CN113446544B

CN113446544B - Underground lamp for landscape and garden

Info

Publication number: CN113446544B
Application number: CN202110768933.5A
Authority: CN
Inventors: 童涛; 陈晓熙; 向大军; 安羽; 陈玲; 李金龙; 李明
Original assignee: Hubei Huayu Dijing Landscape Engineering Co ltd
Current assignee: Hubei Huayu Dijing Landscape Engineering Co ltd
Priority date: 2021-07-07
Filing date: 2021-07-07
Publication date: 2022-07-19
Anticipated expiration: 2041-07-07
Also published as: CN113446544A

Abstract

The invention discloses a landscape garden embedded lamp which comprises a lamp shell, a first partition plate, a protective frame, a flow guide piece and a lamp body, wherein the first partition plate is arranged on the lamp shell; the lamp shell is internally provided with an installation cavity, and the lamp body is installed in the installation cavity; a water collecting cavity is arranged in the lamp shell around the installation cavity, and the upper end of the water collecting cavity is of an open structure; the first clapboards of a plurality of groups are distributed in the water collecting cavity at intervals and divide the water collecting cavity into a plurality of groups of component flow cavities. The lamp shell is internally provided with the water collecting cavity in a surrounding mode and a plurality of groups of first partition plates are arranged in the water collecting cavity at intervals and used for fixing the lamp shell, and the water collecting cavity is divided into a plurality of groups of flow distributing cavities, so that when the lamp shell conducts flow guiding and discharging on rainwater, soft garbage such as plastic bags can not be clamped in each flow distributing cavity, and the water collecting cavity is prevented from being blocked.

Description

Underground lamp for landscape and garden

Technical Field

The invention belongs to the field of lighting equipment, and particularly relates to a ground landscape garden underground lamp.

Background

The underground lamp takes an LED as a light source, and the lamp is buried underground and used as a lamp for ornamental decoration. The LED lamp is widely applied to greenbelts, government lighting projects, parks, lawns, courtyard lighting, pedestrian streets, parking lots, square night scene lighting, bridge decoration of building bodies and road lighting, and becomes an irreplaceable outdoor lighting product due to the special installation position of the LED lamp.

The existing underground lamp is generally integrally arranged to be of a circular columnar structure, if the underground lamp of the structure is installed on a park lawn, soil traces can be remained on the surface of the lamp after the underground lamp is washed by rainwater, and the heat dissipation effect of the underground lamp is poor because the lamp is sealed under the ground surface.

The patent with application number CN201910621080.5 discloses a bury lamp LED, it is through burying the inside installation cavity that sets up open-top of box with, the fixed middle box that sets up on the bottom surface of installation cavity, will bury the lamp and install in the middle intracavity of open-top in the middle box, so that bury the lamp and can keep certain radiating effect, but should bury the lamp and can't carry out the water conservancy diversion to its surperficial rainwater, earth etc. nevertheless, make after the rainwater erodees, the lamps and lanterns surface remains there is earth to lead to light to be covered.

Disclosure of Invention

In order to solve the problems, the invention provides a ground landscape garden underground lamp.

The landscape garden underground lamp comprises a lamp shell, a first clapboard, a protective frame, a flow guide piece and a lamp body;

the lamp shell is internally provided with an installation cavity, and the lamp body is installed in the installation cavity; a water collecting cavity is arranged in the lamp shell around the installation cavity, and the upper end of the water collecting cavity is of an open structure; the first partition plates are distributed in the water collecting cavity at intervals and divide the water collecting cavity into a plurality of groups of component flow cavities;

the side end of the protection frame is clamped at the upper ends of the groups of first partition plates; the upper end of the flow guide piece is fixedly connected with the lower end of the lamp shell, the interior of the flow guide piece is communicated with the plurality of component flow distribution cavities, the lower end of the flow guide piece inclines towards the direction far away from the installation cavity, and the lower end of the flow guide piece is of an open structure.

Further, the lamp housing comprises a first shell, a second shell, a connecting plate and a mounting plate;

the first shell is of a circular columnar structure, and the installation cavity is arranged inside the first shell; the second shell is of a circular columnar structure, the second shell is sleeved outside the first shell, the central axis of the second shell is superposed with the central axis of the first shell, and the water collecting cavity is formed between the second shell and the first shell; the connecting plate is of an annular plate-shaped structure, the lower end of the outer ring of the first shell is sleeved with the connecting plate, and the outer ring of the connecting plate is fixedly connected with the lower end of the inner ring of the second shell; the mounting plate is sleeved at the upper end of the outer ring of the second shell.

