CN221548514U - Novel anti-dazzle track shot-light of structure - Google Patents

Abstract

The utility model relates to the technical field of track spot lamps, in particular to a novel structure anti-glare track spot lamp, which is characterized in that a novel snap-type snap ring is adopted to replace the existing screw-type front cover and a buckle-type front cover, the fixing mode of the front cover is changed from an original screw knob or bayonet screw into the existing snap-type snap ring, the snap-type snap ring is clamped into an annular groove of a lamp housing in a buckle deformation mode, and a lens and a reflector cup are clamped by the other part of the snap ring, so that the lens and the reflector cup are fixed with the lamp housing, and the reflector cup and the lens are mounted on the lamp housing.

Description

Novel anti-dazzle track shot-light of structure

Technical Field

The utility model relates to the technical field of track spot lamps, in particular to a novel structure anti-dazzle track spot lamp.

Background

The track spot lamp is a lamp with the angle capable of being vertically and horizontally adjusted, and is widely applied to the fields of home and business due to the advantages of high brightness, low energy consumption, environmental protection, stable performance and the like. The structure of the front cover of the track lamp which is sold in the market at present and screwed to the radiator is mainly two, one structure is that the front cover is provided with a slope clamping groove, the slope inlet is provided with an anti-falling convex block, the light outlet of the radiator is provided with a convex block which is distributed in an annular mode, the clamping groove of the front cover and the convex block of the radiator are screwed together, and in order to facilitate screwing, the front end of the front cover is necessarily provided with a clamping point for assisting screwing, so that the appearance of the lamp is influenced to a certain extent; the other is that the front cover is provided with the outer screw thread, the radiator is internally provided with the screw thread, the outer screw thread of the front cover is screwed on the screw thread arranged in the radiator, and in order to ensure that the screw thread and the screw thread can be well screwed, the screw thread and the screw thread are required to be protected from powder in the spraying process, so that the process difficulty and the processing cost of surface treatment are greatly increased.

Disclosure of utility model

In order to solve the problems, we propose a novel track spot lamp, this spot lamp changes traditional turnbuckle fastening or screw thread screwing fastening mode into spring buckle fastening mode through changing traditional front cover fastening mode, its structure is that the front cover sets up the spring buckle, inboard spring buckle catches reflector cup and lens, outside spring buckle card goes into the ring channel that radiator assembly set up, make this front cover install more easily through spring buckle elastic deformation, and because the spring buckle is in the heat dissipation main part entirely, make the outward appearance of track spot lamp become more pleasing to the eye, moreover because the production technology degree of difficulty of spring buckle is relatively low, manufacturing cost has been practiced thrift more and the technology degree of difficulty has been reduced.

The aim of the utility model is realized by the following technical scheme:

a novel structure anti-glare track spotlight, comprising; the lamp comprises a lamp shell, a light emitting assembly, a light guide assembly, a radiator assembly and a clamping ring;

The radiator assembly is arranged at one end part in the lamp housing, the light emitting assembly is arranged on the radiator assembly, one end of the light guide assembly is arranged on the light emitting assembly in a butt joint or adjacent way, and the other end of the light guide assembly is arranged along the end part of the lamp housing in an extending way;

The clamping ring is provided with a first clamping part and a second clamping part, the first clamping part is fixedly connected with the lamp shell, and the second clamping part is fixedly connected with the light guide assembly.

The track shot-light passes through the snap ring and connects the combination with luminous subassembly and radiator subassembly, thereby first joint portion on the snap ring slides into the ring channel of radiator through deformation and realizes the spacing fixed to whole snap ring, simultaneously, the buckle of terminal on the second joint portion on the snap ring has formed an ring channel with the snap ring to fix the light guide subassembly and with its spacing lamp stand department at the lamp body.

In some embodiments, the first and second clamping portions are disposed on the snap ring body.

The first clamping part and the second clamping part are arranged on the clamp ring main body, the first clamping part and the second clamping part are respectively clamped with the lamp shell and the light guide assembly, the buckle of the first clamping part faces to the inner side, the buckle of the second clamping part faces to the outer side, and the first clamping part and the second clamping part are arranged on the clamp ring in a staggered and adjacent mode.

In some embodiments, a light emitting assembly includes: a light source and a light source bracket; the light source support is fixed on the radiator assembly, and the light source is fixed on the light source support.

