CN201255968Y - Dazzling energy-saving nano screen - Google Patents

Abstract

The utility model discloses a colorful energy-saving nano screen comprising a substrate, a framework, a controller and a power supply, wherein the substrate is equipped with dot-matrix light sources, the framework is used to mount the substrate, the controller is used to control lighting or extinguishing of the dot-matrix light sources, the power supply supplies power to the dot-matrix light sources and the controller, the light sources include a plurality of atomic lamps, and the profile of the dot-matrix is identical to the profile of a displayed word or pattern required by users. As the light sources are atomic lamps, the colorful energy-saving nano screen has the advantages of super high brightness, bright color, high lighting efficiency, strong transmission capacity, low power consumption, long service life and stable performance, thereby guaranteeing bright color of the display object. As the profile of the atomic lamp dot-matrix is identical to the profile of a displayed word or pattern required by users, redundant atomic lamps are reduced, thereby further realizing energy saving and cost reduction. In addition, resetting the arrangement way of the atomic lamps, contents of words or patterns required to change can be changed without an external computer for editing and processing, which is favorable for reducing using cost.

Description

A kind of color energy-saving nanometer screen of dazzling

Technical field

The utility model relates to showing the device that the indicating device of variable information is controlled with static method, is a kind of color energy-saving nanometer screen of dazzling specifically.

Background technology

Advertising lamp box, typically refer to a kind of can display text, the billboard of information such as figure or picture because have that propaganda is professional, exhibiting product and even corporate image, function such as canvass business orders, play an increasingly important role in present day society.

At present, advertising lamp box on the market mostly adopts the neon bulb of traditional glow discharge as light source, this lamp box, though it is bright in luster, brightness is high, but its luminescence efficiency is low, energy consumption is high, serviceable life is short, and be not easy to make comparatively meticulous pattern or comparatively complicated literal, therefore can not satisfy the demand for development of current social.

In recent years, a kind of advertisement lamp box of the LED of having electronic display occurred, its luminescence efficiency is higher, and energy consumption is lower, serviceable life is longer, and can dynamically show various meticulous literal or image.But this advertising lamp box still has certain defective, is summarized as follows:

The one, color is gorgeous inadequately, and the green of existing three-primary color LED is often pure inadequately, easily causes the display object color distortion of electronic display; The 2nd, it is too high that energy consumption is still disliked, and all arranges LED on each pixel of electronic display, and a plurality of redundant LED also consume certain electric energy.In addition, the LED electronic display generally needs outer computer that displaying contents is edited, handled, and its use cost is higher, is difficult to satisfy users' such as medium-sized and small enterprises, self-employed entrepreneur demand.

The utility model content

In view of this, the utility model provides a kind of lower-cost color energy-saving nanometer screen of dazzling, and its display object is lucuriant in design, has energy-saving effect preferably.

For solving above technical matters, the utility model provides dazzles color energy-saving nanometer screen, and its technical scheme is: comprise the substrate that is provided with the dot matrix light source, in order to framework that described substrate is installed, in order to control the glittering or controller that extinguishes of described dot matrix light source and with the power supply of thinking that described dot matrix light source and described controller are powered; Described light source is a plurality of atomic lamps; The literal that the profile of described dot matrix and user need show or the profile phase of image are together.

Preferably, a plurality of through holes of set-point configuration on the described substrate, the literal that the profile of described dot matrix and user need show or the profile phase of image are same, so that described atomic lamp is installed.

Preferably, the head of described each atomic lamp exposes to the front of described substrate, and the back side of described substrate is fixed in the foot of described each atomic lamp.

Preferably, the back side of described substrate is coated with water barrier.

Preferably, described substrate front side is coated with light guide plate.

Preferably, described a plurality of atomic lamp is formed at least one light emitting module with the connection in series-parallel form; Described light emitting module is connected in series with the output terminal of described controller.

Preferably, be connected to a plurality of current-limiting resistances in the described light emitting module.

Preferably, the external time switch of described power supply.

Preferably, the base plate parallel with described substrate is set also on the described framework, described base plate is positioned at described substrate back one side.

Preferably, the panel parallel with described substrate is set also on the described framework, described panel is positioned at described substrate front side one side; Described panel adopts the nano-glass material to make.