Furthermore, a plurality of groups of first partition plates are arranged in the water collecting cavity in an annular array, and the water collecting cavity is divided into a plurality of groups of branch cavities; the connecting plate is provided with a plurality of groups of flow guide holes which are arranged in an annular array and are respectively communicated with the plurality of groups of flow distributing cavities.

Furthermore, a plurality of groups the upper end of first baffle has all seted up the draw-in groove, the draw-in groove runs through first baffle towards one side end of first casing axis, the side of protection frame is mutually laminated with the opposite side end of a plurality of groups draw-in groove.

Furthermore, the upper end face of the second shell is horizontally arranged on the upper end face of the first shell, the upper end face of the first partition plate is obliquely arranged, one end of the upper end face of the first partition plate is positioned on the same plane with the top of the first shell, the other end of the upper end face of the first partition plate is positioned on the same plane with the top of the second shell, and the bottom face of the clamping groove is horizontally arranged on the upper end face of the first shell.

Furthermore, the diameter of the upper end of the flow guide hole is larger than that of the lower end of the flow guide hole.

Furthermore, the bottom surface of the diversion cavity is provided with a diversion surface, the inner ring of the diversion surface is connected with the upper end of the diversion hole, and the outer ring of the diversion surface inclines upwards towards the direction far away from the central axis of the diversion hole.

Furthermore, the outer ring of the protective frame is arranged into an annular frame, and a plurality of groups of fixed rods which are crosswise arranged are arranged in the annular frame;

the thickness of the annular frame is equal to the depth of the clamping groove.

Further, the flow guide piece comprises a first flow guide pipe, a second flow guide pipe and a second partition plate;

the first honeycomb duct with the upper end diameter of second honeycomb duct all is less than the lower extreme diameter, the second honeycomb duct cover is established at first honeycomb duct outer lane, a plurality of groups the second baffle is the annular array and sets up between first honeycomb duct and second honeycomb duct, a plurality of groups the space separation between first honeycomb duct and the second honeycomb duct is water conservancy diversion chamber for a plurality of groups to the second baffle.

Furthermore, protective nets are arranged at the lower ends of the first flow guide pipe, the second flow guide pipe and the groups of second partition plates, and the protective nets cover the lower ends of the groups of flow guide cavities.

The invention has the beneficial effects that:

1. the lamp shell is internally provided with the water collecting cavity around the installation cavity, the water collecting cavity is internally provided with a plurality of groups of first partition plates at intervals for fixing the lamp shell, and the water collecting cavity is simultaneously divided into a plurality of groups of flow distributing cavities, so that when the lamp shell conducts flow guiding and discharging on rainwater, soft garbage such as plastic bags and the like cannot be clamped in each flow distributing cavity, and the water collecting cavity is prevented from being blocked;

2. the obliquely expanded flow guide piece is arranged at the lower end of the lamp shell and used for increasing the contact area, so that the underground lamp is more stably installed under the ground surface;

3. erect on the first baffle of a plurality of groups through the side with the protection frame, should bury the protective effect of lamp better, can effectively prevent trampling or the damage that the heavy object falls the collision and causes.

Drawings

FIG. 1 is a schematic perspective view of an underground lamp according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of an underground lamp according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a lamp housing according to an embodiment of the invention;

fig. 4 shows a cross-sectional structure diagram of a flow guide member according to an embodiment of the invention.

In the figure: 100. a lamp housing; 110. a first housing; 111. a mounting cavity; 120. a second housing; 121. a water collection cavity; 130. a connecting plate; 131. a flow guide hole; 132. a flow guide surface; 140. mounting a plate; 200. a first separator; 210. a shunting cavity; 220. a card slot; 300. a protective frame; 400. a flow guide member; 410. a first draft tube; 420. a second draft tube; 430. a second separator; 431. a flow guide cavity; 440. a protective net; 500. a lamp body.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1 and 2, the landscape architecture underground lamp of the present invention includes a lamp housing 100, a first partition 200, a protective frame 300, a deflector 400, and a lamp body 500.