Be equipped with the recess the same with the light source size on the light source support, can be through setting up the light source in the recess on the light source support, the light source support is on radiator assembly again, carries out spacingly to the light source through radiator assembly and light source support, wherein the light source is faced to light guide assembly, reflects through light guide assembly.

In some embodiments, the light guide assembly includes: a reflective cup and a lens; the bottom of the reflecting cup is abutted or adjacently arranged at the light-emitting assembly, the radius of the reflecting cup is gradually increased along the projection direction of the light source, a limiting part is arranged at one end of the light outlet of the reflecting cup, and the second clamping part is clamped on the limiting part.

The bottom of the light reflecting cup in the light guide assembly is the light source, the light source can be finally emitted through the lens through the reflection of the light reflecting cup, the depth of the light reflecting cup is deeper than that of other light reflecting cups, the refractive index is larger, and the light beam refracted through the light reflecting cup is not easy to dizziness.

In some embodiments, a radiator assembly is arranged inside the lamp housing, the radiator assembly is provided with a light source fixing part and a heat dissipation part, the light source assembly is arranged on the light source fixing part, one end of the heat dissipation part is connected with the light source fixing part, the other end of the heat dissipation part extends along the bottom of the housing, and a through groove for a wire harness to pass through is formed in the middle of the radiator assembly; the light source fixing part is provided with a first fixing hole for installing the light source component, the radiating part is provided with a plurality of radiating fins, and the radiating fins extend along the direction of the lamp shell from the outer wall of the through groove.

The light source unable adjustment base sets up inside the lamp body, its high lower part that sets up at the annular in the lamp body, its edge links to each other with the inside edge of lamp body, be provided with a plurality of hole and light source support fixed on the light source fixing base, the middle part is provided with the through-hole, the through-hole bottom is provided with cylinder power supply channel, cylinder power supply channel is used for connecting the circular telegram wire, be provided with a plurality of fin below the light source unable adjustment base, the fin is arranged from top to bottom in the lamp body, the space in the fin can provide the heat dissipation of light source.

In some embodiments, the heat sink assembly further comprises a rear cover assembly including a bottom bracket, a rear cover disposed at a bottom of the heat sink assembly, and a rear cover disposed behind the bottom bracket.

The rear cover component is mainly connected with the heat dissipation device and the connecting part of the driving guide rail, and the main function of the rear cover component is that the lamp can vertically rotate by a certain angle by taking the rear cover component as the center of a circle.

In some embodiments, the bottom bracket includes a first support plate, a U-shaped plate; the bottom support lower half is the U template, and U template level sets up, and two third fixed orificess have been opened respectively to both sides lateral wall about the U template outer wall, and the first backup pad of bottom support upper half is provided with first electrically conductive through-hole, second fixed orificess, first connecting hole in the first backup pad, and it has first electrically conductive through-hole to open at first backup pad center, opens near first backup pad center has first connecting hole, has a plurality of second fixed orificess in the first backup pad, and the second fixed orificess is fixed in the light source fixed part opposite side with the radiator assembly.

The side walls at two ends of the U-shaped plate of the bottom bracket are provided with third fixing holes, the fixing assembly penetrates through the third fixing holes and is fixed from the other side, a first conductive through hole is formed in a first supporting plate on the bottom bracket, a power line penetrates through the first conductive through hole, a second fixing hole is opposite to the first fixing hole of the radiator, the first supporting plate is fixed to the bottom bracket finally under the radiator, and the first connecting hole is fixed to a rear cover.

In some embodiments, the rear cover is provided with a rotating slot, boss; the boss is provided with a second conductive through hole and a first connecting block; the rotating groove is formed in the rear cover, the boss is arranged in the center of the rear cover, the second conductive through hole is arranged in the center of the boss, the first connecting block is arranged on the boss, the first through hole is opposite to the second through hole, and the first connecting block is connected and fixed with the first through hole.

The second conductive through hole on the back cover corresponds with the first conductive through hole on the bottom bracket, the boss on the back cover is erected above the U-shaped plate through the rotating groove, the first connecting block on the back cover penetrates through the first communication through hole of the bottom bracket, and the fixing of the back cover and the bottom bracket is realized through fixing the first connecting block.

