KR20120088414A - System with cremation furnaces of high efficiency - Google Patents

Abstract

PURPOSE: A crematorium system with a high efficient cremation furnace is provided to reduce cremation time and to prevent the generation of pollutants because an auxiliary combustion burner supports perfect combustion by having a same flowing direction with the flame of a main combustion burner. CONSTITUTION: A crematorium system with a high efficient cremation furnace comprises a vertical guide pipe(70) and a exhaust guide part(62). A main combustion burner is arranged in one side wall of a main combustion chamber(52). A recombustion burner is arranged in one side of a recombustion chamber. One end of the vertical guide pipe is communicated with a first communicating part formed at the bottom of one side of the main combustion chamber. The vertical guide pipe vertically surrounds a part of the main combustion chamber. The exhaust guide part is composed of a horizontal guide pipe(74).

Description

Cosmetology system with high efficiency toilet {SYSTEM WITH CREMATION FURNACES OF HIGH EFFICIENCY}

The present invention relates to a cremation system equipped with a high-efficiency toilet, and more particularly has a long residence time of heat to increase the efficiency of the combustion to induce complete combustion, the burner is provided with the same high-efficiency toilet It relates to a crematory system.

As is well known, generally used toilets include a primary combustion chamber and a secondary combustion chamber.

1 is a side sectional view showing a cremation furnace having a combustion-activated structure of a flame retardant portion according to a conventional embodiment, and FIG. 2 is a main sectional view showing a main combustion chamber of a cremation furnace having a combustion-activating structure of a flame retardant portion according to a conventional embodiment. to be.

Referring to this, in the conventional crematory furnace 2, the main combustion chamber 4 and the reburn chamber 8 are stacked and communicated with each other, and one side of the main combustion chamber 4 has an insulating door 6. Is installed.

In the above-mentioned crematory 2, a casing 10 is formed at an outside thereof, and a heat insulating board 12 is attached to the inside of the casing 10, and a firebrick 14 is attached to an inner wall of the heat insulating board 12. ), And a ceramic fiber 16 is attached to the inner surface of the firebrick 14.

The furnace wall structure of the crematorium 2 is a structure for preventing heat from being discharged to the outside while effectively accumulating heat generated inside the furnace.

Meanwhile, partition walls 22 are formed between the main combustion chamber 4 and the reburn chamber 8 to separate each chamber, and a part of the partition walls 22 are cut to form a primary communication unit 18. In the upper part of the reburn chamber 8, a secondary communication portion 20 communicating with an exhaust duct (not shown) is formed.

In addition, the main combustion chamber (4) is provided with a main combustion burner (24) for injecting flame into the combustion chamber at a predetermined position on one side of the main combustion chamber and a check hole (28) for observing the combustion chamber, and on the other side of the main combustion chamber ( 4) An insulating door 6 for storing a tube into the top and bottom is installed to be opened and closed.

On the other hand, the upper part of the inspection port 28 is formed with a combustion air port 30, the lower side of the main combustion chamber 4 is provided with a cooling blower 26 is configured to cool the furnace bogie 36 The reburn chamber (8) is disposed above the main combustion chamber (4), and a reburn burner (34) for reburning the unburned gas is provided at a predetermined position on one side thereof, and the reburn chamber (8) is provided. One side is provided with a check window 32 for checking the reburn status.

In the lower part of the main combustion chamber (4) is provided with a furnace bogie (36) for mounting the body pipe (40) containing the body 42, the bogie transfer unit for automatically transferring the furnace bogie (36) (38) is provided.

At this time, the carcass 42 accommodated in the carcass tube 40 is the carcass tube 40 is introduced into the main combustion chamber 4 so that the head direction is the direction in which the main combustion burner 24 is mounted, The head and upper body of the dead body are easily burned by the flame of the main combustion burner 24, but the lower body, thighs and legs are not easily burned. This part is called a flame retardant 44.

Therefore, since the flame retardant portion 44 of the body is not properly made up, various methods such as flipping over the cock, moving the truck, or adjusting the left and right angles of the main combustion burner 24 are made, Still longer makeup time and flame retardant 44 had a problem that the makeup is not made well.