A mounting cavity 111 is formed in the lamp housing 100, and the lamp body 500 is mounted in the mounting cavity 111; a water collecting cavity 121 is formed in the lamp shell 100 around the mounting cavity 111, and the upper end of the water collecting cavity 121 is of an open structure; a plurality of groups of the first partition plates 200 are distributed in the water collecting cavity 121 at intervals, and divide the water collecting cavity 121 into a plurality of groups of component flow cavities; the side ends of the protective frame 300 are clamped at the upper ends of the groups of first partition boards 200, and a gap is reserved between the protective frame 300 and the lamp housing 100; the upper end of the flow guide part 400 is fixedly connected with the lower end of the lamp shell 100, the flow guide part 400 is communicated with the plurality of component flow distribution cavities, the lower end of the flow guide part 400 inclines towards the direction far away from the installation cavity 111, and the lower end of the flow guide part 400 is of an open structure and can be communicated with a drainage pipeline.

The lamp housing 100 is used for mounting the lamp body 500, and the whole lamp housing 100 can be buried in the ground; the first partition board 200 is used for dividing the water collecting cavity 121 into a plurality of groups of branch flow cavities and is also used for supporting and fixing the lamp housing 100; the diversion cavity is used for collecting rainwater and guiding the collected rainwater into the flow guide piece 400; the protective frame 300 is used for protecting the surface of the lamp housing 100, and damage caused by treading or falling and collision of heavy objects is avoided; the diversion member 400 is used for draining rainwater guided by the diversion cavity to a position far away from the lamp housing 100, and is also used for enhancing the grabbing force of the lamp housing 100 to the bottom surface.

Specifically, the upper end of the lamp housing 100 and the right above the installation cavity 111 are made of transparent plastic or glass.

Illustratively, the lamp housing 100 is buried in the ground, the upper end of the lamp housing 100 is fixed on the ground through a fastener, or the upper end of the lamp housing 100 is directly pressed on the ground for fixing, and the flow guide member 400 with the lower end inclined outwards is compacted by the soil layer, so that the lamp housing 100 is more stable;

when raining, the rainwater can follow the earth's surface flow direction and catchment chamber 121 to following each reposition of redundant personnel chamber and flowing into water conservancy diversion piece 400 behind getting into water chamber 121, discharge through water conservancy diversion piece 400 at last, again each reposition of redundant personnel chamber of this in-process all can be washed by the rainwater, washes the reposition of redundant personnel chamber through the rainwater, keeps clean, can also cool down lamps and lanterns shell 100 simultaneously, guarantees the normal use environment of lamps and lanterns shell 100 in installation cavity 111.

The underground lamp is more stably installed under the ground surface by providing the obliquely-expanded flow guide 400 at the lower end of the lamp housing 100 for increasing the contact area.

The water collecting cavity 121 is formed in the lamp shell 100 in a surrounding mode in the installation cavity 111, the first partition plates 200 of the plurality of groups are arranged in the water collecting cavity 121 at intervals and used for fixing the lamp shell 100, and meanwhile, the water collecting cavity 121 is divided into the plurality of groups of flow cavities, so that when rainwater is guided and discharged by the lamp shell 100, soft garbage such as plastic bags can not be clamped in each flow distributing cavity, and the blockage of the water collecting cavity 121 is avoided.

The side ends of the protective frame 300 are erected on the first partition boards 200, so that the underground lamp is better in protective effect and can effectively prevent damage caused by trampling or falling and collision of heavy objects.

The luminaire housing 100 comprises a first shell 110, a second shell 120, a connecting plate 130 and a mounting plate 140, as shown in fig. 3; the first casing 110 is a circular columnar structure, the installation cavity 111 is arranged inside the first casing 110, and the upper end of the first casing 110 is made of transparent plastic or glass; the second casing 120 is a circular columnar structure, the second casing 120 is sleeved outside the first casing 110, a central axis of the second casing 120 is overlapped with a central axis of the first casing 110, and the water collecting cavity 121 is formed between the second casing 120 and the first casing 110; the connecting plate 130 is of an annular plate-shaped structure, the connecting plate 130 is sleeved at the lower end of the outer ring of the first shell 110, and the outer ring of the connecting plate 130 is fixedly connected with the lower end of the inner ring of the second shell 120; the mounting plate 140 is sleeved on the upper end of the outer ring of the second housing 120.

