WO2012041005A1 - Double helix energy-saving fluorescent lamp tube and energy-saving fluorescent lamp - Google Patents

Abstract

Disclosed are a double helix energy-saving fluorescent lamp tube (11) and energy-saving fluorescent lamp. The double helix energy-saving fluorescent lamp tube (11) comprises a helical main body section (1) winding around a longitudinal axis and a linear pin section (2) bending radially inward. A linear connecting section (3) is provided between the main body section (1) and the linear pin section (2), the linear connecting section (3) extends linearly along the tangent line of the end of the helical line (G) of the main body section (1). An arced transitional section (4) is provided between the linear connecting section (3) and the linear pin section (2). The length (L) of the linear connecting section (3) is greater than or equal to the diameter of the lamp tube and is smaller than or equal to the coil diameter (D) of the last coil of the main body section (1). The energy-saving fluorescent lamp comprises the double helix energy-saving fluorescent lamp tube (11) and a lamp base (12). A lamp tube connector (5) is provided on the upper end surface of the lamp base. A connecting hole (6) for inserting the linear pin section is provided on the lamp tube connector (5). The interior of the lamp tube connector (5) is provided with an adhesive (8) for fixedly connecting the double helix energy-saving fluorescent lamp tube (11) and the lamp base (12). During the manufacturing and sealing process of the lamp tube (11), the head of the electrode does not easily touch the inner surface of the glass tube, thus increasing the product quality acceptance rate. The energy-saving fluorescent lamp is convenient to assemble, thus can be easily mass produced.

Description

 Double spiral energy-saving fluorescent tube and energy-saving fluorescent lamp

 The invention relates to an energy-saving fluorescent tube, in particular to a double-spiral energy-saving fluorescent tube and an energy-saving fluorescent lamp.

Background technique

 The conventional double-spiral energy-saving fluorescent tube has a spiral shape, and the shape of the pin connected to the socket is the same as that of the main body of the lamp. However, in practice, it has been found that this type of double-spiral energy-saving fluorescent tube is difficult to seal during processing. If accidentally, the wick of the lamp tube end is in contact with the inner wall of the lamp holder, and the wick is easily scrapped due to the twisting. To this end, a double-spiral energy-saving fluorescent tube with a relatively convenient sealing is designed, which is provided with an inwardly bent straight pin section at the lower end of the tube, thereby solving the above problems. For example, Chinese Patent No. 96104135.8 filed by GE Corporation of the United States discloses a low-pressure discharge lamp assembly in which a bulb forms a spiral structure wound around a longitudinal axis, and its end at one end of the spiral structure is radially from the spiral structure. Bending inward, the two ends of the bulb enter the side walls of the socket having the first and second openings respectively at opposite portions of the socket, the first object of which is to reduce the bulb density, and the second is to make the electrode Keep away from the lamp holder, the third is to increase the pulling force and save the adhesive, and the fourth is to improve the heat dissipation performance. However, the discharge lamp assembly of the spiral structure also has disadvantages. The end of the spiral energy-saving fluorescent tube is directly bent from the main body spiral section, and a large curved portion exists between the linear end portion and the spiral main body portion. , the linear distance in the end portion is greatly reduced, and at the same time, since the main body of the lamp holder protrudes into the inner portion of the spiral structure, the linear distance in the end portion is further reduced, and the head of the wick is easily touched with the inner wall of the glass tube. This is especially true for some lamps with a relatively small screw diameter; when assembled with the lamp holder, both the body of the lamp holder can be inserted into the interior of the spiral structure, and the end portion can be inserted into the lamp holder from both side walls. This is not only to ensure the length of the end accurately, but also to be very careful in the installation to not damage the lamp. The assembly of the lamp and the whole lamp are very difficult, and the processing efficiency and The pass rate is relatively low. This is also the reason why the products of this structure cannot be industrialized.

Summary of the invention

1

Confirmation The technical problem to be solved by the invention is to provide a double-spiral energy-saving fluorescent tube which is convenient to process, has high processing efficiency and high pass rate, and provides a low-cost processing requirement for the lamp tube, and is easy to install and easy to form an industrialized energy-saving. Fluorescent light.

 One technical solution adopted by the present invention to solve the above technical problem is: a double-spiral energy-saving fluorescent tube comprising a spiral body segment wound around a longitudinal axis and a linear pipe leg bent radially inward, the body A straight connecting portion is disposed between the segment and the straight line leg segment, and the straight connecting portion extends along a tangent line of a spiral end point of the main body segment, and the straight connecting portion and the straight tube are A circular arc transition section is disposed between the leg segments, and the length of the straight connecting segment is greater than or equal to the diameter of the lamp tube and less than or equal to the screw diameter of the last turn of the main body segment.