Compared with prior art, the utility model provides dazzles color energy-saving nanometer screen, has lucuriant in design, good energy-conserving effect, advantage that use cost is lower, particularly:

With the atomic lamp is light source, have super brightness, bright-colored, luminescence efficiency is high, penetration power is strong, little power consumption, life-span long, the characteristics of stable performance, can guarantee that thus display object is lucuriant in design; The literal that the profile of atomic lamp dot matrix and user need show or the profile phase of image reduce the redundant quantity of atomic lamp together, further realize energy-conservation purpose, also help reducing cost; Rearrange the arrangement mode of atomic lamp, just can change the content that needs display text or image, it need not outer computer editor, processing, helps reducing use cost.Further, the panel of protection atomic lamp is set, helps prolonging atomic lamp serviceable life; Especially, panel adopts the nano-glass material to make, and its surface can not be scratched, and helps keeping good surface appearance and light transmission.

Of the present utility modelly dazzle that color energy-saving nanometer screen is lucuriant in design, energy consumption is lower, cheap, its security is good, stable performance, is suitable for using in several scenes.

Description of drawings

Fig. 1 is the system chart that the utility model is dazzled color energy-saving nanometer screen;

Fig. 2 is that the utility model is dazzled the structural representation that color energy-saving nanometer shields a preferred embodiment;

Fig. 3 is that the utility model is dazzled the structural representation that color energy-saving nanometer shields another preferred embodiment;

Fig. 4 is the circuit theory diagrams that the utility model is dazzled color energy-saving nanometer screen.

Embodiment

For ease of describing, below earlier relational term is made an explanation.

Atomic lamp is that the beta radiation excited fluophor that utilizes radioactive isotope to emit makes it luminous a kind of faint light source.Also claim isotope light source, nuclear light source or cold light source.Atomic lamp is made up of lamp body, fluorophor and beta activity gas three parts: lamp body is one and has the sealing shell that anti-spoke is liked optical window; Fluorescence not is generally the ZNS (CU) of jaundice green light; Beta activity gas, promptly the B source is selected 3H or 85Kr usually for use.Atomic lamp does not need the external world that energy is provided and is luminous voluntarily, be not subjected to the influence of extraneous rugged surroundings, brightness be every square metre of several candela to every square metre of ten candela, have super brightness, bright-colored, luminescence efficiency is high, penetration power is strong, little power consumption, life-span are long, the characteristics of stable performance.

Basic design of the present utility model is, the atomic lamp arranged with latticed form is set as light source on substrate, and makes that the profile phase of display object (being mainly literal or image) of profile and consumer premise of dot matrix is same.

Describe below in conjunction with embodiment and accompanying drawing.

Please refer to Fig. 1, this figure is the system chart that the utility model is dazzled color energy-saving nanometer screen, this figure with a Chinese character " in " be example, show dazzle color energy-saving nanometer shield in the arrangement of atomic lamp.This embodiment is a basic model of the present utility model, comprising:

Substrate 1 is preferably organic plates, is provided with the dot matrix light source above.In the present embodiment, described light source is a plurality of atomic lamps 2; The literal that the profile of dot matrix and user need show or the profile phase of image are same, and wherein, the interval between atomic lamp 2 quantity, the different atomic lamp 2 can be chosen according to circumstances, is as the criterion with the resolution that satisfies particular requirement.

Framework 3 in order to installation base plate 1, generally adopts rectangular configuration, can be wooden frame, aluminium frame, stainless steel frame or is made by other material, to guarantee substrate 1 firm being as the criterion is installed.

Controller 4 can be existing controller, can adopt external or built-in arranged in form in dazzling color energy-saving nanometer screen.That described controller 4 sets in advance is glittering in order to the control light source, extinguish and interval time etc. parameter so that it is glittering or extinguish to control described dot matrix light source.In the present embodiment, controller 4 is in order to control the glittering of atomic lamp 2 or to extinguish, so that make display object have dynamic effect.

Power supply 5 is with thinking dot matrix light source (being atomic lamp 2 in the present embodiment), controller 4 power supplies.Wherein, power supply 5 is adopted available common civil power (220V), also can be accumulator or other form, is as the criterion to guarantee reliable power supply.