A plurality of groups of the first partition plates 200 are arranged in the water collecting cavity 121 in an annular array, and divide the water collecting cavity 121 into a plurality of groups of the branch cavities 210; the connecting plate 130 is provided with a plurality of groups of flow guide holes 131, and the plurality of groups of flow guide holes 131 are arranged in an annular array and are respectively communicated with the plurality of groups of flow distribution cavities 210.

A plurality of groups draw-in groove 220 has all been seted up to the upper end of first baffle 200, draw-in groove 220 runs through first baffle 200 towards a side end of first casing 110 axis, the side of protection frame 300 is laminated mutually with the opposite side end of a plurality of groups draw-in groove 220.

The upper end surface of the second casing 120 is horizontally located on the upper end surface of the first casing 110, the upper end surface of the first partition board 200 is obliquely arranged, one end of the upper end surface of the first partition board 200 is located on the same plane as the top of the first casing 110, the other end of the upper end surface of the first partition board 200 is located on the same plane as the top of the second casing 120, and the bottom surface of the clamping groove 220 is horizontally located on the upper end surface of the first casing 110.

Through the inclined arrangement of the upper end face of the first partition board 200, one end of the upper end face of the first partition board 200 and the upper end face of the first shell 110 are located on the same plane, and the other end of the upper end face of the first partition board 200 and the upper end face of the second shell 120 are located on the same plane, so that the overall structure of the lamp shell 100 is smoother and more attractive.

The diameter of the upper end of the diversion hole 131 is larger than that of the lower end.

Set up through the upper end diameter with water conservancy diversion hole 131 and be greater than the lower extreme diameter, if mixed tiny debris in the rainwater to when blockking up in water conservancy diversion hole 131, maintainer can be fast with its mediation, and the mediation is convenient.

The bottom surface of the diversion cavity 210 is provided with a diversion surface 132, the inner ring of the diversion surface 132 is connected with the upper end of the diversion hole 131, and the outer ring of the diversion surface 132 inclines upwards towards the direction far away from the central axis of the diversion hole 131.

The diversion surface 132 for guiding rainwater is arranged on the bottom surface of the diversion cavity 210, so that rainwater can be drained out of the diversion cavity 210 more quickly.

The outer ring of the protection frame 300 is arranged to be an annular frame, and a plurality of groups of fixing rods which are arranged in a transverse and longitudinal crossed mode are arranged in the annular frame.

The thickness of the ring frame is equal to the depth of the slot 220.

By setting the thickness of the annular frame to be equal to the depth of the clamping groove 220, the surface of the protective frame 300 and the lamp housing 100 form a whole, so that external objects cannot be scratched, and the lamp housing is safe to use.

The flow guide 400 comprises a first flow guide pipe 410, a second flow guide pipe 420, a second partition 430 and a protective net 440, as shown in fig. 4; the diameters of the upper ends of the first draft tube 410 and the second draft tube 420 are smaller than the diameters of the lower ends, the second draft tube 420 is sleeved on the outer ring of the first draft tube 410, a plurality of groups of second partition plates 430 are arranged between the first draft tube 410 and the second draft tube 420 in an annular array, and the plurality of groups of second partition plates 430 divide the space between the first draft tube 410 and the second draft tube 420 into a plurality of groups of guide cavities 431; the protective net 440 is arranged in a circular or annular structure, and the protective net 440 is fixed at the lower ends of the first flow pipe 410, the second flow pipe 420 and the plurality of groups of second partition plates 430.

The filtering gap of the protective net 440 is larger than 1mm and smaller than 3 mm.

The upper end of the first guide pipe 410 is fixedly connected with the side of the bottom surface of the first shell 110, and the upper end of the second guide pipe 420 is fixedly connected with the lower end of the second shell 120; each group of the diversion cavities 431 is respectively communicated with a group of the diversion cavities 210 through a group of diversion holes 131.

