CN103511928B - A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size - Google Patents

A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size Download PDF

Info

Publication number
CN103511928B
CN103511928B CN201310444569.2A CN201310444569A CN103511928B CN 103511928 B CN103511928 B CN 103511928B CN 201310444569 A CN201310444569 A CN 201310444569A CN 103511928 B CN103511928 B CN 103511928B
Authority
CN
China
Prior art keywords
light
led
lamp
base plate
microcontroller
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201310444569.2A
Other languages
Chinese (zh)
Other versions
CN103511928A (en
Inventor
欧阳晔
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ningbo Klite Electric Manufacture Co Ltd
Original Assignee
Ningbo Klite Electric Manufacture Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ningbo Klite Electric Manufacture Co Ltd filed Critical Ningbo Klite Electric Manufacture Co Ltd
Priority to CN201310444569.2A priority Critical patent/CN103511928B/en
Publication of CN103511928A publication Critical patent/CN103511928A/en
Application granted granted Critical
Publication of CN103511928B publication Critical patent/CN103511928B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The invention discloses a kind of intelligent LED lamp for industrial use that evenly can change illuminating area size, provide a kind of and change by remote pilot a kind of intelligent LED lamp for industrial use that evenly can change illuminating area size that reflection shield subtended angle size changes the irradiated area size of light.The reflection shield of LED bay light comprises some pieces of reflectors, some pieces of stretchable sheets and one piece of base plate, and reflector is hingedly connected on base plate, and stretchable sheet and reflector interval are arranged and be connected; On the outer wall of reflection shield, slip cap is provided with sliding ring, and the lamp body of LED bay light is fixed with the pushing mechanism be connected with sliding ring; LED bay light is provided with universal rotary mechanism, LED bay light is provided with remote control system, microcontroller and automatic position telecontrol device, base plate is provided with electroluminescent lamp, and the control end of electroluminescent lamp, the control end of pushing mechanism, remote control system are connected with microcontroller respectively with the control end of automatic position telecontrol device.The present invention is mainly used in LED bay light and changes in irradiated area size technology.

