CN101764035B - Double-helix energy saving lamp - Google Patents
Double-helix energy saving lamp Download PDFInfo
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- CN101764035B CN101764035B CN2009101570514A CN200910157051A CN101764035B CN 101764035 B CN101764035 B CN 101764035B CN 2009101570514 A CN2009101570514 A CN 2009101570514A CN 200910157051 A CN200910157051 A CN 200910157051A CN 101764035 B CN101764035 B CN 101764035B
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- fluorescent tube
- screw
- screw fluorescent
- helical
- saving lamp
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Abstract
The invention discloses a double-helical energy saving lamp, which is characterized by comprising a first single-helical lamp and a second single-helical lamp which have the same structure and are in a cylindrical shape, wherein the first single-helical lamp screws in the second single-helical lamp in the same direction to form a cylindrical complex by nesting with the second single-helical lamp; and a fixing mechanism for supporting and fixing the first single-helical lamp and the second single-helical lamp is arranged on the complex. The double-helical energy saving lamp has the advantages that the two single-helical lamps operate independently, for a driving circuit, the effect is equivalent to the conventional double-helical lamp with halved length, and thus the double-helical lamp is matched with the driving circuit easily, so that the reliability of driving matching between a ballast and the lamp is improved; and simultaneously, the double-helical energy saving lamp consists of the two single-helical lamps, and the two single-helical lamps are made without needing long glass pipes, and thus the double-helical lamp has a simple manufacturing process and can better meet the requirements of the large-scale production of high-power helical lamps.
Description
Technical field
The present invention relates to a kind of fluorescent tube, especially relate to a kind of double helical energy-saving lamp.
Background technology
Along with the raising of lighting quality, the way of the science of the expense that saves lighting is exactly effectively to utilize energy-saving lamp.That energy-saving lamp has is energy-conservation, light efficiency is high, the life-span is long, environmental protection, colour developing well, lot of advantages such as compact conformation, use more and more widely, kind is also more and more.Helical type energy conserving lamp is common electricity-saving lamp type; The fluorescent tube that helical type energy conserving lamp uses is generally double helical energy-saving lamp; This type electricity-saving lamp will accomplish that power is big, and generally the length through the lengthening fluorescent tube reaches requirement, yet the length of fluorescent tube is long more; Then tube voltage is just high more, and the too high meeting of tube voltage causes the reliability of driving and matching between ballast and the fluorescent tube to be difficult to guarantee; On the other hand, making powerful double helical energy-saving lamp needs the very long glass tube and the heating of large scale to bend forming technology, has increased manufacture difficulty like this, is difficult to satisfy requirement of massive production; In addition since the tube wall temperature of high-power double helical energy-saving lamp all than higher; Iff use top that conventional method such as employing make fluorescent tube slightly the projection sub-fraction as the manufacture craft of cold junction; Be difficult to fully realize the purpose of control cold junction temperature, thereby influenced the light efficiency of high-power fluorescent tube.
Summary of the invention
Technical problem to be solved by this invention provides a kind of being easy to and is complementary with driver circuit, and can satisfy the large-scale production requirement, has the high-power double helical energy-saving lamp of high light flux, high light efficiency.
The present invention solves the problems of the technologies described above the technical scheme that is adopted: a kind of double helical energy-saving lamp; Comprise two structures identical and all cylindrical first single-screw fluorescent tube and the second single-screw fluorescent tubes; The described first single-screw fluorescent tube rotates into the described second single-screw fluorescent tube in the same way and the described second single-screw fluorescent tube is nested into cylindrical complex, and described complex is provided with the fixed mechanism that is used for described first single-screw fluorescent tube of support fixation and the described second single-screw fluorescent tube.
Described fixed mechanism comprises that at least two row are arranged at the fixture on the described complex; Described fixture is between described first single-screw fluorescent tube and the described second single-screw fluorescent tube; Described fixture is coated with adhesive outward, and described fixture is adhesively fixed with the described second single-screw fluorescent tube with the described first single-screw fluorescent tube through described adhesive and is connected.
Described fixed mechanism comprises the described fixture of two row, and the described fixture of two row is symmetricly set in the both sides of the central shaft of described complex.
The number of the described fixture of every row is two, and two described fixtures in every row are arranged at respectively between the described first single-screw fluorescent tube and the described second single-screw fluorescent tube at the central shaft two ends of described complex.
