KR20160003312U - Reconciliation stove - Google Patents

Abstract

The present invention provides a heat radiating unit which is disposed at an upper portion of a main body of the hearth and is provided with a heat dissipating unit, and the upper part of the main body is provided with a means for distributing heat to the heat dissipating unit, whereby heat radiated through the communication passes through the heat dissipating unit, And furthermore, the heat dissipating part is provided in multiple stages according to the capacity of the stove to minimize heat loss.
To this end, the present invention provides a fire fighting furnace in which wood is combusted in a combustion chamber and heat is transferred along a plurality of passages provided in the upper part of the furnace body in a combustion process, wherein a heat induction part isolated from the combustion chamber Wherein the heat induction unit is provided with a passage communicating with the combustion chamber in one direction of the one direction, partitioned into a plurality of spaces by diaphragms therein, and a central passage for discharging the heat generated in the passage, The heat radiating part is provided with a passage communicating with the central passage of the heat induction part through a connection part on both sides of the lower part of the heat radiating part. The heat radiating part is partitioned into a plurality of spaces by diaphragms, A central passage for discharging the gas into the communication passage; And an air heating layer is provided between the heat induction unit and the heat dissipation unit to heat indoor air.

Description

Reconciliation stove}

More particularly, the present invention relates to a furnace furnace, and more particularly, to a furnace body having a heat dissipating unit which is separated from a main body at an upper portion thereof, and a means for distributing heat to the heat dissipating unit is provided at an upper portion of the main body, And the air is actively heated while passing through the duct, so that there is no possibility of burning because there is no heat discharge, and the heat dissipation part is provided in multiple stages according to the capacity of the stove to minimize heat loss.

In general, firewood stoves are used to keep the temperature of the room by burning wood. The use of such firewood stoves is limited in urban dwellings, annexed houses and general houses, but in the case of farmhouses and rural houses, the use of wood is increasing due to the availability of a large amount of wood in the vicinity. Especially nowadays, as the demand of the power house is increasing, the use of the fireplace furnace is gradually increasing with the use of the fireplace.

Conventional patent No. 1497830 divides into upper and lower incineration spaces and hot air spaces through divisional diaphragms. In the incineration space, it burns harmonious wood to radiate high-temperature thermal energy. Using the heat energy, the incineration space is completely closed Through the space of the hot air space, the air is heated at a high speed, and the hot air is supplied to the room by the strong wind force of the hot air blower, so that the indoor air is heated more efficiently. As a result, A high-efficiency fire-fighting furnace capable of maintaining the warm air inside the room has been proposed.

Conventional patent No. 1355727 has an exhaust structure for forming a space partition plate and a suction hole in a fire wood stove and controls the flow of air through an exhaust pipe and an air amount regulator formed in a supply pipe of the exhaust part to control thermal power and soot discharge, A humidifying part is provided to adjust the humidity of the room to be dried, and the aroma such as mugwort or aroma can be supplied to the room all the time.

However, the conventional firewood stoves have a disadvantage in that the structure is complicated and the production cost of the firewood stove is increased due to the use of a separate humidifier because the hot air space for heating the indoor air must be equipped with a separate hot air blower. In addition, since there is no means for actively heating the indoor air according to the capacity of the stove, the indoor air can not be efficiently heated.

The object of the present invention is to provide a heat dissipating unit that is separated from a main body at an upper portion of a main body of the hearth and has a means for distributing heat to the heat dissipating unit, The present invention provides a fireplace heater in which heat is actively heated while passing through the heat dissipation unit and the heat dissipation unit is provided in multiple stages according to the capacity of the stove to minimize heat loss.

To this end, the present invention provides a fire fighting furnace in which wood is combusted in a combustion chamber and heat is transferred along a plurality of passages provided in the upper part of the furnace body in a combustion process, wherein a heat induction part isolated from the combustion chamber Wherein the heat induction unit is provided with a passage communicating with the combustion chamber in one direction of the one direction, partitioned into a plurality of spaces by diaphragms therein, and a central passage for discharging the heat generated in the passage, The heat radiating part is provided with a passage communicating with the central passage of the heat induction part through a connection part on both sides of the lower part of the heat radiating part. The heat radiating part is partitioned into a plurality of spaces by diaphragms, And a central passage for discharging the air into the communication passage; And an air heating layer is provided between the heat induction unit and the heat dissipation unit to heat indoor air.

According to the present invention, there is provided a heat induction unit for distributing the heat to both sides of the main body of the stove and then collecting the heat to the center. The heat induction unit serves to stagnate the flow of heat so that the heat can not escape directly into the communication.

An air heating layer is provided between the heat dissipation unit and the heat induction unit at an upper side of the heat induction unit. Therefore, the indoor air is positively heated through the air heating layer. In addition, since the instantaneous discharge of heat is suppressed by designing the exhaust flow so that the heat is dispersed to both sides of the heat dissipating unit and then collected at the center and escaped to the communication, the communication is prevented from being burned.

In addition, when the heat radiating part is stacked in a multi-stage according to the capacity of the hearth body, the air heating layer is increased by the number of the heat radiating parts, so that the indoor heating performance is improved. It is advantageous in that it is easy to manufacture.