Description

A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size
Technical field
The present invention relates to technical field of lamps, particularly relate to a kind of intelligent LED lamp for industrial use that evenly can change illuminating area size.
Background technology
In urban construction, the photoirradiated surface on building site amasss size due to unfettered, and the place originally should not irradiated but is subject to the irradiation of high light, produces light pollution.Such as, the illumination on building site is mapped to resident room, allow live in resident room some be subject to light pollution.Light pollution can bring inconvenience, and light pollution causes the impacts such as navigation also can to some biologies.
Existing LED bay light, subtended angle size due to reflection shield is all generally fixing, need to increase on the building site of irradiation light area at some, LED bay light is all generally fixedly mount on lamp stand somewhere in advance, LED bay light install rear general just should not often movement because mobile, LED bay light is installed, not only constructs comparatively inconvenient, increase labour cost, even also Danger Electric shock risk can occur.
If want to allow the irradiation light area of an already installed LED bay light increase, just this LED bay light toward moving a segment distance at a distance, the irradiation light area of a LED bay light must could be increased like this.The area irradiating light is increased by mobile already installed LED bay light, make LED bay light away from the place change needing to irradiate, occur that light exposure intensity is inadequate after light can be caused to be irradiated to the place of needs irradiation, illuminating effect is poor, affects the construction operation of workman.
If want to allow the irradiation light area of an already installed LED bay light reduce, just this LED bay light toward moving a segment distance nearby, the irradiation light area of a LED bay light so just must can be reduced.The area irradiating light is reduced by mobile already installed LED bay light, make LED bay light close to the place change needing to irradiate, light occurs that light exposure intensity is excessively strong after can be caused to be irradiated to the place of needs irradiation, cross the eyes that strong illumination can injure workman, affect the construction operation of workman.
China Patent Publication No. 101576232, publication date on November 11st, 2009, disclose a kind of LED reflection shield, comprise housing, it is characterized in that housing forward end is the square of opening, a through hole is offered at back-end central position, and the reflective surface of housing is four limit tapers, be made up of at least six ladders connected successively or sine wave from front to back, described reflective surface arranged the reflective membrane be made up of insulating materials.Weak point is, this reflection shield is fixed due to subtended angle size, and inconvenience is amassed size to photoirradiated surface and controlled, and easily produces light pollution.
Summary of the invention
The present invention fixes to solve existing reflection shield due to subtended angle size, inconvenience is amassed size to photoirradiated surface and is controlled, easy generation light pollution is not enough, there is provided a kind of structure simple, easy to use, good heat dissipation effect, light pollution is little, intelligent rotation regulates, and changes reflection shield subtended angle size by remote pilot, and then a kind of intelligent LED lamp for industrial use that evenly can change illuminating area size of the irradiated area size of control light.
To achieve these goals, the present invention is by the following technical solutions:
A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size, the reflection shield of LED bay light comprises some pieces of reflector, some pieces of stretchable sheets and the one piece of base plate in regular polygon respectively in isosceles trapezoid, the bottom of described reflector is hingedly connected on base plate, described stretchable sheet and described reflector interval are arranged, and every block stretchable sheet is connected on the adjacent wall end of adjacent two pieces of reflectors; On the outer wall of reflection shield, slip cap is provided with sliding ring, and sliding ring moves forward and backward the subtended angle size variation driving reflection shield; The lamp body of LED bay light is fixed with pushing mechanism, and the expansion link of pushing mechanism is connected with sliding ring, pushing mechanism drives sliding ring to move forward and backward; The lamp body of LED bay light is provided with a universal rotary mechanism, LED bay light is provided with remote control system, microcontroller and automatic position telecontrol device, base plate is furnished with several electroluminescent lamps, the control end of each electroluminescent lamp is connected with microcontroller, and control end, the described remote control system of described pushing mechanism are connected with microcontroller respectively with the control end of described automatic position telecontrol device.
