是,所述限位部27的直径大于所述第一定位单元21的直径。优选地,所述第一定位元件21、所述第二定位元件22以及所述限位部27一体地形成。The lamp body unit 20 further includes a limiting portion 27 disposed on the outer side of the first positioning member 21. It can be understood that the diameter of the limiting portion 27 is greater than the first portion. The diameter of the positioning unit 21. Preferably, the first positioning element 21, the second positioning element 22, and the limiting portion 27 are integrally formed.
值得一提的是,所述固持构件50与所述限位部27之间形成一夹持腔51,其中所述夹持腔51的尺寸得以随着所述固持构件50的自由端部与所述第一壳体11之间距离的调整而改变,以使得所述固持构件50与所述限位部27将所述光向调整装置固定于预设位。It is worth mentioning that a clamping cavity 51 is formed between the holding member 50 and the limiting portion 27, wherein the clamping cavity 51 is sized to follow the free end of the holding member 50. The adjustment of the distance between the first housings 11 is changed such that the holding member 50 and the limiting portion 27 fix the light adjustment device to a preset position.
如图3和图8所示,根据本实用新型的这个优选实施例,所述灯体单元20还包括一第一固定元件28以及一第二固定元件29,其中所述第一固定元件28安装于第二散热323,并且所述第一固定元件28与所述第二散热323之间形成一第一固定腔281。相应地,所述第一壳体11还具有一定位孔113,其中所述第二固定元件29安装于所述第一壳体11的所述定位孔113,并且所述第二固定元件29与所述第一壳体11的结构关系稳定,其中所述第二固定元件29还具有一第二固定腔291。输入导线得以分别通过所述第二固定腔291与所述第一固定腔281延伸至所述光向调整装置的内部,以为所述光源31提供电能。As shown in FIG. 3 and FIG. 8, according to this preferred embodiment of the present invention, the lamp body unit 20 further includes a first fixing member 28 and a second fixing member 29, wherein the first fixing member 28 is mounted. The second heat dissipation 323 is formed, and a first fixing cavity 281 is formed between the first fixing component 28 and the second heat dissipation 323. Correspondingly, the first housing 11 further has a positioning hole 113, wherein the second fixing member 29 is mounted to the positioning hole 113 of the first housing 11, and the second fixing member 29 is The structural relationship of the first housing 11 is stable, wherein the second fixing element 29 further has a second fixing cavity 291. The input wires are respectively extended to the inside of the light adjustment device through the second fixing cavity 291 and the first fixing cavity 281 to supply electric energy to the light source 31.
即是说,所述第一固定元件28与所述第二固定元件29用于固定延伸于所述光向调整装置内部的输电导线,以在不影响所述光向调整装置正常使用的前提下,防止忍受误操作所述调整单元40时,输出导线在所述光向调整装置的内部缠绕而损坏。That is to say, the first fixing element 28 and the second fixing element 29 are used for fixing a power transmission line extending inside the light guiding device, so as not to affect the normal use of the light to the adjusting device. When the adjustment unit 40 is prevented from being mishandled, the output wire is entangled in the light to the inside of the adjustment device and is damaged.
如图8至图10所示为根据本实用新型上述优选实施例的一变形实施方式的一实现形式。An embodiment of a variant embodiment of the preferred embodiment of the present invention is shown in FIGS. 8-10.
所述第二壳体12包括以第一连接体121以及以第二连接体122,其中所述第一连接体121的一端部一体地延伸至所述第二壳体12,所述第一连接体121的另一端部形成以 连接腔1211,其中所述连接腔1211具有一螺纹结构;所述第二连接体122的一端部形成所述第一驱动面15,所述第二连接体122的另一端部形成一第二连接元件1221,所述第二连接元件1221具有一螺纹结构,并且所述第二连接元件1221的螺纹结构于所述连接腔1211的螺纹结构相匹配,以将所述第二连接体122稳定地安装于所述第一连接体121。The second housing 12 includes a first connecting body 121 and a second connecting body 122, wherein one end of the first connecting body 121 integrally extends to the second housing 12, the first connection The other end of the body 121 is formed a connecting cavity 1211, wherein the connecting cavity 1211 has a threaded structure; one end of the second connecting body 122 forms the first driving surface 15, and the other end of the second connecting body 122 forms a second connection The second connecting member 1221 has a threaded structure, and the threaded structure of the second connecting member 1221 is matched to the threaded structure of the connecting cavity 1211 to stably mount the second connecting body 122. The first connecting body 121.
值得一提的是,由于所述第一连接体121与所述第二连接体122采用螺纹结构连接,从而,使得所述第一驱动面15到所述第二壳体12之间的距离可以依据需要被调整,从而,有利于提高所述光向调整装置的可靠性。It is worth mentioning that the first connecting body 121 and the second connecting body 122 are connected by a threaded structure, so that the distance between the first driving surface 15 and the second housing 12 can be It is adjusted as needed, thereby facilitating the improvement of the reliability of the light to the adjustment device.
如图11所示为根据本实用新型上述优选实施例的一变形实施方式的另一实现形式。Another implementation of a variant embodiment of the preferred embodiment of the present invention is shown in FIG.
