CN104234280A - Connecting structure for LED (light-emitting diode) light strip efficacy high-efficiency conversion hollow glass curtain walls - Google Patents
Connecting structure for LED (light-emitting diode) light strip efficacy high-efficiency conversion hollow glass curtain walls Download PDFInfo
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- CN104234280A CN104234280A CN201410456083.5A CN201410456083A CN104234280A CN 104234280 A CN104234280 A CN 104234280A CN 201410456083 A CN201410456083 A CN 201410456083A CN 104234280 A CN104234280 A CN 104234280A
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Abstract
The invention relates to a connecting structure for LED light strip efficacy high-efficiency conversion hollow glass curtain walls. An aluminum alloy casing pipe is fixedly sheathed on an aluminum alloy column, and a bolt nut clamping slot is formed in the middle part of the front end face of the aluminum alloy casing pipe, aluminum alloy subframe clamping slots are respectively formed in both sides of the front end face, and a controller mounting slot is formed in the rear end of the aluminum alloy casing pipe; a rabbet is provided with an aluminum alloy pressing plate; an aluminum alloy subframe consists of front end slot frames, a support plate and rear end slot frames; each front end slot frame is an LED light strip efficacy high-efficiency conversion hollow glass curtain wall bonding frame, and an aluminum alloy pressing piece is inserted into the rear end slot frames, and is connected with the aluminum alloy casing pipe through the front end slot frames, a bolt hole in the support plate and the rear end slot frames, and a bolt nut is located in the bolt nut clamping slot in the front end face of the aluminum alloy casing pipe; clamping strips are respectively inserted into the clamping slots in both sides of the front end face of the aluminum alloy casing pipe; faces of the clamping strips are in contact with the faces of the rear end slot frames of the aluminum alloy subframe; two pieces of LED light strip efficacy high-efficiency conversion hollow glass are bonded onto the support plate and the rear end slot frames of the aluminum alloy subframe in a butt joint manner through powerful bonding mats and structural silicone sealant.
Description
Technical field
The present invention relates to a kind of existing hollow glass function, there is again LED glass light bar effect on hollow glass, there is again good heat radiator function and rate height light conversion effect simultaneously, the LED usefulness again with pole low thermal coefficient of expansion and good electrical insulation efficiently changes hollow glass curtain wall syndeton, belongs to LED hollow glass and manufactures field.
Background technology
CN 201125472Y, title " LED luminous transparent curtain wall ", comprise a transparent curtain wall brick and a transparent luminescent layer, described curtain wall brick is made up of two clear glass deck panels, the configuration space of the hollow formed in the middle of described two panels, described transparent luminescent layer is fixed in described configuration space.Its weak point: one is do not realize LED dot matrix glass molds; Two is the heat radiation difficult problems not solving LED chip, and light conversion efficiency is low, and energy consumption is large; Three is do not solve the large difficult problem of the coefficient of thermal expansion of surface layer glass glass; Four is do not solve the docking of LED luminous transparent curtain wall to connect.
CN 2563225 Y, title " a kind of LED luminous curtain wall plate ", embed LED lamp strip in hollow transparent plate, and this kind of LED lamp strip is connected by light emitting diode and series resistor is formed, then by many LED lamp strip parallel connections.Its weak point: one is do not realize LED dot matrix glass molds; Two is the heat radiation difficult problems not solving LED chip, and light conversion efficiency is low, and energy consumption is large; Three is do not solve the large difficult problem of the coefficient of thermal expansion of surface layer glass glass; Four is do not solve the docking of LED luminous transparent curtain wall to connect.
CN 201204001Y, title " a kind of curtain wall module that can show graph text information ", comprise inner layer glass (1), glass outer (2) and to be positioned between inner layer glass (1) and glass outer (2) and along the frame bar (3) of edge distribution, described inner layer glass (1), closed interlayer is defined between glass outer (2) and frame bar (3), it is characterized in that, described closed interlayer has been embedded in electronical display layer, described electronical display layer comprises at least one LED light-emitting pixels assembly (4), signal bus assembly (5) and power supply conflux assembly (6), the two ends of described LED light-emitting pixels assembly (4) assembly (6) that confluxes with signal bus assembly (5) and power supply respectively realizes mechanical connection and electric link.Its weak point: one is do not realize LED dot matrix glass molds; Two is the heat radiation difficult problems not solving LED chip, and light conversion efficiency is low, and energy consumption is large; Three is do not solve the large difficult problem of the coefficient of thermal expansion of surface layer glass glass; Four is do not solve the docking of LED luminous transparent curtain wall to connect.