This programme is made up of reflection shield the reflector of activity and stretchable sheet, by remote control system and microprocessor control pushing mechanism, and the sliding ring allowing pushing mechanism promote the reflection shield back side moves forward and backward to control the size of reflection shield subtended angle, and then control the irradiated area size of light, ensure that the size of illuminating area is in the scope be applicable to, reduce light to the light pollution of surrounding enviroment.This programme structure is simple, and easy to use, good heat dissipation effect, light pollution is little.By the automatic positioning instruction that remote control system sends to microcontroller, automatic position telecontrol device passed to by microcontroller automatically framing signal, automatic position telecontrol device passes to microcontroller after calculating and rotating conditioning signal, microcontroller sends rotate instruction according to rotation conditioning signal to universal rotary mechanism, and universal rotary mechanism rotates to the direction of specifying the lampshade mouth of LED bay light.Use simple, intelligent automaticization degree is high.The cooperation of remote control system, automatic position telecontrol device, universal rotary mechanism and microcontroller, to have allowed LED bay light have intelligent rotates the function and effect that regulate, is the needs that LED bay light is applicable to construction operation more.Universal rotary mechanism can universal rotational by LED bay light, as long as after installing LED bay light, can regulate any direction, intelligent and automaticity is high, the free degree and hommization degree also higher.
As preferably, be provided with in "T"-shaped slide rail inside sliding ring, every block reflector outer wall is axially arranged with the chute coordinated with slide rail, and slide rail is slidably connected in chute.The opening and closing of effectively fixing reflector, easily ensure that reflection shield subtended angle size meets illumination requirement.
As preferably, uniformly on sliding ring be connected with two connecting rods, the pedestal of described pushing mechanism is fixedly mounted on the radiator outer surface of LED bay light, and the expansion link of pushing mechanism is rotatably connected on sliding ring.Because pushing mechanism is not working always, the metal on pushing mechanism also increases area of dissipation, and pushing mechanism fixed installation is just increased area of dissipation, good heat dissipation effect on a heat sink, and structure is simple.
As preferably, described base plate is regular hexagon, and the stretchable sheet of the corner of base plate and corresponding position is just to being connected.This structure allows the opening and closing effect of reflection shield, and reflecting effect might as well.Orthohexagonal base plate provides space to heat radiation and freely arranging of electroluminescent lamp, fully can ensure that the irradiating angle of electroluminescent lamp is best, and prerequisite can be provided for electroluminescent lamp sets out preferably heat radiation layout, this programme structure is simple, be convenient to electroluminescent lamp location arrangements and adjustment.
As preferably, base plate is provided with six edge louvres, three intermediate radiator holes and a center louvre, six uniform centers being arranged on edge, base plate every limit of edge louvre, center louvre is arranged in the center of base plate, three intermediate radiator holes are arranged on the base plate between center louvre and edge louvre, and three uniform surroundings being arranged on centre bore in intermediate radiator hole; Described electroluminescent lamp comprises LED chip lamp in the middle of six edge LED chip lamps and three, six edge LED chip lamps are arranged in the corner at base plate edge, in the middle of three, LED chip lamp is arranged on the base plate between center louvre and edge louvre, and the uniform surrounding being arranged on intermediate radiator hole of LED chip lamp in the middle of three, middle LED chip lamp and intermediate radiator span are arranged.This arrangement can ensure radiating effect and electroluminescent lamp irradiating angle the best.
As preferably, described six edge louvres and described six edge LED chip lamps are on same cylindrical, described three intermediate radiator holes and described three middle LED chip lamps are in same middle circle, and the center of circle of the center of circle of cylindrical and middle circle overlaps with the hole heart of center louvre respectively.After change reflection shield subtended angle, this structure makes electroluminescent lamp irradiate evenly, and lighting effect is good.
As preferably, the radiator of LED bay light is respectively equipped with and mates corresponding air-guiding hole with edge louvre, intermediate radiator Kong He center louvre, and on air-guiding hole, be connected with spiral open wind guide tank.After changing reflection shield subtended angle, the temperature in reflection shield can change to some extent, and this structure makes electroluminescent lamp good heat dissipation effect, can extend the service life of electroluminescent lamp.
As preferably, the radiator of LED bay light is respectively equipped with the heating column mated with edge LED chip lamp and middle LED chip lamp, and heating column and wind guide tank heat conduction are linked to be in one.After changing reflection shield subtended angle, the temperature in reflection shield can change to some extent, and this structure makes electroluminescent lamp good heat dissipation effect, can extend the service life of electroluminescent lamp.
