CN214790786U - Multidimensional irradiation LED lamp - Google Patents

Abstract

The utility model provides a multidimensional irradiation LED lamp, including upper reflector and lower reflector, upper and lower reflector all includes the lateral wall of vertebra platform form and is located the bottom plate of lateral wall path end, the bottom plate of upper and lower reflector is equipped with a support section of thick bamboo between its one side of lateral wall path end dorsad and both sides, the bottom plate of upper reflector is equipped with the LED lamp plate towards the one side of its lateral wall path end, the bottom plate of lower reflector is equipped with down the LED lamp plate towards the one side of its lateral wall path end, the support section of thick bamboo outer wall is equipped with LED side lamp strip; the lamp shade is arranged on the end face of the large-diameter end of the upper reflecting cover, the lower end face of the large-diameter end of the lower reflecting cover is provided with the lower lamp shade, and a side lamp shade which is concentrically arranged with the supporting cylinder and covers the supporting cylinder is arranged between the end face of the large-diameter end of the upper reflecting cover and the end face of the large-diameter end of the lower reflecting cover. The utility model has the advantages of can possess a plurality of luminous orientations, can reduce dazzling to the use occasion of difference, improve illuminating effect.

Description

Multidimensional irradiation LED lamp

Technical Field

The utility model relates to an interior decoration field in the environment art, concretely relates to LED lamp is shone to multidimension.

Background

The LED lamp is common in interior decoration, the conventional LED lamp generally faces the ground in the light emitting direction, so that dazzling and dazzling conditions are easily caused, particularly, when the LED lamp gets up and turns on the lamp or is positioned in an occasion with low brightness in front of the eyes at night, the LED lamp at the top of a room brings discomfort to people due to the brightness difference, and meanwhile, when the LED lamp faces downwards, the eyes face upwards to look at the ceiling, the pupils are shrunk to reduce the light entering amount, so that the ceiling looks dark, the problem of overlarge light and shade difference exists, and discomfort is brought to a user;

furthermore, the existing interior decoration is more beautiful, so the illumination direction of the conventional LED lamp is usually towards the ground, which is likely to cause insufficient illumination brightness on the wall, ceiling, etc., and affect the appearance of indoor beauty.

SUMMERY OF THE UTILITY MODEL

Based on the problem, the utility model aims to provide a can possess a plurality of luminous orientations, can reduce to dazzle to the use occasion of difference, improve illuminating effect's multidimensional LED lamp that shines.

Aiming at the problems, the following technical scheme is provided: a multi-dimensional irradiation LED lamp comprises an upper reflecting cover and a lower reflecting cover, wherein the upper reflecting cover and the lower reflecting cover both comprise a cone-frustum-shaped side wall and a bottom plate positioned at the small-diameter end of the side wall, a supporting cylinder is arranged between the two sides of the bottom plates of the upper reflecting cover and the lower reflecting cover, which are back to the large-diameter end of the side wall of the upper reflecting cover, an upper LED lamp plate is arranged on one side, facing the large-diameter end of the side wall, of the bottom plate of the upper reflecting cover, a lower LED lamp plate is arranged on one side, facing the large-diameter end of the side wall, of the bottom plate of the lower reflecting cover, and an LED side lamp strip is arranged on the outer wall of the supporting cylinder; the lamp shade is arranged on the end face of the large-diameter end of the upper reflecting cover, the lower end face of the large-diameter end of the lower reflecting cover is provided with the lower lamp shade, and a side lamp shade which is concentrically arranged with the supporting cylinder and covers the supporting cylinder is arranged between the end face of the large-diameter end of the upper reflecting cover and the end face of the large-diameter end of the lower reflecting cover.

In the structure, when the upper LED lamp panel in the upper reflecting shade is lightened, the ceiling can be directly lightened, and in some rooms with finish-finished ceilings, the room can be lightened by lightening the ceiling and then reflecting the ceiling (glare can be reduced); when the lower LED lamp panel of the lower reflector is lightened, the ground can be directly lightened, and the normal lighting function of the traditional LED lamp is ensured; when the LED side light bars are lightened, the light rays can be scattered outwards from the outer wall of the supporting cylinder in a hyperbolic shape, and the indoor wall surface can be intensively illuminated; meanwhile, the three illumination modes can be mutually combined and started to realize richer illumination scheme collocation and provide stronger light and shadow effect for indoor illumination.