 Another technical solution adopted by the present invention to solve the above technical problems is: an energy-saving fluorescent lamp comprising a double-spiral lamp tube and a lamp holder, the double-spiral lamp tube comprising a spiral body segment wound by a longitudinal axis and a radial direction a linearly bent straight leg section, a linear connecting section is disposed between the main body segment and the linear pin segment, and the straight connecting segment extends along a tangent line of a spiral end point of the main body segment a straight arc transition section is disposed between the straight connecting section and the straight line leg section, and the length of the straight connecting section is greater than or equal to the diameter of the lamp tube and less than or equal to the last turn of the main body segment. a screw diameter, the upper end surface of the socket is provided with a lamp connector, the lamp connector is provided with a connection hole, and the linear pin segment is inserted into the connection hole and is The inside of the connecting seat is provided with an adhesive for connecting the double spiral tube to the socket.

 The lamp tube connecting seat is convex on the end surface of the lamp holder, the opening of the connecting hole is opposite to the end surface of the double spiral lamp tube, and the inside of the lamp tube connecting seat is arranged to accommodate the The straight leg is inserted into the cavity.

 The angle between the straight line leg segment and the straight connecting portion is 30 to 95 degrees.

Compared with the prior art, the invention has the advantages of providing a straight line connecting section extending along a tangential line along the end point of the spiral end of the main body section between the main body section and the straight line leg section, and in the straight line leg section An arc transition section is arranged between the straight connecting sections, so that the linear distance inside the straight pipe leg section can be ensured, so that the head of the wick and the inner wall of the glass pipe are not easily touched during the process of sealing, so that the yield of the product can be greatly improved; The lamp tube connecting seat is provided with a connecting hole on the upper end surface of the lamp holder, and the linear pin leg segment is inserted into the connecting hole and the double spiral lamp tube is fixedly connected with the lamp holder by the adhesive inside the connecting seat, so that the assembly can be facilitated and improved. Efficiency, industrialization of energy-saving fluorescent lamps that are easy to form this structure. The lamp tube connecting seat is convex on the end surface of the lamp holder, and the opening of the connecting hole is opposite to the end surface of the double spiral lamp tube, so that the lamp tube or the lamp holder can be slightly rotated around the longitudinal axis to make the straight line leg segment. Easy to insert into the connection hole. DRAWINGS

 1 is a schematic structural view of Embodiment 1 of the present invention;

 2 is a schematic structural view of Embodiment 2 of the present invention;

 3 is a schematic perspective view showing the structure of the energy-saving fluorescent lamp of the present invention;

 4 is a schematic structural view showing a partial cross section of the energy-saving fluorescent lamp of the present invention;

 FIG. 5 is a schematic perspective structural view of a lamp holder for an energy-saving fluorescent lamp according to the present invention.

detailed description

 The present invention will be further described in detail below with reference to the accompanying drawings.

 Embodiment 1 As shown in FIG. 1 , a double-spiral energy-saving fluorescent lamp tube comprises a spiral body segment 1 wound around a longitudinal axis and a linear pipe segment 2 bent radially inward, a body segment 1 and a straight tube A straight connecting section 3 is arranged between the leg sections 2, and the straight connecting section 3 extends linearly along a tangent line y of the end point G of the main body section 1, and a circular arc transition section is arranged between the straight connecting section 3 and the straight connecting section 2. The angle Θ between the straight leg section 2 and the straight connecting section 3 is 90 degrees, and the length L of the straight transition section 3 is equal to one quarter of the last circle of the main section 1 screw diameter D.

 Embodiment 2: As shown in FIG. 2, a double-spiral energy-saving fluorescent lamp comprises a spiral body segment 1 wound around a longitudinal axis and a linear pipe segment 2 bent radially inward, a main body segment 1 and a straight pipe A straight connecting section 3 is arranged between the leg sections 2, and the straight connecting section 3 extends linearly along a tangent line y of the end point G of the main body section 1, and a circular arc transition section is arranged between the straight connecting section 3 and the straight connecting section 2. The angle Θ between the straight leg section 2 and the straight connecting section 3 is 45 degrees, and the length L of the straight connecting section 3 is equal to the screw diameter D of the last turn of the main section 1.