As preferably, the base plate in reflection shield posts one deck lens, and LED chip lamp is arranged between lens and base plate, and is provided with several little pores on the lens of each edge louvre, louvre corresponding position, intermediate radiator Kong He center.Lens can available protecting LED chip lamp, and little pore is convenient to cross-ventilation, and it is long that little pore also helps the time that cold air stops on lens, good cooling results.
The present invention can reach following effect:
1, by remote control system and microprocessor control pushing mechanism, and the sliding ring allowing pushing mechanism promote the reflection shield back side moves forward and backward to control the size of reflection shield subtended angle, and then control the irradiated area size of light, ensure that the size of illuminating area is in the scope be applicable to, and reduces the light pollution of light to surrounding enviroment.
2, do not move lamp stand and just can change the long-pending size of photoirradiated surface, with low cost, safe and efficient, structure is simple, and easy to use, good heat dissipation effect, light pollution is little.
3, good heat dissipation effect, can extend the service life of LED bay light greatly.
4, the cooperation of remote control system, automatic position telecontrol device, universal rotary mechanism and microcontroller, to have allowed LED bay light have intelligent rotates the function and effect that regulate, is the needs that LED bay light is applicable to construction operation more.
Accompanying drawing explanation
Fig. 1 is a kind of structural representation after the present invention assembles.
Fig. 2 is sliding ring of the present invention is slidably connected in reflector chute a kind of structural representation by slide rail.
Fig. 3 is that the one of base plate of the present invention faces structural representation.
Fig. 4 is a kind of structural representation of electroluminescent lamp of the present invention.
Fig. 5 is a kind of structural representation of lens of the present invention.
Fig. 6 is a kind of decomposition texture schematic diagram of radiator of the present invention, reflection shield, base plate, electroluminescent lamp lamp and lens.
Fig. 7 is the TV structure schematic diagram of a kind of end of radiator of the present invention.
Fig. 8 is a kind of top view structural representation of lens of the present invention.
Fig. 9 is a kind of circuit catenation principle structural schematic block diagram of lens of the present invention.
In figure: radiator 1, pushing mechanism 2, connecting rod 3, slide rail 4, sliding ring 5, chute 6, stretchable sheet 7, reflector 8, chain connection 9, reflection shield 10, lamp body 11, base plate 12, edge louvre 13, intermediate radiator hole 14, center louvre 15, corner 16, electroluminescent lamp 17, edge LED chip lamp 18, middle LED chip lamp 19, lens 20, little pore 21, air-guiding hole 22, wind guide tank 23, heating column 24, remote control system 25, microcontroller 26, automatic position telecontrol device 27, universal rotary mechanism 28.
Detailed description of the invention
Below by embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.
Embodiment: a kind of intelligent LED lamp for industrial use that evenly can change illuminating area size, shown in Fig. 1, Fig. 2, Fig. 4, Fig. 6, Fig. 9, the reflection shield 10 of LED bay light comprises six pieces of reflector 8, six pieces of stretchable sheets 7 respectively in isosceles trapezoid and one piece in orthohexagonal base plate 12, the bottom chain connection 9 of reflector is on base plate, stretchable sheet and reflector interval are arranged, and every block stretchable sheet is connected on the adjacent wall end of adjacent two pieces of reflectors, and the stretchable sheet of the corner 16 of base plate and corresponding position is just to being connected.On the outer wall of reflection shield, slip cap is provided with sliding ring 5, is provided with in "T"-shaped slide rail 4 inside sliding ring, and every block reflector outer wall is axially arranged with the chute 6 coordinated with slide rail, and slide rail is slidably connected in chute.The lamp body 11 of LED bay light is fixed with pushing mechanism 2, the pedestal of pushing mechanism is fixedly mounted on radiator 1 outer surface of LED bay light, and the expansion link of pushing mechanism is rotationally connected by two connecting rods 3 and sliding ring, two connecting rods are uniform is connected on sliding ring for this, pushing mechanism drives sliding ring to move forward and backward, and sliding ring moves forward and backward the subtended angle size variation driving reflection shield; The lamp body of LED bay light is provided with a universal rotary mechanism 28, in use, universal rotary mechanism is arranged on and supports on lamp stand, just can rotate LED bay light arbitrarily by the rotation of universal rotary mechanism.