The utility model is further arranged to further comprise a suspender with a hollow middle part, the lower end of the suspender is provided with an anti-drop head, the suspender sequentially passes through the bottom plate of the lower reflector, the supporting cylinder and the bottom plate of the upper reflector from bottom to top and then penetrates out of the upper reflector, and the anti-drop head is abutted against the bottom plate of the lower reflector; the outer wall of the suspender in the supporting cylinder is provided with a wire passing hole communicated with the middle part of the suspender.

In the structure, the hanger rod can be used for being connected and fixed with a ceiling, and meanwhile, a power line can penetrate through the center of the hanger rod and then penetrates into the supporting cylinder from the wire passing hole to supply power to the upper LED lamp panel, the lower LED lamp panel and the LED side lamp strips; the anti-drop head is abutted against the bottom plate of the lower reflector and used for fixing the lower reflector, so that the support cylinder positioned on the lower reflector and the upper reflector can directly utilize the dead weight thereof to ensure stable relative positions.

The utility model discloses further set up to, be equipped with a plurality of ventilative slotted holes of seting up to leading to on the support section of thick bamboo lateral wall, ventilative slotted hole sets up along supporting a circumference direction equipartition interval.

In the structure, the LED driving board is arranged in the supporting cylinder, so that the ventilation slotted hole can improve the air flow in the supporting cylinder, and the LED driving board is convenient to dissipate heat.

The utility model discloses further set up to, LED side lamp strip and ventilative slotted hole wait to count the setting, and be located the support section of thick bamboo lateral wall between the adjacent ventilative slotted hole, its light emitting area is to side lampshade inner wall.

In the structure, the side wall of the supporting cylinder between the adjacent ventilating slotted holes is reasonably utilized to provide space for installing the LED side light bar.

The utility model is further arranged that the outer edge of the side of the bottom plate of the upper reflecting cover back to the large-diameter end of the side wall is provided with an upper centering flange, and the outer edge of the side of the bottom plate of the lower reflecting cover back to the large-diameter end of the side wall is provided with a lower centering flange; the upper centering rib and the lower centering rib are respectively matched with the end face of the supporting cylinder so that the axes of the upper reflecting cover, the lower reflecting cover and the supporting cylinder are concentrically aligned.

In the structure, the upper centering rib, the lower centering rib and the end face of the supporting cylinder are matched, the axes of the upper centering rib, the lower centering rib and the end face of the supporting cylinder are concentric, and necessary structural support is provided for fixing the lower reflecting cover, the supporting cylinder and the upper reflecting cover by the aid of the anti-falling head of the suspender and the suspender.

The utility model discloses further set up to, go up centering flange, lower centering flange all is the tube-shape to peg graft with a support section of thick bamboo inner wall adaptation.

In the structure, the cylindrical upper centering rib and the cylindrical lower centering rib are beneficial to improving the overall strength and rigidity of the upper reflecting shade and the lower reflecting shade, and meanwhile, the stable adaptation with the supporting cylinder is ensured; the upper centering rib, the lower centering rib and the supporting cylinder can be connected in interference fit.

The utility model discloses further set up to, the center of the one side of going up lamp top facing LED lamp plate that makes progress is equipped with the dust prevention section of thick bamboo, the dust prevention section of thick bamboo inner wall is equipped with the sealing washer sealed with jib outer wall adaptation.

In the structure, the inner groove is formed in the dustproof cylinder, the sealing ring is arranged in the inner groove, and dust can be prevented from entering the upper reflecting cover from a gap between the hanging rod and the upper lamp cover.

The utility model discloses further set up as, all be equipped with reflective coating on the inside and outside wall of upper and lower reflector.

In the structure, the reflective coating can be a mirror coating or a white coating, so that the reflectivity of light is increased.

The utility model discloses further set up to, upper and lower reflector and a support section of thick bamboo are the aluminum alloy material.

In the structure, the butt joint surface of the upper centering flange, the lower centering flange and the supporting cylinder can be filled with heat-conducting silicone grease, so that the heat conducting performance among the upper reflector, the lower reflector and the supporting cylinder is ensured, and the heat homoenergetic of the upper LED lamp plate, the lower LED lamp plate and the LED side lamp strip can be rapidly dissipated to the upper reflector, the lower reflector and the supporting cylinder to obtain the maximum heat dissipation area.

The utility model discloses further set up as, go up lamp shade, lower lamp shade and side lamp shade and be milk white or translucent material lamp shade.

In the structure, the milky white or semitransparent lampshade can be made of acrylic materials so as to achieve the purpose of softening light.

