CN203615283U - Multi-angle tubular LED (Light-Emitting Diode) installation structure - Google Patents

Abstract

The utility model relates to a multi-angle tubular LED (Light-Emitting Diode) installation structure, which comprises a connector and an LED assembly, wherein the connector comprises a front part pressed against the outer wall of a pipeline and a back part extending into the pipeline; the back part of the connector is connected with a bracket fixed inside the pipeline; the LED assembly comprises a radiator arranged inside the pipeline and a lamp assembly connected to the front end of the radiator; a lens in the lamp assembly passes through the connector; the radiator is pivoted to the back part of the connector. In the multi-angle tubular LED installing structure, the LED assembly is arranged in the pipeline by using the connector and the bracket, and the LED assembly is protected by using a fence tube, so that the space is saved. Moreover, the radiator in the LED assembly is pivoted to the connector, so that the lamp assembly and the lens can be driven to rotate upwards and downwards within a certain range, and the effect of adjusting the light ray emitting angle is achieved. The multi-angle tubular LED installation structure can be applied to the field of illumination.

Description

Multi-angle tubular type LED mounting structure

Technical field

The utility model relates to lighting field, particularly relates to a kind of multi-angle tubular type LED mounting structure.

Background technology

In the illumination of urban road, overpass and viaduct, the general high pole street lamp that adopts is as illuminations, and its defect is to cause light pollution to local-style dwelling houses around, and solution is to adopt guard rail lamp to replace high pole street lamp preferably at present.Its principle is to utilize the guardrail pipe on both sides of the road installation carrier as light fixture, utilizes LED and optical lens as light source and luminous intensity distribution, has therefore reduced the impact of light on high-altitude.

But, together with above-mentioned guard rail lamp is completely fixed with guardrail pipe after being mounted in guardrail pipe, the required lighting angle of LED only can be by optical lens control, therefore after installing, its lighting angle cannot regulate, cause product cannot adapt to changeable space, road surface and road environment, cannot meet city growth requirement with rapid changepl. never-ending changes and improvements.

Utility model content

In order to overcome above-mentioned technical problem, the purpose of this utility model is to provide a kind of convenient multi-angle tubular type LED mounting structure of adjusting lighting angle.

The technical scheme that the utility model adopts is:

Multi-angle tubular type LED mounting structure, comprise connector and LED assembly, described connector comprises the front portion that is connected to pipeline outer wall and the rear portion of stretching into pipeline, the rear portion of described connector is connected with the support that is fixed on pipe interior, described LED assembly comprises the radiator that is arranged on pipe interior and the lamp assembly that is connected to radiator front end, lens in described lamp assembly pass connector, and described radiator is articulated in connector rear portion.

As the further improvement of technique scheme, described connector is provided with the adjusting device of adjusting radiator rotational angle.

As the further improvement of technique scheme, described adjusting device comprises adjustment screw and flexure strip, one end of described flexure strip is hinged on the bottom of radiator tail end, the other end is hinged with the connecting rod that is suspended at radiator top, and described adjustment screw is fixing through being threaded with connecting rod behind the top of connector from front to back.

As the further improvement of technique scheme, in described adjustment screw, stop nut is installed, described stop nut is between connecting rod and connector.

As the further improvement of technique scheme, the front end of described support is provided with snap fit, and described snap fit is connected in the hole clipping of connector tail end.

As the further improvement of technique scheme, the middle part of described support tail end is provided with a screw, and the dog screw being arranged on pipeline is screwed onto in described screw, makes support be fixed on pipe interior.

As the further improvement of technique scheme, described connector top is provided with rotation stopping screw, and the tail end of described rotation stopping screw vertical adjusting screw and rotation stopping screw penetrates apical grafting adjustment screw after connector.

The beneficial effects of the utility model are: the utility model utilizes connector and support that LED assembly is arranged in pipeline; utilize guardrail pipe protection LED assembly; save space; and because the radiator in LED assembly is articulated on connector; therefore it can drive lamp assembly and lens to rotate up and down within the specific limits, has formed the adjustable effect of light irradiating angle.

Accompanying drawing explanation

Below in conjunction with drawings and embodiments, the utility model is further illustrated.

Fig. 1 is structural representation of the present utility model;

Fig. 2 is top view of the present utility model;

Fig. 3 be in Fig. 2 A to generalized section;

Fig. 4 is that the utility model is hidden the schematic diagram after pipeline;

Fig. 5 is the schematic diagram at another visual angle after the hiding pipeline of the utility model;

Fig. 6 is that the utility model is hidden the schematic diagram after pipeline and radiator;

Fig. 7 is the structural representation of the utility model radiator.