Shown in Fig. 3, Fig. 6, base plate is provided with six edge louvres, 13, three intermediate radiator holes 14 and a center louvre 15, six uniform centers being arranged on edge, base plate every limit of edge louvre, center louvre is arranged in the center of base plate, three intermediate radiator holes are arranged on the base plate between center louvre and edge louvre, and three uniform surroundings being arranged on centre bore in intermediate radiator hole; Electroluminescent lamp comprises LED chip lamp 19 in the middle of six edge LED chip lamps 18 and three, six edge LED chip lamps are arranged in the corner at base plate edge, in the middle of three, LED chip lamp is arranged on the base plate between center louvre and edge louvre, and the uniform surrounding being arranged on intermediate radiator hole of LED chip lamp in the middle of three, middle LED chip lamp and intermediate radiator span are arranged.Six edge louvres and six edge LED chip lamps are on same cylindrical, and three intermediate radiator holes and three middle LED chip lamps are in same middle circle, and the center of circle of the center of circle of cylindrical and middle circle overlaps with the hole heart of center louvre respectively.
Shown in Fig. 7, Fig. 8, the radiator of LED bay light is respectively equipped with and mates corresponding air-guiding hole 22 with edge louvre, intermediate radiator Kong He center louvre, and on air-guiding hole, be connected with spiral open wind guide tank 23.The radiator of LED bay light is respectively equipped with the heating column 24 mated with edge LED chip lamp and middle LED chip lamp, and heating column and wind guide tank heat conduction are linked to be in one.
Shown in Fig. 5, Fig. 6, base plate in reflection shield posts one deck lens 20, and LED chip lamp is arranged between lens and base plate, and be provided with several little pores 21 on the lens of each edge louvre, louvre corresponding position, intermediate radiator Kong He center.
Shown in Figure 9, LED bay light is provided with remote control system 25, microcontroller 26 and automatic position telecontrol device 27, base plate is furnished with six electroluminescent lamps 17, the control end of each electroluminescent lamp is connected with microcontroller, and control end, the remote control system of pushing mechanism are connected with microcontroller respectively with the control end of automatic position telecontrol device.
In use, if want to allow the irradiation light area of an already installed LED bay light increase, just sent the instruction of subtended angle increase to microcontroller by remote control system, pushing mechanism pulls back band sliding way circle and moves backward, the sliding ring backward mobile subtended angle of reflection shield that drives becomes large, thus increase the irradiation light area of this LED bay light, meet user and LED bay light is increased to the needs irradiating light area.The situation of dim is there is after light area increases if irradiate, the signal strengthening light can also be sent to microcontroller by remote control system, microcontroller increases the bright number of LED chip lamp according to instruction, or increase the brightness that supply voltage increases LED chip lamp, meet the lamplight brightness needs of construction operation.
By the automatic positioning instruction that remote control system sends to microcontroller, automatic position telecontrol device passed to by microcontroller automatically framing signal, automatic position telecontrol device passes to microcontroller after calculating and rotating conditioning signal, microcontroller sends rotate instruction according to rotation conditioning signal to universal rotary mechanism, and universal rotary mechanism rotates to the direction of specifying the lampshade mouth of LED bay light.
Use simple, intelligent automaticization degree is high.Universal rotary mechanism can universal rotational by LED bay light, as long as after installing LED bay light, can regulate any direction, intelligent and automaticity is high, the free degree and hommization degree also higher.
If want to allow the irradiation light area of an already installed LED bay light diminish, just send the instruction that subtended angle diminishes to microcontroller by remote control system, pushing mechanism forward pushing belt sliding way circle moves forward, sliding ring moves forward and drives the subtended angle of reflection shield to diminish, thus reduce the irradiation light area of this LED bay light, meet user and LED bay light is reduced to the needs irradiating light area.If irradiation light area reduces rear appearance irradiation, light spends strong situation, then sent the signal weakening light to microcontroller by remote control system, microcontroller reduces the bright number of LED chip lamp according to instruction, or weaken supply voltage to reduce the brightness of LED chip lamp, meet the lamplight brightness needs of construction operation.The eyes of protection workmen.
The present embodiment is reflector movable for reflection shield and stretchable sheet composition, by remote control system and microprocessor control pushing mechanism, and the sliding ring allowing pushing mechanism promote the reflection shield back side moves forward and backward to control the size of reflection shield subtended angle, and then control the irradiated area size of light, ensure that the size of illuminating area is in the scope be applicable to, reduce light to the light pollution of surrounding enviroment.The present embodiment structure is simple, and easy to use, good heat dissipation effect, light pollution is little.
Describe embodiments of the present invention by reference to the accompanying drawings above, but do not limit by above-described embodiment when realizing, those of ordinary skill in the art can make a variety of changes within the scope of the appended claims or revise.