The utility model has the advantages that: when the upper LED lamp panel in the upper reflector is lightened, the ceiling can be directly lightened, and in some rooms with finish-finished ceilings, the room can be lightened by lightening the ceiling and then reflecting the ceiling (glare can be reduced); when the lower LED lamp panel of the lower reflector is lightened, the ground can be directly lightened, and the normal lighting function of the traditional LED lamp is ensured; when the LED side light bars are lightened, the light rays can be scattered outwards from the outer wall of the supporting cylinder in a hyperbolic shape, and the indoor wall surface can be intensively illuminated; meanwhile, the three illumination modes can be mutually combined and started to realize richer illumination scheme collocation and provide stronger light and shadow effect for indoor illumination.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the overall full-section structure schematic diagram of the utility model.

Fig. 3 is a schematic diagram of the explosion full-section structure of the present invention.

Fig. 4 is an enlarged schematic view of a portion a of fig. 2 according to the present invention.

Fig. 5 is an enlarged schematic view of a portion B of fig. 2 according to the present invention.

The reference numbers in the figures mean: 10-upper reflector; 101-an LED lamp panel; 102-upper lampshade; 1021-a dustcup; 1022-a dustcup; 1023-inner groove; 103-upper centering rib; 11-lower reflector; 111-lower LED light panel; 112-lower lampshade; 113-lower centering rib; 12-a side wall; 13-a base plate; 14-a support cylinder; 141-LED side light bars; 142-air-permeable slotted holes; 15-side lampshade; 16-a boom; 161-anti-slip head; 162-wire passing hole.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, the multidimensional irradiation LED lamp shown in fig. 1 to 5 includes an upper reflector 10 and a lower reflector 11, where the upper reflector 10 and the lower reflector 11 both include a truncated cone-shaped sidewall 12 and a bottom plate 13 located at a small diameter end of the sidewall 12, a supporting tube 14 is disposed between two sides of the bottom plate 13 of the upper reflector 10 and the bottom plate 11 facing away from a large diameter end of the sidewall, an upper LED lamp panel 101 is disposed on a side of the bottom plate 13 of the upper reflector 10 facing the large diameter end of the sidewall 12, a lower LED lamp panel 111 is disposed on a side of the bottom plate 13 of the lower reflector 11 facing the large diameter end of the sidewall 12, and LED side lamp strips 141 are disposed on an outer wall of the supporting tube 14; the end face of the large diameter end of the upper reflecting cover 10 is provided with an upper lamp shade 102, the end face of the large diameter end of the lower reflecting cover 11 is provided with a lower lamp shade 112, and a side lamp shade 15 which is concentric with the supporting cylinder 14 and covers the supporting cylinder 14 is arranged between the end of the large diameter end of the upper reflecting cover 10 and the end of the large diameter end of the lower reflecting cover 11.

In the above structure, when the upper LED lamp panel 101 in the upper reflector 10 is lit, the ceiling can be directly lit, and in some rooms with finish-finished ceilings, the room can be lit by lighting the ceiling and then reflecting the ceiling (glare can be reduced); when the lower LED lamp panel 111 of the lower reflector 11 is lighted, the ground can be directly lighted, and the normal lighting function of the traditional LED lamp is ensured; when the LED side light bar 141 is lightened, the light rays can be scattered outwards from the outer wall of the supporting cylinder 14 in a hyperbolic shape, and the indoor wall surface can be intensively illuminated; meanwhile, the three illumination modes can be mutually combined and started to realize richer illumination scheme collocation and provide stronger light and shadow effect for indoor illumination.

In this embodiment, the reflector further comprises a hanger rod 16 with a hollow middle part, the lower end of the hanger rod 16 is provided with an anti-falling head 161, the hanger rod 16 sequentially passes through the bottom plate 13 of the lower reflector 11, the support cylinder 14 and the bottom plate 13 of the upper reflector 10 from bottom to top and then passes out of the upper reflector 102, and the anti-falling head 161 is abutted against the bottom plate 13 of the lower reflector 11; the outer wall of the hanger rod 16 in the support cylinder 14 is provided with a wire passing hole 162 communicated with the middle part thereof.

In the above structure, the hanger rod 16 may be used to be connected and fixed with a ceiling, and meanwhile, a power line may penetrate from the center of the hanger rod 16 and then penetrate from the wire through hole 162 into the support cylinder 14, and supply power to the upper LED lamp panel 101, the lower LED lamp panel 111, and the LED side light bar 141; the anti-drop head 161 abuts against the bottom plate 13 of the lower reflector 11 to provide a fixing for the lower reflector 11, so that the supporting cylinder 14 on the lower reflector 11 and the upper reflector 10 can directly use their own weights to ensure stable relative positions.

