CN202996777U - Glass gas light emitting diode electrode structure - Google Patents
Glass gas light emitting diode electrode structure Download PDFInfo
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- CN202996777U CN202996777U CN 201220643922 CN201220643922U CN202996777U CN 202996777 U CN202996777 U CN 202996777U CN 201220643922 CN201220643922 CN 201220643922 CN 201220643922 U CN201220643922 U CN 201220643922U CN 202996777 U CN202996777 U CN 202996777U
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- overstriking
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- emitting diode
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Abstract
The utility model discloses a glass gas light emitting diode electrode structure which comprises a positive conductive bracket, a negative conductive bracket, a positive electrode and a negative electrode, wherein the positive conductive bracket is connected with the positive electrode, the negative conductive bracket is connected with the negative electrode, both the positive electrode and the negative electrode are formed by winding tungsten filaments, and the positive electrode is provided with at least one first thickened electrode section and/or the negative electrode is provided with at least one second thickened electrode section. According to the glass gas light emitting diode electrode structure, electrode hot spots are easy to build so that a lamp is stable and has a prolonged service life.
Description
Technical field
The utility model relates to a kind of glass gas light-emitting diode electrode structure.
Background technology
Existing glass gas-discharge diode does not have the overstriking electrode section of positive and negative electrode, and the electrode focus is difficult for setting up, and the negative pole emitting material is difficult for emission, causes the unstable of diode, and useful life is short.
The utility model content
The purpose of this utility model is to provide a kind of electrode focus of easily setting up, and makes the glass gas light-emitting diode electrode structure that diode is stable and increase the service life.
The utility model realizes that a kind of technical scheme of above-mentioned purpose is, a kind of glass gas light-emitting diode electrode structure, comprise anodal conducting bracket, negative pole conducting bracket, positive electrode and negative electrode, described anodal conducting bracket is connected with positive electrode, described negative pole conducting bracket is connected with negative electrode, positive electrode and negative electrode are reeled by tungsten filament and are formed, and its innovative point is: have on described positive electrode and have at least one second overstriking electrode section at least one the first overstriking electrode section and/or described negative electrode.
Described the first overstriking electrode section is be spirally wrapped around on positive electrode and formed by tungsten filament.
Described the second overstriking electrode section is be spirally wrapped around on negative electrode and formed by tungsten filament.
Described the first overstriking electrode section is strengthened and formed by the winding radius of positive electrode.
Described the second overstriking electrode section is strengthened and formed by the winding radius of negative electrode.
the utility model realizes that the another kind of technical scheme of above-mentioned purpose is, a kind of glass gas light-emitting diode electrode structure, comprise anodal conducting bracket, the negative pole conducting bracket, the trigger electrode conducting bracket, positive electrode, negative electrode and trigger electrode, described anodal conducting bracket is connected with positive electrode, described negative pole conducting bracket is connected with negative electrode, positive electrode and negative electrode are reeled by tungsten filament and are formed, described trigger electrode conducting bracket is connected with trigger electrode, its innovative point is: have on described positive electrode and have at least one second overstriking electrode section at least one the first overstriking electrode section and/or described negative electrode.
Described the first overstriking electrode section is be spirally wrapped around on positive electrode and formed by tungsten filament.
Described the second overstriking electrode section is be spirally wrapped around on negative electrode and formed by tungsten filament.
Described the first overstriking electrode section is strengthened and formed by the winding radius of positive electrode.
Described the second overstriking electrode section is strengthened and formed by the winding radius of negative electrode.
The utility model is owing to having at least one second overstriking electrode section having on described positive electrode at least one the first overstriking electrode section and/or described negative electrode, its beneficial effect is: 1. the overstriking electrode section makes positive electrode and negative electrode dwindle spacing at the overstriking electrode section.After adding power source on two electrodes at the glass gas light-emitting diode, at first by overstriking electrode section partial ionized gas discharge, at this moment have electric current and be wound around section → partially ionized gas → negative electrode overstriking winding section → negative electrode two ends section → negative electrode → flow to power cathode through positive source → positive electrode two ends section → positive electrode overstriking between positive pole and negative pole.When having electric current to flow through positive electrode and negative electrode, can make the electrode heating, set up a plurality of focuses on electrode, make active the increasing of emitting material on negative electrode, ionize more gas, and then can produce the gas ionization of avalanche type between positive electrode and negative electrode, set up the plasma of ionized gas, these ionized gas can produce a large amount of ultraviolet rays, these ultraviolet rays are radiated on fluorescent material on glass shell, the meeting excitated fluorescent powder is luminous, and Here it is makes illuminating glass light-emitting diode.If glass shell is quartz glass, ultraviolet ray will see through the quartz glass shell and be radiated at the glass shell outside so, just can be used as ultra-violet lamp.2. in the process of positive electrode and negative electrode discharge, at first most of electron stream arrives the overstriking electrode section of positive electrode, arrive positive electrode through the two ends of positive electrode section again, can greatly alleviate like this degree of heat of positive electrode, extended the useful life of glass light-emitting diode.
