CN217302598U - Lamp set - Google Patents

Abstract

The lamp comprises a photoelectric module and a surface ring, wherein a pair of rotating shafts is arranged on the outer surface of the photoelectric module; the face ring includes annular panel, and sets up annular panel one side, with the coaxial sleeve of annular panel, be provided with first pivot connecting portion and first joint portion on the sleeve, the photovoltaic module or directly with the rotation of face ring is connected, or connects through a connecting piece the face ring, just the photovoltaic module with the rotation of connecting piece is connected. After the design is adopted, the lamp is divided into three standard modules, namely a photoelectric module, a connector and a face ring. Wherein the photoelectric module is manually arranged in the surface ring to form a common spotlight. Otherwise, the adapter and the surface ring are disassembled, the photoelectric module is installed in the adapter, and the photoelectric module can be switched into the deep-embedded spotlight. The scheme can realize the quick replacement of two types of products, can improve the production efficiency and reduce the cost.

Description

Lamp set

Technical Field

The utility model relates to a lamp.

Background

The deep-embedded spotlight is generally applied to high-end commercial occasions such as hotels, exhibition halls and cinemas, and in order to meet the requirements of light control performance, anti-dazzle performance and visual comfort, a secondary reflector is added on the basis of the existing primary optical parts (such as lenses/reflectors) of the lamp to meet the optical effect. Meanwhile, in order to meet different irradiation angles, a rotating frame is added on the basis that the photoelectric assembly can swing the angle modulation in a single plane, the rotating frame is fixed with the secondary reflector, the secondary cup is manually rotated to drive the rotating frame to rotate for 360 degrees so as to drive the photoelectric assembly to modulate the angle in a three-dimensional range, and the angle modulation range is changed from two-dimensional to three-dimensional.

The common spot light is generally applied to occasions with less strict requirements on light control, such as houses, offices, conference rooms and the like, and only needs a single plane angle modulation, namely, a primary optical element.

The deep-embedded spotlight is similar to a common spotlight in photoelectric module structure, but parts of the two products in the current market cannot be compatible, and main components cannot be used as standard modules to realize switching between the lamps, so that the cost is reduced, the development and manufacturing time is shortened, the production efficiency is improved, and meanwhile, management cost and operation cost are increased for a distributor or a lamp shop.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problem, provide a neotype lamps and lanterns, form standard module deeply inlaying between shot-light and ordinary shot-light for two kinds of products can be replaced fast, thereby reduce cost improves production efficiency.

The utility model discloses a realize above-mentioned function, the technical scheme who adopts provides a lamps and lanterns, including photovoltaic module and face ring, photovoltaic module includes the shell and sets up at its inside light emitting component, its characterized in that: the outer surface of the photoelectric module is provided with a pair of rotating shafts; the surface ring comprises an annular panel and a sleeve which is arranged on one side of the annular panel and is coaxial with the annular panel, a first rotating shaft connecting part and a first clamping part are arranged on the sleeve,

the photoelectric module is connected with the face ring in a rotating way through the matching of the rotating shaft and the first rotating shaft connecting part, or

The photoelectric module passes through the pivot is connected through a switching piece the face ring, be provided with second pivot connecting portion and second joint portion on the switching piece, the photoelectric module passes through the pivot with the cooperation of second pivot connecting portion realize with the rotation of switching piece is connected, the switching piece passes through second joint portion with the connection of first joint portion realize with the connection of face ring.

Preferably, the first and second rotation shaft connection parts have the same structure.

Preferably, first pivot connecting portion second pivot connecting portion are groove structure, including holding end and open end, the holding end include with pivot complex circular arc contact surface, the holding end is close to the annular panel sets up, the open end intercommunication first pivot connecting portion the second pivot is connected inside and is close to the exterior space of photovoltaic module one side, the pivot by the open end gets into the holding end.

Preferably, a limiting part is arranged between the open ends, the limiting part is a protrusion located on the side wall of the groove, and the minimum width formed by the protrusion is smaller than the diameter of the rotating shaft.

Preferably, an open slot is formed in the rotating shaft, and the extending direction of the open slot is consistent with the direction of the rotating shaft entering the groove.

Preferably, the adaptor comprises a face ring connecting end, the face ring connecting end is cylindrical and can extend into the sleeve, and the face ring connecting end and the sleeve are coaxially arranged and can rotate relatively around the common axis of the face ring connecting end and the sleeve.