Described fixed mechanism comprises a plurality of scattered fixtures that are arranged on the described complex; Described fixture is between described first single-screw fluorescent tube and the described second single-screw fluorescent tube; Described fixture is coated with adhesive outward, and described fixture is adhesively fixed with the described second single-screw fluorescent tube with the described first single-screw fluorescent tube through described adhesive and is connected.
Described fixture is hollow or solid short transparent tube.
Described short transparent tube is short glass tube.
The hand of spiral of described first single-screw fluorescent tube and the described second single-screw fluorescent tube is clockwise direction, and the described first single-screw fluorescent tube rotates in the described second single-screw fluorescent tube in a clockwise direction.
The two ends of the described first single-screw fluorescent tube are connected with the first fluorescent tube blast pipe and the first fluorescent tube seal wire respectively; The two ends of the described second single-screw fluorescent tube are connected with the second fluorescent tube blast pipe and the second fluorescent tube seal wire respectively, and the described first fluorescent tube blast pipe and the described second fluorescent tube blast pipe that are positioned at central shaft one end of described complex are provided with amalgam.
Compared with prior art; The invention has the advantages that through using two identical in structure single-screw fluorescent tubes; Wherein a single-screw fluorescent tube rotates into complex of another single-screw fluorescent tube formation in the same way; And two single-screw fluorescent tubes are fixed into a double helical energy-saving lamp through the fixed mechanism that is arranged on the complex, because two single-screw fluorescent tubes work alone, the length that therefore for driver circuit, is equivalent to existing double helix fluorescent tube reduces by half; So very easily in being complementary, thereby improved the reliability of driving and matching between ballast and the fluorescent tube with driver circuit; Because the double helical energy-saving lamp of this structure is made up of two single-screw fluorescent tubes, do not need long glass tube and make the single-screw fluorescent tube simultaneously, manufacture craft is simple, can satisfy the high-power spiral lamp tube requirement of massive production preferably; The double helical energy-saving lamp of this structure is applicable to more than the 100W in the powerful electricity-saving lamp.
Fixed mechanism comprises that at least two row are arranged at the fixture on the complex; Fixture is positioned between two single-screw fluorescent tubes, and two single-screw fluorescent tubes are adhesively fixed link together, in the actual mechanical process through outside fixture, smearing adhesive; Two row fixtures can be set in the bilateral symmetry of complex; Every row can comprise a plurality of fixtures, if but every row when only comprising two fixtures, one of them need be set in place between two single-screw fluorescent tubes of central shaft one end of complex; Another then need be set in place between two single-screw fluorescent tubes of the central shaft other end of complex, can guarantee that like this connection of two single-screw fluorescent tubes is reliable; In actual mechanical process, also can be on complex scattered a plurality of fixtures be set, only need guarantee that the connection of two single-screw fluorescent tubes is reliable; Fixture can adopt the short transparent tube of hollow or solid length as lacking glass tube etc.
Be connected with the first fluorescent tube blast pipe and the first fluorescent tube seal wire respectively at the two ends of the first single-screw fluorescent tube; Be connected with the second fluorescent tube blast pipe and the second fluorescent tube seal wire respectively at the two ends of the second single-screw fluorescent tube; The first fluorescent tube blast pipe and second exhaust pipe at the central shaft that is positioned at complex one end are provided with amalgam; When this double helical energy-saving lamp was assembled into electricity-saving lamp, the end that two single-screw fluorescent tubes are had amalgam was as cold junction, like this length of the fluorescent tube blast pipe of the end through every single-screw fluorescent tube of control; Can realize controlling the purpose of the cold junction temperature of this double-single spiral power saving fluorescent lamps naturally, thereby can obtain than the higher light efficiency of existing double helix fluorescent tube.
Description of drawings
Fig. 1 is the perspective view of the single-screw fluorescent tube of double helical energy-saving lamp use of the present invention;
Fig. 2 is the vertical view of the single-screw fluorescent tube of double helical energy-saving lamp use of the present invention;
Fig. 3 is the perspective view of double helical energy-saving lamp of the present invention;
Fig. 4 is the front view of double helical energy-saving lamp of the present invention;
Fig. 5 is the vertical view of double helical energy-saving lamp of the present invention.
Embodiment
Embodiment describes in further detail the present invention below in conjunction with accompanying drawing.