所述第二壳体12包括一第一连接体121A以及一第二连接体122A,其中所述第一连接体121A的一端部一体地延伸至所述第二壳体12,所述第一连接体121A的另一端部形成一连接腔1211A;所述第二连接体122A的一端部形成所述第一驱动面15,所述第二连接体122A的另一端部形成以第二连接元件1221A,所述第二连接元件1221A得以安装于所述第一连接体121A的所述连接腔1211A内,以使得所述第二连接体122A安装于所述第一连接体121A。The second housing 12 includes a first connecting body 121A and a second connecting body 122A, wherein one end of the first connecting body 121A integrally extends to the second housing 12, the first connection The other end of the body 121A is formed with a connecting cavity 1211A; one end of the second connecting body 122A forms the first driving surface 15, and the other end of the second connecting body 122A is formed with a second connecting component 1221A, The second connecting member 1221A is mounted in the connecting cavity 1211A of the first connecting body 121A such that the second connecting body 122A is mounted to the first connecting body 121A.
如图12和图13所示,根据本实用新型精神的上述优选实施例的一种具体实施方式将得到详细的揭露和描述,其中所述光向调整装置可以应用于相对狭小的衣柜内,相对于传统的射灯来说,所述光向调整装置的优势也将在下述的描述中得到进一步的阐述和揭露。As shown in Figures 12 and 13, a specific embodiment of the above-described preferred embodiment in accordance with the spirit of the present invention will be disclosed and described in detail, wherein the light direction adjusting device can be applied to a relatively small closet, as opposed to In the case of conventional spotlights, the advantages of the light directing device will also be further illustrated and disclosed in the following description.
如图12所示,所述光向调整装置可以安装于一衣柜60的顶部、侧部或者后部,其中以所述光向调整装置安装于所述衣柜60的顶部为例进行详细的说明。As shown in FIG. 12, the light direction adjusting device may be attached to a top portion, a side portion, or a rear portion of a wardrobe 60, and a detailed description will be given by taking the light adjusting device attached to the top of the wardrobe 60 as an example.
所述衣柜60具有一顶板61,其中所述顶板61预设至少一预装位62,其中所述预装位62的直径大于所述第一定位元件21的直径,并且所述预装位62的直径小于所述限位部27的直径,从而,使得所述光向调整装置得以从所述顶板61的底部经由所述预装位62延伸至所述顶板61的上部,并且,所述限位部27得以阻止所述光向调整装置经由所述预装位62穿出。The wardrobe 60 has a top plate 61, wherein the top plate 61 presets at least one pre-installation position 62, wherein the pre-installation position 62 has a diameter larger than the diameter of the first positioning member 21, and the pre-installation position 62 The diameter is smaller than the diameter of the limiting portion 27, so that the light direction adjusting device can extend from the bottom of the top plate 61 via the pre-assembly 62 to the upper portion of the top plate 61, and the limit The seat portion 27 prevents the light from passing through the pre-assembly 62 to the adjustment device.
施加外力作用于每所述固持构件50,以使得每所述固持构件50的自由端部远离所述第一壳体11,从而,使得所述限位部27与每所述固持构件50之间形成所述夹持腔51,其中所述顶板61位于所述夹持腔51。当撤销作用于每所述固持构件50后,每所述固持构件50由于本身材料的特性,而具有返回预设位的趋势和运动,从而,所述限位部27与每所述固持构件50得以夹紧所述顶板61。换言之,所述限位部27与每所述固持构件50分别接触所述顶板61的底部和上部,从而,将所述光向调整装置安装于所述顶板61的所述预装位62。 An external force is applied to each of the holding members 50 such that the free end of each of the holding members 50 is away from the first housing 11 such that between the limiting portion 27 and each of the holding members 50 The clamping cavity 51 is formed, wherein the top plate 61 is located in the clamping cavity 51. After the revocation acts on each of the holding members 50, each of the holding members 50 has a tendency to return to a preset position due to the characteristics of its own material, and thus, the limiting portion 27 and each of the holding members 50 The top plate 61 is clamped. In other words, the stopper portion 27 and each of the holding members 50 are in contact with the bottom portion and the upper portion of the top plate 61, respectively, so that the light direction adjusting device is attached to the pre-mounting portion 62 of the top plate 61.
如图13所示,当所述光向调整装置安装于天花板时,由于有些天花板的上部会覆盖一层保温棉来保持房间内的温度,所以该层保温棉对于所述光向调整装置的散热效果十分的不利,为了解决这个问题,根据本实用新型的上述变形实施方式所揭露的结构,使得所述壳体10与所述灯体单元20之间形成的所述第一接受腔14的尺寸被调整到合适的尺寸,也就是说,增加所述光向调整装置周边可以被用来交换的空气,以提升所述光向调整装置在该环境下的散热效果。从而,确保所述光向调整装置在该种环境下能够被正常地使用。As shown in FIG. 13, when the light-direction adjusting device is mounted on the ceiling, since some upper portions of the ceiling are covered with a layer of thermal insulation cotton to maintain the temperature in the room, the heat-insulating cotton of the layer is cooled to the light-adjusting device. The effect is very disadvantageous. In order to solve this problem, according to the structure disclosed in the above modified embodiment of the present invention, the size of the first receiving cavity 14 formed between the housing 10 and the lamp body unit 20 is made. It is adjusted to a suitable size, that is, to increase the amount of air that the light can be exchanged to the periphery of the adjustment device to enhance the heat dissipation effect of the light toward the adjustment device in the environment. Thereby, it is ensured that the light directing adjustment device can be used normally in such an environment.