Preferably, the second joint portion sets up face ring link is the protruding edge of outside protrusion round, first joint portion is including setting up the inboard bearing surface of sleeve and setting are in the jack catch of bearing surface top, during the connection the protruding edge quilt the bearing surface with the jack catch centre gripping.

Preferably, the number of the clamping jaws is two or more, and the clamping jaws are uniformly distributed on the inner side of the sleeve along the circumferential direction.

Preferably, the adaptor further comprises a light distribution portion.

Preferably, the light fixture is a spot light.

The lamp scheme provided by the application completely realizes modularization, and the lamp is mainly divided into three standard modules, namely a photoelectric module, a connector and a face ring. Wherein the photoelectric module is arranged in the surface ring by hands to become a common spotlight. Otherwise, the adapter and the surface ring are disassembled, the photoelectric module is installed in the adapter, and the photoelectric module can be switched into the deep-embedded spotlight. The scheme can realize the quick replacement of two types of products, can improve the production efficiency and reduce the cost.

Drawings

Fig. 1 is an exploded view of a preferred embodiment of the present invention;

fig. 2 is a cross-sectional view of a preferred embodiment of the present invention;

FIG. 3 is a cross-sectional view of the preferred embodiment of the present invention without the adapter;

FIG. 4 is a schematic view of the face ring according to the preferred embodiment of the present invention;

fig. 5 is a schematic structural diagram of an adaptor according to a preferred embodiment of the present invention.

Detailed Description

The lighting device of the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

In a preferred embodiment of the present application, as shown in fig. 1, the lighting device in this embodiment is a spot lamp, which mainly includes three parts, an optoelectronic module 1, a surface ring 2 and an adaptor 3. The photovoltaic module 1 includes a housing and a light emitting element (not shown) provided inside the housing. The light emitting element is a LED in this embodiment, which may refer to a packaged LED, an unpackaged LED, a surface mount LED, a chip on board LED, an LED comprising a certain type of optical element. In addition to the light emitting elements, other electronic elements such as power drivers, control elements, etc. may be disposed within the housing. Optical elements such as lenses and reflectors which are not used for light distribution can be further arranged in the optoelectronic module 1 according to the requirement, and the application is not limited to this.

The optoelectronic module 1 is connected with the face ring 2 through the adaptor 3, the specific structure is shown in fig. 1 and fig. 2, the structure of the face ring 2 is shown in fig. 4, and the structure of the adaptor 3 is shown in fig. 5. The outer surface of the optoelectronic module 1 is provided with a pair of rotating shafts 101, the adaptor 3 is provided with a second rotating shaft connecting part 302 matched with the rotating shaft 101, and the rotating shaft 101 and the second rotating shaft connecting part 302 form a rotating connection. The adaptor 3 is further provided with a second clamping portion 301 connected with the face ring 2. The face ring 2 includes an annular face plate 203, and a sleeve 204 provided on one side of the annular face plate 203, the sleeve 204 and the annular face plate 203 being coaxially provided. Be provided with first joint portion 201 on the sleeve 204, second joint portion 301 on the adaptor 3 and first joint portion 201 on the face ring 2 are detained each other during the installation, realize both interconnect.

The second shaft connecting portion 302 is a groove structure, and includes an accommodating end 3021 and an opening end 3022, wherein the accommodating end 3021 is disposed near the face ring 2, and the opening end 3022 communicates the inside of the second shaft connecting portion 302 and the external space facing one side of the optical electrical module 1. When the device is installed, the rotating shaft 101 enters the accommodating end 3021 from the opening end 3022. The accommodating end 3021 comprises a circular arc contact surface 3023, and the rotating shaft 101 enters the accommodating end 3021 and then is matched with the circular arc contact surface 3023 to form a rotating connection.