In this embodiment, a plurality of pairs of ventilation slots 142 are formed in the sidewall of the support cylinder 14, and the ventilation slots 142 are uniformly spaced along the circumferential direction of the support cylinder 14.

In the above structure, since the LED driving board (not shown) is mounted in the supporting cylinder 14 (preferably, the bottom plate 13 of the lower reflector 11 faces the surface of one side of the supporting cylinder 14 and is surrounded by the supporting cylinder 14), the ventilation slots 142 can improve the air flow in the supporting cylinder 14 to facilitate the heat dissipation of the LED driving board.

In this embodiment, the LED side light strips 141 and the ventilation slots 142 are disposed in equal numbers, and are located on the side wall of the support tube 14 between the adjacent ventilation slots 142, and the light emitting surface faces the inner wall of the side light cover 15.

In the structure, the side wall of the support tube 14 between the adjacent ventilation slots 142 is reasonably utilized to provide a space for installing the LED side light bar 141.

In this embodiment, an upper centering rib 103 is disposed at an outer edge of a side of the bottom plate 13 of the upper reflector 10 facing away from the large diameter end of the side wall 12, and a lower centering rib 113 is disposed at an outer edge of a side of the bottom plate 13 of the lower reflector 11 facing away from the large diameter end of the side wall 12; the upper centering rib 103 and the lower centering rib 113 are respectively matched with the end surface of the support cylinder 14, so that the axes of the upper reflector 10, the lower reflector 11 and the support cylinder 14 are concentrically aligned.

In the above structure, the upper centering rib 103 and the lower centering rib 113 are matched with the end surface of the supporting cylinder 14, so as to ensure that the axes of the upper centering rib 103 and the lower centering rib 113 are concentric, and provide necessary structural support for fixing the lower reflector 11, the supporting cylinder 14 and the upper reflector 10 by the suspender 16 and the anti-falling head 161 of the suspender 16.

In this embodiment, the upper centering rib 103 and the lower centering rib 113 are both cylindrical and are inserted into the inner wall of the supporting cylinder 14.

In the above structure, the cylindrical upper centering rib 103 and lower centering rib 113 are beneficial to improving the overall strength and rigidity of the upper reflector 10 and the lower reflector 11, and simultaneously ensure stable adaptation with the support cylinder 14; the upper centering rib 103, the lower centering rib 113 and the support cylinder 14 can be connected by interference fit.

In this embodiment, go up lamp shade 102 and be equipped with a dustproof section of thick bamboo 1021 towards the center of the one side of LED lamp plate 101, dustproof section of thick bamboo 1021 inner wall is equipped with and 16 outer wall adaptations sealed sealing washer 1022 of jib.

In the above structure, the inner groove 1023 is provided in the dust-proof cylinder 1022, and the sealing ring 1022 is provided in the inner groove 1023, so that dust can be prevented from entering the upper reflector 10 from the gap between the suspension rod 16 and the upper lamp 102.

In this embodiment, the inner and outer walls of the upper reflector 10 and the lower reflector 11 are both provided with reflective coatings (not shown).

In the structure, the reflective coating can be a mirror coating or a white coating, so that the reflectivity of light is increased.

In this embodiment, the upper reflector 10, the lower reflector 11 and the supporting tube 14 are made of aluminum alloy.

In the above structure, the abutting surfaces of the upper centering rib 103, the lower centering rib 113 and the support cylinder 14 may be filled with heat-conducting silicone grease (not shown in the figure) to ensure the heat-conducting performance among the upper reflector 10, the lower reflector 11 and the support cylinder 14, so that the heat of the upper LED lamp panel 101, the lower LED lamp panel 111 and the LED side light bar 141 can be quickly dissipated to the upper reflector 10, the lower reflector 11 and the support cylinder 14 to obtain the maximum heat dissipation area.

In this embodiment, the upper lamp housing 102, the lower lamp housing 112 and the side lamp housing 15 are all milky white or translucent material lamp housings.

In the structure, the milky white or semitransparent lampshade can be made of acrylic materials so as to achieve the purpose of softening light.

