CN203893076U - Light direction adjusting device - Google Patents

Light direction adjusting device Download PDF

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Publication number
CN203893076U
CN203893076U CN201420159481.6U CN201420159481U CN203893076U CN 203893076 U CN203893076 U CN 203893076U CN 201420159481 U CN201420159481 U CN 201420159481U CN 203893076 U CN203893076 U CN 203893076U
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CN
China
Prior art keywords
drive
light
housing
adjusting
unit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201420159481.6U
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Chinese (zh)
Inventor
武良举
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
FOSHAN VERTEX LIGHTING ELECTRIC APPLIANCE CO., LTD.
Original Assignee
武良举
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Filing date
Publication date
Priority to CN201420058368 priority Critical
Priority to CN201420058368.9 priority
Application filed by 武良举 filed Critical 武良举
Priority to CN201420159481.6U priority patent/CN203893076U/en
Application granted granted Critical
Publication of CN203893076U publication Critical patent/CN203893076U/en
Active legal-status Critical Current
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Classifications

    • 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

The utility model relates to a light direction adjusting device which comprises a shell, a lamp body unit and a light-emitting unit, wherein the light-emitting unit comprises a light source and an adjusting unit; the light source is arranged on the adjusting unit; the adjusting unit comprises a first driving component and a second driving component which are respectively arranged at one end of the adjusting unit; the movement of the first driving component is synchronous with that of the second driving component, so that the irradiation direction of the light generated by the light source can be changed.