After the rotation shaft 101 is installed, in order to prevent the rotation shaft from being removed from the second rotation shaft connecting portion 302, a limiting portion 3024 is disposed between the receiving end 3021 and the open end 3022 of the second rotation shaft connecting portion 302. In this embodiment, the limiting parts 3024 are a pair of protrusions located at opposite positions of two sidewalls of the second rotating shaft connecting part 302, and the minimum width formed by the protrusions is smaller than the diameter of the rotating shaft 101. In other preferred embodiments, a protrusion-forming limiting portion 3024 may be disposed on only one side wall of the second rotating shaft connecting portion 302, and the minimum width formed by the protrusion-forming limiting portion is smaller than the diameter of the rotating shaft 101. The limiting portion 3024 can prevent the rotating shaft 101 entering the accommodating end 3021 from moving toward the opening end 3022, so as to prevent the rotating shaft 101 from being pulled out. Since the width of the groove at the position of the limiting portion 3024 is smaller than the diameter of the rotating shaft 101, in order to allow the rotating shaft 101 to easily enter the accommodating end 3021, the rotating shaft 101 is provided with an open slot 102, and the extending direction of the open slot 102 is the same as the direction in which the rotating shaft 101 enters the second rotating shaft connecting portion 302. Thus, when the rotating shaft 101 is inserted into the second rotating shaft connecting portion 302, the rotating shaft can be deformed to a certain extent toward the middle, so as to smoothly enter the accommodating end 3021.

The side of the adaptor 3 close to the face ring is a face ring connecting end 303, the face ring connecting end 303 is a cylindrical sleeve 204 which can extend into the face ring 2, and the face ring connecting end 302 and the sleeve 204 are coaxially arranged. The second clamping portion 301 is disposed on the face ring connecting end 202, in this embodiment, the second clamping portion 301 is a protruding edge extending outward around the face ring connecting end 202, and the first clamping portion 201 is disposed inside the sleeve 204 in the face ring 2, and includes a bearing surface 2012 and a claw 2011 located above the bearing surface 2012. When connected, the flange is axially retained by the bearing surface 2012 and the jaw 2011 while the two rotate circumferentially relative to one another about their common axis. The number of the claws 2011 is two or more, and each claw 2011 is uniformly arranged in the circumferential direction inside the sleeve.

When this embodiment lamps and lanterns were installed, face ring 2 was down put into from last to adaptor 3, realized the buckle through first joint portion 201 and second joint portion 301 and connect. The photoelectric module 1 is put into the adaptor 3 from top to bottom, the rotating shaft 101 reaches the position of the limiting part 3024 in the second rotating shaft connecting part 302 and is pressed with force, the rotating shaft 101 is buckled into the containing end 3021 to be installed to form a deep embedding spot lamp, the swinging angle adjustment between the photoelectric module 1 and the adaptor 3 can be realized through the rotating shaft 101, the photoelectric module 1 and the adaptor 3 are fixed together, 360-degree rotation can be carried out manually to drive the photoelectric module 1 to adjust the angle in a three-dimensional range, the angle adjustment range can be changed from two-dimensional to three-dimensional, and therefore different irradiation angle requirements are met.

The deep-embedded spotlight is generally applied to high-end commercial occasions such as hotels, exhibition halls and cinemas, and in order to meet the requirements of light control performance, anti-dazzle performance and visual comfort, a secondary reflector is generally required to be added on the basis that the photoelectric module 1 is provided with primary optical parts (such as lenses/reflectors). In this embodiment, the adapter 3, in addition to being a rotating frame, is also a secondary optical element. Specifically, the adaptor 3 further includes a light distribution portion 304, and the light distribution portion 304 is an inner wall of a section of the adaptor 3 between the light source module 1 and the annular panel 203 of the face ring 2, and the inner wall forms a reflection surface to realize a secondary light distribution function. The inner wall surface can be polished, electroplated and the like to achieve better reflection effect.

Besides the above assembling manner, the reflector lamp in this embodiment may further have the adaptor 3 removed, and the optoelectronic module 1 is directly connected to the surface ring 2 to form a common reflector lamp, as shown in fig. 3. The sleeve 204 of the face ring 2 is further provided with a first pivot connection 202 for connection to the optoelectronic module 1. The first shaft coupling portion 202 and the second shaft coupling portion 302 are identical in structure and are rotatably coupled to the shaft 101.

As shown in fig. 4, the first shaft connecting portion 202 is a groove structure and includes an accommodating end 2021 and an open end 2022, wherein the accommodating end 2021 is disposed near the annular panel 203, and the open end 2022 communicates the interior of the first shaft connecting portion 202 and the exterior space of the side facing the optoelectronic module 1. When the device is installed, the rotating shaft 101 enters the accommodating end 2021 from the opening end 2022. The accommodating end 2021 includes an arc contact surface 2023, and the rotating shaft 101 enters the accommodating end 2021 and then cooperates with the arc contact surface 3023 to form a rotating connection. A limiting part 3024 is also arranged between the accommodating end 3021 and the opening end 3022, the limiting part 2024 is a pair of protrusions located at opposite positions of two side walls of the first rotating shaft connecting part 202, and the minimum width formed by the protrusions is smaller than the diameter of the rotating shaft 101.