In some embodiments, further comprising a track drive assembly, the track drive assembly comprising: a connecting rod and rail drive; the connecting rod comprises a track rod, a rotating disc, a connector and a fixing assembly; at least one rotating disc is rotationally connected to one end of the track rod, the connector is fixed to the other end of the track rod, fourth fixing holes are respectively formed in the two sides of the left wall and the right wall of the connector, the fixing assembly penetrates through the two fourth fixing holes of the connector and the third fixing holes of the bottom support to be rotationally fixed with the connector, a rotating groove is formed in the track drive, and the track drive and the track rod are rotationally fixed through the rotating disc on the track rod.

The track drive mainly provides the power of lamp body light source, provides the lamp body simultaneously and carries out 360 rotations around the track pole, and track drive self also can carry out certain removal according to the track.

The novel structure anti-dazzle track spot lamp provided by the utility model has the following effects:

1. According to the utility model, the novel snap-type snap ring is adopted to replace the existing turnbuckle type front cover and the bayonet type front cover, the fixing mode of the front cover is changed from the original screw knob or bayonet screwing into the existing snap-buckle type front cover, the snap-buckle type snap ring is used for clamping the lens and the reflecting cup into the annular groove of the lamp housing in a snap deformation mode, and the other part of the snap ring is used for clamping the lens and the reflecting cup, so that the fixing of the lens and the reflecting cup with the lamp housing is realized, the reflecting cup and the lens are mounted on the lamp housing, the structure is simpler, the overall stability is strong, the snap-buckle mode is opposite to screw screwing, the screw screwing is not required to be additionally protected in production, the difficulty of a process is reduced, and the snap-buckle mode fixing can also enable the whole spotlight to be mounted more easily.

2. The whole radiator assembly extends from one end of the bottom of the lamp housing to one end of the projection light source of the lamp housing, a plurality of radiating fins extending from the center of the radiator assembly to the inner wall of the lamp housing are arranged on the radiator assembly, and the radiating capacity of the whole lamp can be effectively improved through the design of the radiator assembly.

3. The reflection cup structure is a cup body structural design deepened along the light projection direction, so that the refractive index of the whole cup body to the light of the light source is larger, and the emitted light is not easy to produce dizziness.

Drawings

FIG. 1 is an exploded view of an anti-glare track spotlight of the present utility model

FIG. 2 is a partial cross-sectional view of a lamp envelope according to the present utility model;

FIG. 3 is a schematic view of a snap ring according to the present utility model;

FIG. 4 is a schematic view of the structure of the back cover assembly of the present utility model;

FIG. 5 is a schematic view of a track driving assembly according to the present utility model.

In the figure: 100. a clasp; 110. a first clamping part; 120. a second clamping part; 200. a light guide assembly; 210. a lens; 220. a reflective cup; 300. a light emitting assembly; 310. a light source support; 320. a light source; 330. a first fixing hole; 400. a heat sink assembly; 410. a heat dissipation part; 411. a through groove; 412. a heat sink; 420. a light source fixing part; 500. a lamp housing; 510. an annular groove; 600. a rear cover assembly; 610. a rear cover; 611. a rotating groove; 612. a first connection block; 613. a second conductive via; 614. a boss; 620. a bottom bracket; 621. a first support plate; 622. a U-shaped plate; 623. a third fixing hole; 624. a second fixing hole; 625. a first conductive via; 626. a first connection hole; 700. a track drive assembly; 710. a connecting rod; 711. a fixing assembly; 712. a connector; 713. a track rod; 714. a rotating disc; 715. a fourth fixing hole; 720. and (5) rail driving.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments of the present application and the technical features of the embodiments may be combined with each other, and the detailed description in the specific embodiments should be interpreted as an explanation of the gist of the present application and should not be construed as unduly limiting the present application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application more apparent, the specific technical solutions of the present application will be described in further detail below with reference to the accompanying drawings in the embodiments of the present application. The following examples are illustrative of the application and are not intended to limit the scope of the application.

In embodiments of the present application, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the embodiments of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

Furthermore, in the embodiments of the present application, the terms "upper," "lower," "left," and "right," etc., are defined with respect to the orientation in which the components in the drawings are schematically disposed, and it should be understood that these directional terms are relative terms, which are used for descriptive and clarity with respect to each other, and which may vary accordingly with respect to the orientation in which the components in the drawings are disposed.

In embodiments of the present application, unless explicitly specified and limited otherwise, the term "connected" is to be construed broadly, and for example, "connected" may be either a fixed connection, a removable connection, or an integral unit; can be directly connected or indirectly connected through an intermediate medium.