值得一提的是,上述中所揭露的所述光向调整装置的具体实施方式仅作为举例,来进一步阐述和揭露所述光向调整装置在安装或拆卸过程中的优势,因此,可以理解的是,上述的具体实施方式并不作为对本实用新型精神的限制。在具体使用所述光向调整装置的过程中,所述光向调整装置可以根据用户的不同需要来被选择安装的场所和达到不同的使用效果。It is worth mentioning that the specific embodiment of the light direction adjusting device disclosed in the above is only an example to further illustrate and disclose the advantages of the light direction adjusting device in the process of installation or disassembly, and therefore, it can be understood. It is to be understood that the specific embodiments described above are not intended to limit the scope of the invention. In the process of specifically using the light direction adjusting device, the light direction adjusting device can be selected to be installed according to different needs of the user and achieve different use effects.
相应地,基于本实用新型精神,本实用新型还将揭露通过所述光向调整装置来调整所述光源31产生的光线照射的方向的方法,其中所述光向调整装置包括所述光源31,用于安装所述发光源31的所述调整单元40,以及所述壳体10与所述灯体单元20,其包括如下步骤。Accordingly, the present invention further discloses a method for adjusting a direction of light irradiation generated by the light source 31 by the light direction adjusting device, wherein the light direction adjusting device includes the light source 31, according to the spirit of the present invention. The adjustment unit 40 for mounting the illumination source 31, and the housing 10 and the lamp body unit 20 include the following steps.
(a)藉由所述光源31产生光线。可以理解的是,当所述光源31被提供电能后,得以产生光线并以所述光源31为中心辐射。所述步骤(a)进一步包括如下步骤:(a) Light is generated by the light source 31. It can be understood that when the light source 31 is supplied with electric energy, light is generated and radiated around the light source 31. The step (a) further comprises the following steps:
(a.1)藉由所述反射元件33反射所述光源31产生的光线,以使得所述光源31产生的光线具有良好的方向性。(a.1) The light generated by the light source 31 is reflected by the reflective member 33 such that the light generated by the light source 31 has good directivity.
(a.2)提供所述聚光元件34以聚集经由所述聚光元件34的光线,从而,使得所述光源31产生的光线具有良好的一致性。(a.2) The concentrating element 34 is provided to collect light rays passing through the concentrating element 34, thereby making the light generated by the light source 31 have good uniformity.
(b)施加一外力作用于所述调整单元40,其中当所述调整单元40做相对于所述灯体单元20与所述壳体10的运动时,所述光源31产生的光线照射方向得以改变。所述步骤(b)还进一步包括步骤。(b) applying an external force to the adjustment unit 40, wherein when the adjustment unit 40 performs movement relative to the lamp body unit 20 and the housing 10, the light source 31 generates a light irradiation direction change. The step (b) further includes a step.
(b.1)所述壳体10包括所述第二壳体12,所述第二壳体12形成所述第一驱动面15。(b.1) The housing 10 includes the second housing 12, and the second housing 12 forms the first driving surface 15.
(b.2)所述灯体单元20包括所述第二定位元件22,所述第二定位元件22形成所述第二驱动面25。(b.2) The lamp body unit 20 includes the second positioning member 22, and the second positioning member 22 forms the second driving surface 25.
(b.3)所述调整单元40包括所述第一驱动构件41以及所述第二驱动构件42,其中所述第一驱动构件41与所述第二驱动构件42得以沿着所述第一驱动面15与所述第二驱动面25形成的轨道同步运动,从而,改变所述光源31产生的光线照射的方向。(b.3) The adjustment unit 40 includes the first drive member 41 and the second drive member 42, wherein the first drive member 41 and the second drive member 42 are along the first The driving surface 15 moves in synchronization with the track formed by the second driving surface 25, thereby changing the direction in which the light generated by the light source 31 is irradiated.
另一方面,本实用新型还提供一种光向调整装置的制造方法,其包括如下步骤。 In another aspect, the present invention also provides a method of manufacturing a light direction adjusting device, comprising the following steps.
(A)提供所述光源31产生光线。可以理解的是,所述光源31被提供电源后,得以产生光线并以所述光源31为中心辐射。(A) providing the light source 31 to generate light. It can be understood that after the light source 31 is supplied with power, light is generated and radiated around the light source 31.
(B)模具分别成型具有所述第一驱动面15的所述壳体10以及具有所述第二驱动面25的所述灯体单元20。(B) The mold separately forms the housing 10 having the first driving surface 15 and the lamp unit 20 having the second driving surface 25.