Summary of the invention
Purpose of design: avoid the weak point in background technology, design one the present invention relates to a kind of existing hollow glass function, there is again LED glass light bar effect on hollow glass, have again good heat radiator function and rate height light conversion effect, the LED usefulness again with pole low thermal coefficient of expansion and good electrical insulation efficiently changes hollow glass curtain wall syndeton simultaneously.
Design scheme: in order to realize above-mentioned purpose of design.1, LED dot matrix glass molds belt adopts the design of heat absorbing glass, is one of technical characteristic of the present invention.The object done like this is: because heat absorbing glass adds a certain amount ofly have the colorant of heat absorption capacity or make at one or more layers metal of surface of plate glass spraying plating or metal-oxide film in the raw material of common soda lime glass, it can absorb a large amount of infrared radiation energy, therefore the heat that the conducting metal dot matrix guipure with LED chip produces can be conducted by heat absorbing glass by fast, LED chip is made to be in low-temperature working state all the time, because the luminous efficiency of LED chip and application life have directly depended on the height of its operating temperature, operating temperature is low, not only luminous efficiency is high, and long service life, energy consumption is little.2, the another side of LED dot matrix glass molds belt (heat absorbing glass mold layer) is equipped with the design of one deck heat radiator layer, is technical characteristic two of the present invention.The object done like this is: scribble heat-absorbing paint layer because heat radiator is laminated, this heat-absorbing paint layer is painted on the back side of heat absorbing glass, the heat that heat absorbing glass can absorb by it is passed to aluminium heat dissipating layer by heat-absorbing paint layer instantaneously, face due to aluminium heat dissipating layer is uneven matsurface, its area of dissipation is large, fast the mode of heat by air cooling can be shed, thus make heat absorbing glass be in low-temperature working state all the time.3, the one side of heat absorbing glass is embedded with the design of the conducting metal dot matrix guipure that one deck is made up of LED positive pole and negative pole, is technical characteristic three of the present invention.The object done like this is: embedded in heat absorbing glass by conducting metal dot matrix guipure, effectively can not only improve the intensity of heat absorbing glass, and is conducive to LED chip by the heat radiation of conducting metal dot matrix guipure, makes LED chip always work in low-temperature working state.4, showing the design that glass screen adopts quartz glass, is technical characteristic four of the present invention.The object done like this is: one is because quartz glass has extremely low coefficient of thermal expansion, high temperature tolerance, fabulous chemical stability, excellent electrical insulating property, low and stable ultrasonic delay performance, best saturating ultraviolet spectra performance and thoroughly visible ray and near infrared spectrum performance, and have the mechanical performance higher than simple glass; Two is that quartz glass has very high dielectric strength and extremely low conductance, namely be under high temperature, high pressure and high frequency, still can keep very high dielectric strength and resistance, in applied frequency band, almost not have dielectric loss, therefore quartz glass is excellent high-temperature dielectric insulation materials; Four is that quartz glass belongs to acid material, except hydrofluoric acid and hot phosphoric acid, all inertia is shown as to other any acid, it is best acid resisting material, and the extent of corrosion of alkali and salt pair quartz glass is also extremely micro-at normal temperatures, therefore the application adopts quartz glass efficiently to change hollow glass curtain wall surface layer glass as LED usefulness, achieves Heat stability is good, high-temperature dielectric insulation, does not have dielectric loss, acidproof, alkaline-resisting, salt tolerant, definition are high.5, LED usefulness efficiently changes the design that hollow glass curtain wall syndeton adopts aluminium alloys sleeve pipe to combine with aluminum alloy auxiliary frame, is the technical characteristic five of technical characteristic of the present invention.The object done like this is: because aluminum alloy sleeve pipe is fixed on Aluminum alloy column, be nuts buckling groove in the middle part of aluminium alloys sleeve pipe front end face, front end face both sides are aluminum alloy auxiliary frame buckling groove, aluminium alloys sleeve pipe rear end is controller mounting groove, notch is provided with aluminium alloys pressing plate, and aluminum alloy auxiliary frame is by front end slot frame, gripper shoe and rear end slot frame are formed, front end slot frame is that LED usefulness efficiently changes the bonding frame of hollow glass curtain wall, rear end slot frame is inserted with aluminium alloys briquetting and by front end slot frame, bolt hole in gripper shoe and rear end slot frame are connected with aluminium alloys sleeve pipe and nuts is positioned at the nuts buckling groove of aluminium alloys sleeve pipe front end face, thus the pressure achieved between aluminum alloy auxiliary frame with aluminium alloys sleeve pipe is connected, and be positioned at the face of the clamping bar of aluminium alloys sleeve pipe front end face both sides buckling groove and aluminum alloy auxiliary frame rear end slot frame face touches, achieve resilient engagement, guarantee the slow release of hollow glass rigidity, and two pieces of LED usefulness efficiently change hollow glass docked by strong adherence pad and copper silicon structure glue be bonded in aluminum alloy auxiliary frame gripper shoe and rear end slot frame on.
