The invention relates to an incandescent electric lamp comprising a bulb having an axis of revolution, a first and a second conductor wire designed for supplying said lamp with current, a filament having turns spiraling around an axis of revolution which is parallel to the axis of revolution of said bulb and having a first and a second end, the first end of said filament being connected to the first conductor wire by means of a first metal plate, and a metal support having a first and a second end, the first end of said metal support being connected to the second conductor wire by means of a second metal plate, while the second end of said metal support is connected to the second end of said filament.
Such a lamp is used, for example, in a heating system designed for use in the manufacture of semiconductor components.
Such a lamp is described in U.S. Pat. No. 3,403,280 published Sep. 24, 1968. One of the objects of the invention as disclosed in this document is to ensure a filament position such that the axis of rotation of the turns of the filament substantially coincides with the axis of rotation of the bulb. During normal operational conditions of the lamp, the axis of rotation of the turns of the filament is usually horizontal, i.e. perpendicular to a weight vector of the filament. Such a lamp, however, is often used for dissipating a high power, for example several thousands of watts. Under such conditions the filament reaches a comparatively high temperature when being traversed by a current. The filament will have a tendency to be mechanically deformed under the influence of the high temperature and its own weight, thus developing a curvature in downward direction, i.e. the turns of the filament sag, which sagging of a turn will be greater in proportion as the turn is situated closer to a central zone of the filament. In addition, this sagging becomes more pronounced as the filament has had a longer period of operation. When the lamp has been operating during a comparatively long period, therefore, the sagging may be such that the filament comes into contact with the bulb, which may give rise to a crack or an explosion of the bulb, because the temperature of the filament is higher than the softening point of the bulb, which is usually made of quartz. Now such lamps may be used, for example, in the manufacture of semiconductors. An explosion is accordingly detrimental because quartz fragments can pollute the semiconductors.
It is an object of the invention to provide an anti-explosion device for an incandescent lamp.
According to the invention, an incandescent lamp as defined in the opening paragraph is characterized in that it comprises a metal bracket which is in electrical contact with one of the ends or one of the turns of said filament and which comprises a substantially rectilinear portion parallel to the axis of revolution of said filament and situated below said filament when the lamp is in its normal operating position.
If the filament sags considerably, one of the turns situated in a central zone of the filament will come into contact with the metal bracket before touching the bulb. Owing to this, approximately one half of the filament will become short-circuited. This leads to a reduction in resistance of the filament, accordingly an increase in the current strength in the filament and finally an increase in the filament temperature. The filament then reaches a temperature higher than its melting point and will be broken. The lamp will no longer function after this and cannot explode, because the filament cannot reach the bulb while the lamp is operating.
In a first particular embodiment of the invention, the lamp is characterized in that said metal bracket is connected to the first metal plate. In this embodiment, the metal bracket may be a simple straight rod welded to the metal plate, which renders such a metal bracket particularly simple to manufacture and to install in the lamp.
In a second particular embodiment of the invention, the lamp is characterized in that said metal bracket is connected to the metal support. In this embodiment, the metal support itself may play the part of the metal bracket responsible for the short-circuit which leads to a breaking of the filament. The number of components necessary for manufacturing the lamp is reduced thereby.
In a modification of the invention, the lamp is characterized in that it comprises in addition at least one intermediate support hooked to a turn of said filament. The intermediate support(s) hooked to the filament render(s) it possible to reduce the sagging of the latter and thus to postpone the moment of contact between the filament and the metal bracket, which prolongs the period during which the lamp can function.
In a first particular embodiment of this modification, the lamp is characterized in that the intermediate support(s) is (are) situated above the filament when the lamp is in its normal operating position. Such an embodiment safeguards that the filament is well retained, because the mechanical deformation suffered by the filament takes place in downward direction. Moreover, the risk of contact involving an intermediate support and two turns is eliminated, which is advantageous because such a contact would lead to an undesired short-circuit which would be fatal for the lamp.
In a second particular embodiment of this modification, the lamp is characterized in that said metal bracket is connected to one of the at least one intermediate support. In this embodiment, one of the intermediate supports itself may play the part of metal bracket, which reduces the number of components necessary for manufacturing such a lamp.