In embodiments of the present application, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. In embodiments of the application, words such as "exemplary" or "such as" are used to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g." in an embodiment of the present application is not to be taken as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion.

Example 1:

a novel structure anti-glare track spotlight, comprising; lamp housing 500, light emitting assembly 300, light guiding assembly 200, heat sink assembly 400, snap ring 100;

the radiator assembly 400 is arranged at one end part in the lamp housing 500, the light emitting assembly 300 is arranged on the radiator assembly 400, one end of the light guide assembly 200 is arranged on the light emitting assembly 300 in a abutting or adjacent mode, and the other end of the light guide assembly 200 extends along the end part of the lamp housing 500;

The snap ring 100 is provided with a first clamping part 110 and a second clamping part 120, the first clamping part 110 is fixedly connected with the lamp housing 500, and the second clamping part 120 is fixedly connected with the light guide assembly 200;

As shown in fig. 1, when the heat sink assembly 400 may be integrally molded, the heat sink assembly 400 may be disposed inside the lamp housing 500, the outer wall of the heat sink assembly 400 is connected with the inside of the lamp housing 500, the light emitting assembly 300 is fixed in the middle above the heat sink assembly 400 by aligning with the corresponding gap on the heat sink assembly 400, the light guiding assembly 200 is located above the light emitting assembly 300, the light emitting assembly 300 is opposite to the opening of the lower part of the light guiding assembly 200, the upper edge of the light guiding assembly 200 is designed with a limiting part, the edge of the limiting part overlaps with the edge of the lens 210 on the light guiding assembly 200, and the combined thickness of the limiting part and the edge of the lens 210 may enable the two parts to be limited in the space formed by the second clamping part 120 on the clamping ring 100 and the bottom of the clamping ring 100, and the first clamping part 110 on the clamping ring 100 is clamped into the lamp housing 500 by elastic deformation.

Example 2:

The first clamping part 110 and the second clamping part 120 are arranged on the main body of the clamping ring 100;

As shown in fig. 3, three first clamping portions 110 and three second clamping portions 120 are adjacently disposed on the snap ring 100, and a certain interval is provided between the clamping portions, wherein the buckle of the first clamping portion 110 is disposed towards the outside, and the buckle of the second clamping portion 120 is disposed towards the inside.

Example 3:

The end part of the lamp housing 500 is provided with an annular groove 510, and the first clamping part 110 is clamped in the annular groove 510;

As shown in fig. 2, an annular groove 510 is disposed on the inner wall of the lamp housing 500, the position of the annular groove 510 is above the radiator assembly 400, and the first clamping portion 110 can be clamped in different annular grooves 510, so as to change the position of the lamp socket, and the first clamping portion 110 is fixed with the annular groove 510 through an outward buckle disposed on the first clamping portion 110.

Optionally, in one implementation manner of the foregoing embodiment, multiple tracks may be disposed in the lamp housing 500 at the upper and lower positions where the lamp housing is connected to the snap ring 100, and multiple snap rings 100 may be added on the basis of the original snap ring 100 to enhance structural stability.

Example 4:

As shown in fig. 2, the light emitting assembly 300 includes: a light source 320, a light source holder 310; light source holder 310 is fixed to heat sink assembly 400, and light source 320 is fixed to light source holder 310;

The light source 320 is disposed on the light source fixing portion 420 in the heat dissipating assembly, the light source fixing portion 420 is provided with a plurality of holes around the position where the light source 320 is disposed, when the light source support 310 is covered on the light source 320, the light source support 310 is also provided with holes corresponding to the light source fixing portion 420, the holes are correspondingly fixed by screws, and finally the light source 320 is limited under the bottom of the reflector cup 220.

Example 5:

As shown in fig. 2, the light guide assembly 200 includes: a reflector cup 220, a lens 210; the bottom of the reflective cup 220 is abutted or adjacently arranged at the light emitting assembly 300, the radius of the reflective cup 220 is gradually increased along the projection direction of the light source 320, a limiting part is arranged at one end of the light outlet of the reflective cup 220, and the second clamping part 120 is clamped on the limiting part;

the radius of the reflective cup 220 from bottom to top is gradually increased, the radius above the light guide assembly 200 is the largest at the cup opening, a circle of annular convex part is arranged at the edge of the reflective cup, a limiting part and a lens 210 with the same edge width as the limiting part are arranged at the light outlet of the cup opening, and the thicknesses of the limiting part and the lens 210 can be clamped on an annular groove 510 formed by a buckling hook of the second limiting part and the upper part of the clamping ring 100.