Claims (1)

1. one kind evenly can change the intelligent LED lamp for industrial use of illuminating area size, it is characterized in that, the reflection shield (10) of LED bay light comprises six pieces of reflectors (8) respectively in isosceles trapezoid, six pieces of stretchable sheets (7) and one piece are orthohexagonal base plate (12), the bottom chain connection (9) of described reflector is on base plate, described stretchable sheet and described reflector interval are arranged, and every block stretchable sheet is connected on the adjacent wall end of adjacent two pieces of reflectors, and the stretchable sheet of the corner of base plate (16) and corresponding position is just to being connected;
On the outer wall of reflection shield, slip cap is provided with sliding ring (5), be provided with in "T"-shaped slide rail (4) inside sliding ring, every block reflector outer wall is axially arranged with the chute (6) coordinated with slide rail, and slide rail is slidably connected in chute; The lamp body (11) of LED bay light is fixed with pushing mechanism (2), and the pedestal of described pushing mechanism is fixedly mounted on the radiator of LED bay light (1) outer surface; Uniformly on sliding ring be connected with two connecting rods (3), the expansion link of pushing mechanism is rotatably connected on two connecting rods; Pushing mechanism drives sliding ring to move forward and backward, and sliding ring moves forward and backward the subtended angle size variation driving reflection shield;
The lamp body of LED bay light is provided with a universal rotary mechanism (28), LED bay light is provided with remote control system (25), microcontroller (26) and automatic position telecontrol device (27); Control end, the described remote control system of described pushing mechanism are connected with microcontroller respectively with the control end of described automatic position telecontrol device;
Base plate is provided with six edge louvres (13), three intermediate radiator holes (14) and a center louvre (15), six uniform centers being arranged on edge, base plate every limit of edge louvre, center louvre is arranged in the center of base plate, three intermediate radiator holes are arranged on the base plate between center louvre and edge louvre, and three uniform surroundings being arranged on centre bore in intermediate radiator hole; Base plate is furnished with several electroluminescent lamps (17), and the control end of each electroluminescent lamp is connected with microcontroller; Described electroluminescent lamp comprises LED chip lamp (19) in the middle of six edges LED chip lamp (18) and three, six edge LED chip lamps are arranged in the corner at base plate edge, in the middle of three, LED chip lamp is arranged on the base plate between center louvre and edge louvre, and the uniform surrounding being arranged on intermediate radiator hole of LED chip lamp in the middle of three, middle LED chip lamp and intermediate radiator span are arranged; Described six edge louvres and described six edge LED chip lamps are on same cylindrical, described three intermediate radiator holes and described three middle LED chip lamps are in same middle circle, and the center of circle of the center of circle of cylindrical and middle circle overlaps with the hole heart of center louvre respectively; The radiator of LED bay light is respectively equipped with and mates corresponding air-guiding hole (22) with edge louvre, intermediate radiator Kong He center louvre, and on air-guiding hole, be connected with spiral open wind guide tank (23); The radiator of LED bay light is respectively equipped with the heating column (24) mated with edge LED chip lamp and middle LED chip lamp, and heating column and wind guide tank heat conduction are linked to be in one; Base plate in reflection shield posts one deck lens (20), and LED chip lamp is arranged between lens and base plate, and be provided with several little pores (21) on the lens of each edge louvre, louvre corresponding position, intermediate radiator Kong He center;
The using method that evenly can change the intelligent LED lamp for industrial use of illuminating area size is:
If want to allow the irradiation light area of an already installed LED bay light increase, just sent the instruction of subtended angle increase to microcontroller by remote control system, pushing mechanism pulls back band sliding way circle and moves backward, the sliding ring backward mobile subtended angle of reflection shield that drives becomes large, thus increase the irradiation light area of this LED bay light, meet user and LED bay light is increased to the needs irradiating light area; The situation of dim is there is after light area increases if irradiate, then sent the signal strengthening light to microcontroller by remote control system, microcontroller increases the bright number of LED chip lamp according to instruction, or increase the brightness that supply voltage increases LED chip lamp, meet the lamplight brightness needs of construction operation;
If want to allow the irradiation light area of an already installed LED bay light diminish, just send the instruction that subtended angle diminishes to microcontroller by remote control system, pushing mechanism forward pushing belt sliding way circle moves forward, sliding ring moves forward and drives the subtended angle of reflection shield to diminish, thus reduce the irradiation light area of this LED bay light, meet user and LED bay light is reduced to the needs irradiating light area; If irradiation light area reduces rear appearance irradiation, light spends strong situation, then sent the signal weakening light to microcontroller by remote control system, microcontroller reduces the bright number of LED chip lamp according to instruction, or weaken supply voltage to reduce the brightness of LED chip lamp, meet the lamplight brightness needs of construction operation;
By the automatic positioning instruction that remote control system sends to microcontroller, automatic position telecontrol device passed to by microcontroller automatically framing signal, automatic position telecontrol device passes to microcontroller after calculating and rotating conditioning signal, microcontroller sends rotate instruction according to rotation conditioning signal to universal rotary mechanism, and universal rotary mechanism rotates to the direction of specifying the lampshade mouth of LED bay light.
CN201310444569.2A 2013-09-23 2013-09-23 A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size Active CN103511928B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201310444569.2A CN103511928B (en) 2013-09-23 2013-09-23 A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201310444569.2A CN103511928B (en) 2013-09-23 2013-09-23 A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size

