SE466753B - SELF-LIGHTING LIGHT, INCLUDING A SHELTER PROVIDED BETWEEN WEEKS AND LIGHTMASS - Google Patents

Description

466 10 15 20 25 755 i <2 / DESCRIPTION OF THE SLEEVE The sleeve (3), fig. 1, is mounted on / around the wick (2), which means that it is placed between the body of light mass (1) and the wick (2). The sleeve is made of non-flammable material that conducts enough heat to melt the light mass in a zone (5) around the sleeve (3) along all or part of its length, Figs. 2 and 3.

Examples of sleeve material are thin sheet material.

The sleeve must be designed in its upper part so that the flame (4) here stops in its travel along the wick. This can be done, for example, by the sleeve enclosing the wick so tightly that the flame cannot burn along the wick inside the sleeve, for example due to lack of oxygen. .

The sleeve must also be designed in such dimensions and in this way, or be provided with a device, so that the molten / liquid light mass is given the opportunity to be drained around the sleeve / wick and transmitted to the flame by the suction force that the wick / flame gives rise to and / or in another way, for example due to capillary forces (for example through channel / channels in the sleeve).

To ensure that the wick (2) and the sleeve (3) retain their position in the light body when cavities have been formed, Fig. A, the sleeve is provided with an anchor (6) which has such an extent in the light body that it is not completely surrounded by molten or sufficiently softened mass of light. The sleeve can also be designed in such dimensions that its lower part is not enclosed by molten or sufficiently softened light mass, Fig. 5. Another way of ensuring that such a melt does not occur around the lower part of the sleeve is that the sleeve is made of different materials where it / the lower part / parts have low thermal conductivity, fig. 6 10 15 466 753 / Example of design of the sleeve where the wick / flame absorbs melt / Liquid mass of light is through opening / openings in the sides of the sleeve at a suitable distance from the upper edge of the sleeve, Fig. 7, B. The wick / positions then suck melt / Liquid mass of light through opening / openings.

Examples of design of the sleeve where channel / channels are formed in the sleeve can be according to Fig. 9. The molten light mass is passed on here to the wick / flame by capillary forces which arise in channels. Ducts can also contain materials with absorbency and thereby facilitate the drainage and transport of molten / sounding light mass. Channel / channels can also be combined with opening / openings in the sleeve, Figs. 10, 11, 12.

The sleeve can also be made of material which has such a structure that the molten light mass can pass through it, for example porosities, and on to the wick / flame. 466 755 3 ”1D 15 20 25 30 / DESCRIPTION OF THE EVENT OF THE INVENTION The flame (4) burns in the usual manner downwards along the wick (2), fig. 13. until it reaches the upper part of the sleeve (3), fig. 14, which is mounted on or around the wick (2). The flame is prevented from continuing to burn along the wick (2) which is here enclosed by the sleeve (3). The enclosure means that the flame (4) cannot burn inside the sleeve (3) due to, for example, lack of oxygen. The flame (4) has thus been stopped at the part of the wick (2) which is located at the upper edge of the sleeve (3). However, the wake / flame still has the ability to attract and assimilate surrounding melt / liquid. Light mass_ The light self-extinguishes only when positions are provided with insufficient amount of fuel (light mass) or when the part of the wick located at the upper edge of the sleeve is consumed ( burned). (Due to its proximity to the flame (4), the sleeve (3) is heated to a temperature above the melting point of the light mass. Heat conduction, heat transfer, heat radiation, etc., causes the light mass closest to the sleeve (3) to melt or become liquid and a zone of melt / liquid is formed. mass of light (5), fig. 15.

The molten / liquid light mass is transmitted depending on the design of the sleeve to the flame located at the upper edge of the sleeve and is burned there. This thereby drains the molten / liquid light mass (5) around the sleeve and the wick so that a cavity is formed in the light body, fig. 16, 17 This leads to the light self-extinguishing, fig. 18, due to the fact that light mass is not added to the wick / layer after this. The process is shown in more detail in Figs. 19, 20, 21 for a variant of sleeve. The sleeve can also be designed so that other mechanisms also contribute to the drainage, see below. The wick (2) with sleeve (3) is kept centered with anchorage (6). Another way of keeping the watch and sleeve centered is to design the sleeve so that its lower part is constantly surrounded by solid or viscous mass of light, Figs. 22, 23, 24, 25, 26, 27. The process is shown in more detail in Figs. 28, 29, 30. m, 10 15 ZÜ 25 30 35 466 755 The flame (4) located at the upper edge of the sleeve (3) gives off heat which to a certain extent further melts the remaining solid mass of light at the upper part of the light body and inside on the cavity walls. This flows down ooh accumulates in the previously melted mass of light or in the bottom of the cavity.

The impurity / transmission of molten light mass (5) to the wick / flame depends on its suction capacity and can take place via special devices such as openings or channels in the sleeve (3). Mechanisms such as capillary forces can also act for drainage of molten / liquid light mass (5) to the wick / flame, The mechanism is thus dependent on the design and construction of the sleeve. Fig. 31 illustrates how the combination of the wick / flame's suction capacity and capillary forces can contribute to the drainage.

\. When such temperature conditions have set in the light that the candle mass can not be transported to the flame because it has become solid or viscous in the vicinity of the wick and sleeve, the flame thus goes out due to lack of fuel (candle mass), Figs. 18, 27, as previously mentioned. (3), placed on the wick (2), that the flame (G) can not burn further down on the wick than to the upper edge of the sleeve. While the flame here is supplied with fuel (molten candle mass), the wick in this part is consumed (burned) successively. If this lasts a long enough time_ it can lead to the flame going out for this reason as well.

The above-mentioned extinguishing causes can also work together to extinguish the flame. For example, the wick at the upper edge of the sleeve, from which the flame flames, becomes smaller and smaller due to its consumption. This leads to the flame also becoming smaller and developing less heat, which in turn leads to the light mass becoming viscous or solid so that transport of light mass until the wick / flame decreases or ceases. Another example of collaboration is the following; When the transport of light mass to the wick / flame decreases or ceases, the wick is consumed (burned) faster,

Claims (1)

1. 466 753 10 15 20 CLAIMS 1. 2. 4. Self-extinguishing light, comprising a body of light mass (1) with a wick (2) arranged therein, which wick is for a part of its length enclosed in a sleeve (3 ), characterized in that the sleeve (3) is arranged between the body of light mass (1) and the wick (2), and the sleeve at least over a part of its length narrowly encloses the wick and where the sleeve (3) is made of a non-flammable material. with good thermal conductivity and designed with opening / openings in the side surface / side surfaces of the sleeve and / or channel / channels in the sleeve to lead molten or liquid light mass to the wick and / or flame. Light according to Claim 1, characterized in that the sleeve (3) is designed so that some part of the sleeve (3) or part (6) applied to the sleeve (3) is not surrounded by molten or softened light mass so that the sleeve (3) is thereby anchored. in the light body (1) and is kept centered in the light. Candles according to Claim 1, characterized in that the sleeve (3) is made of a material with such a structural structure that it is possible for molten or liquid liquid mass to pass through the material to the wick. Light according to Claim 1, characterized in that the sleeve (3) is made of a material with such a structural construction that it is possible for molten or liquid light mass to pass through the material to the flame.