JPS6136606A - Combusting device for wooden solid fuel - Google Patents

Abstract

PURPOSE:To permit to burn efficiently various wooden solid fuel by a same device by a method wherein air is supplied into a combustion chamber from a lower part, a side part and an upper part. CONSTITUTION:The proportion of the air supplied to a combustion chamber 2 through respective ventilating parts 5-7 of a lower part, a side part and an upper part from a ventilating device 8 is controlled optionally by the controlling of respective choking devices 4, 4, 4. This air is supplied to the combustion chamber 2, after primery heating during passing between inner walls 12, 15 and outer walls 16, 19 of the combustion chamber 2. The fuel supplied to the combustion chamber 2 is dried on the way of sliding down to a valley side from a mountain side of a furnace bed 11 and burnt when it arrives at the surface of lower slits 10, then, a flame 21 is generated and extended to right side by air pressure comming from aslant upper direction and aslant lower direction, therefor, the air supplied for the flame 21 from the side part and upper part, therefor, the fuel is burnt completely. Heated air generated in this combustion is discharged out of a chimney 23 through a heat exchanger 22 from a flame path 9.

Description

[Detailed Description of the Invention] (Industrial Application Field) This invention relates to a solid wood fuel combustion device, and its purpose is to
Increasing combustion efficiency by supplying air to the combustion chamber from each direction, and further increasing combustion efficiency by adjusting the amount of air supplied to the combustion chamber from each direction depending on the type of solid wood fuel used. The purpose of the present invention is to provide a solid wood fuel combustion device that can burn solid wood fuel.

Wood solid fuel is different from gaseous/liquid fuels, coal, etc., and is manufactured from various types of industrial waste such as wood chips, bark, and even sugar cane pomace, and has various shapes. For this reason, each fuel has its own unique combustion temperature, ash melting point, specific gravity, and ash specific gravity, and therefore, the appropriate direction and amount of air blowing vary depending on the type of fuel.

This invention was made against this background.

(Prior Art) In conventional solid wood fuel combustion devices, air is blown into the combustion chamber only from above, from the sides, or from below.

(Problems to be Solved by the Invention) Such conventional combustion devices have the following problems.

(1) Types that supply air only from above or from the sides of the combustion chamber can send fresh air to the burning area, so clinker (ash with a low melting point melts and becomes glassy) is placed in the hearth. It becomes clinker, enveloping the surface of fuel grains and clogging the hearth, significantly inhibiting combustion.)
is generated, which has the problem of poor combustion efficiency.

(2) When air is supplied only from below the combustion chamber, the ash is blown away from the hearth before the clinker is produced, so the above-mentioned problem is solved. However, if you send a large amount of air required for combustion (the larger the amount of air supplied, the better the combustion), that is, if you increase the air blowing speed, not only completely burned ash but also incompletely burned ash will be blown away from the hearth, resulting in poor efficiency. There was a problem.

On the other hand, there is a problem in that if the amount of air to be supplied is restricted, the proportion of fuel that can be combusted in one combustion chamber becomes smaller.

(3) Conventional combustion equipment blows air only from the bottom, side, or top of the combustion chamber, making it impossible to adjust the amount of air blown from each of the directions mentioned above. could not be burned efficiently.

This invention was completed in order to solve the above problems.

(Means for solving the problem) The present invention includes a hopper for solid wood fuel, a supply device connected to the hopper and supplying the solid wood fuel to the combustion chamber, and a throttle device communicating with the lower part of the combustion chamber. a lower air duct, a lateral air duct that communicates with the side of the combustion chamber and has a throttle device, an upper air duct that communicates with the upper side of the combustion chamber and has a diaphragm, and through these air ducts. The above-mentioned problems can be solved by providing a solid wood fuel combustion device having a blower for supplying air to a combustion chamber, and a flame passage leading from the combustion chamber to the side opposite to the solid wood fuel supply side. solve.

(Example) An example of the present invention will be described in detail below based on the drawings. (Although the solid wood fuel combustion device in this example was used for a hot air heater, it can be used for a variety of other things such as boilers.) In the drawing, (1) indicates a hopper and a bed for solid wood fuel. - is the combustion quality, the dish is a supply device connected to the hopper (1) and supplies solid wood fuel to the combustion chamber type, (4) is the throttle device, and (5) is the bottom blower with the throttle device (4). (6) is the aperture device (4
), (7) is an upper air passage with a throttle device (4), (8) is a blower device, and (9) is connected from the combustion chamber type to the side opposite to the solid wood fuel supply side. This is the path of flame that comes out.

The combustion chamber type has a hearth (11) inclined at a required angle with a lower slit of 0ω, an inner horizontal wall (12), an intermediate wall (13), and an upper wall (15) with an upper slit (14). It consists of

The feeding device (3) consists of its drive device (3a), a transmission device (3b) and a screw conveyor (3c).

The lower air passage (5) communicates with the lower part of the combustion chamber type, and its terminal end is the lower slit α@. The lateral air passage (6) is a lateral space portion (
17) to the side of the combustion chamber type, and its end is a pore (18) in the inner lateral wall (12). Incidentally, the pores (18) are bored in the inner horizontal walls (12), (12) on both sides, respectively.

The upper air duct (7) is connected to the inner soil wall (15) and the outer upper wall (
The upper space (20) formed by
14).