When the optoelectronic module 1 is installed, the face ring 2 is placed from top to bottom, the rotating shaft 101 reaches the position of the limiting portion 2024 on the first rotating shaft connecting portion 202 and is pressed by force, and the rotating shaft 101 is buckled into the accommodating end 2021. The common spot lamp is generally applied to occasions with less strict requirements on light control, such as houses, offices, meeting rooms and the like, the rotating shaft 101 is matched with the first rotating shaft connecting part 202, the light source module can swing along the horizontal direction, and the requirements can be met by realizing angle adjustment to a certain degree.

All adopt the buckle to connect between three essential element optoelectronic module 1 in this embodiment, face ring 2, the adaptor 3, bare-handed dismantled and assembled, load onto adaptor 3 and become deeply to inlay the shot-light, become ordinary shot-light again after tearing open. The lamp can be conveniently switched between two lamps, so that the cost is reduced, the development and manufacturing time is shortened, the production efficiency is improved, and the management cost and the operation cost of a dealer or a lamp shop are reduced.

The foregoing description of the preferred embodiments of the present application has been presented for purposes of illustration and description and is not intended to be exhaustive or to limit the application to the precise forms disclosed, and it will be apparent that numerous modifications and variations may be made thereto, which may be apparent to those skilled in the art, and are intended to be included within the scope of the application as defined by the appended claims.

Claims (10)

1. The utility model provides a lamp, includes photovoltaic module and face ring, photovoltaic module includes the shell and sets up at its inside light emitting component, its characterized in that: the outer surface of the photoelectric module is provided with a pair of rotating shafts; the surface ring comprises an annular panel and a sleeve which is arranged on one side of the annular panel and is coaxial with the annular panel, the sleeve is provided with a first rotating shaft connecting part and a first clamping part,

the photoelectric module is connected with the face ring in a rotating way through the matching of the rotating shaft and the first rotating shaft connecting part, or

The photoelectric module passes through the pivot is connected through a switching piece the face ring, be provided with second pivot connecting portion and second joint portion on the switching piece, the photoelectric module passes through the pivot with the cooperation of second pivot connecting portion realize with the rotation of switching piece is connected, the switching piece passes through second joint portion with the connection of first joint portion realize with the connection of face ring.

2. The luminaire of claim 1, wherein: the first rotating shaft connecting part and the second rotating shaft connecting part are identical in structure.

3. The luminaire of claim 2, wherein: first pivot connecting portion second pivot connecting portion are groove structure, including holding end and open end, the holding end include with pivot complex circular arc contact surface, the holding end is close to the ring panel sets up, the open end intercommunication first pivot connecting portion the second pivot is connected inside and is close to the exterior space of photovoltaic module one side, the pivot by the open end gets into the holding end.

4. The luminaire of claim 3, wherein: the position is provided with spacing portion between the open end, spacing portion is for being located the arch of recess lateral wall, the minimum width that the arch formed is less than the diameter of pivot.

5. The luminaire of claim 4, wherein: an open slot is formed in the rotating shaft, and the extending direction of the open slot is consistent with the direction of the rotating shaft entering the groove.

6. The luminaire of claim 2, wherein: the adaptor comprises a face ring connecting end which is cylindrical and can stretch into the sleeve and is coaxially arranged with the sleeve, and the face ring connecting end and the sleeve can relatively rotate around the common axis of the face ring connecting end and the sleeve.

7. The luminaire of claim 6, wherein: the second joint portion is arranged at the face ring connecting end and protrudes outwards to form a circle of convex edges, the first joint portion comprises a bearing surface and a clamping jaw, the bearing surface is arranged on the inner side of the sleeve, the clamping jaw is arranged above the bearing surface, and the convex edges are clamped by the bearing surface and the clamping jaw during connection.

8. The luminaire of claim 7, wherein: the jack catch quantity is two and more, the jack catch is in evenly arrange along circumference in the sleeve.

9. The luminaire of claim 6, wherein: the adaptor also comprises a light distribution part.

10. A light fixture as recited in any one of claims 1-9, wherein: the lamp is a spot lamp.

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