KR20120014949A - A incinerate stove - Google Patents

Abstract

PURPOSE: A solid fuel strove, which includes a combustion body, having a combustion part, and a supplying body, having a distribution chamber, is provided to reduce the consumption of heating expenses. CONSTITUTION: A solid fuel strove comprises a supply body(30), a combustion body(50) and a door. The supply body supplies a timber, a rice hulls, an dried orange peel, a solid fuel and supplies air of a pellet to an consumption part. The combustion body increases indoor temperature of an indoor by burning fuel suing fuel and air from the supply body. The door is installed in the front side of the combustion body for the maintenance and repair of the stove.

Description

Solid fuel incineration stove {A incinerate stove}

The present invention relates to a solid fuel incineration stove, and more specifically, to pelletize pellets such as wood, rice husk, dried tangerine, and parts to significantly reduce heating costs, and furthermore, durability and heat resistance of the combustion section. This is to greatly improve the energy efficiency, and in particular, to maximize the thermal power of the complete combustion by the air blowing in a variety of ways, which results in the energy saving effect, thereby greatly improving the quality and reliability of the product It is to help consumers to plant a good image.

As you know, a stove is a heating device that burns fuel such as wood, coal, oil, and gas or heats it using electricity to raise the temperature in a room.

As described above, the fuel of the stove (stove) is wood, coal, or the like, but such fuel may cause environmental damage, and exhaustion of resources may require active replacement fuel.

In addition, the conventional stove (stove) because the heat source of the combustion unit is very high heat, a large problem that becomes inoperable due to the destruction of the bearing when the fire plate passes for a long time.

In addition, since the conventional stove (stove) does not have a hole for circulating air in the door during a power failure, there is a big problem that incomplete combustion occurs.

Conventional Patent Publication No. 2008-0055629 (Application No. 2007-0117927) (name: in particular, fuel derived from pellets, sawdust, grains, corn, vegetables, biomaterials, etc.) to solve the above problems Stove) has been filed. That is, the prior art described above shows that the stove 1 generally has a rear surface 3, a lateral storage area 4, and a general as shown in Figs. 1 (a) (b) (c) (d). And an outer container 2 composed of at least partially transparent front hatch 5. In the vessel 2 there is a combustion chamber 6 which is coupled with the fuel storage tank 7, in particular in the region adjacent the front hatch 5. For example, a supply means such as a screw feeder 8 draws fuel, for example pellets, from the base of the storage tank 7 and supplies it to the furnace 9. The storage tank 7 can be arranged behind the combustion chamber 6, as shown. However, the storage tank 7 may be installed on the side of the combustion chamber 6 or “remotely”, ie outside of the outer container 2. In addition, the stove 1 is provided with means 10 for extracting air from the combustion chamber 6. The heat exchange intermediate space 11 is formed between the combustion chamber 6 and the outer container 2 and is fluidly connected through an air inlet 12 and a supply port 13 to the environment in which the stove 1 is disposed. The air moving means 14 is accommodated in the intermediate space 11 and can forcibly draw air from the air intake 12 and direct it to the supply port 13. Due to this movement, the sucked air impinges on the wall of the combustion chamber 6 such that the air coming in from the supply port 13 is much warmer than the air drawn in through the air inlet 12. The movement means 14 is arrange | positioned in the storage part 15 arrange | positioned under the combustion chamber 6. Preferably, the air moving means 14 may be constituted by an axial fan 16 having a rotational axis 100 that lies in a substantially vertical direction in use. With particular reference to the practical embodiment shown, the extraction means 10 can be constituted by an axial impeller 17 having a substantially vertical axis and arranged in the base 18 of the combustion chamber 6. Preferably, the air moving means 14 is arranged below the axial impeller 17. The moving means 14 also comprise a moving shaft 19 which can be operated by the motor means 20 in combination with the extraction means 10. For example, the motor means 20 may comprise a first terminal 21 coupled with the axial impeller 17 and a second terminal 22 coupled with the axial fan 16. Preferably, the first terminal 21 and the second terminal 22 may be part of a through actuating shaft coupled with the motor means 20. As shown, the air intake 12 can be disposed substantially at the level of the axial fan 16. The prior art described above is to provide a stove which makes it possible to limit the formation of a stagnant air space in the heat exchange intermediate space, to provide a stove which can provide better operating efficiency, has a simple structure, and is durable. It is high, low production cost, and provides an stove with an advantage from an economic point of view. However, the above conventional technology also has many problems as follows. That is, the prior art has been pointed out as a big problem that the structure is very complicated due to a large number of parts, resulting in lower workability and higher cost. In addition, the prior art also has a problem that the technical configuration of the combustion unit is made of a structure that does not improve the durability and heat resistance. In addition, the prior art has been pointed out as a big problem that can not maximize the thermal power due to not blowing air in many ways. In addition, since the conventional technology has a very high heat of the heat source of the combustion unit as described above, a large problem has occurred that the inoperative state becomes inoperable due to the destruction of the bearing when the face plate passes for a long time. In addition, the conventional technology also has a big problem that incomplete combustion occurs because there is no hole for circulating air in the door during power failure.