Like Fig. 3, Fig. 4 and shown in Figure 5; A kind of double helical energy-saving lamp; Comprise two structures identical and all cylindrical first single-screw fluorescent tube 1 and the second single-screw fluorescent tubes 2; The structure of the first single-screw fluorescent tube 1 or the second single-screw fluorescent tube 2 (marking with the first single-screw fluorescent tube among Fig. 1 and Fig. 2) as depicted in figs. 1 and 2; The hand of spiral of the first single-screw fluorescent tube 1 and the second single-screw fluorescent tube 2 is clockwise direction; The first single-screw fluorescent tube 1 rotates into the second single-screw fluorescent tube 2 in the same way and the second single-screw fluorescent tube 2 is nested into cylindrical complex 3, and complex 3 is provided with the fixed mechanism that is used for the support fixation first single-screw fluorescent tube 1 and the second single-screw fluorescent tube 2.The double helical energy-saving lamp of this structure; Because two single-screw fluorescent tubes work alone; Therefore the length that for driver circuit, is equivalent to existing double helix fluorescent tube reduces by half; So very easily in being complementary, thereby improved the reliability of driving and matching between ballast and the fluorescent tube with driver circuit; Because this double helical energy-saving lamp is made up of two single-screw fluorescent tubes, do not need long glass tube and make the single-screw fluorescent tube simultaneously, manufacture craft is simple, can satisfy the high-power spiral lamp tube requirement of massive production preferably.
When actual fabrication double helical energy-saving lamp of the present invention; It is 244mm that the first single-screw fluorescent tube 1 and the second single-screw fluorescent tube 2 can adopt axial length; Radial width is 196mm, and caliber is 20mm, and the vertical range at same position place is the single-screw fluorescent tube of 56mm between the adjacent one section body of helicoid.
In this specific embodiment; Fixed mechanism comprises that at least two row are arranged at the fixture 4 on the complex 3; Fixture 4 is between the first single-screw fluorescent tube 1 and the second single-screw fluorescent tube 2; Be coated with the adhesive (not shown) outside the fixture 4, fixture 4 is adhesively fixed with the second single-screw fluorescent tube 2 with the first single-screw fluorescent tube 1 through adhesive and is connected.In actual mechanical process, the both sides that two row fixtures, 4, two row fixtures 4 are symmetricly set in the central shaft of complex 3 can be set; The number of every row fixture 4 can be for a plurality of; Also can be two; When the number of every row fixture 4 was two, two fixtures 4 in every row were arranged at respectively between the first single-screw fluorescent tube 1 and the second single-screw fluorescent tube 2 at the two ends of the central shaft of complex 3.
In actual mechanical process; A plurality of scattered fixtures 4 that are distributed on the complex also can be set on complex 3; Fixture 4 is between the first single-screw fluorescent tube 1 and the second single-screw fluorescent tube 2; Be coated with adhesive outside the fixture 4, fixture 4 is adhesively fixed with the second single-screw fluorescent tube 2 with the first single-screw fluorescent tube 1 through adhesive and is connected.
In this specific embodiment, fixture 4 adopts hollow or solid short transparent tube, and short transparent tube can be short glass tube; Adhesive directly adopts the commercially available adhesive with good bonding power.
In this specific embodiment; The two ends of the first single-screw fluorescent tube 1 are connected with the first fluorescent tube blast pipe 11 and the first fluorescent tube seal wire 12 respectively; The two ends of the second single-screw fluorescent tube 2 are connected with the second fluorescent tube blast pipe 21 and the second fluorescent tube seal wire 22 respectively; The first fluorescent tube blast pipe 11 and the second fluorescent tube blast pipe 21 that are positioned at central shaft one end of complex 3 are provided with the amalgam (not shown); When this double helical energy-saving lamp was assembled into electricity-saving lamp, the end that two single-screw fluorescent tubes are had amalgam was as cold junction, like this length of the fluorescent tube blast pipe of the end through every single-screw fluorescent tube of control; Can realize controlling the purpose of the cold junction temperature of this double helical energy-saving lamp naturally, thereby can obtain than the higher light efficiency of existing double helix fluorescent tube.
Claims (8)
1. double helical energy-saving lamp; It is characterized in that comprising two structures identical and all cylindrical first single-screw fluorescent tube and the second single-screw fluorescent tubes; The described first single-screw fluorescent tube rotates into the described second single-screw fluorescent tube in the same way and the described second single-screw fluorescent tube is nested into cylindrical complex; Described complex is provided with the fixed mechanism that is used for described first single-screw fluorescent tube of support fixation and the described second single-screw fluorescent tube; The two ends of the described first single-screw fluorescent tube all have the first fluorescent tube blast pipe and the first fluorescent tube seal wire; The two ends of the described second single-screw fluorescent tube all have the second fluorescent tube blast pipe and the second fluorescent tube seal wire, and the described first fluorescent tube blast pipe and the described second fluorescent tube blast pipe that are positioned at central shaft one end of described complex are provided with amalgam.