Through setting up protection network 440 in the lower extreme of water conservancy diversion spare 400, can effectively avoid debris in the earth to get into in the water conservancy diversion spare 400.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a ground landscape buries lamp which characterized in that: the lamp comprises a lamp shell (100), a first clapboard (200), a protective frame (300), a flow guide piece (400) and a lamp body (500);

the lamp shell (100) is internally provided with a mounting cavity (111), and the lamp body (500) is mounted in the mounting cavity (111); a water collecting cavity (121) is formed in the lamp shell (100) in a surrounding mode in the installation cavity (111), and the upper end of the water collecting cavity (121) is of an open structure; a plurality of groups of first clapboards (200) are distributed in the water collecting cavity (121) at intervals and divide the water collecting cavity (121) into a plurality of groups of component flow cavities (210);

the side ends of the protective frame (300) are clamped at the upper ends of the groups of first partition plates (200); the upper end of the flow guide piece (400) is fixedly connected with the lower end of the lamp shell (100), the interior of the flow guide piece (400) is communicated with the plurality of component flow cavities (210), the lower end of the flow guide piece (400) inclines towards the direction far away from the installation cavity (111), and the lower end of the flow guide piece (400) is of an open structure;

a plurality of groups of first partition plates (200) are arranged in the water collecting cavity (121) in an annular array and divide the water collecting cavity (121) into a plurality of groups of flow distributing cavities (210);

the lamp housing (100) comprises a first shell (110), a second shell (120), a connecting plate (130) and a mounting plate (140); the first shell (110) is of a circular columnar structure, and the installation cavity (111) is arranged inside the first shell (110); the second shell (120) is of a circular columnar structure, the second shell (120) is sleeved on the outer side of the first shell (110), the central axis of the second shell (120) is overlapped with the central axis of the first shell (110), and a water collecting cavity (121) is formed between the second shell (120) and the first shell (110); the connecting plate (130) is of an annular plate-shaped structure, the lower end of the outer ring of the first shell (110) is sleeved with the connecting plate (130), and the outer ring of the connecting plate (130) is fixedly connected with the lower end of the inner ring of the second shell (120); the mounting plate (140) is sleeved at the upper end of the outer ring of the second shell (120);

a plurality of groups of flow guide holes (131) are formed in the connecting plate (130), and the plurality of groups of flow guide holes (131) are arranged in an annular array and are respectively communicated with the plurality of groups of flow distributing cavities (210);

the bottom surface of the flow dividing cavity (210) is provided with a flow guide surface (132), the inner ring of the flow guide surface (132) is connected with the upper end of the flow guide hole (131), and the outer ring of the flow guide surface (132) inclines upwards to face the direction far away from the central axis of the flow guide hole (131);

the water conservancy diversion spare (400) includes first honeycomb duct (410), second honeycomb duct (420) and second baffle (430), second honeycomb duct (420) cover is established at first honeycomb duct (410) outer lane, a plurality of groups second baffle (430) are the annular array and set up between first honeycomb duct (410) and second honeycomb duct (420), a plurality of groups space separation between first honeycomb duct (410) and second honeycomb duct (420) is for a plurality of water conservancy diversion chambeies (431) of dividing into a plurality of groups in second baffle (430).

2. The landscape architecture underground lamp of claim 1, wherein: the upper end of the first partition board (200) is provided with a plurality of clamping grooves (220), one side end of each clamping groove (220) facing the central axis of the first shell (110) penetrates through the corresponding first partition board (200), and the side end of the protection frame (300) is attached to the other side end of each clamping groove (220).

3. The landscape architecture underground lamp of claim 2, wherein: the up end level of second casing (120) is located on first casing (110) up end, the up end slope of first baffle (200) sets up, the one end and the first casing (110) top of first baffle (200) up end are located the coplanar, the other end and the second casing (120) top of first baffle (200) up end are located the coplanar, the bottom surface level of draw-in groove (220) is located on first casing (110) up end.

4. The landscape architecture underground lamp of claim 1, wherein: the diameter of the upper end of the flow guide hole (131) is larger than that of the lower end.

5. The landscape architecture underground lamp of claim 1, wherein: the outer ring of the protective frame (300) is arranged into an annular frame, and a plurality of groups of fixed rods which are crosswise arranged are arranged in the annular frame;

the thickness of the ring frame is equal to the depth of the clamping groove (220).

6. The landscape architecture underground lamp of claim 1, wherein: the upper end diameter of the first draft tube (410) and the second draft tube (420) is smaller than the lower end diameter.

7. The landscape architecture underground lamp of claim 6, wherein: the lower ends of the first draft tube (410), the second draft tube (420) and the groups of second partition plates (430) are provided with a protective net (440), and the protective net (440) covers the lower ends of the groups of draft chambers (431).