(C)形成所述调整单元40,所述调整单元40包括所述第一驱动构件41以及所述第二驱动构件42,所述第一驱动构件41与所述第二驱动构件42得以分别沿着所述第一驱动面15与所述第二驱动面25形成的轨道同步运动,从而,改变所述光源31产生的光线照射的方向。(C) forming the adjustment unit 40, the adjustment unit 40 including the first drive member 41 and the second drive member 42, the first drive member 41 and the second drive member 42 being respectively The track formed by the first driving surface 15 and the second driving surface 25 is synchronously moved, thereby changing the direction in which the light generated by the light source 31 is irradiated.
值得一提的是,所述光源31安装于所述调整单元40,从而,使得所述光源31与所述调整单元40具有相对稳定的位置,因此,可以理解的是,所述光源31产生的光线照射的方向得以随着所述调整单元40角度的调整而改变。进而,用户可以通过上述方式得以对所述光源31产生的光线照射的方向进行调整来满足自己的使用需要。It is worth mentioning that the light source 31 is mounted on the adjustment unit 40 such that the light source 31 and the adjustment unit 40 have a relatively stable position, and therefore, it can be understood that the light source 31 generates The direction in which the light is illuminated is changed as the angle of the adjustment unit 40 is adjusted. Further, the user can adjust the direction of the light generated by the light source 31 to meet his own use needs in the above manner.
优选地,所述步骤(C)还包括步骤:提供所述弹性元件43,所述弹性元件43的两端部分别朝向所述第一驱动构件41与所述第二驱动构件42,其中当所述第二驱动构件42朝向所述第一驱动构件41运动时,所述弹性元件得以使得所述第二驱动构件42具有返回预设状态的趋势。Preferably, the step (C) further includes the step of providing the elastic member 43 with the two ends of the elastic member 43 facing the first driving member 41 and the second driving member 42, respectively. When the second driving member 42 is moved toward the first driving member 41, the elastic member enables the second driving member 42 to have a tendency to return to a preset state.
基于上述所揭露的弹性元件43在所述光向调整装置中的作用,可以理解的是,所述调整单元40角度在改变的过程中,所述弹性元件43得以使得所述第一驱动构件41与所述第一驱动面15之间产生摩擦力以及所述第二驱动构件42与所述第二驱动面25之间产生摩擦力,以制得所述调整单元40固定于所述第一驱动面15与所述第二驱动面25形成的轨道内的任何位置。从而,用户可以方便地利用所述光向调整装置来实现对所述光源31产生的光线照射的方向的改变,进而,达到某一具体使用状态的目的。Based on the action of the elastic member 43 disclosed above in the light direction adjusting device, it can be understood that the elastic member 43 enables the first driving member 41 during the changing of the angle of the adjusting unit 40. A frictional force is generated between the first driving surface 15 and a frictional force between the second driving member 42 and the second driving surface 25 to obtain the adjustment unit 40 fixed to the first driving Any position within the track formed by the face 15 and the second drive face 25. Therefore, the user can conveniently use the light direction adjusting device to achieve a change in the direction of the light generated by the light source 31, thereby achieving a specific use state.
本领域的技术人员应理解,上述描述及附图中所示的本实用新型的实施例只作为举例,而并不限制本实用新型。本实用新型的目的已经完整并有效地实现。本实用新型的功能及结构原理已在实施例中展示和说明,在没有背离所述原理下,本实用新型的实施方式可以有任何变形或修改。 Those skilled in the art should understand that the embodiments of the present invention described in the above description and the accompanying drawings are by way of example only, and not limitation. The object of the invention has been achieved completely and efficiently. The function and structural principle of the present invention have been shown and described in the embodiments, and the embodiments of the present invention may be modified or modified without departing from the principles.

Claims (31)

  1. 一种光向调整装置,其特征在于,包括:A light direction adjusting device, comprising:
    一壳体;a housing
    一灯体单元;a lamp body unit;
    一发光单元,其中所述发光单元包括一光源;以及An illumination unit, wherein the illumination unit comprises a light source;
    一调整单元,其中所述光源安装于所述调整单元,所述调整单元包括一第一驱动构件以及一第二驱动构件,所述第一驱动构件与所述第二驱动构件分别设置于所述调整单元的一端部,其中所述第一驱动构件与所述第二驱动构件的运动同步,从而,改变所述光源产生的光线照射的方向。An adjusting unit, wherein the light source is mounted on the adjusting unit, the adjusting unit includes a first driving member and a second driving member, and the first driving member and the second driving member are respectively disposed on the Adjusting one end of the unit, wherein the first driving member is synchronized with the movement of the second driving member, thereby changing a direction in which the light generated by the light source is irradiated.
  2. 如权利要求1所述的一种光向调整装置,其特征在于,所述壳体包括一第一壳体、一第二壳体以及至少两散热元件,每所述散热元件的两端部分别延伸至所述第一壳体与所述第二壳体,并且每相邻所述散热元件之间形成一热交换空间。The light direction adjusting device according to claim 1, wherein the housing comprises a first housing, a second housing, and at least two heat dissipating components, wherein each end of the heat dissipating component is respectively Extending to the first housing and the second housing, and forming a heat exchange space between each adjacent heat dissipating component.