Example 6:

As shown in fig. 2, the heat sink assembly 400 is disposed inside the lamp housing 500, the heat sink assembly 400 is provided with a light source fixing portion 420 and a heat dissipation portion 410, the light source 320 is disposed on the light source fixing portion 420, one end of the heat dissipation portion 410 is connected with the light source 320 fixing portion, the other end of the heat dissipation portion 410 extends along the bottom of the housing, and a through slot 411 for passing the wire harness is disposed in the middle of the heat sink; the light source 320 fixing portion is provided with a first fixing hole 330 for installing the light source 320 assembly, the heat dissipating portion 410 is provided with a plurality of heat dissipating fins 412, and the heat dissipating fins 412 extend from the outer wall of the through slot 411 along the direction of the lamp housing 500;

The radiator assembly 400 is provided with a light source 320 fixing part, the position of the radiator assembly is below an annular groove in the lamp housing 500, four first fixing holes 330 are formed around the center of the light source 320 fixing part, the first fixing holes 330 are mainly used for positioning the light emitting assembly 300 and fixing the light emitting assembly 300 through screws, two grooves capable of being fixed in a sliding mode are formed in the center of the light source 320 fixing part and used for fine adjustment of a light source 320 chip, a plurality of trapezoid holes are formed around the light source 320 fixing part, so that overall air circulation in the lamp housing 500 is increased, the heat dissipation effect is improved, through grooves 411 are formed below the light source 320 fixing part and used for paving wires for connecting a power supply and the light emitting module, a plurality of radiating fins 412 extending from the bottom of the light source fixing part 420 to the position close to the bottom of the lamp housing 500 are arranged around the through grooves 411, and one side of each radiating fin 412 is fixed on the outer wall of the through grooves 411 and the other side of the radiating fins is fixed on the inner wall of the lamp housing 500. A through hole is provided below the through slot 411 for fixing a rear mechanism.

Alternatively, in one implementation of the above embodiment, in assembling the heat sink assembly 400, besides the method of forming the heat sink assembly 400 into one body with the lamp housing 500 by injection molding, the heat sink assembly 400 may also be assembled by providing grooves of the heat sink 412 inside the lamp housing 500, and in assembling, the grooves are assembled.

Example 7:

As shown in fig. 4, the rear cover assembly 600 is further included, the rear cover assembly 600 includes a bottom bracket 620, a rear cover 610, the rear cover assembly 600 is disposed at the bottom of the heat dissipation assembly, and the rear cover 610 is disposed behind the bottom bracket 620;

The rear cover assembly 600 is fixedly connected with the bottom bracket 620 of the rear cover assembly 600 through screws through the through holes provided under the heat sink through slots 411, and the rear cover 610 is fixed with the bottom bracket 620 through the first connection holes 626 and the first connection blocks 612 after the rear cover 610 is disposed behind the bottom bracket 620 from the rear.

Example 8:

As shown in fig. 4, the bottom bracket 620 includes a first support plate 621, a U-shaped plate 622; the lower half part of the bottom bracket 620 is a U-shaped plate 622, the U-shaped plate 622 is horizontally arranged, two third fixing holes 623 are respectively formed in the left side wall and the right side wall of the outer wall of the U-shaped plate 622, the upper half part of the bottom bracket 620 is a first supporting plate 621, a first conductive through hole 625, a second fixing hole 624 and a first connecting hole 626 are formed in the first supporting plate 621, a first conductive through hole 625 is formed in the center of the first supporting plate 621, a first connecting hole 626 is formed near the center of the first supporting plate 621, a plurality of second fixing holes 624 are formed in the first supporting plate 621, and the second fixing holes 624 and the radiator assembly 400 are fixed on the other side of the light source fixing part 420;

The bottom bracket 620 is divided into an upper part and a lower part, a U-shaped plate 622 is arranged horizontally below, third fixing holes 623 are formed in two sides of the U-shaped plate 622, the U-shaped plate 622 and the rear part connector 712 are rotationally fixed through fixing components 711, the bottom bracket 620 can rotate on the connector 712, the upper part of the bottom bracket 620 is provided with a first supporting plate 621, a first conductive through hole 625 is formed in the center of the first supporting plate 621, when the bottom bracket 620 is fixed, the first conductive through hole 625 faces the through groove 411 positioned on the radiator, two second fixing holes 624 are formed around the first conductive through hole 625, the second fixing holes 624 are fixed with corresponding through holes in the bottom of the radiator assembly 400, a first connecting hole 626 is formed above the first conductive through hole 625, and the first connecting hole 626 is fixed with a first connecting block 612 on the rear cover 610 through screws.