The solid wood fuel combustion apparatus of this embodiment having such a configuration burns solid wood fuel efficiently by the method described below.

The fuel supplied to the hopper (1) is supplied in the required amount to the combustion chamber type by the supply bag f (31).

On the other hand, from the air blower (8) to each air passage +51. (61,
The proportion of air supplied to the combustion chamber type via +71 is:
Each diaphragm device (4), +41. (This air can be arbitrarily adjusted by adjusting 41, and this air is supplied to the combustion chamber type. Also, this air is supplied to the inner wall (1, 2
), (15) and the outer walls (16), (19), this is primarily heated and then supplied to the combustion chamber.

The fuel supplied to the combustion chamber type dries as it slides down from the mountain side to the valley side of the hearth (11), and when it reaches the surface of the lower slit θ, it burns, and the flame (21) is blown diagonally upward. The flame (21) extends to the right side due to wind pressure from diagonally below. Since air is supplied to this flame (21) from the side and above, the fuel is completely combusted. The hot air generated by this combustion is discharged from the flame passageway (9) via the heat exchanger (22) through the chimney (23) and released into the atmosphere.

The air sucked from the fan (24) is transferred to the heat exchanger (22)
It absorbs heat from the air, becomes warm air, and is blown out from the hot air outlet (25).

The ash generated by combustion is sent to the lower air duct (
5), the air falls into the flame path (9) along the lower slit OI or blows into the chimney (23).
)' is accumulated at the bottom of '. This ash is taken out from the ash removal port (26).

In this invention, it goes without saying that the most efficient combustion conditions must be determined empirically by the user.

The method of supplying fuel is not necessarily limited to this embodiment (it may also be supplied from the side or from the top using a quantitative cutting device, etc.).
Although el is formed with a double structure at the bottom, side, and top of the combustion chamber type, it is not necessarily limited to this example.In short, if air is supplied to the combustion chamber type from the bottom, side, and top. good. Fork, lower slit OI, upper slit (14)
The shape of the pores (18) is not limited to the shape of this embodiment. For example, the direction of the lower slit 01 may be parallel to the inclination direction, or may be pore-shaped. It may be perforated vertically upward as shown in the figure.

In FIG. 3, if the lower slit al is bored vertically upward, the flame (21) will extend along the flame path (9) and the heat will be absorbed by the heat exchanger (22).

In the illustrated embodiment and modified example, the cross-blowing duct (6) is provided with its terminal end on a side surface perpendicular to the direction in which the flame (21) extends. It may be provided.

(Effects of the Invention) As explained above, the solid wood fuel combustion device according to the present invention uses solid wood fuel, which is industrial waste, as fuel.
It helps prevent pollution, has low running costs (it goes without saying that it can be operated continuously), and has the following excellent effects.

fl+ Since air is supplied to the combustion chamber from below, from the sides, and from above, the ash can be blown away before clinker is formed, and a large amount of air necessary for combustion can be sent, resulting in high combustion efficiency. .

(2) The amount of air supplied to the combustion chamber from below, from the side, and from above can be adjusted, so various solid wood fuels with unique combustion temperatures, ash melting points, specific gravity, and ash specific gravity can be used in the same device. can be burned efficiently.

(Example effect) In the examples, the following excellent effects are achieved.

(1) Since the hearth is not shaped like a lattice but has many slits, there is no clogging of the hearth, and therefore good combustion can be achieved.

(2) Since the structure is such that no lower slit is provided on the mountain side of the hearth, combustion occurs only on the side opposite to the fuel supply side of the combustion chamber, so there is no return of the flame to the fuel supply side.

(3) Since the horizontal air duct and the upper air duct are formed by the combustion chamber wall and outer wall, not only the air supplied to the combustion chamber is primarily heated and the combustion efficiency is good, but the outer wall of the combustion chamber does not become high temperature, so the combustion Even if you touch the outdoor wall with your hands, you will not get burned.

(4) The upper slit of the white clay wall of the combustion chamber is made oblique so that the flame extends toward the flame passage, which not only promotes heat exchange but also prevents the flame from returning.

(5) Since the lower slit of the hearth is made oblique so that the flame extends toward the flame passage side, not only is heat exchange promoted, but the flame does not return.

(6) Since the flame extends to the flame passage side, the combustion chamber and the machine body do not become unnecessarily high in temperature, and the life of the device is extended.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view illustrating an embodiment of the solid wood fuel combustion apparatus according to the present invention, FIG. 2 is a perspective view illustrating a combustion chamber according to the present invention, and FIG. FIG. 4 is a longitudinal sectional view illustrating a modification of the type fuel combustion device. +IL--Hotsuba Week-Combustion chamber pan~Supply device (41-throttle device (5)-Lower air duct (6)-Horizontal air duct (7)-Upper air duct (8)
)-・Blower device (9)-Flame passage

Claims (1)

[Claims] (1) a hopper for solid wood fuel; a supply device connected to the hopper to supply the solid wood fuel to the combustion chamber; a lower air passage communicating with the lower part of the combustion chamber and having a throttle device; A lateral air passage that communicates with the side of the combustion chamber and has a throttle device, an upper air passage that communicates with the upper side of the combustion chamber and has a throttle device, and supplies air to the combustion chamber through these air blast passages. A solid wood fuel combustion device comprising: a blower; and a flame passage extending from the combustion chamber to a side opposite to a solid wood fuel supply side.