KR101796615B1 - Economical and environmentally friendly advanced pyrolysis cremation furnace - Google Patents

Abstract

The present invention relates to an economical and eco-friendly advanced pyrolytic cinerator. The economical and eco-friendly advanced pyrolytic cinerator comprises: a combustion chamber divided into a first combustion chamber on the upper side having a first burner and a second combustion chamber on the lower side having a second burner by a division unit; an auxiliary combustion chamber unit installed on the upper side of the combustion chamber; a first rear combustion chamber comprising a first inflow path formed in front of the division unit to be connected to the first and second combustion chambers, and a first rotation opening and closing unit opening and closing the first inflow path; a first ash carrying unit comprising a first discharge path formed on the lower side of the first rear combustion chamber to correspond to the first inflow path, a second rotation opening and closing unit opening and closing the first discharge path, and a first ash collection unit installed on the lower side of the second rotation opening and closing unit and collecting ashes falling down in the first rear combustion chamber when the first discharge path is opened; a second rear combustion chamber comprising a second inflow path formed in rear of the division unit to be connected to the first and second combustion chambers, and a first slide opening and closing unit opening and closing the second inflow path; and a second ash carrying unit comprising a second discharge path formed on the lower side of the second rear combustion chamber to correspond to the second inflow path, a second slide opening and closing unit opening and closing the second discharge path, and a second ash collection unit installed on the lower part of the second slide opening and closing unit and collecting the ashes falling down from the second rear combustion chamber when the second discharge path is opened. As the ashes are selectively collected in the first ash carrying unit or the second ash carrying unit in accordance with a request of a family of the deceased, the family of the deceased can check a process of collecting the ashes.

Description

Economically and environmentally friendly advanced pyrolysis cremation furnace

The present invention relates to an economical and eco-friendly advanced pyrolysis make-up furnace, and more specifically, it is possible to make a continuous body makeup by passing the body and taking out the ashes in general, And can reduce the time and cost associated with make-up through fine adjustment of the angle of the first burner and can easily transfer the heat of the second combustion chamber by the second burner to the first post combustion chamber It is possible to smoothly perform post-combustion of ashes in the first combustion chamber by diffusing and supplying external air. In addition, it is possible to easily repair only the deformed part when the grate is thermally deformed, It is an economical and eco-friendly advanced pyrolysis make-up that can achieve the full meridian.

Unlike general waste incinerators, cosmetic furnaces can not increase or decrease the amount of cargoes that can be carried in the furnace without a separate drive unit. Makeups are made on the floor of the fixed bed.

In addition, in the case of a conventional truck-type make-up furnace, a carcass (tube) carried in a tube conveyer is transported to a carriage of the entire chamber (cooling chamber) Room) and then transferred to the carpal tunnel through the car carrier to recover the ashes.

Such a conventional method can be confirmed through a "high-efficiency make-up furnace system" such as that in Patent Registration No. 10-0933075.

However, the above-mentioned conventional method has the following problems. There has been a problem in that the make-up cooling of the crucible is blocked in one-sided configuration, that is, the input line of the make-up furnace, and the continuous operation of the make-up furnace can not be achieved due to the ash that is cooled in the entire room (cooling chamber).

In addition, the make-up furnace is a direct burning type which requires a lot of energy consumption due to heat accumulation, heating, make-up and cooling, as well as high refining replacement cost and energy consumption cost due to frequent temperature rise and cooling , The carcass making time is usually 60 minutes, and the carcass cooling time is usually 50 minutes, resulting in a problem that the efficiency of the existing coach type make-up furnace is too low.

On the other hand, in order to solve the above-described problems, the inventor of the present invention has developed a "continuous tube put-on make-up furnace" such as that of Patent Registration No. 10-1540226. However, There is a problem that the whole room for cooling is complicated and a new body is to be moved to the lower side of the truck which has been raised in a state in which the makeup is completed, There was a concern that safety problems might occur in the toilet, and since the car had to be taken out of the make-up furnace after the body was completely burned, there was a problem that it took a long time to make up.

Thus, the applicant of the present invention has developed an economical and environmentally friendly advanced pyrolysis cosmetic method and a cosmetic method using the same, such as Korean Patent Registration No. 10-1711195.

KR 10-1711195 (Feb. 21, 2017) B1 "Economic and Environmentally Friendly Advanced Pyrolysis Cosmetic Process and Cosmetic Process Using the Same" - Daekyung Esco

However, the conventional economical and environmentally friendly advanced pyrolysis makeup method and the cosmetic method using the same have the problem that it is impossible to view the process of making the bones of the bereaved family because the bones can be made only behind the makeup furnace.

The object of the present invention is to provide a method of making a continuous body makeup by passing the body through the second combustion chamber and then taking out the ashes of the body burnt in the first and second combustion chambers, In addition, the ashes of the burnt body can be taken out of the first post-combustion chamber according to the requirements of the bereaved family, and then taken out to provide an economical and environmentally-friendly advanced pyrolysis make-up furnace I have to.

In addition, the present invention can intensively burn unburned parts of the body through fine adjustment of the first burner causing the flame, and adjusts the amount and angle of gas sprayed on a case-by-case basis in accordance with the time load, The goal is to provide an economical and eco-friendly advanced pyrolysis cosmetic line that can save costs.

Further, according to the present invention, a plurality of through holes formed in the first support of the partition can be formed as a downward slope forwardly directed to easily transfer the heat of the second combustion chamber to the ash placed in the first post combustion chamber, The object of the present invention is to provide an economical and environmentally-friendly advanced pyrolysis make-up furnace in which post-combustion of ashes is smoothly performed in the first combustion chamber, which is far from the second burner, by allowing air to be diffused and supplied into the combustion chamber in the zigzag direction.

In addition, the present invention provides an economical and environmentally-friendly advanced pyrolysis make-up furnace capable of easily repairing and replacing only deformed portions even if thermal deformation occurs, by providing a structure in which a plurality of grate There is a purpose.

According to the present invention, the first and second rotation opening and closing means for rotating the first and second rotation opening and closing means are provided to rotate the first and second rotation opening and closing means in the first post combustion chamber, respectively, thereby preventing the ashes from being located in the first post- And to provide an economical and environmentally friendly advanced pyrolysis cosmetic line which can be prevented.

According to an aspect of the present invention, there is provided a combustion apparatus comprising: a combustion chamber defined by a first combustion chamber on an upper side constituted by a first burner and a lower second combustion chamber constituted by a second burner; An auxiliary combustion chamber disposed above the combustion chamber; A first inflow passage formed to communicate with the first and second combustion chambers in front of the partition, and a first after-combustion chamber constituting a first rotation opening and closing means for opening and closing the first inflow passage; A first discharge passage formed on a lower side of the first after-combustion chamber so as to correspond to the first inflow passage; second rotation opening / closing means for opening / closing the first discharge passage; 1) a first ashes take-out part including a first bone part for collecting ashes falling from the first after-combustion chamber when the discharge passage is opened; A second inflow passage formed to communicate with the first and second combustion chambers behind the partition and a second after-combustion chamber constituting a first slide opening / closing means for opening / closing the second inflow passage; A second slide opening / closing means for opening / closing the second discharge passage, and a second slide opening / closing means disposed on the lower side of the second slide opening / And a second ossein taking-out part configured to collect the ashes falling from the second after-combustion chamber at the time of opening of the second discharge passage. According to a request from a survivor, the first ashes take-out part or the second ashes take- The method of the present invention provides an economical and environmentally friendly advanced pyrolysis make-up furnace which is characterized in that the ashes of the ashes can be selectively identified by the metacarpal part.

By using the economical and environmentally-friendly advanced pyrolysis make-up furnace of the present invention, the ashes of the burnt body in the first and second combustion chambers are passed through the second after-combustion chamber, Not only is it possible to make consecutive body cremation, but also the ashes of the burnt body can be taken out through the first post combustion chamber according to the requirements of the bereaved family, and then taken out to the outside, There are advantages.

Further, the present invention can intensively burn unburnt parts of the body through fine adjustment of the angle of the first burner causing the flame, and it is possible to adjust the injection amount and angle of the gas for each case according to the time load, And costs can be saved.

