FI121116B - Lighter - Google Patents

Description

LIGHTER

SUMMARY OF THE INVENTION The present invention relates to a lighter for igniting firewood in a fireplace according to the preamble of claim 1.

Nowadays, firewood in real estate fireplaces is usually ignited by adding fires under the firewood. Household paper waste 10 and birch bark are often used as lighters. In the early stages of ignition and combustion, when the temperatures in the fireplace are still low, noxious fine particles and flue gases are transported out of the chimney without burning. As a whole, household fireplaces transport a significant amount of greenhouse gas emissions from solid fuels. Studies have shown that emissions can be substantially reduced by igniting firewood from the top, whereby gases from below are introduced into the combustion zone and burn with low emissions. Ignition from the top is much more difficult than firing from below, since the heat rises upwards and the combustion air references in fireplaces come mainly through the grate from below to the firewood.

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The known technique for igniting firewood is largely based on the fire safety and speed of the fire. These are best accomplished by using flammable liquids, gases, or chemicals for ignition and from below. Most of these inventions are mainly suitable for outdoor use. Cartridge-type lighters with a non-combustible body and an ignition charge, such as waste paper or wood chips, are poorly suited for indoor use because the sooty and striped lighter has to be removed from the furnace, causing odor and interior sooting. Disposable lighters made from solid fuels have also been frequently supplemented with chemicals to promote ignition and combustion. The lighter according to U990177 is a ball of wood and paraffin extruded with a matchstick. Without chemical wood chips, it is very difficult to ignite and the desired ignition effect would not even occur. US2006130395 discloses 2 solid fuel lighters laminated from waste paper and waste stearin whose operating principle mimics the burning of a candle. During the ignition phase, a portion of the stearin 5 flows melted to the bottom of the fireplace and through the grate to the ash box, where it occasionally solidifies and sometimes melts and gasses as glowing coals fall in its vicinity. Wood-based lighters according to U950365 and U950521 are typical of firewood, that is to say, practically under-tree lighters. These types of lighters do not have 10 ways of targeting the heat effect downwards. During the heating season, the number of fires in the property is considerable, as is the case with summer sauna heaters, so the ease of use and affordability of the lighter, as well as the price, are key factors in the widespread firing. The availability of birch firewood and ash to households has also deteriorated as a result of industrial changes and rising prices.

It is an object of the invention to provide a lighter that can be prefabricated industrially, assembled at the place of use, and provided with end-use of material classified as waste which is within the reach of all persons.

The above drawbacks can be substantially reduced and the above-described objects are achieved by a lighter according to the invention, which is characterized by what is defined in the characterizing parts of the claims.

The main advantages of the invention are e.g. the fact that material classified as waste can be recovered at source, thereby reducing greenhouse gas emissions that contribute to climate change as consumers change their behavior in lighting fires. Traditions, that is to say, long-standing fires, are difficult to reconcile with current state of the art climate protection unless a meaningful, easy-to-use and affordable solution is found. The industrially prefabricated part of the lighter will challenge the user to succeed in assembling the lighter and in the firing process itself, as each fireplace, like the 3 lighters, is an individual who, together with others, contributes to a great whole. Assembling the lighter for a particular fireplace also directs the user 5 to select a sufficiently small (thin) and dry, that is, appropriate firewood for the ignition event.

A very significant advantage is that the lighter does not have to be purchased separately from the store. Households produce a considerable amount of different types of paper waste, some of which are recycled and some can be used as fires in fireplaces. For example, when introducing a new roll of toilet paper or kitchen towels, the first sheets are often rendered unusable, and the same happens with the last sheets of the roll, since the starting and ending points are often fixed by gluing. In most cases, sheets of paper are rendered unusable due to the pure carelessness of the user, which again directly increases the load on the wastewater. Often igniting firewood firewood using the above-mentioned waste paper will often not produce the desired result, but the fire will fade and extinguish, and thus the emissions will only increase due to several attempts to light. This is mainly due to the fact that, even if the amount of ignition material in question is large, the fire load cannot be applied to a sufficiently small area from which the fire proceeds radially and from top to bottom, thus minimizing harmful emissions. Although birchwood sweat is an excellent ignition from the bottom, it does not have the same effect when firing from above, as the heat rises up and when the heat is strongly curled, the spark can move several times.