Description

Light is to adjusting device
Technical field
The application relates to a kind of light to adjusting device, be particularly related to a kind of light that comprises an adjustment unit to adjusting device, one light source is installed on described adjustment unit, so that the direction that the light that described light source produces irradiates is able to change along with the adjustment of described adjustment unit angle, thereby user can be thrown light on to adjusting device with described light easily.
Technical background
Shot-light, is a kind of typical modern school lighting apparatus without set pattern mould, utilizes the feature that it can free angle changing, limited shot-light can be combined according to certain rule, be used for create atmosphere, set off environment by contrast, therefore, the appearance of shot-light, brings great convenience to people's life.
Traditionally, shot-light comprises that one is used for fixing the pedestal of described shot-light, one supporting member and a lamp body, described pedestal is fixed in one end of described supporting member, described lamp body is installed on the other end of described supporting member movably, by described lamp body, do with respect to the rotatablely moving of described supporting member, realize the variation of the direction that light that described shot-light produces irradiates.
Based on above-mentioned disclosed traditional described shot-light, be understandable that, when described pedestal is installed in ceiling or similar position, described supporting member is to downward-extension, in other words, described supporting member takies certain space in the bottom of ceiling or similar position, and, when described lamp body is done with respect to the rotatablely moving of described supporting member, described lamp body must take other spaces except the space of described shot-light own.That is to say, when described lamp body is done with respect to the rotatablely moving of described supporting member, the state of the overall space of described shot-light outside in continuous variation, thereby, meet user's user demand.
Therefore, need a can be after installation and adjust the demand that the device that all takies less space in the process of light meets user.
Utility model content
Main advantage of the present utility model is to provide a kind of light to adjusting device and method, wherein said light comprises an adjustment unit to adjusting device, one light source is installed on described adjustment unit, so that the direction that the light that described light source produces irradiates is able to change along with the adjustment of described adjustment unit angle, thereby user can be thrown light on to adjusting device with described light easily.
Another advantage of the present utility model is to provide a kind of light to adjusting device, wherein said adjustment unit can carry out the adjustment of a plurality of angles, and, in the process of described adjustment unit angle adjustment, when the direction that the light producing when described light source irradiates can meet user's predetermined demand, described adjustment unit can be fixed on this position easily.
Another advantage of the present utility model is to provide a kind of light to adjusting device, the globoidal structure of described adjustment unit is able to coordinate preferably the globoidal structure of described lamp body unit and described housing in the process of the adjustment of described adjustment unit angle, thereby, the angle of described adjustment unit is adjusted easily.
Another advantage of the present utility model is to provide a kind of light to adjusting device, in the process of described adjustment unit angle adjustment, described adjustment unit is inner in described first receptive cavity of described lamp body unit and the formation of described housing all the time, in other words, process in described adjustment unit angle adjustment gathers, described adjustment unit does not need to take except described light is to the space adjusting device, therefore, makes described light be able to use in narrow space to adjusting device.
Another advantage of the present utility model is to provide a kind of light to adjusting device, wherein said striation adjusting device provides a plurality of potted components, while using when described light is subject to the environment of water or dust invasion and attack out of doors or easily to adjusting device in, every described potted component can guarantee that the residing environment of described light source is relatively stable.
Another advantage of the present utility model is to provide a kind of light to adjusting device, wherein said light provides a plurality of retaining elements to adjusting device, for fixing transmission pressure, and can not affect described light under the prerequisite of the normal use of adjusting device, while preventing described in staff maloperation adjustment unit, output lead is wound around and damages to adjusting device is inner at described light.
Another advantage of the present utility model is to provide a kind of light to adjusting device, and wherein said light is able to need and adjust according to different uses to the described housing of adjusting device, thereby, be conducive to improve described light to the radiating effect of adjusting device.
Another advantage of the present utility model is to provide a kind of light to adjusting device, wherein said light comprises a fixing member to adjusting device, user can utilize described fixing member to coordinate described limiting section that described light is installed on to predeterminated position to adjusting device easily, and described fixing member coordinates described limiting section can also make user that described light is disassembled from predeterminated position easily to adjusting device.
Another advantage of the present utility model is to provide a kind of light to adjusting device, wherein said luminescence unit comprises a collective optics, described collective optics is arranged at the direction of the light irradiation of described light source generation, the light producing with the described light source to via described collective optics produces the effect of optically focused, thereby the light that described light source is produced has good directionality.
Another advantage of the present utility model is to provide a kind of light to adjusting device, wherein said light is ingenious to every partial component design of adjusting device, rational in infrastructure, scientific arrangement, be conducive to improve described light to the durability of adjusting device, and described light also can access well and guarantee in use reliability and security of adjusting device.
Another advantage of the present utility model is to provide a kind of light to adjusting device, and wherein said light is simple to operate to adjusting device, can effectively meet the demand in market.
Another advantage of the present utility model is to provide a kind of light to adjusting device, wherein said light is to the framework of adjusting device complexity and accurate structure, raw material wide material sources, therefore, be conducive to control described light to the cost of manufacture of adjusting device, thereby described light has the good market space and prospect to adjusting device.
According to the utility model, can realize a kind of light of above-mentioned advantage and other advantages to adjusting device, it comprises:
One housing;
One lamp body unit;
One luminescence unit, wherein said luminescence unit comprises a light source; And
One adjustment unit, wherein said light source is installed on described adjustment unit, described adjustment unit comprises one first drive member and one second drive member, described the first drive member and described the second drive member are arranged at respectively an end of described adjustment unit, the synchronized movement of wherein said the first drive member and described the second drive member, thereby, change the direction that light that described light source produces irradiates.
According to the utility model one example, described housing comprises one first housing, one second housing and at least two heat dissipation elements, the both ends of every described heat dissipation element extend to respectively described the first housing and described the second housing, and form a heat exchange space between every adjacent described heat dissipation element.
According to the utility model one example, described lamp body unit comprises one first setting element, wherein said housing has at least one the first installing hole, described lamp body unit has at least one the second installing hole, described lamp body unit also comprises at least one the first installation elements, when described lamp body unit is assemblied in described housing, described the first setting element is located in described housing, every described the first installation elements is able to, via every described the second installing hole and every described the first installing hole, described lamp body unit is installed on to described housing, wherein said housing and described lamp body unit form one first receptive cavity, described adjustment unit is positioned at described the first receptive cavity.
According to the utility model one example, described lamp body unit comprises one first setting element, wherein said housing has at least one the first installing hole, described lamp body unit has at least one the second installing hole, described lamp body unit also comprises at least one the first installation elements, when described lamp body unit is assemblied in described housing, described the first setting element is located in described housing, every described the first installation elements is able to, via every described the second installing hole and every described the first installing hole, described lamp body unit is installed on to described housing, wherein said housing and described lamp body unit form one first receptive cavity, described adjustment unit is positioned at described the first receptive cavity.
According to the utility model one example, described lamp body unit comprises one second setting element, wherein said the first setting element and described the second setting element form a locating slot, and when described lamp body unit is assemblied in described housing, an end of described the first housing is installed on described locating slot.
According to the utility model one example, described the second housing forms one first drive surface, described the first drive surface is lower camber side, described the second setting element forms one second drive surface, described the second drive surface is upper cambered surface, the track that described the first drive member and described the second drive member are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
According to the utility model one example, described the second housing comprises one first connector and one second connector, and an end of wherein said the first connector extends to described the second housing, and the other end of described the first connector forms a connection chamber; One end of wherein said the second connector forms one first drive surface, and the other end of described the second connector forms one second Connection Element, and wherein said the second Connection Element is installed on described connection chamber, and wherein said the first drive surface is lower camber side; Described the second setting element forms one second drive surface, described the second drive surface is upper cambered surface, the track that described the first drive surface and described the second drive surface are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
According to the utility model one example, described connection chamber has a helicitic texture, described the second Connection Element has a helicitic texture, wherein when described the second Connection Element is installed on described receptive cavity, the helicitic texture of described the second Connection Element is adapted to the helicitic texture of described receptive cavity, for fixing described the second connector and described the first connector.
According to the utility model one example, described luminescence unit comprises a radiating component, and wherein said radiating component comprises an installation base plate, described installation base plate has an installation position, described light source is installed on described installation position, thereby described light source is installed on described installation base plate.
According to the utility model one example, described installation base plate one sidepiece vertical direction extends to form one first heat radiation and at least two second heat radiations, every described the second heat radiation compartment of terrain arranges, wherein between every adjacent described the second heat radiation, form one first heat radiation chamber, described the first heat radiation forms one second heat radiation chamber with described installation base plate, and wherein two adjacent parts of every described the second heat radiation do not extend to described the first heat radiation and described installation base plate.