The specific embodiment

Embodiment as shown in Figures 1 to 7, comprises connector and LED assembly.The front portion of connector is the arc body 12 of a ring-type, and this arc body 12 is connected to pipeline 8 outer walls, and the centre of annular is the circular hole for lens 4 pass and light is broken forth.The rear portion of connector is left and right layout and is connected to two blocks of side plates 13 on arc body 12.The tail end of every block of side plate 13 all offers hole clipping 11, and the support 2 of " C " type is also installed in pipeline 8, and two front ends of support 2 openings are provided with snap fit 21, and snap fit 21 is connected in hole clipping 11.The rear end of support 2 offers a screw, and the dog screw 7 being screwed into respect to arc body 12 other ends from pipeline 8 is screwed onto screw.Therefore, connector, support 2 and dog screw 7 are just positioned in pipeline 8.

LED assembly comprises radiator 3, is connected to the lamp assembly of radiator 3 front ends, and the lens 4 in lamp assembly pass arc body 12.The middle part of every block of side plate 13 offers screw installing hole, pivotable screw 14 as pivotal axis is installed on screw installing hole, radiator 3 is provided with the pivoting hole 31 coordinating with pivotable screw 14 and is connected on side plate 13 by pivotable screw 14 pivotables, radiator 3 can drive lamp assembly to rotate up and down within the specific limits around pivotable screw 14, thereby adjusts the irradiating angle of light after lens 4 luminous intensity distributions.

Adjust the irradiating angle of light and illumination position is fixed for convenient, connector is provided with adjusts the adjusting device of radiator 3 around pivotable screw 14 rotational angles.

This adjusting device comprises adjustment screw 51 and flexure strip 52.The arc of flexure strip 52 for upwarping, bottom is hinged between two journal stirrups 32 of radiator 3 tail end bottoms, and top is hinged with the connecting rod 53 that is suspended at radiator 3 tops, is threaded fixing from front to back through the adjustment screw 51 at arc body 12 tops with connecting rod 53.Stop nut 54 is also installed on the screw rod of adjustment screw 51, and stop nut 54 is between connecting rod 53 and arc body 12, and its one end is connected to arc body 12 inwalls, and effect is to prevent that adjustment screw 51 from outwards deviating from.The spiral shell head of adjustment screw 51 is connected on the outer wall of arc body 12.In the time of rotation adjustment screw 51, connecting rod 53 moves forward and backward in adjustment screw 51, by the transmission of flexure strip 52 power, radiator 3 is rotated around pivotable screw 14.Due to being threaded of connecting rod 53 and adjustment screw 51, make degree of regulation higher.

Arc body 12 tops are also provided with rotation stopping screw 6, the tail end of rotation stopping screw 6 vertical adjusting screws 51 and rotation stopping screw 6 penetrates the rear apical grafting adjustment screw 51 of arc body 12, after lighting angle is determined, prevent the misoperation of adjustment screw 51 by the frictional force between rotation stopping screw 6 and adjustment screw 51.

The above be the utility model preferred embodiment, it does not form the restriction to the utility model protection domain.

Claims (7)

1. multi-angle tubular type LED mounting structure, comprise connector and LED assembly, it is characterized in that: described connector comprises the front portion that is connected to pipeline outer wall and the rear portion of stretching into pipeline, the rear portion of described connector is connected with the support (2) that is fixed on pipe interior, described LED assembly comprises the radiator (3) that is arranged on pipe interior and the lamp assembly that is connected to radiator (3) front end, lens (4) in described lamp assembly pass connector, and described radiator (3) is articulated in connector rear portion.

2. multi-angle tubular type LED mounting structure according to claim 1, is characterized in that: described connector is provided with the adjusting device of adjusting radiator (3) rotational angle.

3. multi-angle tubular type LED mounting structure according to claim 2, it is characterized in that: described adjusting device comprises adjustment screw (51) and flexure strip (52), one end of described flexure strip (52) is hinged on the bottom of radiator (3) tail end, the other end is hinged with the connecting rod (53) that is suspended at radiator (3) top, and described adjustment screw (51) is threaded fixing through behind the top of connector with connecting rod (53) from front to back.

4. multi-angle tubular type LED mounting structure according to claim 3, it is characterized in that: stop nut (54) is installed in described adjustment screw (51), and described stop nut (54) is positioned between connecting rod (53) and connector.

5. multi-angle tubular type LED mounting structure according to claim 3, it is characterized in that: described connector top is provided with rotation stopping screw (6), the tail end of described rotation stopping screw (6) vertical adjusting screw (51) and rotation stopping screw (6) penetrates apical grafting adjustment screw (51) after connector.

6. according to the multi-angle tubular type LED mounting structure described in any one in claim 1 to 5, it is characterized in that: the front end of described support (2) is provided with snap fit (21), described snap fit (21) is connected in the hole clipping (11) of connector tail end.

7. according to the multi-angle tubular type LED mounting structure described in any one in claim 1 to 5, it is characterized in that: the middle part of described support (2) tail end is provided with a screw, the dog screw (7) being arranged on pipeline is screwed onto in described screw, makes support (2) be fixed on pipe interior.

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