The invention will be better appreciated and further details will become apparent from the following description which is given with reference to the annexed drawings, which represent examples to which the invention is not limited and in which:
a and 1b are a front elevation and a cross-section, respectively, of a lamp in a first particular embodiment of the invention, while
a and 2b are a front elevation and a cross-section, respectively, of a lamp in a second particular embodiment of the invention, while
a and 3b are a front elevation and a cross-section, respectively, of a lamp in a first particular embodiment of a modification of the invention; and
a and 4b are a front elevation and a side elevation, respectively, of a lamp in a second particular embodiment of a modification of the invention, with
a shows a lamp in a first particular embodiment of the invention. Such a lamp comprises a bulb 100 having an axis of revolution 102, a first conductor wire 103, a second conductor wire 104, a filament 105 having a first end 105a and a second end 105b, a first metal plate 106, a second metal plate 107, a metal support 108 having a first end 108a and a second end 108b, and a metal bracket 109. The filament 105 has eight turns A to H. Such a lamp may also comprise a pinch seal 101 as well as a bridge 110 of insulating material capable of keeping in place certain elements of the lamp such as the filament 105, the metal support 108, and the metal bracket 109.
The first end 105a of the filament 105 is connected to the first conductor wire 103 by means of the first metal plate 106. The metal plates 106 and 107 are means for interconnecting elements electrically, such as the first conductor wire 103 and the filament 105. Said metal plates 106 and 107 may be metal plates on which the elements are welded. They may equally well be weld spots, i.e. the elements to be electrically interconnected are directly welded one onto the other.
The second end 105b of the filament 105 is connected to the second end 108b of the metal support 108, and the first end 108a of the metal support 108 is connected to the second conductor wire 104 by means of the second metal plate 107. The filament 105 and the metal support 108 thus form a current circuit. The current enters by the second conductor wire 104, traverses the metal support 108 and then, in that order, the turns A, B, C, D, E, F, G, and H, and leaves by the second conductor wire 103. When traversing the filament 105, the current heats this filament owing to the Joule effect, which filament thus becomes a light source. The metal bracket 109 is welded onto the first metal plate 106 and is accordingly in electrical contact with the first end 105a of the filament 105, which is also welded to this plate. The expression “an object A and an object B are in electrical contact” is in fact understood to mean that the object A and the object B are at one and the same potential.
b shows a cross-section of the lamp of
c makes apparent the role of the metal bracket 109. When the filament 105 sags, one of the turns, for example turn E, will come into contact with the metal bracket 109. In such a situation, the current will enter by the second conductor wire 104, traverse the metal support 108 and then, in that order, the turns A, B, C, D, and will subsequently follow a path of least resistance, i.e. the metal bracket 109, finally leaving by the first conductor wire 103. The turns E, F, G, and H have thus been short-circuited. This leads to an increase in the current strength in the turns A, B, C, and D, which causes such an intense heating that the filament 105 is broken.
a shows a lamp in a second particular embodiment of the invention. In this embodiment, the metal bracket is connected to the metal support 108. The term “connected” is understood to mean that the metal bracket may be a metal piece welded or attached to the metal support 108, or alternatively that the metal bracket may be an integral part of the metal support, i.e. the metal support 108 itself performs the function of the metal bracket 109. The metal support 108 thus has a straight portion in
In a modification of the invention, the lamp comprises in addition at least one intermediate support hooked to a turn of said filament.
a shows a lamp in a first particular embodiment of this modification, and
a illustrates a lamp in a second particular embodiment of this modification,
c makes clear how such an intermediate support 112 performs the function of a metal bracket responsible for the short-circuit which leads to a filament breaking. When one of the turns, for example the turn E, comes into contact with the intermediate support 112 in a contact point P, the current will enter by the second conductor wire 104, pass through the metal support 108, then through the turns A, B, C, D, and E, up to the point of contact P, then through the second intermediate support 112 up to its hook, and finally the turns G and H, so as to leave by the first conductor wire 103. The turn F and part of the turn E are short-circuited thereby and, for the same reasons as given in the description of
The above description with reference to the Figures illustrates the invention without in any way limiting it. A few remarks will be made below to this effect.
Number | Date | Country | Kind |
---|---|---|---|
0110959 | Aug 2001 | FR | national |
Number | Date | Country | |
---|---|---|---|
Parent | 10222244 | Aug 2002 | US |
Child | 11223514 | Sep 2005 | US |