1 is an exploded perspective view of a furnace hearth of the embodiment of the present invention;
2 is a cross-sectional view of a fire wood stove in the embodiment of the present invention
3 is a sectional view taken along line A-A in Fig. 2
4 is a cross-sectional view of a furnace hearth of another embodiment of the present invention

The furnace furnace of the embodiment devised in FIGS. 1 to 3 is provided with a furnace body 10. The hearth main body 10 is made of a rectangular parallelepiped. The front surface of the furnace body 10 is provided with a wood inlet 12 for receiving wood into the combustion chamber 11, and the ashtray 13 is provided at the bottom thereof. In the upper part of the hearth body 10, there is provided a heat induction part 20 for dispersing heat to be discharged on both sides and collecting the heat to the center.

The heat induction unit 20 includes a space isolated from the combustion chamber 11. A passage P communicating with the combustion chamber 11 is provided at one end of one end of the heat induction unit 20, The partition 21 is divided into a plurality of divided spaces. A central passage P1 is formed at the center of each passage P independently from the passage P so that the central passage P1 does not directly communicate with the combustion chamber 11 but discharges heat generated by the passage P upward It plays a role.

A heat dissipating unit 30 is provided on the upper side of the stove body 10 away from the heat induction unit 20. The heat radiating part 30 is formed in a box shape having a low height. The heat radiating part 30 is provided at its both sides with a pair of passageways P directed toward the hearth main body 10, The inside of the heat-radiating portion 30 is partitioned into a plurality of spaces by the two partition plates 21 partitioning.

And a connecting portion 40 connecting each passage P of the heat dissipating portion 30 and a central passage P1 provided on the heat induction portion 20 is provided. An air heating layer 50 spaced apart from each other is provided between the heat induction unit 20 and the heat dissipation unit 30 to heat the room air.

A central passage P1 is formed in the upper part of the heat dissipating unit 30 so as to be parallel to the passage P so that the heat generated in the central passage P1 of the air heating unit 50 flows into the heat dissipating unit 30. [ The air is circulated in the inside and discharged to the communication pipe 60 along the central passage P1 of the heat dissipating unit 30. [ Reference numeral 14 denotes a support for supporting the end of the heat dissipating unit 30 and the end of the heat induction unit 20.

The present invention is configured such that the heat induction unit 20 and the heat dissipation unit 30 are sequentially disposed on the upper part of the hearth main body 10 so that the heat is discharged from the heat induction unit 20 and the heat dissipation unit 30 into the zigzag So that the contact time with the room air is increased during the circulation.

The heat generated in the combustion of the wood in the combustion chamber 11 and the combustion gas are supplied to the heat induction unit 20 along both passages P of the heat induction unit 20, 20). Flows along the space partitioned by the partition plate 21 and then flows into the central passage P1 of the connection portion 40 via the central passage P1 on the upper side. The heat radiating part 30 coupled with the connection part 40 circulates through the inner space partitioned by the diaphragm 31 after the heat is introduced from the passages P on both sides and is circulated along the central passage P1 formed at the center, And is discharged to the communication pipe (60).

The indoor air is heated while the heat is guided in the heat induction unit 20 and the heat dissipation unit 30 so that the indoor air is heated from the air heating layer 50 between the heat induction unit 20 and the heat dissipation unit 30, Is actively heated.

Fig. 4 is a furnace hearth of another embodiment of the present invention, and has the same configuration as that of the inventive embodiment. Only the heat dissipating unit 30 is formed in multiple stages.

When the capacity of the firewood stove is large, the heat dissipating unit 30 and the connecting unit 40 are alternately installed so that a large number of heat dissipating units are provided on the upper part of the stove body 10 in multiple stages. According to another embodiment of the present invention configured as described above, since a plurality of air heating layers 50 are provided between the multi-stage heat radiating portions 30, the indoor air is heated more positively so that the exhaust heat of the large- So that the heat loss is minimized.

10: furnace body 11: combustion chamber
20: heat induction part 21: diaphragm
30: heat radiating part 31: diaphragm
40: connection 50: air heating layer
60: communication P: passage
P1: central passage

Claims (2)

A fire fighting furnace in which wood is burned in a combustion chamber and heat is transferred in a combustion process along a plurality of passages provided in an upper portion of the firebox body,
The heat induction unit is provided at an upper portion of the hearth body with a heat induction unit isolated from the combustion chamber. The heat induction unit is provided with a passage communicating with the combustion chamber in one direction, and is partitioned into a plurality of spaces by a diaphragm. And a central passage for discharging the heat generated by the heat exchanger;
The heat radiating part is provided with a passage communicating with the central passage of the heat induction part through a connection part on both sides of the lower part of the heat radiating part. The heat radiating part is partitioned into a plurality of spaces by diaphragms, And a central passage for discharging the gas into the communication passage,
Wherein an air heating layer is provided between the heat induction unit and the heat dissipation unit to heat indoor air. The method according to claim 1,
The heat dissipation unit may include at least one multi-
And a plurality of air heating layers are provided between the heat dissipation units.

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