It is of the present utility model that to dazzle color energy-saving nanometer screen be light source with atomic lamp 2, its have super brightness, bright-colored, luminescence efficiency is high, penetration power is strong, little power consumption, life-span are grown, the characteristics of stable performance, can guarantee that thus display object is lucuriant in design; The literal that the profile of the dot matrix of atomic lamp 2 and user need show or the profile phase of image reduce the redundant quantity of atomic lamp together thus, further realize energy-conservation purpose, also help reducing cost; If rearrange the arrangement mode of atomic lamp 2, just can change the content of need display text or image, thereby need not outer computer and edit, handle, help reducing use cost.

In the utility model, atomic lamp 2 can be taked multiple mounting means.A kind of simple mounting means is that a plurality of through holes of set-point configuration on substrate 1, atomic lamp 2 run through through hole and fixing.Wherein, through hole can arrange that the profile phase of the dot matrix profile of its formation and need displaying contents together according to the need displaying contents; Also can be covered with whole base plate 1, promptly by display screen arranged in form of the prior art, and at the local atomic lamp 2 of installing of needs.Relatively poor relatively because of the latter's aesthetic property, so the utility model recommends to use last arrangement, promptly arrange the latticed form of through hole according to predetermined displaying contents, as described below.

Please refer to Fig. 2, this figure is that the utility model is dazzled the structural representation that color energy-saving nanometer shields a preferred embodiment, the figure shows a kind of more excellent mounting means of atomic lamp among Fig. 1.As shown in Figure 2, go up a plurality of through hole 1-1 of set-point configuration during substrate 1, so that atomic lamp 2 is installed.Wherein, the literal that the profile of described dot matrix and user need show or the profile phase of image so that atomic lamp 2 is installed, guarantees to dazzle color energy-saving nanometer screen and show specific literal or image by the consumer premise requirement together.In addition, the interval between the quantity of through hole 1-1, the different through hole 1-1 can be chosen according to circumstances, is as the criterion with the resolution that satisfies the display object particular requirement, does not repeat them here.

Under this kind mounting means, the head of each atomic lamp 2 exposes to substrate front side 1-2, and substrate back 1-3 is fixed in the foot of each atomic lamp 2.Both guaranteed thus that atomic lamp 2 was fixing reliable, guaranteed making full use of of light source again, installed, to change atomic lamp 2 also very convenient.

Shown in Figure 1 to show " in " word is example, goes out a plurality of through hole 1-1 in substrate 1 hollow out earlier, the dot matrix that makes through hole 1-1 form be approximately one " in " word; According to shown in Figure 2, atomic lamp 2 is installed in through hole 1-1 again, is made the head of each atomic lamp 2 expose to the front of substrate 1, the back side of substrate 1 is fixed in the foot of each atomic lamp 2; Then each atomic lamp 2 is connected into controller 4 and power supply 5, promptly finished the making of substrate 1; At last substrate 1 is fixed on the framework 3, to form the color energy-saving nanometer screen of dazzling of a basic model.

Further, on substrate back 1-3, cover water barrier 6, avoid rainwater to invade substrate back 1-3, prevent that atomic lamp 2 is short-circuited.

Simultaneously, also can on substrate front side 1-1, cover light guide plate 7, both protect atomic lamp 2, guarantee that again atomic lamp 2 emitted lights evenly distribute, and further improve display effect.

Among the above embodiment, with displaying contents " in " word is example, the arrangement of the through hole 1-1 on the substrate 1 is illustrated; Obviously,, also can carry out, not repeat them here with reference to this example for contents such as the literal that shows other, symbol, figures.

The utility model also can structurally be further improved, and is as described below.

Please refer to Fig. 3, this figure is that the utility model is dazzled the structural representation that color energy-saving nanometer shields another preferred embodiment, the figure shows a kind of more excellent contour structures that the utility model is dazzled color energy-saving nanometer screen.The color energy-saving nanometer of dazzling as shown in Figure 3 shields, and is provided with base plate 8 and panel 9, specifically:

The base plate 8 parallel with substrate 1 is set on the framework 3, and described base plate 8 is positioned at the back side one side of substrate 1 so that hide atomic lamp 2 foots that each exposes to substrate 1 back side, plays and beautifies the effect that color energy-saving nanometer shields appearance of dazzling.Wherein, described base plate 8 can adopt organic plates, plank etc., is as the criterion can hide substrate 1 fully, does not repeat them here.