Description of drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is two of structural representation of the present utility model;
Fig. 3 is three of structural representation of the present utility model;
Fig. 4 is the another kind of structural representation of structure of the present utility model.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail.
As shown in Figure 1, a kind of glass gas light-emitting diode electrode structure, comprise anodal conducting bracket 1, negative pole conducting bracket 2, positive electrode 4 and negative electrode 5, described anodal conducting bracket 1 is connected with positive electrode 4, described negative pole conducting bracket 2 is connected with negative electrode 5, positive electrode 4 and negative electrode 5 are reeled by tungsten filament and are formed, and have on described positive electrode 4 and have the second overstriking electrode section 5-1 on the first overstriking electrode section 4-1 and described negative electrode 5.Certainly, have on also can described positive electrode 4 and have the second overstriking electrode section 5-1 on the first overstriking electrode section 4-1 or described negative electrode 5, overstriking electrode section length is made adjustable, be convenient to batch production.
The total length of described the first overstriking electrode section 4-1 less than or equal to the total length of positive electrode 4 80% and more than or equal to 3mm, the total length of described the second overstriking electrode section 5-1 less than or equal to the total length of negative electrode 5 80% and more than or equal to 3mm.
Described the first overstriking electrode section 4-1 is spirally wrapped around on positive electrode 4 and is formed by tungsten filament.Or described the first overstriking electrode section 4-1 is strengthened and is formed by the winding radius of positive electrode 4.
Described the second overstriking electrode section 5-1 is spirally wrapped around on negative electrode 5 and is formed by tungsten filament.Or described the second overstriking electrode section 5-1 is strengthened and is formed by the winding radius of negative electrode 5.
As shown in Figure 1, the first overstriking electrode section 4-1 is three, and the second overstriking electrode section 5-1 is one.
As shown in Figure 2, the first overstriking electrode section 4-1 is three, and the second overstriking electrode section 5-1 is two.
as shown in Figure 3, a kind of glass gas light-emitting diode electrode structure, comprise anodal conducting bracket 1, negative pole conducting bracket 2, trigger electrode conducting bracket 3, positive electrode 4, negative electrode 5 and trigger electrode 7, described anodal conducting bracket 1 is connected with positive electrode 4, described negative pole conducting bracket 2 is connected with negative electrode 5, positive electrode 4 and negative electrode 5 are reeled by tungsten filament and are formed, described trigger electrode conducting bracket 3 is connected with trigger electrode 7, have on described positive electrode 4 and have the second overstriking electrode section 5-1 on the first overstriking electrode section 4-1 and described negative electrode 5, the first overstriking electrode section 4-1 and the second overstriking electrode section 5-1 are three.Certainly, have on also can described positive electrode 4 and have the second overstriking electrode section 5-1 on the first overstriking electrode section 4-1 or described negative electrode 5, overstriking electrode section length is made adjustable, be convenient to batch production.
The total length of described the first overstriking electrode section 4-1 less than or equal to the total length of positive electrode 4 80% and more than or equal to 3mm, the total length of described the second overstriking electrode section 5-1 less than or equal to the total length of negative electrode 5 80% and more than or equal to 3mm.
Described the first overstriking electrode section 4-1 is spirally wrapped around on positive electrode 4 and is formed by tungsten filament.Or described the first overstriking electrode section 4-1 is strengthened and is formed by the winding radius of positive electrode 4.
Described the second overstriking electrode section 5-1 is spirally wrapped around on negative electrode 5 and is formed by tungsten filament.Or described the second overstriking electrode section 5-1 is strengthened and is formed by the winding radius of negative electrode 5.