  3. 如权利要求1所述的一种光向调整装置,其特征在于,所述灯体单元包括一第一定位元件,其中所述壳体具有至少一第一安装孔,所述灯体单元具有至少一第二安装孔,所述灯体单元还包括至少一第一安装元件,当所述灯体单元装配于所述壳体时,所述第一定位元件围设于所述壳体,每所述第一安装元件得以经由每所述第二安装孔与每所述第一安装孔将所述灯体单元安装于所述壳体,其中所述壳体与所述灯体单元形成一第一接受腔,所述调整单元位于所述第一接受腔。A light direction adjusting device according to claim 1, wherein said lamp body unit comprises a first positioning member, wherein said housing has at least one first mounting hole, and said lamp body unit has at least one a second mounting hole, the lamp body unit further comprising at least one first mounting component, the first positioning component enclosing the housing when the lamp body unit is mounted on the housing The first mounting component is configured to mount the lamp body unit to the housing via each of the second mounting holes and each of the first mounting holes, wherein the housing and the lamp body unit form a first Receiving a cavity, the adjustment unit being located in the first receiving cavity.
  4. 如权利要求2所述的一种光向调整装置,其特征在于,所述灯体单元包括一第一定位元件,其中所述壳体具有至少一第一安装孔,所述灯体单元具有至少一第二安装孔,所述灯体单元还包括至少一第一安装元件,当所述灯体单元装配于所述壳体时,所述第一定位元件围设于所述壳体,每所述第一安装元件得以经由每所述第二安装孔与每所述第一安装孔将所述灯体单元安装于所述壳体,其中所述壳体与所述灯体单元形成一第一接受腔,所述调整单元位于所述第一接受腔。A light direction adjusting device according to claim 2, wherein said lamp body unit comprises a first positioning member, wherein said housing has at least one first mounting hole, and said lamp body unit has at least one a second mounting hole, the lamp body unit further comprising at least one first mounting component, the first positioning component enclosing the housing when the lamp body unit is mounted on the housing The first mounting component is configured to mount the lamp body unit to the housing via each of the second mounting holes and each of the first mounting holes, wherein the housing and the lamp body unit form a first Receiving a cavity, the adjustment unit being located in the first receiving cavity.
  5. 如权利要求4所述的一种光向调整装置,其特征在于,所述灯体单元包括一第二 定位元件,其中所述第一定位元件与所述第二定位元件形成一定位槽,当所述灯体单元装配于所述壳体时,所述第一壳体的一端部安装于所述定位槽。A light direction adjusting device according to claim 4, wherein said lamp body unit comprises a second a positioning member, wherein the first positioning member and the second positioning member form a positioning groove, and when the lamp body unit is mounted on the housing, one end portion of the first housing is mounted to the positioning groove.
  6. 如权利要求5所述的一种光向调整装置,其特征在于,所述第二壳体形成一第一驱动面,所述第一驱动面为下弧面,所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动构件与所述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。The light direction adjusting device according to claim 5, wherein the second housing forms a first driving surface, the first driving surface is a lower curved surface, and the second positioning component forms a a second driving surface, the second driving surface is an upper curved surface, and the first driving member and the second driving member are respectively synchronized along an orbit formed by the first driving surface and the second driving surface Movement, thereby changing the direction in which the light generated by the light source is illuminated.
  7. 如权利要求5所述的一种光向调整装置,其特征在于,所述第二壳体包括一第一连接体以及一第二连接体,其中所述第一连接体的一端部延伸至所述第二壳体,所述第一连接体的另一端部形成一连接腔;其中所述第二连接体的一端部形成一第一驱动面,所述第二连接体的另一端部形成一第二连接元件,其中所述第二连接元件得以安装于所述连接腔,其中所述第一驱动面为下弧面;The light direction adjusting device according to claim 5, wherein the second housing comprises a first connecting body and a second connecting body, wherein one end of the first connecting body extends to the a second housing, the other end of the first connecting body forms a connecting cavity; wherein one end of the second connecting body forms a first driving surface, and the other end of the second connecting body forms a a second connecting member, wherein the second connecting member is mounted to the connecting cavity, wherein the first driving surface is a lower curved surface;
    所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动面与所述第二驱动面得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。The second positioning element forms a second driving surface, the second driving surface is an upper curved surface, and the first driving surface and the second driving surface are respectively along the first driving surface and the The track formed by the second driving surface moves synchronously, thereby changing the direction in which the light generated by the light source is illuminated.
  8. 如权利要求7所述的一种光向调整装置,其特征在于,所述连接腔具有一螺纹结构,所述第二连接元件具有一螺纹结构,其中当所述第二连接元件安装于所述接受腔时,所述第二连接元件的螺纹结构得以适配于所述接受腔的螺纹结构,以用于固定所述第二连接体与所述第一连接体。A light direction adjusting device according to claim 7, wherein said connecting chamber has a threaded structure, and said second connecting member has a threaded structure, wherein said second connecting member is mounted to said When the cavity is received, the threaded structure of the second connecting element is adapted to the threaded structure of the receiving cavity for securing the second connecting body and the first connecting body.