According to the utility model one example, described installation base plate has at least one the 3rd installing hole and at least one the second installation elements, described the second drive member has at least one the 4th installing hole, wherein every described the second installation elements is able to, via every described the 3rd installing hole and every described the 4th installing hole, described the second drive member is installed on to described installation base plate, wherein said installation base plate and described the second installation base plate form one second receptive cavity, and described light source is positioned at described the second receptive cavity.
According to the utility model one example, a sidepiece vertical direction of described installation base plate extends to form one first installation shaft and one second installation shaft, and the diameter of wherein said the second installation shaft is less than the diameter of described the first installation shaft; Described the first drive member has one first installation cavity and one second installation cavity, the diameter of wherein said the second installation cavity is less than the diameter of described the first installation cavity, in the process of the orbital motion wherein forming along described the first drive surface and described the second drive surface respectively in described the first drive member and described the second drive member, described the second installation shaft is able to the orbital motion forming along described the second installation cavity.
According to the utility model one example, described adjustment unit also comprises a flexible member, the both ends of wherein said flexible member are respectively towards described the first installation shaft and described the first installation cavity, and wherein said flexible member obtains so that described the first installation shaft has motion and the displacement of returning to predeterminated position.
According to the utility model one example, described luminescence unit also comprises a reflecting element, described reflecting element is installed on described installation base plate, wherein said reflecting element has one the 3rd light channel, so that the light producing via described light source is able to be radiated to described light to the outside of adjusting device by described the 3rd light channel.
According to the utility model one example, described luminescence unit further comprises a collective optics, described collective optics comprises a fixed part and a light collecting part, described fixed part and described light collecting part form, described the second drive member has a stop portion, wherein said fixed part is fixed on described stop portion, and the light that described light source produces is able to be radiated to described light to the outside of adjusting device via described light collecting part.
According to the utility model one example, described luminescence unit also comprises one second potted component, and described the second potted component is installed on described stop portion.
According to the utility model one example, described the first setting element both sides extend to form respectively a holding parts towards described housing direction, described light further comprises two fixing members to adjusting device, one end of every described fixing member is installed on every described holding parts, described lamp body unit also comprises a limiting section, described limiting section is arranged at the outside of described the first setting element, wherein between every described fixing member and described limiting section, forms a clamping chamber.
According to the utility model one example, described the first housing, described the second housing and every described heat dissipation element form.
According to the utility model one example, described the second drive surface also has a placed channel and one first potted component, wherein said the first potted component is positioned at described placed channel, and described the first potted component is between described the second drive surface and described adjustment unit.
According to the utility model one example, described the first potted component is that elastomeric material is made.
According to the utility model one example, described lamp body unit also comprises one first retaining element and one second retaining element, wherein said the first retaining element is installed on described the second heat radiation, and forms one first lock chamber between described the first retaining element and described the second heat radiation; Described the second retaining element is installed on described housing, and described the second retaining element has one second lock chamber, and it is inner to adjusting device that transmission pressure is able to extend to described light by described the second lock chamber and described the first lock chamber.
The utility model has also disclosed a kind of light to adjusting device, and it comprises:
One light source, to produce light;
One housing, described housing forms one first drive surface;
One lamp body unit, described lamp body unit forms one second drive surface, and wherein said housing and described lamp body unit form one first receptive cavity; And
One adjustment unit, described light source is installed on described adjustment unit, and described adjustment unit is positioned at described the first receptive cavity, and wherein said adjustment unit comprises:
One first drive member; And
One second drive member, the track that wherein said the first drive member and described the second drive member are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement.
According to the utility model one example, described adjustment unit also comprises a flexible member, the both ends of described flexible member are respectively towards described the first drive member and described the second drive member, wherein, when described the second drive member is when described the first drive member is moved, described flexible member obtains so that described the second drive member has the trend of the preset state returned.
According to the utility model one example, described housing comprises one first housing, one second housing and at least two heat dissipation elements, the both ends of every described heat dissipation element extend to respectively described the first housing and described the second housing, and form a heat exchange space between every adjacent described heat dissipation element.
According to the utility model one example, described lamp body unit comprises one first setting element and one second setting element, wherein said the first setting element and described the second setting element compartment of terrain arrange, to form a locating slot, when described lamp body unit is assemblied in described housing, one end portion of described the first housing is positioned at described locating slot.
According to the utility model one example, described the second housing forms with the first drive surface, described the first drive surface is lower camber side, described the second setting element forms one second drive surface, described the second drive surface is upper cambered surface, the track that described the first drive member and described the second drive member are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
According to the utility model one example, described the second housing comprises one first connector and one second connector, and an end of wherein said the first connector extends to described the second housing, and the other end of described the first connector forms a connection chamber; One end of wherein said the second connector forms one first drive surface, and the other end of described the second connector forms one second Connection Element, and wherein said the second Connection Element is installed on described connection chamber, and wherein said the first drive surface is lower camber side; Described the second setting element forms one second drive surface, described the second drive surface is upper cambered surface, the track that described the first drive surface and described the second drive surface are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
According to the utility model one example, described connection chamber has a helicitic texture, described the second Connection Element has a helicitic texture, wherein when described the second Connection Element is installed on described receptive cavity, the helicitic texture of described the second Connection Element is adapted to the helicitic texture of described receptive cavity, for fixing described the second connector and described the first connector.
According to the utility model one example, described the second drive surface also has a placed channel and one first potted component, wherein said the first potted component is positioned at described placed channel, and described the first potted component is between described the second drive surface and described adjustment unit.
According to the utility model one example, described the first potted component is that elastomeric material is made.
In order to realize above-mentioned advantage and other advantages, the utility model also provides a kind of and to adjusting device, realizes light to the method for adjusting by a light, wherein said light comprises a light source to adjusting device, one for installing the adjustment unit of described light source, and lamp body unit and a housing, it comprises the steps:
(a) via described light source, produce light.
(b) apply External Force Acting in described adjustment unit, wherein, when described adjustment unit is done the motion with respect to described lamp body unit and described housing, the light direction of illumination that described light source produces is changed.
According to the utility model one example, described step (a) also comprises step:
(a.1) by a reflecting element, reflect the light that described light source produces, so that the light that described light source produces has good directionality.
(a.2) provide a collective optics to assemble the light via described collective optics, thereby the light that described light source is produced have good uniformity.
According to the utility model one example, described step (b) also comprises step:
(b.1) described housing comprises one second housing, and described the second housing forms one first drive surface.
(b.2) described lamp body unit comprises one second setting element, and described the second setting element forms one second drive surface.
(b.3) described adjustment unit comprises one first drive member and one second drive member, the track that wherein said the first drive member and described the second drive member are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
In order to achieve the above object and advantage, the utility model also provides the manufacture method of a kind of light to adjusting device, and it comprises the steps:
(A) via a light source, produce light.
(B) the mould lamp body unit that moulding has a housing of one first drive surface and has one second drive surface respectively.
(C) form an adjustment unit, described adjustment unit comprises one first drive member and one second drive member, the track that described the first drive member and described the second drive member are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
By the understanding of the description to subsequently and accompanying drawing, the further object of the utility model and advantage will be fully demonstrated.
These and other objects of the present utility model, characteristics and advantages, by following detailed description, accompanying drawing and claim are fully demonstrated.
Accompanying drawing explanation
Fig. 1 is according to the utility model, the schematic perspective view of a preferred embodiment.
Fig. 2 is according to the utility model, the assembling schematic diagram of above preferred embodiment.
Fig. 3 is according to the utility model, the housing schematic diagram of above preferred embodiment.
Fig. 4, Fig. 5, Fig. 6 and Fig. 7 are according to the utility model, the cross-sectional schematic of above preferred embodiment.
Fig. 8 is according to the utility model, the schematic diagram of a distortion embodiment of above preferred embodiment.
Fig. 9 is according to the utility model, the above-mentioned distortion embodiment schematic diagram of above preferred embodiment.
Figure 10 is according to the utility model, one first drive surface implementation cross-sectional schematic of above-mentioned distortion embodiment.
Figure 11 is according to the utility model, the one first drive surface implementation cross-sectional schematic again of above-mentioned distortion embodiment.