As shown in Figure 4, a kind of glass gas light-emitting diode electric machine structure, comprise anodal conducting bracket 1, negative pole conducting bracket 2, positive electrode 4 and negative electrode 5, described anodal conducting bracket 1 is connected with positive electrode 4, described negative pole conducting bracket 2 is connected with negative electrode 5, positive electrode 4 and negative electrode 5 are reeled by tungsten filament and are formed, and have the second overstriking electrode section 5-1 on described negative electrode 5.
Described the second overstriking electrode section 5-1 is spirally wrapped around on negative electrode 5 and is formed by tungsten filament.Can certainly be that described the second overstriking electrode section 5-1 is strengthened and formed by the winding radius of negative electrode 5.
The total length of described the second overstriking electrode section 5-1 less than or equal to the total length of negative electrode 5 80% and more than or equal to 3mm.
The utility model can be adjusted the position of overstriking electrode section according to the difference of power when in use, is convenient to batch production.
Claims (10)
1. glass gas light-emitting diode electrode structure, comprise anodal conducting bracket (1), negative pole conducting bracket (2), positive electrode (4) and negative electrode (5), described anodal conducting bracket (1) is connected with positive electrode (4), described negative pole conducting bracket (2) is connected with negative electrode (5), positive electrode (4) and negative electrode (5) are reeled by tungsten filament and are formed, and it is characterized in that: have on described positive electrode (4) and have at least one second overstriking electrode section (5-1) at least one first overstriking electrode section (4-1) and/or described negative electrode (5).
2. glass gas light-emitting diode electrode structure according to claim 1 is characterized in that: described the first overstriking electrode section (4-1) is that to be spirally wrapped around positive electrode (4) by tungsten filament upper and form.
3. glass gas light-emitting diode electrode structure according to claim 1 is characterized in that: described the second overstriking electrode section (5-1) is that to be spirally wrapped around negative electrode (5) by tungsten filament upper and form.
4. glass gas light-emitting diode electrode structure according to claim 1 is characterized in that: described the first overstriking electrode section (4-1) is that the tungsten filament winding radius by positive electrode (4) strengthens and forms.
5. glass gas light-emitting diode electrode structure according to claim 1 is characterized in that: described the second overstriking electrode section (5-1) is that the tungsten filament winding radius by negative electrode (5) strengthens and forms.
6. glass gas light-emitting diode electrode structure, comprise anodal conducting bracket (1), negative pole conducting bracket (2), trigger electrode conducting bracket (3), positive electrode (4), negative electrode (5) and trigger electrode (7), described anodal conducting bracket (1) is connected with positive electrode (4), described negative pole conducting bracket (2) is connected with negative electrode (5), positive electrode (4) and negative electrode (5) are reeled by tungsten filament and are formed, described trigger electrode conducting bracket (3) is connected with trigger electrode (7), it is characterized in that: have on described positive electrode (4) and have at least one second overstriking electrode section (5-1) at least one first overstriking electrode section (4-1) and/or described negative electrode (5).
7. glass gas light-emitting diode electrode structure according to claim 6 is characterized in that: described the first overstriking electrode section (4-1) is that to be spirally wrapped around positive electrode (4) by tungsten filament upper and form.
8. glass gas light-emitting diode electrode structure according to claim 6 is characterized in that: described the second overstriking electrode section (5-1) is that to be spirally wrapped around negative electrode (5) by tungsten filament upper and form.
9. glass gas light-emitting diode electrode structure according to claim 6 is characterized in that: described the first overstriking electrode section (4-1) is that the tungsten filament winding radius by positive electrode (4) strengthens and forms.
10. glass gas light-emitting diode electrode structure according to claim 6 is characterized in that: described the second overstriking electrode section (5-1) is that the tungsten filament winding radius by negative electrode (5) strengthens and forms.
Priority Applications (1)
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CN 201220643922 CN202996777U (en) | 2012-11-29 | 2012-11-29 | Glass gas light emitting diode electrode structure |
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CN 201220643922 CN202996777U (en) | 2012-11-29 | 2012-11-29 | Glass gas light emitting diode electrode structure |
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CN202996777U true CN202996777U (en) | 2013-06-12 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102983057A (en) * | 2012-11-29 | 2013-03-20 | 常州兰喆仪器仪表有限公司 | Glass gas light emitting diode electrode structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102983057A (en) * | 2012-11-29 | 2013-03-20 | 常州兰喆仪器仪表有限公司 | Glass gas light emitting diode electrode structure |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130612 Termination date: 20131129 |