Technical scheme: a kind of LED usefulness efficiently changes hollow glass curtain wall syndeton, aluminum alloy sleeve pipe to be fixed on Aluminum alloy column and for nuts buckling groove, front end face both sides are aluminum alloy auxiliary frame buckling groove in the middle part of aluminium alloys sleeve pipe front end face, rear end is controller mounting groove, and notch is provided with aluminium alloys pressing plate, aluminum alloy auxiliary frame is by front end slot frame, gripper shoe and rear end slot frame are formed, front end slot frame is that LED usefulness efficiently changes the bonding frame of hollow glass curtain wall, rear end slot frame is inserted with aluminium alloys briquetting and by front end slot frame, bolt hole in gripper shoe and rear end slot frame are connected with aluminium alloys sleeve pipe and nuts is positioned at the nuts buckling groove of aluminium alloys sleeve pipe front end face, clamping bar is inserted with in the buckling groove of aluminium alloys sleeve pipe front end face both sides, clamping bar face and aluminum alloy auxiliary frame rear end slot frame face touch, two pieces of LED usefulness efficiently change hollow glass docked by strong adherence pad and copper silicon structure glue be bonded in aluminum alloy auxiliary frame gripper shoe and rear end slot frame on.
The present invention is compared with background technology, and one is the making achieving LED dot matrix glass modules; Two is the difficult problems solving LED chip heat radiation, when greatly increasing the wealth of the light conversion efficiency of LED, reduces energy consumption; Three is solve the large difficult problem of the coefficient of thermal expansion of surface layer glass glass, not only Heat stability is good, high-temperature dielectric insulation, does not have dielectric loss, and acidproof, alkaline-resisting, salt tolerant, definition are high; Four is that structure is simple, and cost of manufacture is low; Five is the reliable docking fundamentally solved between LED luminous transparent curtain wall.
Accompanying drawing explanation
Fig. 1 is the structural representation that LED usefulness efficiently changes hollow glass.
Fig. 2 is the side-looking structural representation of Fig. 1.
Fig. 3 is that in Fig. 1, aluminium alloys sleeve pipe is connected with Aluminum alloy column and syndeton schematic diagram between aluminum alloy auxiliary frame and aluminium alloys sleeve pipe.
Detailed description of the invention
Embodiment 1: with reference to accompanying drawing 1-3.A kind of LED usefulness efficiently changes hollow glass curtain wall syndeton, aluminium alloys sleeve pipe 12 to be fixed on Aluminum alloy column 13 and for nuts buckling groove 1201, front end face both sides are aluminum alloy auxiliary frame buckling groove 1202 in the middle part of aluminium alloys sleeve pipe 12 front end face, rear end is controller mounting groove, and notch is provided with aluminium alloys pressing plate 9, aluminum alloy auxiliary frame 15 is by front end slot frame 1503, gripper shoe 1501 and rear end slot frame 1504 are formed, front end slot frame 1503 efficiently changes the bonding frame of hollow glass curtain wall for LED usefulness, rear end slot frame 1504 is inserted with aluminium alloys briquetting 14 and by front end slot frame 1503, bolt hole 1502 in gripper shoe 1501 and rear end slot frame 1504 are connected with aluminium alloys sleeve pipe 12 and nuts is positioned at the nuts buckling groove 1201 of aluminium alloys sleeve pipe 12 front end face, clamping bar 1203 is inserted with in the buckling groove 1202 of aluminium alloys sleeve pipe 12 front end face both sides, clamping bar 1203 and aluminum alloy auxiliary frame 15 rear end slot frame 1504 face touch, two pieces of LED usefulness efficiently change hollow glass docked by strong adherence pad 19 and copper silicon structure glue 16 be bonded in aluminum alloy auxiliary frame 15 gripper shoe 1501 and rear end slot frame 1504 on.Nuts buckling groove 1201, Aluminum alloy column 13 and rear end slot frame 1504 have spool hole and circular spool 11 is through wherein.