Figure 12 is according to the utility model, a specific embodiment schematic diagram of above preferred embodiment.
Figure 13 is according to the utility model, a specific embodiment schematic diagram again of above preferred embodiment.
The specific embodiment
Below describe and be used for disclosing the utility model so that those skilled in the art can realize the utility model.Disturbing in below describing selects embodiment only as an example, it may occur to persons skilled in the art that other apparent modification.The other technologies scheme that the basic principle of the present utility model defining in the following description can be incorporated in other embodiments, deformation program, improvement project, equivalent and not deviate from the utility model spirit and scope.
As shown in Figures 1 to 7, the utility model one preferred embodiment for example clear a kind of light is set forth spirit of the present utility model to adjusting device, wherein said light to adjusting device when adjusting the direction that light irradiates, do not need to take except described light is to the space adjusting device, therefore, described light light can be applied in narrow space to adjusting device.
According to the disclosed a kind of light of the utility model above preferred embodiment, to adjusting device, it comprises housing 10, one lamp body unit 20, one luminescence units 30 and adjustment units 40.
Described housing 10 comprises one first housing 11, one second housing 12 and at least two heat dissipation elements 13, wherein the both ends of every described heat dissipation element 13 extend to respectively described the first housing 11 and described the second housing 12, and, between every adjacent described heat dissipation element 13, form a heat exchange space 131, when the temperature of described housing 10 inside is during higher than the temperature of described housing 10 outsides, the gas of described housing 10 inside and the gas of described housing 10 outsides are able to exchange by described heat exchange space 131, thereby, guaranteed the inner and outside air pressure balance of described housing 10.
It is worth mentioning that, described the first housing 11, described the second housing 12 and every described heat dissipation element 13 form.
Described housing 10 further forms one first receptive cavity 14, to be provided for installing the space of described adjustment unit 40, wherein every described heat exchange space 131 is connected with described the first receptive cavity 14, so that the gas of the gas of described housing 10 inside and described housing 10 outsides is able to exchange by described heat exchange space 131.Be understandable that, when described light is to adjusting device during in confined state, described housing 10 is located in described adjustment unit 40 outsides, so that described adjustment unit 40 is played a protective role.
Specifically, described the first housing 11 is located in described adjustment unit 40 surroundings, described the second housing 12 is positioned at an end of described adjustment unit 40, wherein said the second housing 12 forms one first drive surface 15 towards a sidepiece of described the first receptive cavity 14, and the track that described adjustment unit 40 is able to form along described the first drive surface 15 is done moving with respect to described housing 10.
Described lamp body unit 20 comprises with the first setting element 21 and with the second setting element 22, and wherein said the first setting element 21 arranges to form a locating slot 23 with described the second setting element 22 compartment of terrains.Described lamp body unit 20 is assemblied in described housing 10, wherein said housing 10 has at least one the first installing hole 101, described lamp body unit 20 has at least one the second installing hole 201, wherein every described the first installing hole 101 is suitable with every described the second installing hole 201, described lamp body unit 20 further comprises with the first installation elements 24, when described lamp body unit 20 is assemblied in described housing 10, one end of described the first housing 11 is installed on described locating slot 23, described the first setting element 21 is positioned at the outside of described the first housing 11, described the second setting element 22 is positioned at the inner side of described the first housing 11, described the first installation elements 24 is fixing with described lamp body unit 20 by described housing 10 by described the first installing hole 101 and described the second installing hole 201.
Further, when described lamp body unit 20 is assemblied in described housing 10, described lamp body unit 20 forms described the first receptive cavity 14 with described housing 10, one of described adjustment unit 40 is positioned at described the first receptive cavity 14, wherein said the second setting element 22 forms with the second drive surface 25, and the track that described adjustment unit 40 is able to form along described the second drive surface 25 is done moving with respect to described body unit 20 such as grade.
Described the second drive surface 25 rings are established and are formed one first light channel 251, wherein said the first light channel 251 is connected with described the first receptive cavity 14, so that the light that described luminescence unit 30 produces is able to be radiated to described light to the outside of adjusting device by described the first light channel 251.
According to this preferred embodiment of the present utility model, as shown in Figure 5 and Figure 6, described the second drive surface 25 also has a placed channel 252 and one first potted component 253, wherein said the first potted component 253 is positioned at described placed channel 252, and described the first potted component 253 is between described the second drive surface 25 and described adjustment unit 40.When described light is applied in environment that humidity is larger to adjusting device, described the first potted component 253 is guaranteed that described light cannot enter described light to adjusting device inside to the steam of adjusting device outside, thereby described the first potted component 253 is guaranteed that described light has stable working environment to adjusting device.
It is worth mentioning that, described the first potted component 253 is made by elastomeric material, when orbital motion that described adjustment unit 40 forms along described the second drive surface 25, described the first potted component 253 is guaranteed there is not gap between described adjustment unit 40 and described the second drive surface 25 all the time.
Further, one end of described the first housing 11 also comprises one or more spaced snap-fit element 111, and every described snap-fit element 111 also has elasticity, when described the first housing 11 is arranged at the described locating slot 23 of described the first setting element 21 and described the second setting element 22 formation, every described snap-fit element 111 is able to towards described the first setting element 21, so that described the first housing 11 can be fixed in described locating slot 23.
Described luminescence unit 30 comprises with light source 31, described light source 31 is installed on described adjustment unit 40, thereby, the direction that the light that described light source 31 is produced irradiates is able to change along with the adjustment of described adjustment unit 40 angles, and then user can be thrown light on to adjusting device with described light easily.Be understandable that, the light that described light source 31 produces is able to be radiated to described light to the outside of adjusting device by described the first light channel 251.
It is worth mentioning that, described light source 31 is preferably LED light source, to reduce described light on the basis of adjusting device cost of manufacture, improve described light to the service life of adjusting device, and the light that described light source 31 produces can also make described light have good illuminating effect to adjusting device.
Described luminescence unit 30 also comprises a radiating component 32, wherein said radiating component 32 also comprises with installation base plate 321, described installation base plate 321 has an installation position 3211, wherein said light source 31 is installed on described installation position 3211, thereby, make described light source 31 be installed on described installation base plate 321, further to make described light source 31 there is stable position relationship with described installation base plate 321.
Further, described installation base plate 321 1 sidepiece vertical direction extend to form one first heat radiation 322 and at least two second heat radiations 323, wherein every described the second heat radiation 323 arranges spaced reciprocally, between every adjacent described the second heat radiation 323, forms one first heat radiation chamber 324.One sidepiece of every described the second heat radiation 323 extends to described the first heat radiation 322, and the other side of every described the second heat radiation 323 extends to described installation base plate 321, and described the first heat radiation 322 forms one second heat radiation chamber 325.
Be understandable that, when described light is to adjusting device during in confined state, described the first heat radiation chamber 324 and described the second heat radiation chamber 325 are able to be connected with described heat exchange space 131 by described the first receptive cavity 14.
It is worth mentioning that, described installation base plate 321, described the first heat radiation 322 and every described the second heat radiation 323 are made integratedly by aluminum, so that described radiating component 32 has good radiating effect, thereby, guarantee described light to adjusting device in the process of using, the temperature of the working environment described in described light source 31 is unlikely to too high, and then, be conducive to extend described light to the service life of adjusting device.
Specifically, at the described light source 31 that is installed on described installation base plate 321, produce in the process of light, described light source 31 can produce a large amount of heats simultaneously, to such an extent as to the temperature of working environment described in described light source 31 raises rapidly, and then, cause the working environment described in described light source 31 to worsen rapidly.Because described radiating component 32 aluminium materials are made, a large amount of heat that described light source 31 produces is transferred to described the first heat radiation 322 and every described the second heat radiation 323 by described installation base plate 321, thereby, this heat is able to by every described heat exchange space 131, be radiated to described light to the outside of adjusting device by described the first heat radiation chamber 324 and described the second heat radiation chamber 325, to guarantee that described light is to the inside of adjusting device and outside air pressure balance, thereby, guaranteed that described light is unlikely process to the temperature of the described light source 31 residing working environments of adjusting device, and then, be conducive to extend described light to the service life of adjusting device.
Described adjustment unit 40 comprises with the first drive member 41 and one second drive member 42, wherein said the first drive member 41 and described the second drive member 42 lay respectively at an end of described adjustment unit 40, and described the first drive member 41 has stable locus with described the second drive member 42.In other words, when described adjustment unit 40 is done the motion with respect to described housing 10 and described lamp body unit 10, the synchronized movement of described the first drive member 41 and described the second drive member 42.That is to say, described the first drive member 41 is able to along described the first drive surface 15 and the track that described the second drive surface 25 forms, be synchronized with the movement respectively with described the second drive member 42.
Specifically, at described light to adjusting device during in confined state, described the first drive member 41 contacts with described the first drive surface 15, and, described the first drive member 41 is able to the orbital motion forming along described the first drive surface 15, preferably, described the first drive surface 15 is lower camber side; Described the second drive member 42 contacts with described the second drive surface 25, and described the second drive member 42 is able to the orbital motion forming along described the second drive surface 25, and preferably, described the second drive surface 25 is upper cambered surface.