25 The board material from which the center portion of the toilet paper roll is made is poorly burnt and the toilet paper burns rapidly by flaming and then essentially charring, and the desired ignition effect is not easily achieved. The central portion of the toilet paper roll, hereinafter referred to as the carton tube for clarity purposes in this application, can be used to make an efficient and inexpensive lighter for igniting fireplaces from above.

The lighter consists of this carton tube, for example, the carton roll manufacturer has, during the manufacturing process, machined the ignition hole, the combustion air and the combustion gas apertures for the ignition and combustion event, and possibly also the special incisions at the ends of the carton tube 304. Patterns or text may also be printed on the outer surface of the cardboard tube, such as instructions for manufacture, use and safety, or advertising. The end of the lighter can be formed by a wrapping or folding method known in the art of packaging, in which the end of the tube is folded perpendicularly to the longitudinal axis or assisted by special incisions at the end by pressing a cardboard tube against, for example, a table. In these embodiments, a combustion air / combustion gas aperture is formed in the center 10 of the end. The end can also be made into a cardboard tube by inserting a separate plug inside or outside, which may be of the same material as the lighter body. The necessary holes can also be machined into the plug. The end may also be formed, for example, of tightly rolled toilet paper because it does not burn quickly at low temperatures and thus fills the function as the end of the lighter 15. A large amount of toilet paper etc., which is unusable for the original purpose, is loosely placed inside the cardboard tube in the middle region, which may be more tightly folded at the ends and also burn more slowly. The cardboard tube is formed with one or both ends in one of the above embodiments. The lighter is now ready to use and costs almost nothing for 20 consumers, as it is almost entirely made of waste material and even the time spent assembling it can be utilized for this purpose. A small additional cost is incurred by the cartonboard manufacturer when the necessary machining and any printing is done. Technically, the openings or incisions formed in the cardboard tube do not affect its original use as the center of the toilet paper roll.

25 If the ends are formed by the use of separate plugs, these are thus additional components to an existing product and thus have a small cost effect. These ends may already be pre-installed in toilet paper roll packages. Large quantities of toilet paper rolls are manufactured and the machining required for carton tubes is easily automated, so the cost impact on one lighter 30 thus formed is minimal compared to the consumer having to buy a commercial lighter.

The cardboard tube is machined with a spark opening having a diameter of about 8 to 1 mm, spaced from the opening 5 in the circumferential direction, and one or more holes smaller than the spark opening, preferably 3 mm in diameter, along the longitudinal axis. These openings s serve as combustion air intake openings or flammable gas vent openings at different stages of ignition. The apertures may also be formed such that machining is not completed completely through the wall thickness, but instead the user presses a suitable number of pre-pierced opening blanks from the lighter body. In this embodiment, the modifiability to different types of fireplaces is more extensive. The above-mentioned openings may also be replaced by incisions in the cardboard tube at corresponding points extending almost through the wall thickness of the tube. In this embodiment, the opening can be formed as an opening door, as in the Christmas calendar, and the combustion air / combustion gas openings are formed during the ignition step as the temperature rises and the incisions open.

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The firewood is stacked pyramidically across the fireplace so that the flame can move from top to bottom. In fireplaces with fireplaces, the firewood on the bottom floor is closely adjacent, preventing the flushing effect of the incoming fire from below. The size (apparent diameter) of the firewood decreases as you go up 20, with only two firewood side by side on the top floor.

When igniting, the lighter is held in a horizontal position with the ignition port pointing at about four o'clock, the match is used to ignite the interior material and open the edge of the ignition port, or respectively, to open and ignite, fire for a moment and then turn the ignition down.