Alternatively, in one implementation of the above embodiment, when the third fixing hole 623 and the fourth fixing hole 715 are connected, different shafts may be selected for connection in addition to the original fastening manners of bolts and nuts.

Example 9:

As shown in fig. 4, the rear cover 610 is provided with a rotation groove 611, a boss 614; the boss 614 is provided with a second conductive through hole 613 and a first connection block 612; the rotating groove 611 is arranged on the rear cover 610, the boss 614 is arranged at the center of the rear cover 610, the second conductive through hole 613 is arranged at the center of the boss 614, the first connecting block 612 is arranged on the boss 614, the first conductive through hole 625 is opposite to the second conductive through hole 613, and the first connecting block 612 is connected and fixed with the first connecting hole 626;

A circle is cut from the center of the rear cover 610, two parallel circular tangents are made on the circle until the edge of the rear cover, the rear cover 610 is cut along the two tangents, thus forming a U-shaped rotating groove 611, a boss 614 is erected above the center of the rear cover 610, the bottom of the boss 614 covers part of the concave part of the rotating groove 611, a second conductive through hole 613 is hollowed from the center of the top surface of the boss 614 to the center of the bottom of the boss 614, the second conductive through hole 613 is opposite to the second conductive through hole 613 on the bottom bracket 620, a first connecting block 612 is arranged on the center upper part of the top surface of the boss 614, the rear cover 610 is erected on the U-shaped plate 622 of the bottom bracket 620 through a groove during connection, and the first connecting block 612 on the rear cover 610 passes through the first connecting hole 626 on the bottom bracket 620 and is fixed through screws.

Example 10:

As shown in fig. 5, a rail driving assembly 700 is further included, and the rail driving assembly 700 includes: a connecting rod 710, a rail drive 720; the connecting rod 710 includes a rail bar 713, a rotating disc 714, a connector 712, a fixing assembly 711; at least one rotating disc 714 is rotatably connected to one end of the track rod 713, the connector 712 is fixed to the other end of the track rod 713, fourth fixing holes 715 are respectively formed in two sides of the left and right walls of the connector 712, the fixing assembly 711 penetrates through the two fourth fixing holes 715 of the connector 712 and the third fixing holes 623 of the bottom bracket 620 to be rotatably fixed with the connector 712, a rotating groove 611 is formed in the track driver 720, and the track driver 720 and the track rod 713 are rotatably fixed through the rotating disc 714 on the track rod 713.

The rail driving assembly 700 is provided with a circular groove on the rail driving 720, one end of the main body rail rod 713 of the connecting rod 710 is connected with the groove, a rotating disc 714 is arranged on the connecting rod 710 outside the groove, the other end of the rail rod 713 is provided with a connector 712, the side wall of the connector 712 is provided with two fourth fixing holes 715, and when in connection, one fourth fixing hole 715 of the fixing assembly 711 penetrates into and passes through one end of the third fixing hole 623 of the bottom bracket 620 to the third fixing hole 623 of the other end of the bottom bracket 620, finally passes through the fourth fixing hole 715 of the other end of the connector 712, and finally is fixed at the other end by the fixing assembly 711, so that the whole rail driving assembly 700 is fixed with the rear cover assembly 600.

The foregoing embodiment numbers of the present application are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments. The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the application, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (10)

1. An antiglare rail spotlight of novel structure, which is characterized by comprising; the lamp comprises a lamp shell (500), a light-emitting assembly (300), a light guide assembly (200), a radiator assembly (400) and a clamping ring (100);

The radiator assembly (400) is arranged at one end part in the lamp housing (500), the light emitting assembly (300) is arranged on the radiator assembly (400), one end of the light guide assembly (200) is abutted or adjacently arranged on the light emitting assembly (300), and the other end of the light guide assembly (200) is arranged along the end part of the lamp housing (500) in an extending way; the lamp comprises a lamp housing (500), and is characterized in that a first clamping part (110) and a second clamping part (120) are arranged on the clamping ring (100), the first clamping part (110) is fixedly connected with the lamp housing (500), and the second clamping part (120) is fixedly connected with the light guide assembly (200).

