SU1495875A1 - Electric incandescent lamp - Google Patents

Abstract

The invention relates to the electrical industry, in particular, to electric incandescent lamps. The aim of the invention is to increase the reliability and the expansion of the field of application. Sleeves 2 are inserted into the ends of the filament body (TH) 1, which is twisted into a spatial rectilinear helix. The latter are made of a refractory insulating material. Inside TH 1, conductor 3 passes from a refractory metal, the ends of which are fixed in the openings of the sleeve so that the conductor is in a tensioned state. The ends of the internal links of the electrodes 4 are made in the form of spatial spirals 5 of variable diameter. When TN 1 burns out, its ends will bend under the action of the force of gravity and come into contact with the conductor 3. The lamp will continue to shine. 1 il.

Description

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The invention relates to the electrical industry and can be used in the manufacture of incandescent lamps.

The purpose of the invention is to increase the reliability and expand the scope.

The drawing shows the structure of the internal elements of the incandescent lamp.

Bushings 2 made of a refractory insulating material, for example, ceramics, porcelain or glass, are inserted into the ends of the body 1 of heat generated in a spatial rectilinear helix. Inside the helix, a conductor 3 of refractory metal, such as tungsten, passes, the ends of which are fixed in the openings of the sleeves 2 with the condition that the wire 3 is tensioned. The ends of the internal links of the electrodes 4 lamps are made in the form of spatial spirals 5 of variable diameter .. These spirals are installed with the body of the heat and contain 2-3 turns within the length of the sleeve and 3-4 turns beyond towards each other. The coils of these coils, located near the electrodes, compress the sleeves 2 along the heat body wound on them, and the coils located outside the sleeves are made with a diameter larger than diaphragm. spiral, in which is the filament of the filament, so that between them and the turns of the filament body there is a gap.

In the initial state, i.e., when the solid is intact, the electric current is transferred over the electric / ampere to the spiral of the heater body 1, which then emits light

In the event that the helix of the heating body 1, somewhere in the central part between the spirals 5, blows, the ends of the heating body spiral formed in the place of its burning under the action of b, you will bend and come out into contact with the conductor 3. In this case, the lamp will continue to shine, as the two halves of the burnt-out helix will be connected in series with each other using conductor 3. In this case, the total length of both halves of the helix is equal to the initial length of the whole helix.

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therefore, the luminous flux of the lamp does not change.

If the filament helix burns out in the immediate vicinity of the lamp electrodes or in the place of clamping it with coils of spatial electrodes, when one of the filament helix halves can be short, consisting of one to three coils, and cannot bend under the action of contact with the conductor 3, the second half of the spiral of the heat body will come into contact with the spatial spiral of the lamp electrode. The electrical circuit will also turn out to be closed and the length of the half of the helix will be bu. the children shine, i.e. the lamp will be in a healthy state. However, the luminous flux may be slightly reduced due to the shortening of the light spiral of the heat body. The lamp will be illuminated even if simultaneously the coil of the heat body in several places will burn out.

The working position of the lamp can be either up or down as a base, and also occupy an intermediate direction. The lamp can be either gas-filled or vacuum. The filament body can be spiralized once or twice, i.e. biped may be used.

The inner diameter of the filament helix and the diameter of the conductor passing inside it must be chosen in such a way as to exclude the inter-turn closure of the whole helix, since when the conductor and the helix are heated, their elongation and sagging will occur, which must be provided when designing the lamp elongation of the helix and conductor are the same.

The inner diameter of the spatial alcohol and the outer diameter of the filament spiral must be chosen so that a gap is formed between them. The size of this gap should be chosen from the following consideration: if the filament helix burns out at a place located at the end of the electrode's spatial helix, the gap should allow the deflection of both

the halves of the helix before touching them with the conductor. Tungsten can be used as a conductor material as the most refractory metal. Only in this case the diameter of the conductor must be greater than the diameter of the tungsten wire, from which the filament helix is twisted.

Claims (1)

Invention Formula An electric incandescent lamp, containing a flask, hermetically mounted in it a spiral filament body electrically connected to the internal links of the electrodes, and an electrical conductor located close to the filament body, designed to plug its ends when burned out, which is In order to increase reliability and expand the scope of application, it is provided with two bushings of insulating refractory material located inside the helix at its opposite ends, the specified conductor is also installed detecting within the spiral, its ends are fixed in openings of said sleeves and the internal electrodes -terminal units at the connection to the heater body are in the form of spatial helices coaxially with the filament body, the turns of which from the side of the electrodes are mounted tightly on the bushes, and the remaining turns are installed with a gap relative to the glow body.