The utility model has the advantages that: when the upper LED lamp panel 101 in the upper reflector 10 is lighted, the ceiling can be directly lighted, and in some rooms with finish-finished ceilings, the room can be lighted by lighting the ceiling and then reflecting the ceiling (glare can be reduced); when the lower LED lamp panel 111 of the lower reflector 11 is lighted, the ground can be directly lighted, and the normal lighting function of the traditional LED lamp is ensured; when the LED side light bar 141 is lightened, the light rays can be scattered outwards from the outer wall of the supporting cylinder 14 in a hyperbolic shape, and the indoor wall surface can be intensively illuminated; meanwhile, the three illumination modes can be mutually combined and started to realize richer illumination scheme collocation and provide stronger light and shadow effect for indoor illumination.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations of the above assumption should also be regarded as the protection scope of the present invention.

Claims (10)

1. A multi-dimensional LED lamp that shines which characterized in that: the LED lamp comprises an upper reflecting cover and a lower reflecting cover, wherein the upper reflecting cover and the lower reflecting cover both comprise truncated cone-shaped side walls and bottom plates located at small-diameter ends of the side walls, a supporting cylinder is arranged between the two sides of the bottom plates of the upper reflecting cover and the lower reflecting cover, which are back to the large-diameter ends of the side walls of the upper reflecting cover, an upper LED lamp panel is arranged on one side, facing the large-diameter ends of the side walls, of the bottom plates of the upper reflecting cover, a lower LED lamp panel is arranged on one side, facing the large-diameter ends of the side walls, of the bottom plates of the lower reflecting cover, and an LED side lamp strip is arranged on the outer wall of the supporting cylinder; the lamp shade is arranged on the end face of the large-diameter end of the upper reflecting cover, the lower end face of the large-diameter end of the lower reflecting cover is provided with the lower lamp shade, and a side lamp shade which is concentrically arranged with the supporting cylinder and covers the supporting cylinder is arranged between the end face of the large-diameter end of the upper reflecting cover and the end face of the large-diameter end of the lower reflecting cover.

2. The multi-dimensional illumination LED lamp of claim 1, wherein: the lamp shade also comprises a suspender which is hollow in the middle, the lower end of the suspender is provided with an anti-falling head, the suspender sequentially penetrates through the bottom plate of the lower reflector, the supporting cylinder and the bottom plate of the upper reflector from bottom to top and then penetrates out of the upper reflector, and the anti-falling head is abutted against the bottom plate of the lower reflector; the outer wall of the suspender in the supporting cylinder is provided with a wire passing hole communicated with the middle part of the suspender.

3. A multi-dimensional illumination LED lamp according to claim 1 or 2, characterized in that: the side wall of the supporting cylinder is provided with a plurality of pairs of ventilation slotted holes which are arranged at intervals along the circumferential direction of the supporting cylinder.

4. The multi-dimensional illumination LED lamp of claim 3, wherein: the LED side light bars and the ventilation slotted holes are arranged in equal number, the LED side light bars and the ventilation slotted holes are positioned on the side wall of the supporting cylinder between the adjacent ventilation slotted holes, and the light emitting surface of the LED side light bars faces the inner wall of the side light cover.

5. A multi-dimensional illumination LED lamp according to claim 1 or 2, characterized in that: the outer edge of one side, back to the large-diameter end of the side wall, of the bottom plate of the upper reflecting cover is provided with an upper centering rib, and the outer edge of one side, back to the large-diameter end of the side wall, of the bottom plate of the lower reflecting cover is provided with a lower centering rib; the upper centering rib and the lower centering rib are respectively matched with the end face of the supporting cylinder so that the axes of the upper reflecting cover, the lower reflecting cover and the supporting cylinder are concentrically aligned.

6. The multi-dimensional illumination LED lamp of claim 5, wherein: the upper centering rib and the lower centering rib are both cylindrical and are in adaptive insertion connection with the inner wall of the supporting cylinder.

7. The multi-dimensional illumination LED lamp of claim 2, wherein: go up the center of the lamp top facing one side of the LED lamp plate that makes progress and be equipped with a dust protection section of thick bamboo, dust protection section of thick bamboo inner wall is equipped with the sealing washer sealed with jib outer wall adaptation.

8. The multi-dimensional illumination LED lamp of claim 1, wherein: and the inner wall and the outer wall of the upper reflecting cover and the lower reflecting cover are both provided with reflecting coatings.

9. The multi-dimensional illumination LED lamp of claim 1, wherein: the upper reflecting cover, the lower reflecting cover and the supporting cylinder are all made of aluminum alloy materials.

10. The multi-dimensional illumination LED lamp of claim 1, wherein: the upper lamp shade, the lower lamp shade and the side lamp shades are all milky white or semitransparent lamp shades.

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