DK9700348U3 - Stoker stove for wood pellets - Google Patents

Description

DK 97 00348 U3

DESCRIPTION

Denominations

Stoker stove for wood pellets The scope of production

This invention relates to a stoker stove for wood pellets and similar types of solid fuel in pelleted or granulated form. The stoker stove is especially designed for heating single-family homes, apartments, holiday homes and other places where an economical and environmentally friendly form of space heating is needed. The stoker stove is primarily intended as an alternative to conventional stoves of the type intended for manual burning with wood, but can in some cases also replace actual central heating systems and electric heating systems.

Prior art

US Patent No. 5,285,738 discloses a pellet stove with a combustion chamber and a separate pellet magazine, from which a transport auger pulled by an electric gear motor leads the pills from the pellet magazine to an outlet from which they slide over a stove. The combustion air consists of a primary air stream for the fireplace hearth and a secondary air stream for a windshield.

The combustion air is blown into the furnace chamber by two electrically driven fans, which are built into the furnace itself. The heat output is regulated by incrementally changing the speed of the conveyor screw, and the combustion air is automatically adjusted to the fired pellet quantity by controlling the fan output, ie by controlling the fan speed. An electrical or electronic control unit controls the various engine RPMs relative to each other, aiming for the best possible combustion efficiency under the different load conditions the stove can work with. The flue gas generated by the combustion is suctioned through a chimney in the usual manner, utilizing the natural features of the chimney.

The technical problem to be solved

The use of electrically powered fans for generating the combustion air streams in the furnace (primary and secondary combustion air) is undesirable for several reasons. Firstly, the fans complicate and expensiveen the oven unnecessarily, and secondly, the fans mean that a (minor) overpressure occurs in the oven chamber. This negative pressure can, under adverse circumstances - for example caused by clogged flue or chimney - lead to explosion hazard or CO poisoning. In any case, it is preferable to use the chimney vent alone to generate the primary and secondary combustion air flow. This combustion principle gives the simplest furnace construction and at the same time means that there is a negative pressure in the furnace chamber during operation, ie the risk of accumulation of explosive gases in the furnace or the emission of toxic flue gases in rooms is eliminated. Furthermore, precious electrical energy is saved for the operation of the fans.

When the chimney draft alone has to generate the primary and secondary combustion air flows through the stove, it is a problem to start the stove from a cold state, ie with a cold chimney. In this situation where the chimney draft is lower than under normal "hot" operating conditions, smoke will emit from the furnace. This is of course not acceptable. The object of the present invention is precisely to provide a pellet stove of the present fan-free type, where this problem is solved.

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The new technique

The new feature of the invention is that in the furnace smoke extraction duct (the smoke chamber) between the combustion chamber and the chimney is installed a system of baffles which directs the flue gases in such a way that the effective smoke duct length is increased while forcing the smoke to fit one the stove forwards and sideways convection sheath to deliver as much heat as possible to the surroundings before the smoke discharge through the chimney. The guide plates themselves or a damper plate inserted in connection with the guide plates are adjustable by displacement or oscillation between two outer positions, where one outer position corresponds to the normal operating position, where the smoke is routed through the convection sheath as described, and the other outer position is a so-called by-pass position. , wherein the baffles or the damper plate release an opening or passage in the smoke chamber which connects the combustion chamber directly to the chimney so that the smoke in this position can flow directly from the combustion chamber to the chimney, i.e. outside the convection sheath.

The technical impact

By using the above-mentioned new technique in connection with the prior art, it is possible to route the flue gases outside the convection hood during the oven start-up, ie as long as the chimney and oven are still cold and where the draft conditions are therefore insufficient to prevent smoke discharge. Consequently, the flue gases can flow directly from the combustion chamber up / out into the chimney under conditions where the flow resistance is reduced to a minimum. This prevents smoke from escaping into the room. The switching of the flue plates between the ignition position (bypass position) and the operating position is done automatically by an electrically driven damper motor or similar motorized drive device. The position is determined by the central control of the oven. Alternatively, the stove can be arranged for manual adjustment, in which case the baffles are provided with an external control handle.