  9. 如权利要求6或8所述的一种光向调整装置,其特征在于,所述发光单元包括一散热构件,其中所述散热构件包括一安装基板,所述安装基板具有一安装位,所述光源安装于所述安装位,从而,所述光源得以安装于所述安装基板。The light direction adjusting device according to claim 6 or 8, wherein the light emitting unit comprises a heat dissipating member, wherein the heat dissipating member comprises a mounting substrate, the mounting substrate has a mounting position, A light source is mounted to the mounting location such that the light source is mounted to the mounting substrate.
  10. 如权利要求9所述的一种光向调整装置,其特征在于,所述安装基板一侧部垂直方向延伸形成一第一散热以及至少两第二散热,每所述第二散热间隔地设置,其中每相邻所述第二散热之间形成一第一散热腔,所述第一散热与所述安装基板形成一第二散热腔,其中每所述第二散热的两相邻部分别延伸至所述第一散热与所述安装基板。 The light direction adjusting device according to claim 9, wherein a side of the mounting substrate extends in a vertical direction to form a first heat dissipation and at least two second heat dissipation, and each of the second heat dissipation spaces is disposed at intervals. Forming a first heat dissipation cavity between each adjacent the second heat dissipation, the first heat dissipation and the mounting substrate form a second heat dissipation cavity, wherein two adjacent portions of each of the second heat dissipation respectively extend to The first heat dissipation and the mounting substrate.
  11. 如权利要求10所述的一种光向调整装置,其特征在于,所述安装基板具有至少一第三安装孔以及至少一第二安装元件,所述第二驱动构件具有至少一第四安装孔,其中每所述第二安装元件得以经由每所述第三安装孔与每所述第四安装孔将所述第二驱动构件安装于所述安装基板,其中所述安装基板与所述第二安装基板形成一第二接受腔,所述光源位于所述第二接受腔。The light direction adjusting device according to claim 10, wherein the mounting substrate has at least one third mounting hole and at least one second mounting member, and the second driving member has at least one fourth mounting hole Wherein each of the second mounting elements is capable of mounting the second drive member to the mounting substrate via each of the third mounting holes and each of the fourth mounting holes, wherein the mounting substrate and the second The mounting substrate forms a second receiving cavity, and the light source is located in the second receiving cavity.
  12. 如权利要求11所述的一种光向调整装置,其特征在于,所述安装基板的一侧部垂直方向延伸形成一第一安装轴以及一第二安装轴,其中所述第二安装轴的直径小于所述第一安装轴的直径;所述第一驱动构件具有一第一安装腔以及一第二安装腔,其中所述第二安装腔的直径小于所述第一安装腔的直径,其中在所述第一驱动构件与所述第二驱动构件分别沿着所述第一驱动面与所述第二驱动面形成的轨道运动的过程中,所述第二安装轴得以沿着所述第二安装腔形成的轨道运动。The light direction adjusting device according to claim 11, wherein one side of the mounting substrate extends in a vertical direction to form a first mounting shaft and a second mounting shaft, wherein the second mounting shaft a diameter smaller than a diameter of the first mounting shaft; the first driving member has a first mounting cavity and a second mounting cavity, wherein the diameter of the second mounting cavity is smaller than a diameter of the first mounting cavity, wherein During the orbital movement of the first driving member and the second driving member along the first driving surface and the second driving surface, respectively, the second mounting shaft is along the The orbital motion formed by the mounting cavity.
  13. 如权利要求12所述的一种光向调整装置,其特征在于,所述调整单元还包括一弹性元件,其中所述弹性元件的两端部分别朝向所述第一安装轴与所述第一安装腔,其中所述弹性元件得以使得所述第一安装轴具有返回预设位置的运动和位移。A light direction adjusting device according to claim 12, wherein said adjusting unit further comprises an elastic member, wherein both ends of said elastic member face said first mounting shaft and said first A mounting cavity, wherein the resilient member is configured to cause movement and displacement of the first mounting shaft to return to a predetermined position.
  14. 如权利要求13所述的一种光向调整装置,其特征在于,所述发光单元还包括一反射元件,所述反射元件安装于所述安装基板,其中所述反射元件具有一第三光线通道,以使得经由所述光源产生的光线得以通过所述第三光线通道辐射至所述光向调整装置的外部。A light direction adjusting device according to claim 13, wherein said light emitting unit further comprises a reflective member, said reflective member being mounted on said mounting substrate, wherein said reflective member has a third light passage So that light generated via the light source is radiated to the outside of the adjustment device through the third light tunnel.
  15. 如权利要求14所述的一种光向调整装置,其特征在于,所述发光单元进一步包括一聚光元件,所述聚光元件包括一固定部以及一聚光部,所述固定部与所述聚光部一体地形成,所述第二驱动构件具有一止退部,其中所述固定部固定于所述止退部,所述光源产生的光线得以经由所述聚光部辐射至所述光向调整装置的外部。The light direction adjusting device according to claim 14, wherein the light emitting unit further comprises a light collecting element, the light collecting element comprises a fixing portion and a light collecting portion, and the fixing portion is The concentrating portion is integrally formed, and the second driving member has a retreating portion, wherein the fixing portion is fixed to the retreating portion, and light generated by the light source is radiated to the The light is directed to the outside of the adjustment device.