2. The novel anti-glare track spotlight of claim 1, wherein the first clamping portion (110) and the second clamping portion (120) are disposed on the main body of the clip ring (100).

3. The novel structured anti-glare track spot light as in claim 1, wherein the end of the lamp housing (500) is provided with an annular groove (510), and the first clamping portion (110) is clamped in the annular groove (510).

4. The novel structured anti-glare rail spotlight of claim 1, wherein said light emitting assembly (300) comprises: a light source (320), a light source holder (310); the light source holder (310) is fixed to a light source fixing portion (420), and the light source (320) is fixed to the light source holder (310).

5. The novel structured anti-glare rail spotlight of claim 4, wherein said light guide assembly (200) comprises: a reflector cup (220) and a lens (210); the bottom of the reflecting cup (220) is abutted or adjacently arranged at the light emitting assembly (300), the radius of the reflecting cup (220) is gradually increased along the projection direction of the light source (320), the reflecting cup (220) is provided with a limiting part at one end of the light outlet, and the second clamping part (120) is clamped on the limiting part.

6. The novel structure anti-glare track spotlight according to claim 4, wherein the radiator assembly (400) is disposed inside the lamp housing (500), the radiator assembly (400) is provided with a light source fixing portion (420) and a heat dissipation portion (410), the light source (320) is disposed on the light source fixing portion (420), one end of the heat dissipation portion (410) is connected with the light source fixing portion (420), the other end of the heat dissipation portion (410) extends along the bottom of the housing, and a through slot (411) through which a wire harness passes is disposed in the middle of the radiator;

the light source fixing portion (420) is provided with a first fixing hole (330) for mounting the light source (320) assembly, the heat dissipation portion (410) is provided with a plurality of heat dissipation fins (412), and the heat dissipation fins (412) extend from the outer wall of the through groove (411) along the direction of the lamp housing (500).

7. The novel structured anti-glare track spot light of claim 1, further comprising a back cover assembly (600), wherein the back cover assembly (600) comprises a bottom bracket (620) and a back cover (610), the back cover assembly (600) is disposed at the bottom of the heat dissipation assembly, and the back cover (610) is disposed behind the bottom bracket (620).

8. The novel anti-glare rail projector of claim 7, wherein the bottom bracket (620) comprises a first support plate (621), a U-shaped plate (622); the bottom support (620) lower half is U template (622), U template (622) level sets up, two third fixed orifices (623) have been opened respectively to both sides lateral wall about U template (622) outer wall, bottom support (620) upper half is first backup pad (621), be provided with first conductive through hole (625), second fixed orifices (624), first connecting hole (626) on first backup pad (621), first backup pad (621) center is opened has first conductive through hole (625) near first backup pad (621) center is opened has first connecting hole (626), there are a plurality of on first backup pad (621) second fixed orifices (624), second fixed orifices (624) with radiator assembly (400) are fixed in light source fixed part (420) opposite side.

9. The novel anti-glare track spotlight of claim 8, wherein the rear cover (610) is provided with a rotating groove (611) and a boss (614); the boss (614) is provided with a second conductive through hole (613) and a first connecting block (612); the rotating groove (611) is formed in the rear cover (610), the boss (614) is formed in the center of the rear cover (610), the second conductive through hole (613) is formed in the center of the boss (614), the first connecting block (612) is formed in the boss (614), the first conductive through hole (625) is opposite to the second conductive through hole (613), and the first connecting block (612) is connected with and fixed to the first connecting hole (626).

10. The novel structured anti-glare track lamp of claim 9, further comprising a track drive assembly (700), said track drive assembly (700) comprising: a connecting rod (710), a track drive (720); the connecting rod (710) comprises a track rod (713), a rotating disc (714), a connector (712) and a fixing assembly (711); at least one rotating disc (714) rotate connect in one end of track pole (713), connector (712) are fixed in the other end of track pole (713), the wall both sides are equipped with fourth fixed orifices (715) respectively about connector (712), fixed subassembly (711) pass two fourth fixed orifices (715) of connector (712) with third fixed orifices (623) of bottom support (620) with connector (712) rotate fixedly, be provided with a rotation groove (611) on track drive (720), track drive (720) with track pole (713) are through rotating disc (714) on track pole (713) rotate fixedly.