The problems associated with igniting a fanless solid fuel stove of the type herein are fully solved by the smoke chamber control of the invention. The pellet stove according to the invention is furthermore characterized by being technically uncomplicated, just as the stove combines the best properties of a traditional stove (suppression oven) with the advantages of a modern stoker stove in terms of fully automatic operation, efficient combustion and large power control range.

The invention and particularly advantageous embodiments and details thereof are explained in more detail below with reference to the figures in the drawing.

List of Figures

FIG. 1 shows a vertical section through a pellet stove according to the invention, with the smoke chamber control set for bypass; FIG. 2 shows the same section shown with the smoke chamber control set for normal operation, ie where the flue gases are routed around the oven's forward and lateral convection casing, and FIG. 3 is an enlarged cross-sectional view showing the various air inlet ducts of the furnace with associated damper controls in schematic sectional view.

EXAMPLES In the embodiment shown in the drawing, the stoker stove consists essentially of a combustion chamber 1, a pot-shaped hearth 2, an ash chamber 3, a pellet magazine 4 with 3 firing conveyor screw 5, a pellet outlet 6 and a smoke chamber 7 with a stove chamber 8, is connected to a chimney not shown. The hearth 2 has a grate floor intended as a bottom-up approach for primary combustion air, and is provided with a number of openings 9 in the side intended as an approach for secondary combustion air. The fuel pellets are delivered from the outlet slit 6 directly into the cure where the combustion takes place. The ash falls down through the grate at the bottom of the cure and is collected in an ash tray not shown in the ash chamber 3.

The flue gases generated by the combustion flow from the combustion chamber 1 into the smoke chamber 7 via a passage 10 at the rear of the furnace chamber. The separation between the combustion chamber and the smoke chamber is constituted by an inclined, heat-resistant baffle 11.1 spaced above each baffle is a set of horizontal guide rails 12 on each side which provide support for a cone-shaped body 13 whose function is to direct the smoke into the flue chamber itself. The cone body 13 is arranged on a horizontal plate 14 which in turn rests on a frame consisting of two parallel side profiles 15. These are slidably mounted on the two mentioned guide rails 12, so that the cone body can be displaced between a front position (Fig. 1). rear position (fig. 2). The cone body 13 is open upwardly, and with this opening partially encloses the smoke exhaust pipe 8, which is extended a short distance down into the smoke chamber itself.

When the oven is turned on, the cone body 13 is positioned in the forward position. In this position, the bottom plate 14 and the cone body itself release a vertical passage 16 at the rear of the smoke chamber, which provides a direct connection between the combustion chamber 1 and the smoke exhaust pipe 8, so that the smoke in this position can flow freely up into the chimney. When the furnace and chimney are heated and the towing conditions therefore correspond to normal operating conditions, the cone body 13 is pushed backwards. The passage 16 is thereby blocked and the flue gases are now forced by the cone body to flow up along the inside of the front and side surfaces of the smoke chamber 7. At the top of the cone body 13, the smoke is forced down into the cone body itself and from there up again into the smoke extraction pipe 8. indicated by arrows in FIG. 2. The front and side surfaces of the oven function below as a convection sheath, which contributes to cooling the flue gases and thus to the oven's good heat output and optimal thermal efficiency. The adjustment mechanism of the cone body 13 is not shown in the drawing.