2. a kind of double helical energy-saving lamp according to claim 1; It is characterized in that described fixed mechanism comprises that at least two row are arranged at the fixture on the described complex; Described fixture is between described first single-screw fluorescent tube and the described second single-screw fluorescent tube; Described fixture is coated with adhesive outward, and described fixture is adhesively fixed with the described second single-screw fluorescent tube with the described first single-screw fluorescent tube through described adhesive and is connected.
3. a kind of double helical energy-saving lamp according to claim 2 is characterized in that described fixed mechanism comprises the described fixture of two row, and the described fixture of two row is symmetricly set in the both sides of the central shaft of described complex.
4. a kind of double helical energy-saving lamp according to claim 3; The number that it is characterized in that the described fixture of every row is two, and two described fixtures in every row are arranged at respectively between the described first single-screw fluorescent tube and the described second single-screw fluorescent tube at the central shaft two ends of described complex.
5. a kind of double helical energy-saving lamp according to claim 1; It is characterized in that described fixed mechanism comprises a plurality of scattered fixtures that are arranged on the described complex; Described fixture is between described first single-screw fluorescent tube and the described second single-screw fluorescent tube; Described fixture is coated with adhesive outward, and described fixture is adhesively fixed with the described second single-screw fluorescent tube with the described first single-screw fluorescent tube through described adhesive and is connected.
6. according to each described a kind of double helical energy-saving lamp in the claim 2 to 5, it is characterized in that described fixture is hollow or solid short transparent tube.
7. a kind of double helical energy-saving lamp according to claim 6 is characterized in that described short transparent tube is short glass tube.
8. according to each described a kind of double helical energy-saving lamp in the claim 1 to 5; The hand of spiral that it is characterized in that described first single-screw fluorescent tube and the described second single-screw fluorescent tube is clockwise direction, and the described first single-screw fluorescent tube rotates in the described second single-screw fluorescent tube in a clockwise direction.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009101570514A CN101764035B (en) | 2009-12-29 | 2009-12-29 | Double-helix energy saving lamp |
US12/881,202 US8288933B2 (en) | 2009-12-29 | 2010-09-14 | Lamp with energy-saving high-power spiral light tube |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009101570514A CN101764035B (en) | 2009-12-29 | 2009-12-29 | Double-helix energy saving lamp |
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CN101764035A CN101764035A (en) | 2010-06-30 |
CN101764035B true CN101764035B (en) | 2012-05-30 |
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CN2009101570514A Expired - Fee Related CN101764035B (en) | 2009-12-29 | 2009-12-29 | Double-helix energy saving lamp |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE20106263U1 (en) * | 2001-04-10 | 2001-06-21 | Vogt Electronic Ag | Geometric lamp arrangement |
CN2498456Y (en) * | 2001-06-11 | 2002-07-03 | 张大光 | Three section electronic energy saving lamp |
CN2580597Y (en) * | 2002-11-08 | 2003-10-15 | 福州永德吉照明电器有限公司 | Multiple double screen fluorescent lamp tube combined lamp tube for compact energy saving lamp |
CN2699470Y (en) * | 2004-06-07 | 2005-05-11 | 葛世潮 | Large-power cold-cathode fluorescent energy-saving lamp |
CN201608152U (en) * | 2009-12-29 | 2010-10-13 | 浙江阳光集团股份有限公司 | Double-spiral energy-saving lamp tube |
-
2009
- 2009-12-29 CN CN2009101570514A patent/CN101764035B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE20106263U1 (en) * | 2001-04-10 | 2001-06-21 | Vogt Electronic Ag | Geometric lamp arrangement |
CN2498456Y (en) * | 2001-06-11 | 2002-07-03 | 张大光 | Three section electronic energy saving lamp |
CN2580597Y (en) * | 2002-11-08 | 2003-10-15 | 福州永德吉照明电器有限公司 | Multiple double screen fluorescent lamp tube combined lamp tube for compact energy saving lamp |
CN2699470Y (en) * | 2004-06-07 | 2005-05-11 | 葛世潮 | Large-power cold-cathode fluorescent energy-saving lamp |
CN201608152U (en) * | 2009-12-29 | 2010-10-13 | 浙江阳光集团股份有限公司 | Double-spiral energy-saving lamp tube |
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CN101764035A (en) | 2010-06-30 |
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