  16. 如权利要求15所述的一种光向调整装置,其特征在于,所述发光单元还包括一第二密封元件,所述第二密封元件安装于所述止退部。A light direction adjusting device according to claim 15, wherein said light emitting unit further comprises a second sealing member, and said second sealing member is mounted to said retaining portion.
  17. 如权利要求13所述的一种光向调整装置,其特征在于,所述第一定位元件两侧 部朝向所述壳体方向分别延伸形成一固持部,所述光向调整装置进一步包括两固持构件,每所述固持构件的一端部安装于每所述固持部,所述灯体单元还包括一限位部,所述限位部设置于所述第一定位元件的外侧,其中每所述固持构件与所述限位部之间形成一夹持腔。A light direction adjusting device according to claim 13, wherein both sides of said first positioning member a light retaining device further includes two retaining members, and one end of each of the retaining members is mounted on each of the retaining portions, and the lamp body unit further includes a retaining portion. a limiting portion, the limiting portion is disposed on an outer side of the first positioning component, wherein a clamping cavity is formed between each of the holding member and the limiting portion.
  18. 如权利要求16所述的一种光向调整装置,其特征在于,所述第一定位元件两侧部朝向所述壳体方向分别延伸形成一固持部,所述光向调整装置进一步包括两固持构件,每所述固持构件的一端部安装于每所述固持部,所述灯体单元还包括一限位部,所述限位部设置于所述第一定位元件的外侧,其中每所述固持构件与所述限位部之间形成一夹持腔。The light direction adjusting device according to claim 16, wherein the two sides of the first positioning element respectively extend toward the housing direction to form a holding portion, and the light direction adjusting device further comprises two holding portions. a member, each end of the holding member is mounted on each of the holding portions, the lamp body unit further includes a limiting portion, the limiting portion is disposed on an outer side of the first positioning member, wherein each of the A clamping cavity is formed between the holding member and the limiting portion.
  19. 如权利要求2所述的一种光向调整装置,其特征在于,所述第一壳体、所述第二壳体以及每所述散热元件一体地形成。A light direction adjusting device according to claim 2, wherein said first casing, said second casing, and each of said heat dissipating members are integrally formed.
  20. 如权利要求6或7所述的一种光向调整装置,其特征在于,所述第二驱动面还具有一定位通道以及一第一密封元件,其中所述第一密封元件位于所述定位通道,并且所述第一密封元件位于所述第二驱动面与所述调整单元之间。A light direction adjusting device according to claim 6 or 7, wherein the second driving surface further has a positioning passage and a first sealing member, wherein the first sealing member is located in the positioning passage And the first sealing element is located between the second driving surface and the adjusting unit.
  21. 如权利要求20所述的一种光向调整装置,其特征在于,所述第一密封元件为弹性材料制成。A light direction adjusting device according to claim 20, wherein said first sealing member is made of an elastic material.
  22. 如权利要求10所述的一种光向调整装置,其特征在于,所述灯体单元还包括一第一固定元件以及一第二固定元件,其中所述第一固定元件安装于所述第二散热,并且所述第一固定元件与所述第二散热之间形成一第一固定腔;所述第二固定元件安装于所述壳体,并且所述第二固定元件具有一第二固定腔,输电导线得以藉由所述第二固定腔与所述第一固定腔延伸至所述光向调整装置内部。The light direction adjusting device according to claim 10, wherein the lamp body unit further comprises a first fixing member and a second fixing member, wherein the first fixing member is mounted to the second Dissipating heat, and forming a first fixing cavity between the first fixing element and the second heat dissipation; the second fixing component is mounted on the housing, and the second fixing component has a second fixing cavity The power transmission wire can extend to the inside of the adjusting device by the second fixing cavity and the first fixing cavity.
  23. 一种光向调整装置,其特征在于,包括:A light direction adjusting device, comprising:
    一光源,以产生光线;a light source to generate light;
    一壳体,所述壳体形成一第一驱动面;a housing, the housing forming a first driving surface;
    一灯体单元,所述灯体单元形成一第二驱动面,其中所述壳体与所述灯体单元形成一第一接受腔;以及 a lamp body unit, the lamp body unit forming a second driving surface, wherein the housing and the lamp body unit form a first receiving cavity;
    一调整单元,所述光源安装于所述调整单元,所述调整单元位于所述第一接受腔,其中所述调整单元包括:An adjusting unit, the light source is mounted on the adjusting unit, the adjusting unit is located in the first receiving cavity, wherein the adjusting unit comprises:
    一第一驱动构件;以及a first drive member;
    一第二驱动构件,其中所述第一驱动构件与所述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动。a second driving member, wherein the first driving member and the second driving member are synchronously moved along a track formed by the first driving surface and the second driving surface, respectively.