Be pointed out that base plate 8 generally only uses when dazzling color energy-saving nanometer screen for the single face outward appearance; When dazzling color energy-saving nanometer screen for two-sided outward appearance, two substrates 1 that the back side is oppositely arranged can block mutually, therefore base plate 8 can be omitted, so that reduce cost.

Further, also be provided with the panel 9 parallel with substrate 1 on the framework 3, described panel 9 is positioned at front one side of substrate 1, so that protection atomic lamp 2, prolongs the serviceable life of atomic lamp 2.Wherein, panel 9 adopts optical material to make, and is unaffected to guarantee display effect.Preferably, adopt the nano-glass material to make, can guarantee that the surface of panel 9 is not scratched, make panel 9 keep appearance and light transmission preferably.

More than each critical piece of dazzling color energy-saving nanometer screen is described, below of the present utility model being electrically connected carried out brief description.

Please refer to Fig. 4, this figure is the circuit theory diagrams that the utility model is dazzled color energy-saving nanometer screen.The electrical equipment that the utility model is dazzled color energy-saving nanometer screen mainly comprises, controller 4, power supply 5 and at least one light emitting module 10, and it can be electrically connected by prior art, also can adopt following scheme to be electrically connected, and below further describes:

Described controller 4 is an existing controller, the display object content that shows according to need set in advance atomic lamp 2 glittering, extinguish and interval time etc. parameter; After dazzling the energising of color energy-saving nanometer screen, controller 4 just can be according to controlling schemes of the prior art, control described atomic lamp 2 glittering, extinguish and interlude.Comparatively complicated in the display object content, in the time of perhaps need increasing special display effect, also can increase the quantity of controller 4, so that the design controlling schemes.Related content about the relevant controlling scheme is a prior art, specifically please refer to relevant documents and materials, does not repeat them here.

Preferably, can choose as models such as DAVID-01, DAVID-02P, DAVID-04Z, its better performances, price is lower, has high cost performance.

Described power supply 5 usefulness are thought controller 4 and atomic lamp 2 power supplies, are typically common civil power (220V), also can be the power supply of other type, as storage battery power supply.In addition, also can increase standby power supply, but because of meeting increases considerably making, use cost, so do not recommend to use.

Described light emitting module 10 is formed by a plurality of atomic lamp 2 series and parallels, and this light emitting module 10 also connects power supply 5 and controller 4.Usually, the end to end composition light emitting module 10 of atomic lamp 2 positive and negative electrodes is connected in series the output terminal of light emitting module 10 with controller 4 again.Certainly also can adopt different methods of attachment, specifically please refer to relevant handbook and carry out.Be pointed out that, when connecting light emitting module 10, should connect reliably between each element, avoid occurring opening circuit, the phenomenon of short circuit, particularly will avoid the output terminal of controller 4 to be short-circuited.

Preferably, excessive for avoiding in the light emitting module 10 electric current, in each light emitting module 10, also connect a plurality of current-limiting resistance R1, R2 ..., Rn so that dispel the heat.Wherein, each current-limiting resistance can adopt the form of series and parallel to insert among the light emitting module 10, usually, current-limiting resistance is connected on the output negative pole of controller 4 as far as possible.About the size of each current-limiting resistance, can calculate according to known circuit theory, do not repeat them here.

Further, described power supply 5 external time switches 11 are so that color energy-saving nanometer screen time opening/close is dazzled in control.When estimating that audient's face is big (as daytime), open automatically and dazzle color energy-saving nanometer screen; Otherwise, estimating audient's face hour (as night), close automatically and dazzle color energy-saving nanometer screen.Thus, dazzle On/Off time of color energy-saving nanometer screen, dazzle serviceable life of color energy-saving nanometer screen, help energy-conservationly, also can save human cost with prolongation by control.