 Embodiment 3: The basic structure is the same as that of the first embodiment, except that the angle Θ between the straight leg section 2 and the straight connecting section 3 is 95 degrees, and the length L of the straight connecting section 3 is equal to the lamp of the main section 1. The diameter d of the tube.

Embodiment 4: An energy-saving fluorescent lamp, comprising a double-spiral tube 11 and a socket 12, the structure of the double-spiral tube 11 is the same as that of the first embodiment, and the upper end surface of the socket 12 is provided with a tube connection protruding on the end surface. The socket 5 is provided with a connecting hole 6 , and the opening of the connecting hole 6 is opposite to the end surface of the double spiral tube 11 , and the inside of the tube connecting seat 5 is provided with a cavity 7 for receiving the insertion of the straight pin section 2 , The straight pin section 2 is inserted into the connecting hole 6, and the double spiral tube 11 and the socket 12 are fixed and fixed by the adhesive 8 inside the tube connecting seat 5. Embodiment 5: An energy-saving fluorescent lamp comprises a double-spiral lamp tube 11 and a lamp holder 12. The structure of the double-spiral lamp tube 11 is the same as that of the second embodiment. The upper end surface of the lamp holder 12 is provided with a tube connection protruding on the end surface. The socket 5 is provided with a connecting hole 5, and the opening of the connecting hole 6 is opposite to the end surface of the double spiral tube 11. The inside of the tube connecting seat 5 is provided with a cavity 7 for accommodating the insertion of the straight pin section 2. The straight pin section 2 is inserted into the connecting hole 6, and the double spiral tube 11 and the socket 12 are fixed and fixed by the adhesive 8 inside the tube connecting seat 5.

 Embodiment 6: An energy-saving fluorescent lamp comprising a double-spiral lamp tube 11 and a lamp holder 12, the structure of the double-spiral lamp tube 11 is the same as that of the third embodiment, and the upper end surface of the lamp holder 12 is provided with a tube connection protruding on the end surface. The socket 5 is provided with a connecting hole 6 , and the opening of the connecting hole 6 is opposite to the end surface of the double spiral tube 11 , and the inside of the tube connecting seat 5 is provided with a cavity 7 for accommodating the insertion of the straight pin section 2 , The straight pin section 2 is inserted into the connecting hole 6, and the double spiral tube 11 and the socket 12 are fixed and fixed by the adhesive 8 inside the tube connecting seat 5.

Claims

Rights request

 What is claimed is: 1. A double-spiral energy-saving fluorescent lamp comprising: a spiral body segment wound around a longitudinal axis; and a linear pipe segment bent radially inward, characterized in that the body segment and the linear pin segment A straight connecting section is disposed between the linear connecting section and a straight line extending along a tangent line of the end point of the spiral of the main body section, and a circular arc transition is arranged between the straight connecting section and the straight line leg section. And the length of the straight connecting portion is greater than or equal to the diameter of the lamp tube and less than or equal to the screw diameter of the last turn of the main body segment.

 2. A double-spiral energy-saving fluorescent tube according to claim 1, wherein an angle between said linear pin segment and said linear connecting portion is 30 to 95 degrees.

 3. An energy-saving fluorescent lamp comprising a double-spiral tube and a lamp holder, the double-spiral tube comprising a spiral main body section wound by a longitudinal axis and a linear tube section bent radially inward, characterized in that Between the main body segment and the linear pin segment, a straight connecting portion is disposed, the straight connecting portion extending along a tangent line of a spiral end point of the main body segment, the straight connecting segment and the straight line connecting segment A circular arc transition section is disposed between the straight line leg sections, and the length of the straight connecting section is greater than or equal to the diameter of the lamp tube and less than or equal to the screw diameter of the last turn of the main body segment, and the lamp holder is upper The end surface is provided with a lamp tube connecting seat, the lamp tube connecting seat is provided with a connecting hole, and the linear pin leg portion is inserted into the connecting hole and the inside of the connecting seat is provided with The double spiral tube is connected to the lamp holder to fix the adhesive.

 4. An energy-saving fluorescent lamp according to claim 3, wherein said lamp tube connector is raised on an end face of said lamp holder, said opening of said connection hole and said double spiral tube Opposite the end faces, the interior of the lamp connector is provided with a cavity for receiving the linear pin segment.

 5. An energy-saving fluorescent lamp according to claim 3, wherein the angle between the linear pin segment and the linear connecting segment is 30 to 95 degrees.