The present invention has been made in order to solve the above problems of the prior art, and the first object is to provide a supply body with a distribution box and a combustion body with a combustion unit, the technical configuration of the present invention The second purpose is to fuel pellets such as wood, rice hulls, dried tangerine shells, and parts to significantly reduce heating costs. The third purpose is to structurally simplify the construction and improve workability. The fourth purpose is to significantly improve the durability and heat resistance by reinforcing the technical configuration of the combustion section, and the fifth purpose is to maximize the firepower according to the complete combustion, especially by the air blowing from various aspects. The sixth purpose is to achieve energy savings as a result, and the seventh purpose is to circulate air in the door even during a power outage. Because so will you avoid incomplete combustion, eighth object is thereby providing a solid fuel burning stoves significantly improve the quality and reliability of products to let consumers instill a good image.

In order to achieve the above object, the present invention is a conventional solid fuel incineration stove, wood, rice hull, dried tangerine bark, powder, pellets (supply) for supplying solid fuel and air to the combustion unit; A combustion body that heats the fuel by burning the fuel by using the fuel and air supplied from the supply body to raise the temperature in the room; And a door for maintenance and cleaning of the stove on the front of the combustion body.

As described in detail above, the present invention is to provide a supply body having a distribution box and a combustion body provided with a combustion unit.

The present invention is to fuel the pellets such as wood, rice husk, dried tangerine peel, eggplant by the above technical configuration to significantly reduce the heating cost.

And the present invention is to simplify the construction to improve the workability and to reduce the cost.

In addition, the present invention reinforces the technical configuration of the combustion unit to significantly improve the durability and heat resistance.

In particular, the present invention is to maximize the fire power according to the complete combustion by the air blowing in various ways.

In addition, the present invention is to achieve an energy saving effect as a result.

In addition, the present invention allows air to circulate in the door even in the event of a power failure, so that incomplete combustion does not occur.

The present invention is a very useful invention that can significantly improve the quality and reliability of the product due to the above-described technical effects so that consumers can plant a good image.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this effect are as follows.

1 (a) (b) (c) (d) are a front view, a perspective view, a side cross-sectional view and a front cross section of a conventional stove
Degree.
2 is an overall front sectional view of a solid fuel incineration stove applied to the present invention.
3 is a side cross-sectional view of a solid fuel incineration stove applied to the present invention,
4 is an enlarged configuration diagram of a combustion unit applied to the present invention.
5 is an enlarged configuration diagram of a door applied to the present invention.
6 is another embodiment of the present invention.
(a) is a perspective view of an air spreading member,
(b) is sectional drawing of the principal part of the state of use of an air spreading member.

The solid fuel incineration stove applied to the present invention is configured as shown in FIGS. 2 to 6.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the present invention is a conventional solid fuel incineration stove as shown in FIG. Combustion body 50 to raise the temperature in the room by burning the fuel by using the fuel and air supplied from the supply body 30 to increase the temperature in the room; And a door 70 for maintenance and cleaning of the stove on the front of the combustion body 50. The solid fuel incineration stove is provided.

Referring to the technical configuration of the present invention described above in more detail.