LED usefulness efficiently changes hollow glass, comprise LED and show glass screen, described LED usefulness is efficiently changed hollow glass and is superposed (bonding) by glass or tempered glass layer 1 and LED dot matrix glass molds belt 5 and form hollow glass light bar layer, the one side that the one side of LED dot matrix glass molds belt (heat absorbing glass) 5 one edge or two edge or three edge or four edge is embedded with conducting metal dot matrix guipure band 3 that one deck is made up of LED positive pole and negative pole or LED dot matrix glass molds belt 5 one edge or two edge or three edge or four edge is equipped with conducting metal dot matrix guipure band (3) that conducting film is formed, LED chip 4 is positioned on the crosspoint of conducting metal dot matrix guipure, backing layer glass or backing layer tempered glass 18 are bonded in the back side of LED dot matrix glass molds belt 5 by hollow aluminum strip 17 and backing layer glass or backing layer tempered glass 18 area are less than LED dot matrix glass molds belt 5, make LED dot matrix glass molds belt 5 surrounding edge exposed.Described LED dot matrix glass molds belt 5 is heat absorbing glass, and the another side of heat absorbing glass is equipped with one deck heat radiator layer 10.Described heat radiator layer 10 one side scribbles heat-absorbing paint layer, and heat-absorbing paint layer is uneven coarse radiation aluminium surface layer, heat-absorbing paint system prior art, is not described herein at this.Described glass or 1, tempered glass layer are ground glass surface.The modular belt back side of described LED dot matrix glass molds belt 5 is equipped with high temperature glazed colour layer 6.Label 7 in accompanying drawing refers to controller, and label 8 refers to data wire, and its making is all prior art, is not described herein at this.
Embodiment 2: on the basis of embodiment 1, described quartz glass layer 1 is ground glass surface, object be reduce to greatest extent reflective.
LED usefulness is one of preparation method changing hollow glass efficiently,
(1)there is by the large little makings of LED dot matrix glass molds belt the conducting metal dot matrix guipure 3 divided of positive and negative electrode, then after heat absorbing glass being heated to melting softening point, by have positive and negative electrode point conducting metal dot matrix guipure 3 be pressed into softening heat absorbing glass face one edge of melting or two edge or three edge or four edge;
(2)one deck heat radiator layer 10 is equipped with at the heat absorbing glass back side;
(3)lED chip 4 be pasted onto conducting metal dot matrix guipure 4 crosspoint place and form LED dot matrix glass molds belt 5, then PVB or EVA film 2 is covered on LED dot matrix glass molds belt 5, then quartz glass layer 1 to be superimposed upon on PVB or EVA film and to stick to one with heat absorbing glass.Described heat radiator layer 10 refers to and sprays one deck heat-absorbing paint at the heat absorbing glass back side, then on heat-absorbing paint, sprays one deck aluminium film and the surperficial concave-convex surface structure of aluminium film.
LED usefulness efficiently changes the preparation method two of hollow glass,
(1)by the large little makings of LED dot matrix glass molds belt have positive and negative electrode point conducting metal dot matrix guipure 3, then adopt Screen-printed conductive film or sputtering conducting film in glass surface one edge or two edge or three edge or four edge and the conducting metal dot matrix guipure 3 formed;
(2)one deck heat radiator layer 10 is equipped with at the heat absorbing glass back side;
(3)lED chip 4 be pasted onto conducting metal dot matrix guipure 4 crosspoint place and form LED dot matrix glass molds belt 5, then PVB or EVA film 2 is covered on LED dot matrix glass molds belt 5, then quartz glass layer 1 to be superimposed upon on PVB or EVA film and to stick to one with heat absorbing glass.
It is to be understood that: although above-described embodiment to be contrasted detailed text description to mentality of designing of the present invention; but these text descriptions; just the simple text of mentality of designing of the present invention is described; instead of the restriction to mentality of designing of the present invention; any do not exceed mentality of designing of the present invention combination, increase or amendment, all fall within the scope of protection of the present invention.