25 Place the lighter in a horizontal position between the top two adjacent firewood and allow the fire to ignite. The ignition process is slow in the initial stages until a sufficiently high temperature is reached and the fire proceeds vigorously to the sides and down. In the early stages of the ignition, the cardboard tube forms a protective dome for the firebox, with the heat effect being directed downwards. In an ideal ignition situation, after ignition has occurred, from the circumferential apertures of the lighter, palatine air enters and the flue gases are directed as flames from the aperture's longitudinal apertures downwardly as the LPG burner flames, igniting below and adjacent. The carton tube burns slowly starting from the bottom 6 in the middle region, upwards and towards the ends. In the end, the fully burned lighter remains in a somewhat intact charred shell to continue to direct the flames. At this stage 5, the ignition has already occurred and the fire proceeds as described above. If necessary, several lighters can be used for ignition, for example, side by side or sequentially if the conditions for ignition are demanding or if the fireplace is large in size. The inner surface of the carton tube and end may also be fully or partially coated with a fire-promoting agent such as wax, plastic or paraffin. The combustible material within the igniter 10 may also include, in addition to paper material, bark, wood, wood or wood chips, or even pellets also impregnated with, for example, paraffin. The lighter body may also have a cross sectional profile other than a circular profile, such as a square or polygonal profile, and the body shape may also be e.g. a cone with a finished end. The lighter can also be used in an inclined position on top of the firewood. In these embodiments, the apertures should be mimicked in the respective embodiment. for ignition. It is advantageous in terms of ignition and emissions if the fireplace is such that combustion air (primary air) can be directed directly onto the firewood. Outdoor use, for example, to light fireplaces or campfires in outdoor kitchens is also possible, although external conditions (wind, rain, barometric pressure and humidity) can significantly influence the ignition event, but in favorable conditions, ignition may be more efficient and less emissions than real estate fireplaces. right to the right place. It is obvious that by using the lighter according to the invention, the amount of greenhouse gases and the waste load can be reduced in a comprehensive and very economical way.

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The invention will now be described in detail with reference to the accompanying figures.

Figure 1 shows a perspective view of a lighter according to the invention.

Fig. 2 is a perspective view of another lighter according to the invention with the ignition door open.

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Figure 3 shows a third lighter according to the invention, viewed perpendicular to the end, lit and placed on top of firewood.

The figures show the following parts and locations of the invented lighter.

Body 1 having outer surface la, inner surface Ib, inner coating lba, sparking hole le, ignition door lea, air intake / exhaust gas opening Id, slit le, image or text lf, end 2, end plug 2a, paper material 3, firewood 4 and flames 5.

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The idea of the invention is to make a lighter from a prefabricated carton tube which is assembled at the place of use. The invented lighter can be made from the center of a toilet or kitchen roll of paperboard, as shown in Figure 1. During its manufacture, the cardboard tube is machined with the necessary openings and slits for 15 end uses. The end of the carton tube is formed at the point of use by folding the tube edge perpendicular to the longitudinal axis. A combustion air / combustion gas opening is formed in the center of the end. A suitable amount of paper is loaded inside the frame.

The end may also be formed with a separate industrially made stopper as shown in Figure 2. The other surface of the board is coated with fire-promoting material. The combustion air / combustion gas openings may be formed from incisions extending almost through the wall thickness, in this embodiment the incisions open as the temperature increases. An opening can be formed as an ignition opening. The body or end plug can be printed with text or an image. The firewood is loaded into the fireplace so that the flames 25 have the ability to propagate from top to bottom and sideways, with the igniter positioned, with the ignition opening down, in a horizontal position on top of the firewood, as shown in Figure 3. The end is formed by a plug mounted on the outside.

The lighter can be used to ignite firewood 30 in real estate fireplaces. The lighter is also suitable for lighting campfires, barbecues and other firewood outdoors. It is clear that by using the lighter according to the invention, the amount of harmful fine particles and greenhouse gases can be substantially reduced during the ignition process.

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The invented lighter consists of a body 1 having at least one end 2, a spark opening le and a combustible paper material 3 inside. The body 1 is made of cardboard, paper or board.