More than the utility model is dazzled color energy-saving nanometer screen structure describe in detail, the manufacturing process that the utility model is dazzled color energy-saving nanometer screen briefly describes below, specifically:

(1) with batten or other material framework 3, its size is suitable for mutually with the size of dazzling color energy-saving nanometer screen displaying contents;

(2) organic plates or other material sheet material are cut into substrate 1, the size of its size and framework 3 is suitable;

(3) duplicate the content of the literal, symbol or the figure that need demonstration, and transfer on the substrate 1;

(4) engrave out some through hole 1-1 according to the profile of the literal, symbol or the figure that show on the aforesaid substrate 1, wherein, the quantity of through hole 1-1, aperture and interval are looked feelings and are selected, and are as the criterion to guarantee necessary resolution;

(5) each atomic lamp 2 is inserted among the through hole 1-1 one by one, make the head of atomic lamp 2 expose to the front of substrate 1, the foot of atomic lamp 2 exposes to the back side of substrate 1;

(6) each atomic lamp 2 is coupled together, make its positive and negative electrode head and the tail reliable continuous, tighten or the electric soldering iron welding, can not have loosening with hand;

(7) according to the resistance value of calculating, connect some current-limiting resistances, make every group of atomic lamp 2 be operated in 15～20mA; Wherein, current-limiting resistance should be received on the output negative pole of controller 4 as far as possible; In addition, for anti-rainwater enters extraneous factors such as short circuit, available plastic cement small of the stock atomic lamp 2 foot's peripheries weld;

(8) connect controller 4 and power supply 5;

(9) substrate 1 is fixed on the framework 3, finishes the making flow process of dazzling color energy-saving nanometer screen basic model.

In the above-mentioned manufacturing process, only need simple tools such as electric soldering iron, electric hand drill can finish whole operations, its manufacturing speed is fast, and technology is very simple.

The color energy-saving nanometer screen of dazzling of the present utility model has lucuriant in design, power and energy saving, cheap, safe and reliable, steady performance, and its market outlook are fabulous, are suitable for using in several scenes.

The above only is a preferred implementation of the present utility model, should be pointed out that above-mentioned preferred implementation should not be considered as restriction of the present utility model, and protection domain of the present utility model should be as the criterion with claim institute restricted portion.For those skilled in the art, in not breaking away from spirit and scope of the present utility model, can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1, a kind of color energy-saving nanometer screen of dazzling comprises the substrate that is provided with the dot matrix light source, in order to framework that described substrate is installed, in order to control the glittering or controller that extinguishes of described dot matrix light source and with the power supply of thinking that described dot matrix light source and described controller are powered; It is characterized in that: described light source is a plurality of atomic lamps; The literal that the profile of described dot matrix and user need show or the profile phase of image are together.

2, the color energy-saving nanometer screen of dazzling as claimed in claim 1, it is characterized in that: a plurality of through holes of set-point configuration on the described substrate, the literal that the profile of described dot matrix and user need show or the profile phase of image are same, so that described atomic lamp is installed.

3, the color energy-saving nanometer screen of dazzling as claimed in claim 2, it is characterized in that: the head of described each atomic lamp exposes to the front of described substrate, and the back side of described substrate is fixed in the foot of described each atomic lamp.

4, the color energy-saving nanometer screen of dazzling as claimed in claim 3, it is characterized in that: the back side of described substrate is coated with water barrier.

5, the color energy-saving nanometer screen of dazzling as claimed in claim 3 is characterized in that: described substrate front side be coated with light guide plate.

6, the color energy-saving nanometer screen of dazzling as claimed in claim 1, it is characterized in that: described a plurality of atomic lamps are formed at least one light emitting module with the connection in series-parallel form; Described light emitting module is connected in series with the output terminal of described controller.

7, the color energy-saving nanometer screen of dazzling as claimed in claim 6 is characterized in that: be connected to a plurality of current-limiting resistances in the described light emitting module.

8, the color energy-saving nanometer screen of dazzling as claimed in claim 1 is characterized in that: the external time switch of described power supply.

9, the color energy-saving nanometer screen of dazzling as claimed in claim 1, it is characterized in that: the base plate parallel with described substrate also is set on the described framework, and described base plate is positioned at described substrate back one side.

10, as each described color energy-saving nanometer screen of dazzling of claim 1-9, it is characterized in that: the panel parallel with described substrate also is set on the described framework, and described panel is positioned at described substrate front side one side; Described panel adopts the nano-glass material to make.

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