It is worth mentioning that, the residing direction of described lamp body unit 20 is defined as down, and the residing direction of described housing 10 is orientated as, is understandable that, the lower camber side that described the first drive surface 15 forms is towards described lamp body unit 20, and the upper cambered surface that described the second drive surface 25 forms is towards described housing 10.
Described installation base plate 321 has at least one the 3rd installing hole 3212 and at least one the second installation elements 3213, described the second drive member 42 has at least one the 4th installing hole 421, wherein every described the second installation elements 3213 is able to every described the 4th installing hole 421, described radiating component 32 is installed on to described the second drive member 42 by every described the 3rd installing hole 3212, wherein said radiating component 32 forms one second receptive cavity 422 with described the second drive member 32, and described light source 31 is positioned at described the second receptive cavity 422.
Further, described the second drive member 42 also has one second light channel 423, wherein said the second light channel 423 is connected with described the second receptive cavity 422, so that the light that described light source 31 produces is radiated to described light to the outside of adjusting device by described the second light channel 423.
One sidepiece vertical direction of described installation base plate 321 extends to form one first installation shaft 326 and one second installation shaft 327, the diameter of wherein said the second installation shaft 327 is less than the diameter of described the first installation shaft 326, described the first drive member 41 has with the first installation cavity 411 and with the second installation cavity 412, the diameter of wherein said the second installation cavity 412 is less than the diameter of described the first installation cavity 411, and wherein said the second installation shaft 327 is able to the orbital motion forming along described the second installation cavity 412.
Further, described adjustment unit 40 also comprises a flexible member 43, the both ends of described flexible member 43 are respectively towards described the first installation shaft 326 and described the first installation cavity 411, and wherein said flexible member 43 obtains so that described the first installation shaft 326 has motion and the displacement of the preset state returned.
Specifically, when described the first drive member 41 and described the second drive member 42 are done respectively the motion with respect to described the first drive surface 15 and described the second drive surface 25 simultaneously, described the second installation shaft 327 is able to the orbital motion forming along described the second installation cavity 412, thereby, distance between described the first drive member 41 and described the second drive member 42 is changed, and, described flexible member 43 obtains so that described the first drive member 41 makes described adjustment unit 40 be fixed on any position with frictional force and described the second drive member 42 that described the first drive surface 15 produces with the frictional force that described the second drive surface 25 produces.
More particularly, described light is in the reformed process of direction of the light irradiation of described light source 31 generations of adjusting device, and the pass between every partial component is:
Wherein when described light is fixed in a certain particular location to adjusting device, described adjustment unit 40 is preset as with described body unit 20 and the described housing 10 of waiting in plumbness, now, described flexible member 43 relies on described the first installation shaft 326 to guarantee that with the elastic force that described the first installation cavity 411 produces described adjustment unit 40 is stably in this position.
Wherein when a sidepiece of described the second drive member 42 is applied towards described housing 10 external force time, described the first drive member 41 is able to described the second drive member 42 orbital motion synchronously forming along described the first drive surface 15 and described the second drive surface 25 respectively, and described the second installation shaft 327 is able to the orbital motion forming along described the second installation cavity 412.Be understandable that, this external force is for overcoming described the first drive member 41 and the frictional force of described the first drive surface 15 generations and the frictional force of described the second drive member 42 and described the second drive surface 25 generations.Thereby, this process implementation be fixed on the change of the direction that light that the described light source 31 of described adjustment unit 40 produces irradiates.
It is worth mentioning that, when cancelling the external force that acts on described the second drive member 42, under the effect of described flexible member 43, described the first drive member 41 has a motion towards described the first drive surface 15 and displacement, thereby, make to produce frictional force between described the first drive member 41 and described the first drive surface 15; Correspondingly, described the second drive member 42 has a motion towards described the second drive surface 25 and displacement, thereby, make to produce frictional force between described the second drive member 42 and described the second drive surface 15, and then the frictional force producing between above-mentioned every partial component is guaranteed that described flexible member 40 is fixed on the position after being adjusted.In other words, when not having external force again to act on described the second drive member 42, the direction that the light that described light source 31 produces irradiates is no longer changed, thereby, finally make described light to adjusting device, meet user's user demand.
Description based on above-mentioned, is understandable that, when having external force again to act on described the second drive member 42, the direction that the light that described light source 31 produces irradiates is able to realize along with the adjustment of the angle of described adjustment unit 40 adjustment of a plurality of angles.
Be understandable that, because described adjustment unit 40 is positioned at described housing 10 and described described the first receptive cavity 14 that waits body unit 20 to form, thereby, in the process of the direction that the light that described adjustment unit 40 changes described light source 31 generations irradiates, do not need to take except described light is to other spaces adjusting device, thereby, make described light be able to comparatively in narrow space, using to adjusting device.
Preferably, described luminescence unit 30 comprises a reflecting element 33, described reflecting element 33 is installed on described installation base plate 321, and wherein said reflecting element 33 has one the 3rd light channel 331, so that the light producing via described light source 31 penetrates by described the 3rd light channel 331.The advantage of described reflecting element 33 is, when described light source 31 produces light, this light be take described light source 31 and to periphery, is penetrated as basic point, described reflecting element 33 is able to the light reflection penetrating towards described installation base plate 321 directions, so that the direction that the light that described light source 31 produces irradiates has good directionality, thereby, be conducive to strengthen described light to the illuminating effect of adjusting device.
Based on the above-mentioned exposure to the utility model spirit, wherein said luminescence unit 30 also comprises a collective optics 34, described collective optics 34 comprises a fixed part 341 and a light collecting part 342, described fixed part 341 forms with described light collecting part 342, described the second drive member 42 has a stop portion 424, wherein said fixed part 341 is fixed on described stop portion 424, the light that described light source 31 produces penetrates via described light collecting part 342, thereby, described collective optics 34 obtains so that the light that described light source 31 produces has good uniformity, and then, improve the utilization rate of the light of described light source 31 generations.
It is worth mentioning that, what use due to traditional shot-light is array light source, thereby, cause the uniformity of the light that traditional shot-light produces poor.With respect to traditional shot-light, the disclosed collective optics 34 of the utility model is preferably optical lens, specifically, when the light of described light source 31 generations penetrates via described collective optics 34, the described light collecting part 342 of described collective optics 34 is able to this light-ray condensing, to strengthen the uniformity of this light, thereby, make described light there is better result of use to adjusting device.
Also it is worth mentioning that, described light can be applied to the place of every kind of every sample to adjusting device, such as outdoor, wardrobe or indoor etc., in order to make described light there is good stability to adjusting device, guarantee described light to adjusting device can be as far as possible few be subject to the invasion and attack such as water or dust, described luminescence unit 30 also comprises one second potted component 35, described the second potted component 35 is installed on described stop portion 424, for guaranteeing, between described collective optics 34 and described the second drive member 42, has good closure.Be understandable that, described the second potted component 35 is between described collective optics 34 and described the second drive member 42, to seal the gap producing between described collective optics 34 and described the second drive member 42, and then extend described light to the service life of adjusting device, and described light has also obtained effectively guaranteeing to the security of adjusting device.
Also it is worth mentioning that, described luminescence unit 30 keeps stable with the position relationship of described adjustment unit 40 so that the direction that the light that described light source 31 produces irradiates be able to described adjustment unit 40 angle adjustment and change.
According to this preferred embodiment of the present utility model, described the first setting element 21 both sides extend to form respectively a holding parts 26 to described housing 10 directions; Correspondingly, described the first housing 11 also has symmetrically arranged engaging chamber 112, described engaging chamber 112 is communicated in the external environment condition of described the first receptive cavity 14 with the described housing 10 of described housing 10, and setting is adjoined with every described holding parts 26 in every described engaging chamber 112.Described light further comprises two fixing members 50 to adjusting device, one end of every described holding parts 50 is installed on described holding parts 26, wherein when every described fixing member 50, take every described holding parts 26 when axle rotates, every described engaging chamber 112 must think that every described fixing member 50 provides revolution space.That is to say, at every described fixing member 50, take every described holding parts 26 in the process of axle rotation, every described fixing member 50 can not touch described the first housing 11, thereby, make to there is stable position relationship between described housing 10 and described lamp body unit 20.
It is worth mentioning that, every described fixing member 50 is made by elastomeric material.
Also it is worth mentioning that, when described light is to adjusting device during all in non-installment state, default described the first housing 11 near described housing 10 of every described fixing member 50, wherein ought there is External Force Acting in every described fixing member 50, so that the free end of every described fixing member 50 is during away from described the first housing 11, every described fixing member 50 has the ability of returning to predeterminated position.
Described lamp body unit 20 also comprises a limiting section 27, and described limiting section 27 is arranged at the outside of described the first setting element 21, is understandable that, the diameter of described limiting section 27 is greater than the diameter of described the first positioning unit 21.Preferably, described the first setting element 21, described the second setting element 22 and described limiting section 27 form.
It is worth mentioning that, between described fixing member 50 and described limiting section 27, form a clamping chamber 51, the size in wherein said clamping chamber 51 is able to change along with the adjustment of distance between the free end of described fixing member 50 and described the first housing 11, so that described fixing member 50 is fixed on default position by described light to adjusting device with described limiting section 27.
