CN101477938B - Helical energy saving lamp tube - Google Patents

Abstract

The invention discloses a spiral energy-saving light tube, which comprises a first plane double helix tube and a second plane double helix tube. One end of the first plane double helix tube is a first connecting end, one end of the second plane double helix tube is a second connecting end, the first plane double helix tube is parallel to the second plane double helix tube, and the first connecting end is connected with the second connecting end through a connecting bridge. The spiral energy-saving light tube has the advantages that the two independent plane double helix tubes are connected into a whole in parallel through the connecting bridge to form the double-layer spiral energy-saving light tube; the bridge connection is required to be performed once during the bridge connection process, so that not only the production yield of the light tube is improved, but also the effective lighting is more sufficient; the spiral energy-saving light tube is very suitable for uses in wall lamps, cabinet lamps, or other flat lamps; and the occupied longitudinal space is smaller.

Description

A kind of helical energy saving lamp tube

Technical field

The present invention relates to a kind of power saving fluorescent lamps, especially relate to a kind of helical energy saving lamp tube.

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.Energy-saving lamp generally can be divided into two big classes: a class is the one-piece auger type, and another kind of selecting for use connects bridge type.The power saving fluorescent lamps that the electricity-saving lamp of one-piece auger type uses is helical lampl, because the body of the effective lighting of helical lampl is longer, therefore its illuminating effect is greatly improved than common power saving fluorescent lamps, make the electricity-saving lamp of one-piece auger type be subjected to liking of businessman and consumer deeply, but because three-dimensional spiral way is generally adopted in the Luo Dao of helical lampl commonly used design at present, make that the longitudinal length of whole electricity-saving lamp is bigger, when particularly doing the use of wall lamp and cabinet lamp, shared longitudinal space is bigger.And the power saving fluorescent lamps that the electricity-saving lamp that connects bridge type uses normally the mode by connecing bridge two or more U type glass-tubes or ∏ type glass-tube or H type glass-tube are linked together, not only improved the power output of electricity-saving lamp, satisfied consumer's lighting demand, and the development of power saving fluorescent lamps played certain facilitation, but when two U type glass-tubes or ∏ type glass-tube or H type glass-tube being connect bridge and form double-deck fluorescent tube and be used in flat lamp, in connecing the bridge course of processing, need carry out connecing bridge twice, not only increased workload, and connect bridge twice and damage glass-tube easily, thereby reduced the rate of finished products of fluorescent tube, the effective lighting light of the dual-layer lamp tube of this structure is less simultaneously.

Summary of the invention

Technical problem to be solved by this invention provides a kind of simple in structure, effective lighting light abundance, and can improve the helical energy saving lamp tube that connects bridge type of the rate of finished products in the course of processing.

The present invention solves the problems of the technologies described above the technical scheme that is adopted: a kind of helical energy saving lamp tube, comprise the first plane double spiral tube and the second plane double spiral tube, one end of the described first plane double spiral tube is first link, one end of the described second plane double spiral tube is second link, described first plane double spiral tube and the described second plane double spiral tube are parallel, connect by connecing bridging between described first link and described second link.

Described first plane double spiral tube and the described second plane double spiral tube are parallel in the same way.

Described first plane double spiral tube and the described second plane double spiral tube are parallel in opposite directions.

The other end of the described first plane double spiral tube is connected with the first fluorescent tube blast pipe and the first lamp tube electrode lead-out wire, the other end of the described second plane double spiral tube is connected with the second fluorescent tube blast pipe and the second lamp tube electrode lead-out wire, is provided with the mercury alloy material in the described second fluorescent tube blast pipe.

The body length of described first plane double spiral tube and the described second plane double spiral tube is all identical with the body external diameter.

Compared with prior art, the invention has the advantages that independently the plane double spiral tube is parallel and be connected together and constitute double-deck helical energy saving lamp tube by connecing bridging with two, in connecing the bridge course of processing, only need once connect bridge, not only improved the rate of finished products of fluorescent tube, and effective lighting light is also comparatively sufficient, this helical energy saving lamp tube is adapted to use in other flat lamps such as wall lamp or cabinet lamp very much, and it is also less to take longitudinal space; With two independently the plane double spiral tube connect bridge in the same way side by side, though the part of the illumination light that one of them plane double spiral tube sends can be blocked by another snail pipe, in connecing the bridge course of processing, this structure to connect the bridge process comparatively simple; With two independently the plane double spiral tube connect bridge in opposite directions side by side, the illumination light that makes one of them plane double spiral tube send is greatly reduced by the part that another snail pipe blocks, effectively reduce the loss of effective lighting light, thereby make illumination light be utilized efficiently, but this structure to connect the bridge difficulty higher.