That is, the supply body 30 is provided at the top of the supply body 30, as shown in Figure 2 is provided with a hopper 31 containing fuel (mainly pellets), the hopper is It is preferable that the lower part is wider and narrower.

In addition, provided at the lower end of the hopper 31, the transfer screw 32 for rotating the fuel driven by the drive motor 31 to transfer the fuel from one side to the other side through the transfer pipe 33 is provided.

And one side is connected to the transfer pipe 33, the other side is provided with an inclined inlet 36 which is installed close to the internal combustion unit 60 of the combustion body 50, the inclined angle is about 40 ~ 60 Is preferred.

In addition, the lower portion of the supply body 30 is provided with a distribution box 40 for collecting the air supplied by the drive of the drive motor 34 and the rotation of the blower 35 to collect in several places.

At this time, the distribution box 40 is connected to a plurality of blower pipes added to the technical configuration described later.

That is, the first blowing pipe 41 for supplying air to the inclined inlet 36 is provided.

In addition, while supplying air to the upper end of the rotary roaster 62, there is provided a second blower pipe 42 having a spark plug 42a therein.

In addition, a third blower pipe 43 for supplying air to the lower end of the rotary roaster 62 is provided.

In addition, a fourth blowing pipe 44 for supplying air into the sludge removing pin 65 is provided.

In addition, a fifth blower pipe 45 is provided to increase the flow velocity of heat of the combustion body 50 through the discharge pipe 51 and radiate to the outside.

On the other hand, the combustion body 50 applied to the present invention is configured as follows.

That is, the discharge pipe 51 is protruded on the upper end of the combustion body 50 to dissipate heat to the outside.

And it is provided in the lower portion of the combustion body 50, the drive motor 63 and the reducer 64 is provided at the bottom centered on the oven 61, and connected to the reducer 64 at the top to rotate at the same time heat Combustion unit 60 is provided with a rotary roaster 62 to be spaced apart by a predetermined interval so as not to be affected.

In addition, the sludge removal pin 65 is provided to protrude to the inside of the oven 61, to remove the sludge remaining in the rotary roaster (62).

In addition, the bottom bottom of the combustion body 50 is provided with a ash container 52 to receive the ash generated in the combustion unit 60 to be discharged to the outside.

In this case, a plurality of through holes 62a are formed in the rotary roaster 62 applied to the present invention at regular intervals so that air passes or discharges sludge as shown in FIG. 4, and is shown in FIG. 6 (a) (b). As described above, the upper part of the rotary roaster 62 protrudes like a mountain to spread the air supplied to the upper part through the through hole 62a to a 360 degree slope, and at least two support pieces 68 protrude outwardly. The air spreading member 67 is provided.

In the present invention, a plurality of sludge removal pins 65 are formed at regular intervals, and holes 65a are formed to help improve sludge and combustion efficiency while the air supplied to the fourth blower pipe 44 is discharged.

In addition, the fifth blower pipe 45 applied to the present invention has an upper end portion inserted into the discharge pipe 51 by an 'L' length so as to increase the flow velocity of heat of the combustion body 50 to diverge to the outside. It is composed.

At this time, the length of the 'L' of the fifth blowing pipe 45 inserted into the discharge pipe 51 is preferably inserted into about 15 ~ 25cm.

Finally, the following technical configuration is added to the door 70 for safety during incomplete combustion or power failure.

That is, as shown in FIGS. 3 and 5, a space portion 72 is formed in a rectangular frame of the body 71 around the transparent window 75, and external air is introduced into the stove 71. A plurality of inflow and outflow holes 73 are provided at regular intervals to allow the inflow and the air inside the stove to be discharged to the outside.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Referring to the effect of the solid fuel incineration stove of the present invention configured as described above are as follows.

First, the present invention is to fuel the pellets (wooden, chaff, dried tangerine peel, powder, etc.) to significantly reduce the heating cost, and also to significantly improve the durability and heat resistance of the combustion unit 60, In particular, it is possible to maximize the fire power according to the complete combustion by the air blowing from various aspects, which is to achieve an energy saving effect.

To this end, in the present invention, first, a solid fuel such as wood, rice hulls, dried tangerine peels, flour, pellets, or the like is introduced into the hopper 31.