  24. 如权利要求23所述的一种光向调整装置,其特征在于,所述调整单元还包括一弹性元件,所述弹性元件的两端部分别朝向所述第一驱动构件与所述第二驱动构件,其中当所述第二驱动构件朝向所述第一驱动构件运动时,所述弹性元件得以使得所述第二驱动构件具有返回预设状态的趋势。A light direction adjusting device according to claim 23, wherein said adjusting unit further comprises an elastic member, both ends of said elastic member facing said first driving member and said second driving, respectively a member, wherein the elastic member causes the second drive member to have a tendency to return to a preset state when the second drive member moves toward the first drive member.
  25. 如权利要求24所述的一种光向调整装置,其特征在于,所述壳体包括一第一壳体、一第二壳体以及至少两散热元件,每所述散热元件的两端部分别延伸至所述第一壳体与所述第二壳体,并且每相邻所述散热元件之间形成一热交换空间。The light direction adjusting device according to claim 24, wherein the housing comprises a first housing, a second housing, and at least two heat dissipating components, wherein each end of the heat dissipating component is respectively Extending to the first housing and the second housing, and forming a heat exchange space between each adjacent heat dissipating component.
  26. 如权利要求25所述的一种光向调整装置,其特征在于,所述灯体单元包括一第一定位元件以及一第二定位元件,其中所述第一定位元件与所述第二定位元件间隔地设置,以形成一定位槽,当所述灯体单元装配于所述壳体时,所述第一壳体的一端部位于所述定位槽。A light direction adjusting device according to claim 25, wherein said lamp body unit comprises a first positioning member and a second positioning member, wherein said first positioning member and said second positioning member The spacers are spaced apart to form a positioning slot, and one end of the first housing is located in the positioning slot when the lamp body unit is mounted on the housing.
  27. 如权利要求26所述的一种光向调整装置,其特征在于,所述第二壳体形成以第一驱动面,所述第一驱动面为下弧面,所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动构件与所述第二驱动构件得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。A light direction adjusting device according to claim 26, wherein said second housing is formed with a first driving surface, said first driving surface is a lower curved surface, and said second positioning member forms a a second driving surface, the second driving surface is an upper curved surface, and the first driving member and the second driving member are respectively synchronized along an orbit formed by the first driving surface and the second driving surface Movement, thereby changing the direction in which the light generated by the light source is illuminated.
  28. 如权利要求26所述的一种光向调整装置,其特征在于,所述第二壳体包括一第一连接体以及一第二连接体,其中所述第一连接体的一端部延伸至所述第二壳体,所述第一连接体的另一端部形成一连接腔;其中所述第二连接体的一端部形成一第一驱动面,所述第二连接体的另一端部形成一第二连接元件,其中所述第二连接元件得以安装于所述连接腔,其中所述第一驱动面为下弧面;The light direction adjusting device according to claim 26, wherein the second housing comprises a first connecting body and a second connecting body, wherein one end of the first connecting body extends to the a second housing, the other end of the first connecting body forms a connecting cavity; wherein one end of the second connecting body forms a first driving surface, and the other end of the second connecting body forms a a second connecting member, wherein the second connecting member is mounted to the connecting cavity, wherein the first driving surface is a lower curved surface;
    所述第二定位元件形成一第二驱动面,所述第二驱动面为上弧面,所述第一驱动面与 所述第二驱动面得以分别沿着所述第一驱动面与所述第二驱动面形成的轨道同步运动,从而,改变所述光源产生的光线照射的方向。The second positioning component forms a second driving surface, and the second driving surface is an upper curved surface, and the first driving surface is The second driving surface is synchronously moved along the track formed by the first driving surface and the second driving surface, respectively, thereby changing a direction in which the light generated by the light source is irradiated.
  29. 如权利要求28所述的一种光向调整装置,其特征在于,所述连接腔具有一螺纹结构,所述第二连接元件具有一螺纹结构,其中当所述第二连接元件安装于所述接受腔时,所述第二连接元件的螺纹结构得以适配于所述接受腔的螺纹结构,以用于固定所述第二连接体与所述第一连接体。A light direction adjusting device according to claim 28, wherein said connecting chamber has a threaded structure, and said second connecting member has a threaded structure, wherein said second connecting member is mounted to said When the cavity is received, the threaded structure of the second connecting element is adapted to the threaded structure of the receiving cavity for securing the second connecting body and the first connecting body.
  30. 如权利要求27、28或29所述的一种光向调整装置,其特征在于,所述第二驱动面还具有一定位通道以及一第一密封元件,其中所述第一密封元件位于所述定位通道,并且所述第一密封元件位于所述第二驱动面与所述调整单元之间。A light direction adjusting device according to claim 27, 28 or 29, wherein said second driving surface further has a positioning passage and a first sealing member, wherein said first sealing member is located at said Positioning the channel, and the first sealing element is located between the second driving surface and the adjustment unit.
  31. 如权利要求30所述的一种光向调整装置,其特征在于,所述第一密封元件为弹性材料制成。 A light direction adjusting device according to claim 30, wherein said first sealing member is made of an elastic material.
PCT/CN2015/070562 2014-01-24 2015-01-13 Light-direction adjustment device WO2015109959A1 (en)

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EP3104073B1 (en) 2019-06-05
DK3104073T3 (en) 2019-09-16

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