Description of drawings

Fig. 1 is the structural representation of the plane double spiral tube that uses in the specific embodiment of the invention;

Fig. 2 is the structural representation of the helical energy saving lamp tube of the specific embodiment of the invention one;

Fig. 3 is the end view of Fig. 2;

Fig. 4 is the structural representation of the helical energy saving lamp tube of the specific embodiment of the invention two;

Fig. 5 is the end view of Fig. 4.

Embodiment

Embodiment describes in further detail the present invention below in conjunction with accompanying drawing.

Embodiment one: as Fig. 1, Fig. 2 and shown in Figure 3, a kind of helical energy saving lamp tube, comprise two the independently first plane double spiral tube 1 and the second plane double spiral tubes 2, one end of the first plane double spiral tube 1 is first link 11, one end of the second plane double spiral tube 2 is second link 21, the first plane double spiral tube 1 and the second plane double spiral tube 2 are parallel in the same way, connect by connecing bridge 3 between first link 11 and second link 21.The other end of the first plane double spiral tube 1 is connected with the first fluorescent tube blast pipe 12 and the first lamp tube electrode lead-out wire 13, the other end of the second plane double spiral tube 2 is connected with in the second fluorescent tube blast pipe 22 and the second lamp tube electrode lead-out wire, 23, the second fluorescent tube blast pipes 22 mercury alloy material 24 is housed.

In the present embodiment, adopt two independently the body length of the first plane double spiral tube 1 and the second plane double spiral tube 2 is identical with body external diameter size, promptly two plane double spiral tubes all adopt plane double spiral tube as shown in Figure 1, plane double spiral tube among Fig. 1 comprises body 4, body 4 is the expansion of symmetric double spiral to rotate in the same way at grade, the center of circle 0 of the circumscribed circle 5 of body 4 overlaps with the spiral center A of body 4, the end face center of the two-port 6 of body 4 equates with the distance of the spiral center A of body 4, as among Fig. 1 apart from a.Certainly, also can adopt other plane double spiral tubes, and the body length of two plane double spiral tubes that adopt can be inequality, the size of body external diameter also can be inequality.

The helical energy saving lamp tube of above-mentioned this structure, though the part of the illumination light that one of them plane double spiral tube sends can be blocked by another snail pipe, but in connecing the bridge course of processing, this structure to connect the bridge process comparatively simple, operation technique is also more single, makes that to connect the bridge rate of finished products higher.

Embodiment two: as shown in Figure 4 and Figure 5, the structure of the structure of present embodiment and embodiment one is basic identical, difference only is the first plane double spiral tube 1 and the parallel in opposite directions bridge that connects of the second plane double spiral tube 2 in the present embodiment, the illumination light that the fluorescent tube of this structure makes one of them plane double spiral tube send is greatly reduced by the part that another snail pipe blocks, effectively reduce the loss of effective lighting light, thereby make illumination light be utilized efficiently, but this structure to connect the bridge difficulty higher.

In the present embodiment, two of employing independently the body length of the first plane double spiral tube 1 and the second plane double spiral tube 2 is identical with body external diameter size, and promptly two plane double spiral tubes all adopt plane double spiral tube as shown in Figure 1.Certainly, the body length of two plane double spiral tubes of employing can be inequality, and the size of body external diameter also can be inequality.

Claims (5)

1. helical energy saving lamp tube, it is characterized in that comprising the first plane double spiral tube and the second plane double spiral tube, one end of the described first plane double spiral tube is first link, one end of the described second plane double spiral tube is second link, described first plane double spiral tube and the described second plane double spiral tube are parallel, connect by connecing bridging between described first link and described second link.

2. a kind of helical energy saving lamp tube according to claim 1 is characterized in that described first plane double spiral tube and the described second plane double spiral tube are parallel in the same way.

3. a kind of helical energy saving lamp tube according to claim 1 is characterized in that described first plane double spiral tube and the described second plane double spiral tube are parallel in opposite directions.

4. according to claim 2 or 3 described a kind of helical energy saving lamp tubes, the other end that it is characterized in that the described first plane double spiral tube is connected with the first fluorescent tube blast pipe and the first lamp tube electrode lead-out wire, the other end of the described second plane double spiral tube is connected with the second fluorescent tube blast pipe and the second lamp tube electrode lead-out wire, is provided with the mercury alloy material in the described second fluorescent tube blast pipe.

5. a kind of helical energy saving lamp tube according to claim 4 is characterized in that the body length of described first plane double spiral tube and the described second plane double spiral tube is all identical with the body external diameter.

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