CN201238029Y - Right, right and left three-segment type helical coiling structure of energy-saving filament - Google Patents

Abstract

The utility model discloses a triple-section type spirally rightward-wound, rightward-wound and leftward-wound structure of an energy-saving filament, which comprises a spiral main filament body (1); wherein, the main filament body (1) consists of a core rod (2) and a secondary wound filament body (3) wound around the core rod (2); the secondary wound filament body (3) consists of a molybdenum core filament (4) and a primary wound filament body (5) wound around the molybdenum core filament (4); the primary wound filament body (5) consists of a molybdenum core filament (6) and a tungsten filament (7) wound around the molybdenum core filament (6); the tungsten filament (7) is wound on the molybdenum core filament (6) in a manner of rightward spiral; the primary wound filament body (5) is wound on the molybdenum core filament (4) in a manner of rightward spiral; and the secondary wound filament body (3) is wound on the core rod (2) in a manner of leftward spiral. Since the filament adopts the triple-section type rightward, rightward and leftward spiral winding method, the filament cannot be easily twisted, deformed and tangled, after mounting, consequently, the acceptability rate of light tubes is increased, a great deal of manpower used for reparation is reduced, and the production cost is greatly decreased.

Description

The right side of energy-saving filament, the right side, left three-section type spiral winding structure

Technical field

The utility model relates to the right side, the right side, the left three-section type spiral winding structure of a kind of winding structure of filament, particularly a kind of energy-saving filament.

Background technology

At present, the filament of electricity-saving lamp adopts left, left, left three-section type spiral winding usually when coiling.The problem that this winding exists is that filament twists the assembly circle easily at a back bung flange that stretches tight, cause the filament short circuit, have a strong impact on a qualification rate that stretches tight, and owing to piece together the filament of circle and need manually to carry out craft in a large number and reprocess, cost of labor is higher, be coated in electronics powder in the filament spiral when reprocessing simultaneously and bumped easily and come off, directly influence lamp tube service life.

The utility model content

Technical problem to be solved in the utility model is to provide a kind of right side, the right side, left three-section type spiral winding structure of energy-saving filament.Adopt this winding structure not only can improve filament a qualification rate that stretches tight, reduce production costs and not yielding when stretching tight thread a, operation than being easier to.

For solving the problems of the technologies described above, the technical solution of the utility model is as follows: a kind of right side of energy-saving filament, the right side, left three-section type spiral winding structure.It comprises spiral helicine filament main body, and the filament main body is made up of plug and the filament secondary winding body that is wrapped in this plug periphery; Filament secondary winding body once twines body by molybdenum core silk with the filament that is wrapped in this molybdenum core silk periphery to be formed; Filament once twines body to be made up of molybdenum core silk and the tungsten filament that is wrapped in this molybdenum core silk periphery, and tungsten filament is wrapped on its molybdenum core silk in the right-hand screw mode; Filament once twines body and is wrapped on its molybdenum core silk in the right-hand screw mode; The filament secondary twines body and is wrapped on its plug in the left-hand screw mode.

In the right side of above-mentioned energy-saving filament, the right side, the left three-section type spiral winding structure, used tungsten filament can be that specification is the thin tungsten filament of 1.80～1.90mg/200mm.

In the right side of aforesaid energy-saving filament, the right side, the left three-section type spiral winding structure, used tungsten filament also can be that specification is the ultra-fine tungsten wires of 0.6～0.7mg/200mm.

Filament of the present utility model adopts right, right, left three-section type spiral winding, can significantly reduce the defective products of fluorescent tube manufacturer, reduces the production cost of enterprise greatly, the qualification rate height of product not only, production cost is lower, and not yielding behind the silk that stretches tight, operation is than being easier to, and cost of labor is lower.The utility model is particularly useful for the fluorescent tube of diameter 7-10mm caliber, equally also is applicable to extra heavy pipe footpath electricity-saving lamp.

Definition about right-hand screw, left-hand screw in the utility model is such: stretch out a hand, allow thumb point to the axial of spiral, other 4 fingers are clenched fist, so one " advancing " direction is arranged by palm to 4 finger tip, if the spiral direction of advance just in time conforms to the left hand that stretches out, then this spiral is a left-hand screw, if conform to the right hand then be right-hand screw.

Description of drawings

Fig. 1 is the winding structure schematic diagram of filament main body of the present utility model;

Fig. 2 is the winding structure schematic diagram that filament secondary of the present utility model twines body;

Fig. 3 once twines the winding structure schematic diagram of body for filament of the present utility model.

Embodiment

Below in conjunction with drawings and Examples the utility model is further described.

Embodiment of the present utility model: it comprises spiral helicine filament main body 1, and filament main body 1 is made up of plug 2 and the filament secondary winding body 3 that is wrapped in plug 2 peripheries, as shown in Figure 1; Filament secondary winding body 3 once twines body 5 by molybdenum core silk 4 with the filament that is wrapped in molybdenum core silk 4 peripheries to be formed, as shown in Figure 2; Filament once twines body 5 to be made up of molybdenum core silk 6 and the tungsten filament 7 that is wrapped in molybdenum core silk 6 peripheries, as shown in Figure 3.Wherein once to twine body 5 be to be wrapped on the molybdenum core silk 4 in the right-hand screw mode to filament, and it is to be wrapped on the plug 2 in the left-hand screw mode that the filament secondary twines body 3, and tungsten filament 7 is to be wrapped on the molybdenum core silk 6 in the right-hand screw mode.It is the thin tungsten filament of 1.80～1.90mg/200mm that used tungsten filament 7 can adopt specification, and perhaps adopting specification is the ultra-fine tungsten wires of 0.6～0.7mg/200mm.

During the coiling filament, at first tungsten filament 7 is wound on the molybdenum core silk 6 in the right-hand screw mode, be about to tungsten filament 7 according to the direction of right-hand screw in the shape of a spiral shape be wound on the molybdenum core silk 6, obtain filament and once twine body 5; Then filament is once twined body 5 and be wound on the molybdenum core silk 4, obtain secondary and twine body 3 in the right-hand screw mode; Again the filament secondary that obtains is twined body 3 and be wrapped on the plug 2, extract plug 2 out, carry out after the secondary typing molybdenum core silk being dissolved, promptly obtain energy-saving filament of the present utility model in the left-hand screw mode.

Claims (3)

1, a kind of right side of energy-saving filament, the right side, left three-section type spiral winding structure, it comprises spiral helicine filament main body (1), filament main body (1) is by plug (2) and be wrapped in the peripheral filament secondary of plug (2) and twine body (3) and form; The filament secondary twines body (3) and once twines body (5) by molybdenum core silk (4) and the filament that is wrapped in molybdenum core silk (4) periphery and form; Filament once twines body (5) by molybdenum core silk (6) be wrapped in the peripheral tungsten filament (7) of molybdenum core silk (6) and form, and it is characterized in that: tungsten filament (7) is wrapped on the molybdenum core silk (6) in the right-hand screw mode; Filament once twines body (5) and is wrapped on the molybdenum core silk (4) in the right-hand screw mode; The filament secondary twines body (3) and is wrapped on the plug (2) in the left-hand screw mode.

2, the right side of energy-saving filament according to claim 1, the right side, left three-section type spiral winding structure is characterized in that: described tungsten filament (7) is that specification is the thin tungsten filament of 1.80～1.90mg/200mm.

3, the right side of energy-saving filament according to claim 1, the right side, left three-section type spiral winding structure is characterized in that: described tungsten filament (7) is that specification is the ultra-fine tungsten wires of 0.6～0.7mg/200mm.

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