As shown in Fig. 3 and Fig. 8, according to this preferred embodiment of the present utility model, described lamp body unit 20 also comprises the first retaining element 28 and one second retaining element 29, wherein said the first retaining element 28 is installed on the second heat radiation 323, and forms one first lock chamber 281 between described the first retaining element 28 and described the second heat radiation 323.Correspondingly, described the first housing 11 also has a locating hole 113, wherein said the second retaining element 29 is installed on the described locating hole 113 of described the first housing 11, and described the second retaining element 29 is stable with the structural relation of described the first housing 11, and wherein said the second retaining element 29 also has one second lock chamber 291.Input lead is able to by described the second lock chamber 291, extend to described light to the inside of adjusting device with described the first lock chamber 281 respectively, thinks that described light source 31 provides electric energy.
That is to say, described the first retaining element 28 and described the second retaining element 29 are for the securing elongated transmission pressure in described light to adjusting device inside, not affect described light under the prerequisite of the normal use of adjusting device, while preventing from standing described in maloperation adjustment unit 40, at described light, the inside to adjusting device is wound around and damages output lead.
If Fig. 8 is to Figure 10 shows that according to a way of realization of a distortion embodiment of the utility model above preferred embodiment.
Described the second housing 12 comprises with the first connector 121 and with the second connector 122, one end of wherein said the first connector 121 extends to described the second housing 12 integratedly, the other end of described the first connector 121 forms with connection chamber 1211, and wherein said connection chamber 1211 has a helicitic texture; One end of described the second connector 122 forms described the first drive surface 15, the other end of described the second connector 122 forms one second Connection Element 1221, described the second Connection Element 1221 has a helicitic texture, and the helicitic texture of described the second Connection Element 1221 matches in the helicitic texture of described connection chamber 1211, so that described the second connector 122 is stably installed on to described the first connector 121.
It is worth mentioning that, because described the first connector 121 adopts helicitic texture to be connected with described the second connector 122, thereby, described the first drive surface 15 can be adjusted according to needs to the distance between described the second housing 12, thereby, be conducive to improve described light to the reliability of adjusting device.
Be according to another way of realization of a distortion embodiment of the utility model above preferred embodiment as shown in figure 11.
Described the second housing 12 comprises one first connector 121A and one second connector 122A, and an end of wherein said the first connector 121A extends to described the second housing 12 integratedly, and the other end of described the first connector 121A forms a connection chamber 1211A; An end of described the second connector 122A forms described the first drive surface 15, the other end of described the second connector 122A forms with the second Connection Element 1221A, described the second Connection Element 1221A is installed in the described connection chamber 1211A of described the first connector 121A, so that described the second connector 122A is installed on described the first connector 121A.
As shown in Figure 12 and Figure 13, according to a kind of specific embodiment of the above preferred embodiment of the utility model spirit, detailed exposure and description will be obtained, wherein said light can be applied in relatively narrow and small wardrobe to adjusting device, with respect to traditional shot-light, described light also will further be set forth and be disclosed to the advantage of adjusting device in following description.
As shown in figure 12, described light can be installed on top, sidepiece or the rear portion of a wardrobe 60 to adjusting device, and the described light of wherein take is installed on top from described wardrobe 60 to adjusting device is described in detail as example.
Described wardrobe 60 has a top board 61, default at least one prepackage of wherein said top board 61 position 62, the diameter of wherein said prepackage position 62 is greater than the diameter of described the first setting element 21, and the diameter of described prepackage position 62 is less than the diameter of described limiting section 27, thereby, make described light be able to via described prepackage position 62, extend to the top of described top board 61 from the bottom of described top board 61 to adjusting device, and described limiting section 27 is stoped described light to pass via described prepackage position 62 to adjusting device.
Apply External Force Acting in every described fixing member 50, so that the free end of every described fixing member 50 is away from described the first housing 11, thereby, making to form described clamping chamber 51 between described limiting section 27 and every described fixing member 50, wherein said top board 61 is positioned at described clamping chamber 51.When cancelling, act on after every described fixing member 50, every described fixing member 50, due to properties of materials own, returns to and have trend and the motion of presetting position, thereby described limiting section 27 is clamped described top board 61 with every described fixing member 50.In other words, described limiting section 27 and every described fixing member 50 contact respectively bottom and the top of described top board 61, thereby, described light is installed on to the described prepackage position 62 of described top board 61 to adjusting device.
As shown in figure 13, when described light is installed on ceiling to adjusting device, because can covering one layer of heat preservation cotton, the top of some ceiling keeps the temperature in room, so this layer of heat-preservation cotton for described light to very unfavorable of the radiating effect of adjusting device, in order to address this problem, according to the disclosed structure of above-mentioned distortion embodiment of the present utility model, make the size of described first receptive cavity 14 of formation between described housing 10 and described lamp body unit 20 be adjusted to suitable size, that is to say, increase described light and can be used to the air of exchange to adjusting device periphery, with promote described light to adjusting device the radiating effect under this environment.Thereby, guarantee that described light can normally be used under this kind of environment to adjusting device.
It is worth mentioning that, in above-mentioned, disclosed described light to the specific embodiment of adjusting device only as an example, further set forth and disclose described light to adjusting device the advantage in installation or removal process, therefore, be understandable that, the above-mentioned specific embodiment is not as the restriction to the utility model spirit.Concrete, use described light in the process of adjusting device, described light can need to come to be selected the place of installing and reach different results of use according to user's difference to adjusting device.
Correspondingly, based on the utility model spirit, the utility model also will disclose the method for the direction of light irradiation from described light to adjusting device that adjust described light source 31 generations by, wherein said light comprises described light source 31 to adjusting device, for the described adjustment unit 40 of described light emitting source 31 is installed, and described housing 10 and described lamp body unit 20, it comprises the steps.
(a) by described light source 31, produce light.Be understandable that, when described light source 31 is provided after electric energy, produced light radiation centered by described light source 31.Described step (a) further comprises the steps:
(a.1) light producing by the described light source 31 of described reflecting element 33 reflection, so that the light that described light source 31 produces has good directionality.
(a.2) provide described collective optics 34 to assemble the light via described collective optics 34, thereby the light that described light source 31 is produced have good uniformity.
(b) apply an External Force Acting in described adjustment unit 40, wherein, when described adjustment unit 40 is done the motion with respect to described lamp body unit 20 and described housing 10, the light direction of illumination that described light source 31 produces is changed.Described step (b) also further comprises step.
(b.1) described housing 10 comprises described the second housing 12, and described the second housing 12 forms described the first drive surface 15.
(b.2) described lamp body unit 20 comprises described the second setting element 22, and described the second setting element 22 forms described the second drive surface 25.
(b.3) described adjustment unit 40 comprises described the first drive member 41 and described the second drive member 42, wherein said the first drive member 41 is able to be synchronized with the movement along described the first drive surface 15 and the track that described the second drive surface 25 forms with described the second drive member 42, thereby, change the direction that light that described light source 31 produces irradiates.
On the other hand, the utility model also provides the manufacture method of a kind of light to adjusting device, and it comprises the steps.
(A) provide described light source 31 to produce light.Be understandable that, described light source 31 is provided after power supply, is produced light radiation centered by described light source 31.
(B) the mould described lamp body unit 20 that forming device has the described housing 10 of described the first drive surface 15 and has described the second drive surface 25 respectively.
(C) form described adjustment unit 40, described adjustment unit 40 comprises described the first drive member 41 and described the second drive member 42, described the first drive member 41 is able to along described the first drive surface 15 and the track that described the second drive surface 25 forms, be synchronized with the movement respectively with described the second drive member 42, thereby, change the direction that light that described light source 31 produces irradiates.
It is worth mentioning that, described light source 31 is installed on described adjustment unit 40, thereby, make described light source 31 there is metastable position with described adjustment unit 40, therefore, be understandable that, the direction that the light that described light source 31 produces irradiates is able to change along with the adjustment of described adjustment unit 40 angles.And then the direction adjustment that the light that user can be able to that described light source 31 is produced by the way irradiates meets the use needs of oneself.
Preferably, described step (C) also comprises step: described flexible member 43 is provided, the both ends of described flexible member 43 are respectively towards described the first drive member 41 and described the second drive member 42, wherein, when described the second drive member 42 is when described the first drive member 41 is moved, described flexible member obtains so that described the second drive member 42 has the trend of the preset state returned.
Based on above-mentioned disclosed flexible member 43 at described light to the effect in adjusting device, be understandable that, described adjustment unit 40 angles are in the process changing, described flexible member 43 so that produce between described the first drive member 41 and described the first drive surface 15 between frictional force and described the second drive member 42 and described the second drive surface 25 and produce frictional force, to make described adjustment unit 40, be fixed on any position in the track of described the first drive surface 15 and described the second drive surface 25 formation.Thereby user can utilize described light to realize the change of the direction that light that described light source 31 is produced irradiates to adjusting device easily, and then, reach the object of a certain concrete use state.
One skilled in the art will understand that the embodiment of the present utility model shown in foregoing description and accompanying drawing only as an example, and do not limit the utility model.The purpose of this utility model is complete and realization effectively.Function of the present utility model and structural principle are shown in an embodiment and are illustrated, are not deviating under described principle, and embodiment of the present utility model can have any distortion or modification.