The igniter body 1 has an ignition port le, spaced from here circumferentially and longitudinally along one or more combustion air / combustion gas openings Id. The body 1 contains a suitable amount of paper material 3 for ignition.

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According to a preferred embodiment, the end 2 is formed by installing a separate plug 2a on the body 1, which may also have combustion air / combustion openings Id.

The lighter end 2 is formed by folding the tube edge perpendicular to the longitudinal axis l s. At the end 2, a combustion air / combustion gas opening 1 d is formed in the middle.

Preferably, the lighter end 2 is made of tightly wrapped paper, whereby the end remains slightly impermeable, and the required combustion air may pass through the end inside the lighter, but flame exit from the ends is prevented during the initial ignition.

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The lighter openings le and Id and the slits le are industrially machined into the lighter body 1 during the manufacture of the carton roll.

According to a preferred construction solution, the spark opening le is formed by an opening 25, when the piercings are extended almost through the wall thickness of the carton tube and as the temperature rises, the slits open up to the combustion air / combustion gas openings Id.

A text or image may be printed on the lighter body 1 and the end plug 2a to guide the user in assembling the lighter, in ignition and safety, or as a means of advertising.

The inner surface Ib of the lighter body 1 may have a thin fire-promoting layer lba of plastic or wax. A small amount of paraffin may be impregnated on the inner surface Ib of the lighter around the openings 1c, Id and the end plug 2a 9 to enhance combustion and blowing.

5 In addition to paper material 3, wood-based combustible material is placed inside the lighter, which may increase the fire load and thus enhance the ignition effect.

It will be apparent to one skilled in the art that the invention is not limited to the above alternatives, but that many modifications are possible within the scope of the inventive concept defined in the appended claims.

All parts of the invented lighter can be manufactured using paper and packaging techniques known in the art and by machines.

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Claims (12)

1. Lighters to be used for ignition of firewood in fireplaces substantially from above, the second lighter consisting of a pipe made of combustible material having an outer surface (1a), inner surface (1b), gables (2) and inside a body (1) there is loosely combustible paper material (3), characterized in that in the middle region of the stoneware (1) there are apertures formed by industrially cutting a cut (le) almost through the outer or inner surface (1a, 1b) of the body (1), and that the ignition opening (le) is formed by a so openable hatch (lca), and that openings (Id) for combustion air / combustion gas consist of opening substances in the area at the ignition opening (le). Lighter according to claim 1, characterized in that the body (1) is made of paper, cardboard or cardboard. Lighter according to claim 1, characterized in that the end (2) of the lighter body (1) is formed by a separate plug (2a) made of combustible paper material. Lighter according to Claim 1, characterized in that the end (2) of the lighter body (1) is formed by bending the edge of the pipe perpendicular to the longitudinal axis, and an opening (Id) for combustion air / combustion gas is formed in the middle of the end (2). . Lighter according to Claim 1, characterized in that the end (2) of the lighter body (1) is formed of stuffed paper material (3). Lighter according to claim 1, characterized in that the ignition opening (1c) and the opening (1d) of combustion air / combustion gas in the body of the lighter (1) are formed by an industrial perforated heel. Lighter according to claim 1, characterized in that the ignition opening (1c) and the opening (1d) for combustion air combustion gas are formed by cutting a cut (le) industrially almost through the outer or inner surface (1a, 1b) of the body (1). Lighter according to claim 1, characterized in that an image or a text (lf) has been printed on the outer surface (1a) of the body (1) or on the end plug (2a), e.g. manufacturing, use or safety instructions or a reciam. Lighter according to claim 1, characterized in that the inner surface (1b) of the lighter's body (1) or the gift plug (2a) has been added as inner coating (lba) material! which promotes combustion, e.g. paraffin, wax or plastic. 10. Lighter according to claim 1, characterized in that, in addition to combustible paper material (3), wood combustible material (1) is contained within the frame (1). Use of lighters according to any of the claims 1-10 for the burning of firewood substantially from above. Use according to claim 11, characterized in that the lighter is substantially in a horizontal position on top of firewood (5) the ignition opening (1c) down-sealed.