In addition, the conventional toilet 2 has a problem that the residence time of heat is small because the heat transfer through the main combustion chamber (4) and the reburn chamber (8) is made of a "⊃" shape, thereby resulting in incomplete combustion There was a problem that additional costs are additionally required to cause various contaminants to be caused.

The present invention has been made in view of the above-described state of the art, and has a long-life residence time and a burner system provided with a high-efficiency cosmetic furnace having the same burner direction as the combustion direction to increase combustion efficiency and induce complete combustion. The purpose is to provide.

In order to achieve the above object, according to a preferred embodiment of the present invention, the main combustion chamber having a main combustion burner on one side wall and the recombustion chamber having a reburn burner on one side wall are closed by horizontal partition walls, respectively. A vertical induction pipe communicating with a first communication part formed at a lower end of one side of the chamber and one end thereof and vertically surrounding a part of the main combustion chamber; The exhaust induction part consisting of a horizontal induction pipe which is bent as the vertical induction pipe is extended and horizontally surrounds a part of the reburn chamber while the other side is in communication with the second communication part communicates with the main combustion chamber and the reburn chamber to delay the residence time of heat. Provided is a cosmetic system equipped with a high-efficiency crematorium, characterized in that to activate flame retardant combustion.

Preferably, the vertical induction pipe is provided with a cremation system having a high-efficiency crematorium, characterized in that the first inclined surface is formed on the upper end in the opposite direction of the second communication portion.

Preferably, the horizontal induction pipe is provided with a cremation system having a high-efficiency crematorium, characterized in that the second inclined surface is formed on the lower end of the second communication portion side.

Preferably, the horizontal induction pipe and the vertical induction pipe is provided with a cremation system having a high efficiency toilet, characterized in that made of a refractory material.

Preferably, the first communication unit is provided at the bottom of the outer wall of the main combustion furnace is provided with a cremation system having a high efficiency cosmetics, characterized in that the residence time of the flame, heat and exhaust gas to the main combustion furnace is increased. .

Preferably, the main combustion chamber has a plurality of auxiliary combustion burners are mounted on the side wall at regular intervals, the crematory system having a high-efficiency cremator, characterized in that the main combustion burner is mounted to rotate at a predetermined angle in the flame spraying direction. This is provided.

The crematory system equipped with a high-efficiency cosmetic furnace according to the present invention can achieve excellent heat storage by allowing heat and flame to stay longer, and the communication structure can further achieve a heat insulation function, and thus the combustion efficiency is very high. In addition, since the auxiliary combustion burner has the same flow direction as the flame of the main combustion burner, it is possible to realize complete combustion and thereby to effectively reduce the makeup time without generating contaminants.

1 is a side cross-sectional view showing a cremation furnace having a combustion-activated structure of a flame retardant unit according to a conventional embodiment;
2 is a main sectional front view showing a main combustion chamber of a cremation furnace having a combustion-active structure of a flame retardant portion according to a conventional embodiment;
Figure 3a, 3b, 3c is a view showing the appearance of a high-efficiency cosmetics make up a cosmetic system equipped with a high-efficiency cosmetics in accordance with an embodiment of the present invention,
Figure 4 is a cross-sectional view showing a main combustion chamber of the high-efficiency cosmetics making up the cremation system with a high-efficiency cosmetics in accordance with an embodiment of the present invention,
5A, 5B, and 5C are plan cross-sectional views showing front and rear cross-sectional views of a front and rear ends of a high-efficiency crematorium constituting a cremation system having a high-efficiency crematorium according to an embodiment of the present invention;
Figure 6 is a side cross-sectional view showing a high-efficiency toilet to form a cremation system equipped with a high-efficiency cosmetic in accordance with an embodiment of the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

Figure 3a, 3b, 3c is a view showing the appearance of a high-efficiency cosmetic make up the cremation system provided with a high-efficiency makeup in accordance with an embodiment of the present invention, Figure 4 is a high-efficiency makeup in accordance with an embodiment of the present invention Fig. 5A, 5B, and 5C are plan views showing the main combustion chamber of the high-efficiency crematorium constituting the provided cremation system, respectively. 6 is a side cross-sectional view showing a high-efficiency crematorium forming a cremation system with a high-efficiency crematorium according to an embodiment of the present invention.