In the above state, when the transfer screw 32 is rotated by the driving of the driving motor 31, the solid fuel falling naturally is transferred from one side to the other side through the transfer tube 33.

The solid fuel transported to the other side is supplied little by little over a predetermined amount to the combustion unit 60 provided in the combustion body 50 through the inclined injection hole 36.

When the solid fuel is supplied to the combustion unit 60 as described above, the fuel is incinerated to release a heat source. Hereinafter, the operation effects of the combustion unit 60 will be described in detail.

The fuel dropped from the inclined inlet 36 is placed on the rotary roaster 62. At this time, the rotary roaster 62 is gradually rotated by the drive of the drive motor 63 and the reducer 64 located at the lower end of the oven (61).

When the fuel is placed in the rotary roaster 62 as described above, the fuel is incinerated while the fuel is burned by the spark plug 42a.

In the process of burning the fuel, the present invention greatly improves the durability and heat resistance of the combustion unit 60.

That is, the rotary roaster 62 generates high heat as the fuel is incinerated, and the reducer 64 and the driving motor 63 for driving the rotary roaster 62 should be separated as far as possible because they are vulnerable to heat. Therefore, the present invention is provided with a reduction gear 64 and a driving motor 63 at the lower end of the oven 61 to be spaced apart from the rotary roaster 62 to be protected from heat.

In addition, the present invention is to maximize the fire power according to the complete combustion by the air blowing in various ways.

That is, when the blower 35 rotates at a high speed by the driving of the driving motor 34, the air outside the distribution box 40 is introduced.

The air introduced into the distribution box 40 is introduced into a plurality of blower pipes, respectively, to increase the efficiency of the combustion unit 60.

At this time, the air is introduced into the inclined inlet 36 through the first blower pipe 41 to increase the combustion efficiency of the combustion unit 60.

In addition, the air is introduced into the upper surface of the rotary roaster 62 through the second blower pipe 42 to double the combustion efficiency of burning the fuel.

Then, the air is introduced into the lower portion of the rotary roaster 62 through the third blower pipe 43. The air thus introduced is introduced into the upper portion through the through hole 62a formed at a predetermined interval in the rotary roaster 62, and thus combustion is caused. The combustion efficiency of the section 60 is further increased.

In addition, through the fourth blower pipe 44 to allow air to be discharged through the plurality of holes 65a formed in the sludge removing pin 65 as shown in FIG. 4 so as to increase the combustion efficiency of the combustion unit 60. In addition, the sludge removal pin 65 is ejected in the process of removing the sludge to facilitate the sludge removal.

At this time, air is introduced through the hole 65a and sludge is discharged.

Finally, the combustion efficiency of the combustion unit 60 is also increased through the fifth blower pipe 45. When the fifth blower pipe 45 is inserted into the discharge pipe 51 at a predetermined depth ('L' length), the discharge pipe 51 By increasing the flow velocity of the heat of the combustion body exiting through the) to be emitted to the outside, as a result it is possible to double the combustion efficiency of the combustion unit.

In addition, the present invention can double the combustion efficiency of the combustion unit by the air spreading member 67 as shown in Figure 6 (a) (b).

That is, the fuel is spread to the side by the air spreading member 67 that rises upwards, and in this state, the air introduced into the upper portion through the through hole 62a of the rotary roaster 62 passes through the air spreading member 67. The blockage prevents further progression and spreads to the side.

The air spread by the side of 360 degrees helps to burn the incineration of the fuel gathered on the side better, and as a result, the combustion efficiency of the combustion unit 60 can be increased.

On the other hand, the door 70 applied to the present invention is designed to cope with incomplete combustion or power failure safely.

That is, as shown in FIGS. 3 and 5, a space portion 72 is formed in a rectangular frame of the body 71 around the transparent window 75, and external air is introduced into the stove 71. A plurality of inflow and outflow holes 73 are provided at regular intervals to allow the inflow and the air inside the stove to be discharged to the outside.

Therefore, when the combustion of the combustion unit 60 is not well made, the external air is introduced into the combustion unit 60 through the inflow and discharge holes 73 to increase the combustion efficiency of the combustion unit 60.