Claims (31)

1. light, to an adjusting device, is characterized in that, comprising:
One housing;
One lamp body unit;
One luminescence unit, wherein said luminescence unit comprises a light source; And
One adjustment unit, wherein said light source is installed on described adjustment unit, described adjustment unit comprises one first drive member and one second drive member, described the first drive member and described the second drive member are arranged at respectively an end of described adjustment unit, the synchronized movement of wherein said the first drive member and described the second drive member, thereby, change the direction that light that described light source produces irradiates.
2. a kind of light as claimed in claim 1 is to adjusting device, it is characterized in that, described housing comprises one first housing, one second housing and at least two heat dissipation elements, the both ends of every described heat dissipation element extend to respectively described the first housing and described the second housing, and form a heat exchange space between every adjacent described heat dissipation element.
3. a kind of light as claimed in claim 1 is to adjusting device, it is characterized in that, described lamp body unit comprises one first setting element, wherein said housing has at least one the first installing hole, described lamp body unit has at least one the second installing hole, described lamp body unit also comprises at least one the first installation elements, when described lamp body unit is assemblied in described housing, described the first setting element is located in described housing, every described the first installation elements is able to, via every described the second installing hole and every described the first installing hole, described lamp body unit is installed on to described housing, wherein said housing and described lamp body unit form one first receptive cavity, described adjustment unit is positioned at described the first receptive cavity.
4. a kind of light as claimed in claim 2 is to adjusting device, it is characterized in that, described lamp body unit comprises one first setting element, wherein said housing has at least one the first installing hole, described lamp body unit has at least one the second installing hole, described lamp body unit also comprises at least one the first installation elements, when described lamp body unit is assemblied in described housing, described the first setting element is located in described housing, every described the first installation elements is able to, via every described the second installing hole and every described the first installing hole, described lamp body unit is installed on to described housing, wherein said housing and described lamp body unit form one first receptive cavity, described adjustment unit is positioned at described the first receptive cavity.
5. a kind of light as claimed in claim 4 is to adjusting device, it is characterized in that, described lamp body unit comprises one second setting element, wherein said the first setting element and described the second setting element form a locating slot, when described lamp body unit is assemblied in described housing, an end of described the first housing is installed on described locating slot.
6. a kind of light as claimed in claim 5 is to adjusting device, it is characterized in that, described the second housing forms one first drive surface, described the first drive surface is lower camber side, described the second setting element forms one second drive surface, and described the second drive surface is upper cambered surface, and described the first drive member and described the second drive member are able to be respectively synchronized with the movement along the track of described the first drive surface and described the second drive surface formation, thereby, change the direction that light that described light source produces irradiates.
7. a kind of light as claimed in claim 5 is to adjusting device, it is characterized in that, described the second housing comprises one first connector and one second connector, and an end of wherein said the first connector extends to described the second housing, and the other end of described the first connector forms a connection chamber; One end of wherein said the second connector forms one first drive surface, and the other end of described the second connector forms one second Connection Element, and wherein said the second Connection Element is installed on described connection chamber, and wherein said the first drive surface is lower camber side;
Described the second setting element forms one second drive surface, described the second drive surface is upper cambered surface, the track that described the first drive surface and described the second drive surface are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
8. a kind of light as claimed in claim 7 is to adjusting device, it is characterized in that, described connection chamber has a helicitic texture, described the second Connection Element has a helicitic texture, wherein when described the second Connection Element is installed on described receptive cavity, the helicitic texture of described the second Connection Element is adapted to the helicitic texture of described receptive cavity, for fixing described the second connector and described the first connector.
9. a kind of light as described in claim 6 or 8 is to adjusting device, it is characterized in that, described luminescence unit comprises a radiating component, wherein said radiating component comprises an installation base plate, described installation base plate has an installation position, described light source is installed on described installation position, thereby described light source is installed on described installation base plate.
10. a kind of light as claimed in claim 9 is to adjusting device, it is characterized in that, described installation base plate one sidepiece vertical direction extends to form one first heat radiation and at least two second heat radiations, every described the second heat radiation compartment of terrain arranges, wherein between every adjacent described the second heat radiation, form one first heat radiation chamber, described the first heat radiation forms one second heat radiation chamber with described installation base plate, and wherein two adjacent parts of every described the second heat radiation do not extend to described the first heat radiation and described installation base plate.
11. a kind of light as claimed in claim 10 are to adjusting device, it is characterized in that, described installation base plate has at least one the 3rd installing hole and at least one the second installation elements, described the second drive member has at least one the 4th installing hole, wherein every described the second installation elements is able to, via every described the 3rd installing hole and every described the 4th installing hole, described the second drive member is installed on to described installation base plate, wherein said installation base plate and described the second installation base plate form one second receptive cavity, and described light source is positioned at described the second receptive cavity.
12. a kind of light as claimed in claim 11 are to adjusting device, it is characterized in that, one sidepiece vertical direction of described installation base plate extends to form one first installation shaft and one second installation shaft, and the diameter of wherein said the second installation shaft is less than the diameter of described the first installation shaft; Described the first drive member has one first installation cavity and one second installation cavity, the diameter of wherein said the second installation cavity is less than the diameter of described the first installation cavity, in the process of the orbital motion wherein forming along described the first drive surface and described the second drive surface respectively in described the first drive member and described the second drive member, described the second installation shaft is able to the orbital motion forming along described the second installation cavity.
13. a kind of light as claimed in claim 12 are to adjusting device, it is characterized in that, described adjustment unit also comprises a flexible member, the both ends of wherein said flexible member are respectively towards described the first installation shaft and described the first installation cavity, and wherein said flexible member obtains so that described the first installation shaft has motion and the displacement of returning to predeterminated position.
14. a kind of light as claimed in claim 13 are to adjusting device, it is characterized in that, described luminescence unit also comprises a reflecting element, described reflecting element is installed on described installation base plate, wherein said reflecting element has one the 3rd light channel, so that the light producing via described light source is able to be radiated to described light to the outside of adjusting device by described the 3rd light channel.
15. a kind of light as claimed in claim 14 are to adjusting device, it is characterized in that, described luminescence unit further comprises a collective optics, described collective optics comprises a fixed part and a light collecting part, described fixed part and described light collecting part form, described the second drive member has a stop portion, and wherein said fixed part is fixed on described stop portion, and the light that described light source produces is able to be radiated to described light to the outside of adjusting device via described light collecting part.
16. a kind of light as claimed in claim 15, to adjusting device, is characterized in that, described luminescence unit also comprises one second potted component, and described the second potted component is installed on described stop portion.
17. a kind of light as claimed in claim 13 are to adjusting device, it is characterized in that, described the first setting element both sides extend to form respectively a holding parts towards described housing direction, described light further comprises two fixing members to adjusting device, one end of every described fixing member is installed on every described holding parts, described lamp body unit also comprises a limiting section, described limiting section is arranged at the outside of described the first setting element, wherein between every described fixing member and described limiting section, forms a clamping chamber.
18. a kind of light as claimed in claim 16 are to adjusting device, it is characterized in that, described the first setting element both sides extend to form respectively a holding parts towards described housing direction, described light further comprises two fixing members to adjusting device, one end of every described fixing member is installed on every described holding parts, described lamp body unit also comprises a limiting section, described limiting section is arranged at the outside of described the first setting element, wherein between every described fixing member and described limiting section, forms a clamping chamber.
19. a kind of light as claimed in claim 2, to adjusting device, is characterized in that, described the first housing, described the second housing and every described heat dissipation element form.
20. a kind of light as described in claim 6 or 7 are to adjusting device, it is characterized in that, described the second drive surface also has a placed channel and one first potted component, wherein said the first potted component is positioned at described placed channel, and described the first potted component is between described the second drive surface and described adjustment unit.
21. a kind of light as claimed in claim 20, to adjusting device, is characterized in that, described the first potted component is that elastomeric material is made.
22. a kind of light as claimed in claim 10 are to adjusting device, it is characterized in that, described lamp body unit also comprises one first retaining element and one second retaining element, wherein said the first retaining element is installed on described the second heat radiation, and forms one first lock chamber between described the first retaining element and described the second heat radiation; Described the second retaining element is installed on described housing, and described the second retaining element has one second lock chamber, and it is inner to adjusting device that transmission pressure is able to extend to described light by described the second lock chamber and described the first lock chamber.
23. 1 kinds of light to adjusting device, is characterized in that, comprising:
One light source, to produce light;
One housing, described housing forms one first drive surface;
One lamp body unit, described lamp body unit forms one second drive surface, and wherein said housing and described lamp body unit form one first receptive cavity; And
One adjustment unit, described light source is installed on described adjustment unit, and described adjustment unit is positioned at described the first receptive cavity, and wherein said adjustment unit comprises:
One first drive member; And
One second drive member, the track that wherein said the first drive member and described the second drive member are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement.
24. a kind of light as claimed in claim 23 are to adjusting device, it is characterized in that, described adjustment unit also comprises a flexible member, the both ends of described flexible member are respectively towards described the first drive member and described the second drive member, wherein, when described the second drive member is when described the first drive member is moved, described flexible member obtains so that described the second drive member has the trend of the preset state returned.
25. a kind of light as claimed in claim 24 are to adjusting device, it is characterized in that, described housing comprises one first housing, one second housing and at least two heat dissipation elements, the both ends of every described heat dissipation element extend to respectively described the first housing and described the second housing, and form a heat exchange space between every adjacent described heat dissipation element.
26. a kind of light as claimed in claim 25 are to adjusting device, it is characterized in that, described lamp body unit comprises one first setting element and one second setting element, wherein said the first setting element and described the second setting element compartment of terrain arrange, to form a locating slot, when described lamp body unit is assemblied in described housing, one end portion of described the first housing is positioned at described locating slot.
27. a kind of light as claimed in claim 26 are to adjusting device, it is characterized in that, described the second housing forms with the first drive surface, described the first drive surface is lower camber side, described the second setting element forms one second drive surface, and described the second drive surface is upper cambered surface, and described the first drive member and described the second drive member are able to be respectively synchronized with the movement along the track of described the first drive surface and described the second drive surface formation, thereby, change the direction that light that described light source produces irradiates.
28. a kind of light as claimed in claim 26 are to adjusting device, it is characterized in that, described the second housing comprises one first connector and one second connector, and an end of wherein said the first connector extends to described the second housing, and the other end of described the first connector forms a connection chamber; One end of wherein said the second connector forms one first drive surface, and the other end of described the second connector forms one second Connection Element, and wherein said the second Connection Element is installed on described connection chamber, and wherein said the first drive surface is lower camber side;
Described the second setting element forms one second drive surface, described the second drive surface is upper cambered surface, the track that described the first drive surface and described the second drive surface are able to respectively to form along described the first drive surface and described the second drive surface is synchronized with the movement, thereby, change the direction that light that described light source produces irradiates.
29. a kind of light as claimed in claim 28 are to adjusting device, it is characterized in that, described connection chamber has a helicitic texture, described the second Connection Element has a helicitic texture, wherein when described the second Connection Element is installed on described receptive cavity, the helicitic texture of described the second Connection Element is adapted to the helicitic texture of described receptive cavity, for fixing described the second connector and described the first connector.
30. a kind of light as described in claim 27,28 or 29 are to adjusting device, it is characterized in that, described the second drive surface also has a placed channel and one first potted component, wherein said the first potted component is positioned at described placed channel, and described the first potted component is between described the second drive surface and described adjustment unit.
31. a kind of light as claimed in claim 30, to adjusting device, is characterized in that, described the first potted component is that elastomeric material is made.
CN201420159481.6U 2014-01-24 2014-03-28 Light direction adjusting device Active CN203893076U (en)