Publications (2)

Publication Number Publication Date
CN103511928A CN103511928A (en) 2014-01-15
CN103511928B true CN103511928B (en) 2016-03-02

Family

ID=49895085

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201310444569.2A Active CN103511928B (en) 2013-09-23 2013-09-23 A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size

Country Status (1)

Country Link
CN (1) CN103511928B (en)

Families Citing this family (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104763905A (en) * 2015-04-20 2015-07-08 苏州汉瑞森光电科技有限公司 Illumination scope adjustable LED illuminating lamp
CN105999328A (en) * 2016-07-11 2016-10-12 安徽升隆电气有限公司 Ultraviolet germicidal lamp
US10980190B2 (en) * 2017-07-18 2021-04-20 Sat Parkash Gupta Environment-controlled greenhouse with compressor and blower modules
CN110447412B (en) * 2019-08-22 2021-06-29 深圳市普威迅科技有限公司 Uniform light low-heat type illumination compensation system for crop growth promotion
CN114413217B (en) * 2020-01-18 2023-08-25 深圳市强流明光电有限公司 Industrial and mining lamp with strong adjustability
CN111846050B (en) * 2020-06-24 2023-03-31 江永县元杰科技有限公司 Intelligent bicycle lamp and bicycle using same
CN113251323A (en) * 2021-04-30 2021-08-13 深圳晶石半导体科技有限公司 Light-concentrated LED light source beneficial to light distribution
CN116428550B (en) * 2023-06-08 2023-08-15 佛山市南海区佳富达金属制品有限公司 Stage lamp

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN202403194U (en) * 2011-11-24 2012-08-29 胡宇峰 Adjustable spotlight and floodlight assembly
CN203501061U (en) * 2013-09-23 2014-03-26 宁波凯耀电器制造有限公司 LED industrial and mineral lamp

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2013005971A2 (en) * 2011-07-06 2013-01-10 엘지이노텍 주식회사 Lighting device

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN202403194U (en) * 2011-11-24 2012-08-29 胡宇峰 Adjustable spotlight and floodlight assembly
CN203501061U (en) * 2013-09-23 2014-03-26 宁波凯耀电器制造有限公司 LED industrial and mineral lamp

Also Published As

Publication number Publication date
CN103511928A (en) 2014-01-15

Similar Documents

Publication Publication Date Title
CN103511928B (en) A kind of intelligent LED lamp for industrial use that evenly can change illuminating area size
CN103511986B (en) A kind of bulkhead lamp capable that can change arbitrarily irradiation light area shape and size
CN203501062U (en) Industrial and mineral lamp capable of freely changing shape and dimension of illumination light area
CN108536173B (en) Building monitoring device
CN203431636U (en) Matrix type solar simulator
CN103225789A (en) Bidirectional light-emitting robot brain stage lamp
CN109114480A (en) A kind of Telescopic LED shot-light
CN207213810U (en) A kind of LED floodlight of specular removal
CN206817351U (en) A kind of adjustable type Down lamp
CN202992804U (en) Spotlight
CN203501061U (en) LED industrial and mineral lamp
CN103133904B (en) The adjustable LED lamp tube of irradiating angle
CN202629823U (en) LED (Light Emitting Diode) integrated reflective shadowless lamp
CN205316140U (en) LED (light -emitting diode) projection lamp
CN205026529U (en) LED inhales a shot -light
CN210860822U (en) Projecting lamp convenient to adjust projection direction
KR101580617B1 (en) Outdoor LED lamp mechanism for easy selection of lighting section
KR20130123075A (en) Sunlight simulator
CN212657627U (en) Outdoor light-spreading lamp
CN202452279U (en) LED (light-emitting diode) track reflector lamp
JP3216147U (en) Outdoor light with a choice of light irradiation direction
CN207514738U (en) A kind of fixed LED ceiling lamp
KR101134218B1 (en) Lighting Apparatus having a light beam adjusting device
CN218469040U (en) LED projecting lamp with heat radiation structure
CN209245932U (en) A kind of photovoltaic building wireless LED lighting device

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant