KR20180001506U - Non-Powered Pallet Stove - Google Patents

Abstract

The present invention relates to a non-powered pellet stove.
The non-powered pellet furnace of the present invention is capable of continuously supplying air to the combustion section through the air supply passage of the air supply section, thereby continuously maintaining the combustion state, thereby providing high combustion efficiency.
The air is supplied to the bottom side of the inner space of the combustion unit through the air supply path of the air supply unit and the smoke is discharged through the discharge unit installed on the other side of the top of the combustion unit, Whereby the ash generated due to the combustion of the pellet fuel is moved to the discharge portion side through the air supplied through the air supply passage so that the burning rate of the pellet fuel can be maintained in a state where no separate power is applied to the pellet fuel, Economic efficiency can be provided.

Description

{Non-Powered Pallet Stove}

The present invention relates to a non-powered pellet stove.

Wood pellets are eco-friendly renewable fuels made from wood, wood, and wood. They are not only inferior to other fossil-based energy sources, but also cheaper and easier to manage. have.

Wood pellets are fuel exempted from carbon dioxide regulation in the IPCC (Intergovernmental Panel on Climate Change), which is particularly vulnerable to global warming, which is one-twelfth of the global diesel. It is widely known as an advanced country-type eco-friendly energy source that can control the amount of energy and can control the energy density, storage capacity, and energy cost, and researches are being actively carried out in various fields .

Particularly, as outdoor activities such as winter leisure activities and camping are increasing, demand for pellet stoves for portable non-powered pellets is gradually increasing.

However, in the conventional pellet furnace using pellets as a fuel, in order to increase the burning rate of the pellets, the fan rotated by the motor is rotated so that the outside air is forced into the inside of the pellet stove. Therefore, It is impossible to rotate the fan in a space or an area, so that the burning performance of the pellet is greatly deteriorated. Accordingly, appropriate measures have been required to solve this problem.

In this connection, there is a "non-powered pellet combustion apparatus" (hereinafter referred to as " prior art ") of Korean Patent Registration No. 10-1621511.

However, the conventional non-powered pellet stove including the conventional art has the following problems.

First, in the conventional non-powered pellet stove including the conventional art, there is a problem that the pellets are not completely burned during the initial or combustion, and therefore, the backflow of the combustion gas, incomplete combustion, There is a problem that the clogging phenomenon occurs and the inconvenience of periodically checking the combustion chamber is accompanied.

Second, in the conventional non-powered pellet stove including the conventional technology, it is difficult to control the thermal power and the combustion time because it is difficult to control the combustion amount of the pellets.

Third, in the conventional non-powered pellet stove including the conventional art, since combustion is performed using natural convection, there is a problem that incomplete combustion occurs because the air does not smoothly flow, resulting in incomplete combustion, There was a problem of falling.

The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an air purifier which can smoothly circulate air introduced into a combustion chamber, control the amount of combustion of the pellets, Technology.

In order to achieve the above object, a non-powered pelletizing furnace of the present invention includes: a supply unit configured to supply air and fuel; A combustion section in which the supply section is mounted on one side of the upper portion and in which an internal space for combusting the fuel supplied from the supply section is formed; And a discharge portion mounted on the other side of the upper portion of the combustion portion and formed with a discharge passage through which smoke generated by the combustion of the fuel supplied from the supply portion is discharged and the supply portion is provided in the form of a pipe, An air supply part for supplying air to the internal space of the combustion part through a furnace; A fuel supply portion arranged to project upward in the air supply portion and provided in a pipe shape to supply fuel to the internal space of the combustion portion through an internal conduit; And a fuel dispersing portion disposed to contact the inner bottom side of the combustion portion below the fuel supply portion and connected to the air supply portion and formed in a conical shape to disperse the fuel supplied from the fuel supply portion, And the air supply part is spaced apart from the inner bottom of the combustion part by a predetermined distance from the upper outside of the combustion part to supply air to the fuel dispersion part side.

The combustion unit may include a pair of protruding portions formed at both sides of the upper side of the side surface; And a wing portion including an axis connecting the pair of projecting portions and connected to the shaft and rotated about the axis between the pair of projecting portions, An axial connecting portion to be inserted; A first engaging portion formed at a predetermined distance above the shaft connecting portion; And a second engaging portion formed at a predetermined distance below the shaft connecting portion. When the wing portion is perpendicular to the side surface of the combustion portion, the wing portion is fixed to the projecting portion through the first engaging portion, And the wing portion is fixedly coupled with the projecting portion through the second engagement portion when the wing portion is horizontal with the side surface of the combustion portion.

And the vertex of the cone of the fuel dispersing portion is located in the internal pipe conduit of the fuel supply portion.

The present invention has the following effects.

First, continuous air supply is possible through the air supply passage of the air supply portion, so that the combustion state can be continuously maintained, thereby achieving high combustion efficiency.

Secondly, air is supplied to the bottom side of the inner space of the combustion part through the air supply path of the air supply part, and the smoke is discharged through the discharge part mounted on the other side of the upper part of the combustion part, so that air and smoke can be circulated smoothly have.

Third, it is possible to control the amount of pellet fuel to be combusted through the emission control part, so that it is possible to provide convenience to the user in controlling the thermal power.

1 is a side sectional view of a non-powered pellet stove according to the present invention.
2 is a side view of a non-powered pellet stove according to the present invention.
3 is a front view of a non-powered pellet stove according to the present invention.
4 shows a connecting member of a non-powered pellet stove according to the present invention.
5 is a front view of a wing portion of a non-powered pellet stove according to the present invention.
6 is a side sectional view of the non-powered pellet furnace according to the present invention in a state in which pellet fuel is supplied.
FIG. 7 shows a state where the pellet fuel supplied to the non-powered pellet furnace according to the present invention is burnt.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The preferred embodiments of the present invention will be described more specifically with reference to the accompanying drawings, in which technical sections already known will be omitted or compressed for the sake of brevity.

1. Description of the components according to the non-powered pellet stove

Referring to FIGS. 1 to 5, the non-powered pellet heater 100 of the present invention includes a supply unit 110, a combustion unit 120, and a discharge unit 130.

First, referring to FIG. 1, the supply unit 110 will be described. The supply unit 110 is configured to supply the air and the pellet fuel P to the combustion unit 120, which will be described later.

The supply portion 110 also includes an air supply portion 111, a fuel supply portion 112, and a fuel dispersion portion 113.

Here, the air supply part 111 is provided in the form of a pipe, and supplies air to the internal space 120H of the combustion part 120, which will be described later, through the air supply path 111R formed therein.

More specifically, the air supply part 111 is provided to be spaced apart from the inner bottom of the combustion part 120 to be described later from the outside of the upper part of the combustion part 120 to be described later, Supply.

The fuel supply portion 112 is disposed in the air supply portion 111 so as to protrude upward and is provided in the form of a pipe to supply the fuel P to the internal space of the combustion portion 120 to be described later through an internal conduit.

Here, the fuel dispersion portion 113 is disposed so as to touch the inner bottom side of the combustion portion 120, which is the lower side of the fuel supply portion 112, and is connected to the air supply portion 111 and formed into a conical shape, (P) supplied from the fuel cell (112).

In addition, the vertex 113V of the cone of the fuel dispersing portion 113 is located in the internal piping 112R of the fuel supply portion 112.

In addition, as the vertex 113V of the cone of the fuel dispersing portion 113 is located deeply in the internal conduit 112R of the fuel supply portion 112, the internal space of the combustion portion 120 The amount of pellet fuel P supplied per unit time of the pellet fuel P supplied to the supply part 120H is reduced so that the supply part 110 adjusts the thermal power through adjustment of the supply amount of the pellet fuel P .

A hopper (not shown) for additionally supplying the pellet fuel P may be connected to the upper portion of the fuel supply portion 112.

4, the air supply portion 111 and the fuel supply portion 112 of the supply portion 110 are coupled through the connecting member 114 to the fuel supply portion 112 can be positioned inside the air supply part 111. [

The fuel distributing portion 113 is coupled to the connecting member 114 so that the air supplying portion 111, the fuel supplying portion 112 and the fuel dispersing portion 113 can be integrally combined.

The combustion section 120 is provided with a supply section 110 on one side of the upper part and an internal space 120H for burning the fuel P supplied from the supply section 110 is formed.

A discharge unit 130, which will be described later, is mounted on the other side of the upper portion of the combustion unit 120.

A plate for dividing the side of the supply part 110 and the side of the discharge part 130 to be described later is inserted into the combustion part 120 so that only the smoke generated by the combustion of the pellet fuel flows upward of the internal space 120H So that only the smoke can be discharged through the discharging part 130 to be dispensed.

2 and 3, the combustion section 120 includes a pair of protruding portions 121 and a shaft 122. [

Here, the pair of projecting portions 121 are formed on both sides of the upper side of the combustion portion 120.

In addition, at least one leg member 123 may be provided on the lower portion of the combustion unit 120 to separate the combustion unit 120 from the ground.

A bottom of the combustion unit 120 may be provided to collect the material A generated by the combustion of the pellet fuel P in the internal space 120H.

In addition, an incendiary glass (not shown) may be provided on the side of the combustion unit 120 so that the user can see the pellet fuel being burned.

2 and 3, the non-powered pellet stove 100 of the present invention is connected to the shaft 122 and can be rotated about the shaft 122 between the pair of projecting portions 121 And a wing portion 140 for protecting the user from the combustion portion 120.

3 and 5, the wing portion 140 includes an axial connecting portion 141, a first engaging portion 142, and a second engaging portion 143. [

Here, the shaft connecting portion 141 is inserted with a shaft 122 through which the wing portion 140 and the shaft 122 are connected.

The first engaging portion 142 is spaced upward from the shaft connecting portion 141 by a predetermined distance.

More specifically, when the wing portion 140 is perpendicular to the side surface of the combustion portion 120, the wing portion 140 is fixedly coupled to the projecting portion 121 through the first engagement portion 142. [

Through this, the wing portion 140 can be used as a shelf.

When the wing portion 140 is perpendicular to the side surface of the combustion portion 120, the first ball portion 142 is protruded and fixed to the insertion hole formed in the projection portion 121, Can be combined.

When the wing portion 140 is perpendicular to the side surface of the combustion portion 120, the first engaging portion 142 is formed with a separate fixing member such as a bolt on the side of the projecting portion 121 (Not shown) is inserted into the insertion hole, the wing portion 140 and the protruding portion 121 can be fixedly coupled.

Here, the second engaging portion 143 is formed at a predetermined distance below the shaft connecting portion 141.

More specifically, when the wing portion 140 is parallel to the side surface of the combustion portion 120, the wing portion 140 is fixedly coupled with the projecting portion 121 through the second engagement portion 143, .

When the wing portion 140 is aligned with the side surface of the combustion portion 120, the elastic ball is protruded and fixed to the insertion hole formed in the protruding portion 121. The second engagement portion 143 is formed of an elastic ball, Can be combined.

The second engaging portion 143 is formed with an insertion hole so that when the wing portion 140 is horizontal to the side surface of the combustion portion 120, (Not shown) is inserted into the insertion hole, the wing portion 140 and the protruding portion 121 can be fixedly coupled.

In addition, the pair of protruding portions 121, the shaft 122, and the wing portion 140 may be equally provided on the opposite side surface of the combustion portion 120 as shown in FIG.

3, the combustion unit 120 may be provided with an ignition port for igniting the pellet fuel P supplied from the outside of the combustion unit 120 to the inner space 120H.

An opening and closing door 124 for opening and closing the ignition port may be provided.

In addition, a fireproof glass may be installed at the center of the opening / closing door 124 so that the user can see the internal space of the combustion unit.

The discharge portion 130 is mounted on the other side of the upper portion of the combustion portion 120 and is formed with a discharge passage 130R through which smoke generated by the combustion of the fuel P supplied from the supply portion 110 is discharged.

1, the discharge unit 130 is mounted on the other side of the upper portion of the combustion unit 120 so that one side of the discharge unit 130 is located in the internal space 120H of the combustion unit 120. As shown in FIG.

The discharge unit 130 regulates the amount of air supplied to the combustion unit 120 through the air supply unit 111 by adjusting the discharge amount of the smoke to control the amount of combustion of the pellet fuel P in the combustion unit 120 And an emission control section 131.

The discharge amount adjusting part 131 may be provided as a damper capable of opening and closing the discharge path 130R by manual operation and may be configured to close the discharge path 130R to discharge the combustion part 120 The air flowing into the internal space 120H of the combustion unit 120 from the outside of the discharge unit 130 can be blocked by the air flowing into the internal space 120H of the combustion unit 120, It is possible to prevent the ash in the space 120H from being blown out and discharged through the air supply path 111R.

Further, the discharge amount regulating portion 131 can close the discharge passage 130R to stop the combustion of the pellet fuel P in the combustion portion 120. [

2. Implementation of non-powered pellet stove Description of the form

3, 6 and 7, an embodiment of the non-powered pellet fireplace 100 of the present invention will be described.

6, pellet fuel P is supplied to the internal space 120H of the combustion section 120 via the fuel supply section 112, and the pellet fuel P gradually flows into the fuel supply section 112, And is accumulated in the pipeline 112R.

In addition, when the hopper (not shown) is connected to the upper part of the fuel supply part 112 to accumulate the pellet fuel P, the combustion of the pellet fuel P in the combustion part 120 can be maintained for a long time.

Thereafter, the opening / closing door 124 shown in Fig. 3 is opened to ignite the pellet fuel P supplied to the internal space 120H of the combustion section 120. [

Then the pellet fuel P is burned and the material A generated by the combustion of the pellet fuel P is pressurized by the air supplied through the air supply part 111 and the pressure generated after the combustion of the pellet fuel P To the discharging portion 130 side.

7, the pellet fuel P in the fuel supply portion 112 is maintained in a state of being piled up with its center of gravity through the vertex 113V of the fuel dispersion portion 113, and the pellet fuel P Gradually becomes the material A and moves toward the discharge portion 130 through the air supplied through the air supply portion 111.

When the pellet fuel P located below the stacked pellet fuel P is burned and the center of gravity is not aligned, the pellet fuel P is supplied to the inner space 120H of the combustion section 120, The pellet fuel P in the fuel supply portion 112 is again accumulated in the center of gravity via the vertex 113V of the fuel dispersion portion 113. [

That is, this process is repeated, and the combustion of the pellet fuel P is continuously generated in the space inside the combustion unit 120, so that no additional power is applied, and the pellet fuel P is continuously burned.

As a result, the present invention can continuously supply air to the combustion section 120 through the air supply passage of the air supply section 111, thereby continuously maintaining the combustion state of the pellet fuel P, .

Air is supplied to the bottom side of the internal space 120H of the combustion unit 120 through the air supply path of the air supply unit 111 and through the discharge unit 130 mounted on the other side of the top of the combustion unit 120 By discharging the smoke, the air and the smoke can be circulated smoothly in the internal space 120H, whereby the material A generated by the combustion of the pellet fuel P is supplied through the air supply path 111R The combustion rate of the pellet fuel P can be maintained in a state in which no additional power is applied, thereby providing economical efficiency.

In addition, since the amount of pellet fuel P can be adjusted through the discharge amount adjusting portion 131, the user can be provided with convenience in adjusting the thermal power.

As described above, the present invention has been described in detail based on the embodiments. However, it should be understood that the present invention is not limited to the above-described embodiments, And the scope of the present invention should be understood as being within the scope of the following claims and their equivalents.

100: Non-powered pellet stove
110:
111: air supply portion
112: fuel supply portion
113: Fuel dispersion part
120:
121: protruding portion
122: Axis
130:
131: Emission regulation section
140: wing portion
141: Axial connection portion
142: first engagement portion
143: second coupling portion

Claims (3)

A supply unit configured to supply air and fuel;
A combustion section in which the supply section is mounted on one side of the upper portion and in which an internal space for combusting the fuel supplied from the supply section is formed; And
And a discharge port installed on the other side of the upper portion of the combustion section and having a discharge path for discharging the smoke generated by the combustion of the fuel supplied from the supply section,
Wherein the supply unit includes:
An air supply part provided in the form of a pipe to supply air to the internal space of the combustion part through an air supply path formed therein;
A fuel supply portion arranged to project upward in the air supply portion and provided in a pipe shape to supply fuel to the internal space of the combustion portion through an internal conduit; And
And a fuel dispersing portion disposed to reach the inner bottom side of the combustion portion below the fuel supply portion and connected to the air supply portion and formed in a conical shape to disperse the fuel supplied from the fuel supply portion,
Wherein the air supply part is provided so as to be spaced apart from an inner bottom of the combustion part by a predetermined distance from an upper outer side of the combustion part to supply air to the fuel dispersion part side
Non-powered pellet stove.
The method according to claim 1,
The burner
A pair of protruding portions formed on both sides of the side upper side; And
And a shaft connecting the pair of protruding portions,
And a wing portion connected to the shaft and rotated about the axis between the pair of protruding portions,
The wing portion
An axial connecting portion into which the shaft is inserted and connected;
A first engaging portion formed at a predetermined distance above the shaft connecting portion; And
And a second engaging portion formed at a predetermined distance below the shaft connecting portion,
When the wing portion is perpendicular to the side surface of the combustion portion, the wing portion is fixedly engaged with the projecting portion through the first engagement portion,
Characterized in that, when the wing portion is horizontal with the side surface of the combustion portion, the wing portion is fixedly engaged with the projecting portion through the second engagement portion
Non-powered pellet stove.
The method according to claim 1,
Characterized in that the vertex of the cone of the fuel distributing portion is located in the internal conduit of the fuel supply portion
Non-powered pellet stove.

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