Referring to this, the high-efficiency toilet 50 to form a cremation system equipped with a high-efficiency toilet in accordance with an embodiment of the present invention has a long residence time of heat to induce complete combustion by increasing the efficiency of combustion, the direction of the burner This is the same toilet as the combustion direction.

In more detail, the high-efficiency crematorium 50 forming the cremation system with the high-efficiency crematorium according to an embodiment of the present invention is the main combustion chamber 52 and the reburn chamber 54 similar to the conventional crematorium 2. These are laminated | stacked respectively, and the heat insulation door 6 is provided in one side of the main combustion chamber 52. As shown in FIG. In the present invention, even if a plurality of configurations including the main combustion chamber 52 and the reburn chamber 54 overlap with FIGS. 1 and 2 illustrating the prior art, different reference numerals may be given to distinguish the present invention. .

High-efficiency crematorium 50 that forms a cremation system with a high-efficiency crematorium according to an embodiment of the present invention includes a main combustion chamber 52 having a main combustion burner 24 on one side wall, and a reburn burner 66. Each of the reburn chambers 54 provided on one side wall is closed by a horizontal partition wall, and one end thereof communicates with the first communicating portion 68 formed at one lower end of the main combustion chamber 52, A vertical induction pipe 70 for wrapping a part vertically; The exhaust induction part 62 made of a horizontal induction pipe 74 which is bent while the vertical induction pipe 70 extends and horizontally surrounds a part of the reburn chamber 54 while the other side thereof is in communication with the second communication part 72. The main combustion chamber 52 and the reburn chamber 54 communicate with each other to delay the residence time of the heat to activate the flame retardant combustion.

That is, the high-efficiency crematorium 50 constituting the cremation system provided with a high-efficiency crematorium according to an embodiment of the present invention is configured to have a structure for preventing heat from being discharged to the outside while effectively storing heat. By eliminating direct communication between the main combustion chamber 52 and the reburn chamber 54 vertically upwards, the heat is diverted through the bypass path, thereby increasing the time for the heat to stay inside the cremator 50 to provide more effective heat storage. To achieve.

The bypass path of heat included in the structure of the highly efficient toilet 50 that constitutes the cremation system having the highly efficient cosmetic furnace according to an embodiment of the present invention is not limited to simply configuring a path to bypass the heat, and the main combustion chamber By carrying out the function of insulating the outer wall of the 52 and the reburn chamber 54, more effective heat storage is achieved.

The structure for this purpose is an exhaust induction part 62 for transferring heat and smoke from the main combustion chamber 52 to the reburn chamber 54 while surrounding the outer walls of the main combustion chamber 52 and the reburn chamber 54.

The exhaust induction part 62 is bent in a "-" shape to surround the main combustion chamber 52 and the reburn chamber 54 to exhaust heat and smoke and to expect a heat insulation effect while transferring heat or smoke. It has a vertical guide pipe 70 and the horizontal guide pipe 74.

At this time, the first communication part 68 formed at one lower end of the main combustion chamber 52 is a communication part through which the outer wall of the main combustion chamber 52 penetrates, and the first communication part 68 passes through the vertical induction pipe 70. It consists of a wrapping structure.

Therefore, the flame, heat and exhaust gas in the main combustion chamber 52 are convectively moved in the order of ① → ② → ③ → ④ → ⑤.

Preferably, the first communication unit 68 is formed at the lower end of the outer wall of the main combustion furnace 52 so that the residence time of the flame, heat and exhaust gas to the main combustion furnace 52 is increased. This structure is ultimately a structure that allows induction of complete combustion during cremation.

In addition, the upper end of the vertical induction pipe 70 is vertically in communication with the horizontal induction pipe 74, the horizontal induction pipe 74, while wrapping the part of the reburn chamber 54 horizontally the other side of the second It is made of a structure in communication with the communication unit (72). Similarly, the second communication section 72 is a communication section through which the outer wall of the reburn chamber 54 penetrates.