And if the combustion unit 60 is incomplete combustion or the stove is not operated by the power outage will result in the smoke to block the transparent window 75, the present invention smoke is the inflow and discharge Through the ball (73) to the outside will be able to safely protect the stove.

Finally, in the present invention, the ash combusted in the combustion unit 60 is accumulated in the ash container 52, and the user draws out the ash container 52, discards the ash, and inserts the ash into the stove again.

The technical idea of the solid fuel incineration stove of the present invention is that the same result can be repeatedly carried out. In particular, by implementing the present invention, it is possible to promote technological development and contribute to industrial development, which is worth protecting.

<Explanation of symbols for the main parts of the drawings>
30: supply body 32: transfer screw
40: distribution box 50: combustion body
60: combustion part 70: door

Claims (8)

In a conventional solid fuel incineration stove,
A feed body 30 for supplying wood, rice hulls, dried tangerine peels, flour, pellets of solid fuel and air to the combustion section;
Combustion body (50) for raising the temperature in the room by heating the heat by burning the fuel using the fuel and air supplied from the supply body; And
Solid fuel incineration stove, characterized in that the front of the combustion body, the door 70 for maintenance and cleaning of the stove.
The method according to claim 1,
The supply body 30,
A hopper 31 provided at an upper end of the supply body to hold fuel;
A transfer screw 32 provided at the lower end of the hopper and rotating by driving of the driving motor 31 to transfer fuel from one side to the other side through the transfer tube 33;
One side is connected to the transfer pipe, the other side is inclined inlet 36 is installed close to the internal combustion portion of the combustion body; And
Solid fuel incineration stove, characterized in that provided in the lower portion of the supply body for distributing the air supplied by the drive of the drive motor 34 and the rotation of the blower 35 to a number of places.
The method according to claim 1,
The combustion body 50,
A discharge pipe 51 protruding from the upper end of the combustion body to dissipate heat to the outside;
It is provided in the lower portion of the combustion body, the drive motor 63 and the reducer 64 is provided at the lower end of the oven 61, and the upper end is connected to the reducer to rotate and at the same time so as not to be affected by heat. Combustion unit 60 is provided with a rotary roaster 62 spaced apart;
A sludge removal pin (65) provided to protrude inwardly of the oven and removing sludge remaining in the rotary roaster; And
Solid fuel incineration stove, characterized in that it is provided; at the bottom bottom of the combustion body to receive the ash generated in the combustion unit to discharge to the outside.
The method of claim 2,
In the distribution box 40,
A first blowing pipe 41 for supplying air to the inclined inlet 36;
A second blower pipe 42 which supplies air to an upper end of the rotary roaster, the spark plug 42a being provided therein;
A third blowing pipe 43 for supplying air to the lower end of the rotary roaster;
A fourth blowing pipe 44 for supplying air into the sludge removing pins; And
And a fifth blower pipe (45) for increasing the flow velocity of the heat of the combustion body through the discharge pipe to diverge to the outside.
The method of claim 3,
The rotary roaster 62 is formed with a plurality of through-holes (62a) at regular intervals to pass air or discharge sludge,
An air spreading member 67 having an upper portion protruding like a mountain shape and having at least two support pieces 68 protruding outward from the upper portion of the rotary roaster to spread the air supplied to the upper portion through a 360 degree slope; Solid fuel incineration stove further comprises.
The method of claim 3,
A plurality of sludge removal pins (65) are formed at regular intervals, solid fuel incineration stove, characterized in that the hole (65a) to further improve the sludge and combustion efficiency is formed while the air supplied to the fourth blowing pipe is discharged.
The method of claim 4,
The fifth blower pipe 45 is,
Solid fuel incineration stove characterized in that the upper end is inserted into the discharge pipe 51 by the length 'L' to increase the flow velocity of the heat of the combustion body to diverge to the outside.
The method according to claim 1,
The door 70 has a safety for incomplete combustion or power failure,
A space portion 72 is formed in a rectangular frame of the body 71 around the transparent window 75, and the body allows the outside air to flow into the stove and also discharges the air inside the stove to the outside. Solid fuel incineration stove, characterized in that provided; a plurality of inlet and outlet holes (73) at intervals.

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