In FIG. 3, the air supply system of the furnace is shown schematically. The combustion air is taken in at the front of the furnace through two hollow profiles 20 disposed on each side of the smoke chamber 7 immediately below the horizontal guide rails 12.1 on each side of the furnace a second horizontal duct 21 is provided which conducts a smaller portion of the combustion air to a plurality of air supply openings 22 located outside the furnace chamber. windscreen 23 on the inner side of this one. The supply of combustion air to the windshield is controlled by a fixed damper 24 in duct 21,

The remaining portion of the combustion air is divided into a primary and secondary combustion air stream. The primary combustion air is supplied to the cure bottom grate via an air control damper 25 and the ash chamber 3. The secondary combustion air is supplied to the cure side apertures 9 via a second air control damper 26 and an intermediate chamber 27 (= air distribution chamber) enclosing the curing side surfaces. The combustion air is preheated before it is applied to the combustion zone in the cure by passing various heat convection surfaces 28 on the back of the furnace chamber and during the passage of the air intake ducts 20. It is noted that the furnace - apart from the flue pipe connection 8-

Claims (8)

1. A stoker stove with a combustion chamber and a separate pellet magazine from which a transport auger pulled by an electric gear motor leads the pellets from the pellet store to an outlet from which they slide over a stove and where the combustion air is divided into a primary air stream. to the bottom of the stove, and a secondary air stream which is fed into the side of the stove through a plurality of apertures therein, which combustion air is preheated during passage of a convection sheath in the stove and upon contact with the outside of the stove before entering the stove itself, which occurs via automatic controlled air control dampers, characterized in that in the furnace smoke extraction duct between the combustion chamber and the chimney is inserted a system of discharge plates which directs the flue gases in such a way that the effective smoke duct length is increased at the same time as the smoke is forced to pass one in the oven and the sides directed convection sheath to provide as much heat as possible the surroundings before the smoke discharge through the chimney, and that these baffles themselves or a damper plate inserted in connection with the baffles can be adjusted by displacement or oscillation between two outer positions, one outer position corresponding to the normal operating position, where the smoke is routed through the convection casing as described, and where the second outer position is a so-called by-pass position where the baffles, or the damper plate, release an opening or passage in the smoke chamber which connects the combustion chamber almost directly to the chimney, so that the smoke can flow directly to the chimney outside the convection casing. Stoker stove according to claim 1, characterized in that the switching of the guide plates, alternatively the damper plate between the two outer positions, is effected by an electric motor controlled by the central control of the oven. Stoker stove according to claim 2, characterized in that the switching between the two positions (by-pass position and normal position) takes place automatically depending on different operating parameters, for example chimney temperature, oven temperature, ignition time, etc. Stoker stove according to claim 1, characterized in that the said baffles in the smoke chamber are constituted by a generally closed, cone-shaped body mounted on a set of parallel, horizontal frame profiles, which rests on a set of corresponding rail profiles built into the the bottom of the smoke chamber so that the cone body on these rails is displaceable between a forward position (Fig. 1), where a nearly vertical passage through the smoke chamber is formed between the rear wall of the smoke chamber and the back of the cone body, which passage connects the combustion chamber and the chimney pipe directly (bypass); and a rear position (Fig. 2), with the cone body with its rear side blocking said vertical passage and instead with its front side and two side faces forcing the smoke along the inside of the front and side faces of the smoke chamber (= convection sheath). Stoker stove according to claim 4, characterized in that said cone body is cut off as a cone stub with open top end and with the upper part of the rear side surface of the cone stub removed, so that the smoke discharge pipe of the stove is made, which is led down a short distance. in the open cone top, whereby the smoke is forced up around the upper edge of the cone stump and a short distance down into it before the smoke can escape through the exhaust pipe (provided the cone body assumes the normal operating position, Fig. 2). Stoker stove according to claim 1, characterized in that both the primary and secondary combustion air are regulated by separate air dampers, which are automatically adjusted by electric damper motors which are controlled via the central control of the furnace. Stoker stove according to claim log 6, characterized in that a smaller part of the air intake of the furnace is led to a series of slit-shaped air supply openings in the interior chamber behind the oven's windscreen, so that the window pane is kept clear and the amount of windscreen air is determined by the total air intake. an adjustable air distribution valve (damper valve) which is fixed under normal conditions. Stoker stove according to claim 1, characterized in that the curing device has a pot shape and is loosely inserted into a recess for this purpose at the bottom of the furnace chamber.