Preferably, the vertical induction pipe 70 has a first inclined surface 71 formed on the upper end of the second communication portion 72 in the opposite direction to allow the heat and smoke to naturally convex in the direction of the horizontal induction pipe 74. do.

In addition, the horizontal induction pipe 74 is formed so that the second inclined surface 75 is formed at the lower end of the end portion of the second communication portion 72 so that heat and smoke can naturally convex into the reburn furnace 54.

More preferably, the horizontal induction pipe 74 and the vertical induction pipe 70 may be made of a refractory material (for example, fireproof walls, ceramic fibers, ceramic boards, etc.) to further increase insulation and combustion efficiency.

On the other hand, the main combustion chamber 52 provided in the high-efficiency toilet 50 forming a cremation system with a high-efficiency toilet in accordance with an embodiment of the present invention is part of the carcass due to the combustion of the main combustion burner 24 is not complete In order to remove the flame-retardant portion that is not burned, a plurality of auxiliary combustion burners 64 are mounted on both side walls of the main combustion chamber 52 at regular intervals, and more preferably, the auxiliary combustion burners 64 have a peripheral edge. The burner 24 is mounted to rotate at an angle so that the flame can be injected in the same flow as the flame spraying direction.

Therefore, the high-efficiency crematorium 50 forming the cremation system provided with the high-efficiency crematorium according to an embodiment of the present invention can achieve excellent heat storage by allowing heat and flame to stay longer, and the communication structure further insulates. It is possible to achieve the function, the combustion efficiency is very high. In addition, since the auxiliary combustion burner has the same flow direction as the flame of the main combustion burner, complete combustion can be realized, whereby no contaminants are generated and the makeup time can be effectively shortened.

Reference numeral 56 denotes a lower casing, 58 denotes an upper casing, and 60 denotes a lifting rail for guiding the insulating door 6.

On the other hand, the cosmetic salon system equipped with a high-efficiency crematory according to an embodiment of the present invention is not limited to the above-described embodiment, various modifications are possible within the scope not departing from the technical gist.

52: to the main combustion, 54: to the reburn,
56: lower casing, 58: upper casing,
62: exhaust induction part, 64: auxiliary combustion burner,
66: reburn burner, 68: the first communication unit,
70: vertical induction pipe, 72: second communication unit,
74: horizontal induction pipe.

Claims (6)

The main combustion chamber with the main combustion burner provided on one side wall and the recombustion chamber with the reburn burner provided on one side wall are closed by horizontal partitions, and the first communication part formed at one lower end of the main combustion chamber communicates with one end thereof. A vertical induction pipe vertically surrounding a part of the main combustion chamber;
The exhaust induction part consisting of a horizontal induction pipe which is bent as the vertical induction pipe is extended and horizontally surrounds a part of the reburn chamber while the other side is in communication with the second communication part communicates with the main combustion chamber and the reburn chamber to delay the residence time of heat. A cremation system having a high-efficiency cosmetic furnace, characterized in that to activate the flame retardant combustion. The method of claim 1,
The vertical guide pipe is a crematory system having a high-efficiency toilet, characterized in that the first inclined surface is formed on the upper end in the opposite direction of the second communication portion. The method of claim 1,
The horizontal induction pipe is a crematory system having a high-efficiency toilet, characterized in that the second inclined surface is formed at the lower end of the second communication portion side. The method of claim 1,
The horizontal induction pipe and the vertical induction pipe is a crematory system having a high efficiency toilet, characterized in that made of refractory material. The method of claim 1,
The first communication unit is configured to be formed at the lower end of the outer wall of the main combustion furnace cremation system equipped with a high-efficiency crematorium characterized in that the residence time of the flame, heat and exhaust gas to the main combustion furnace is increased. The method of claim 1,
The main combustion chamber has a plurality of auxiliary combustion burners are mounted on the side wall at regular intervals, and the crematory system having a high-efficiency cremator characterized in that the main combustion burner is mounted to rotate at a predetermined angle in the flame spraying direction.

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