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CN201420058368.9 2014-01-24
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CN201420159481.6U CN203893076U (en) 2014-01-24 2014-03-28 Light direction adjusting device
DK15740656.2T DK3104073T3 (en) 2014-01-24 2015-01-13 Lysretningsjusteringsindretning
PCT/CN2015/070562 WO2015109959A1 (en) 2014-01-24 2015-01-13 Light-direction adjustment device
EP15740656.2A EP3104073B1 (en) 2014-01-24 2015-01-13 Light-direction adjustment device

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EP3104073B1 (en) 2019-06-05
DK3104073T3 (en) 2019-09-16
EP3104073A4 (en) 2017-10-04
WO2015109959A1 (en) 2015-07-30
EP3104073A1 (en) 2016-12-14

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Owner name: FOSHAN WEIDESHI LIGHTING ELECTRIC CO., LTD.

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Effective date: 20150825

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Address after: 528051, No. 15, Xinyuan Road, Jili Industrial Park, Chancheng hi tech Industrial Development Zone, Guangdong, Foshan, China

Patentee after: FOSHAN VERTEX LIGHTING ELECTRIC APPLIANCE CO., LTD.

Address before: 528051 Guangdong Province, Foshan city Chancheng District Nanzhuang Jili Industrial Park Xinyuan Road No. 15

Patentee before: Wu Liangju