Claims (2)
1. a LED usefulness efficiently changes hollow glass curtain wall syndeton, it is characterized in that: it is upper and for nuts buckling groove (1201), front end face both sides are aluminum alloy auxiliary frame buckling groove (1202) in the middle part of aluminium alloys sleeve pipe (12) front end face that aluminium alloys sleeve pipe (12) is fixed in Aluminum alloy column (13), rear end is controller mounting groove (1203), and notch is provided with aluminium alloys pressing plate (9), aluminum alloy auxiliary frame (15) is by front end slot frame (1503), gripper shoe (1501) and rear end slot frame (1504) are formed, front end slot frame (1503) efficiently changes the bonding frame of hollow glass curtain wall for LED usefulness, rear end slot frame (1504) is inserted with aluminium alloys briquetting (14) and passes through front end slot frame (1503), bolt hole (1502) in gripper shoe (1501) and rear end slot frame (1504) are connected with aluminium alloys sleeve pipe (12) and nuts is positioned at the nuts buckling groove (1201) of aluminium alloys sleeve pipe (12) front end face, clamping bar (1203) is inserted with in the buckling groove (1202) of aluminium alloys sleeve pipe (12) front end face both sides, clamping bar (1203) face and aluminum alloy auxiliary frame (15) rear end slot frame (1504) face touch, two pieces of LED usefulness efficiently change hollow glass docked by strong adherence pad (19) and copper silicon structure glue (16) be bonded in aluminum alloy auxiliary frame (15) gripper shoe (1501) and rear end slot frame (1504) on.
2. LED usefulness according to claim 1 efficiently changes hollow glass curtain wall syndeton, it is characterized in that: nuts buckling groove (1201), Aluminum alloy column (13) and rear end slot frame (1504) have spool hole and circular spool (11) is through wherein.
Priority Applications (1)
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CN201410456083.5A CN104234280B (en) | 2012-08-15 | 2012-08-15 | LED efficiency efficiently changes hollow glass curtain wall attachment structure |
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CN201410456083.5A CN104234280B (en) | 2012-08-15 | 2012-08-15 | LED efficiency efficiently changes hollow glass curtain wall attachment structure |
CN201210290059.XA CN102797310B (en) | 2012-08-15 | 2012-08-15 | Hollow glass for efficiently converting efficiency of LED (Light Emitting Diode) lamp strip and making method thereof |
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CN201210290059.XA Division CN102797310B (en) | 2012-08-15 | 2012-08-15 | Hollow glass for efficiently converting efficiency of LED (Light Emitting Diode) lamp strip and making method thereof |
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CN104234280A true CN104234280A (en) | 2014-12-24 |
CN104234280B CN104234280B (en) | 2017-07-14 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106400961A (en) * | 2016-11-27 | 2017-02-15 | 杭州秀沃农业科技有限公司 | Hard board supporting and covered dome framework device |
CN107119833A (en) * | 2017-07-13 | 2017-09-01 | 谊美吉斯光电科技(福建)有限公司 | A kind of frame system of LED photovoltaic glass |
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CN201649372U (en) * | 2010-01-05 | 2010-11-24 | 深圳市方大装饰工程有限公司 | Fireproof glass curtain wall with hidden frame |
CN201915529U (en) * | 2010-12-16 | 2011-08-03 | 苏州柯利达建筑装饰工程有限公司 | Photovoltaic integrated curtain wall system with amorphous silicon film battery |
CN102359214A (en) * | 2011-10-27 | 2012-02-22 | 沈阳远大铝业工程有限公司 | Hidden frame glass curtain wall with steel joist frame |
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Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2390936Y (en) * | 1999-02-09 | 2000-08-09 | 沈阳远大幕墙技术研究所 | Hidden frame glass and aluminium plate curtain wall |
JP4020772B2 (en) * | 2002-11-29 | 2007-12-12 | 不二サッシ株式会社 | Wall structure |
CN2846575Y (en) * | 2005-12-27 | 2006-12-13 | 深圳南玻幕墙工程有限公司 | Solar photoelectric building glass curtain wall |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106400961A (en) * | 2016-11-27 | 2017-02-15 | 杭州秀沃农业科技有限公司 | Hard board supporting and covered dome framework device |
CN107119833A (en) * | 2017-07-13 | 2017-09-01 | 谊美吉斯光电科技(福建)有限公司 | A kind of frame system of LED photovoltaic glass |
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