Further, according to the present invention, a plurality of through holes formed in the first support of the partition can be formed as a downward slope forwardly directed to easily transfer the heat of the second combustion chamber to the ash placed in the first post combustion chamber, Since the air is diffused and supplied in the zigzag direction to the inside of the combustion chamber, the afterburning of the ashes can be smoothly performed in the first combustion chamber, which is far from the second burner.

In addition, the present invention has a structure in which a plurality of grate hatches are mounted on adjacent seating jaws, so that even if thermal deformation occurs, the deformed portions can be easily replaced and repaired,

In addition, since the first and second rotation opening and closing means for rotating the first and second rotation opening and closing means for causing post-combustion in the first post-combustion chamber are respectively rotated, the ashes located in the first post- Can be prevented.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side sectional view showing an economical and environmentally friendly advanced pyrolysis make-up furnace. Fig.
2 is a cross-sectional view of the second after-combustion chamber and the first ashes take-off unit of the present invention as viewed from the rear side thereof.
3 is an operational state view of the first burner of the present invention.
4 is a perspective view partially illustrating the grate of the present invention.
5 is a side view showing the bearings of the first and second rotation opening / closing means and the opening and closing cylinders of the present invention.
6 is a perspective view showing a rotation gate and a rotation axis of the first and second rotation opening / closing means of the present invention;

Hereinafter, the structure of the present invention will be described.

The present invention relates to an economical and environmentally friendly advanced pyrolysis make-up furnace 500 as shown in FIGS. 1 and 2. The pyrolysis furnace 500 includes an upper first combustion chamber 11 ) And a lower second combustion chamber (12) constituted by a second burner (12a); An auxiliary combustion chamber 20 disposed above the combustion chamber 10; A first inflow passage 31 formed to communicate with the first and second combustion chambers 11 and 12 in front of the partition 200 and a first rotation opening and closing means for opening and closing the first inflow passage 31 A first after-combustion chamber (30) constituting a combustion chamber (33); A first discharge passage 41 formed at a lower side of the first rear combustion chamber 30 so as to correspond to the first inlet passage 31 and a second rotary opening and closing means 43 for opening and closing the first discharge passage 41 And a first receiving portion 45 disposed below the second rotation opening and closing means 43 for collecting ashes falling from the first after-combustion chamber 30 when the first discharge passage 41 is opened A first ashes take-out unit 40 configured by: A second inflow passage 51 formed to communicate with the first and second combustion chambers 11 and 12 at the rear of the partition 200 and a first slide opening and closing means for opening and closing the second inflow passage 51 A second after-combustion chamber (50) constituting the combustion chamber (53); A second discharge passage 61 formed at a lower side of the second after-combustion chamber 50 so as to correspond to the second inlet passage 51 and a second slide opening / closing means 63 for opening / closing the second discharge passage 61 And a second receiving portion 65 disposed below the second slide opening / closing means 63 for collecting ashes falling from the second after-combustion chamber 50 when the second discharge passage 61 is opened The ashes are selectively made from the first ashes in the first ashes take-off unit 40 or the second ashes take-out unit 60 at the request of the survivors, So that the process can be confirmed.

Hereinafter, the combustion chamber 10, the auxiliary combustion chamber 20, the first afterburning chamber 30, the first ashes take-off port 40, the second afterburning chamber 50, the second ashes take- 60 of the present invention will be described in detail.

First, the combustion chamber 10 is a conventional cosmetic furnace for making a body as shown in FIG. 1 or FIG. 3, and a passage for introducing the body is formed in a forward direction as is known in the art. A conventional cylinder gate is constructed.

The combustion chamber 10 is formed with a burner for combustion of the body. The combustion chamber 10 generally includes a first combustion chamber 11 partitioned by the partition 200 and located on the upper side, A first burner 100 for the main combustion of the body is installed in the rear of the first combustion chamber 11 and a second burner 100 for the combustion of the body is disposed behind the second combustion chamber 12, A second burner 12a is provided.

It is preferable that the first burner 100 installed in the first combustion chamber 11 is configured to adjust the angle of the flame to be injected so as to save time and cost due to combustion of the body, 3, the first burner 100 includes the mounting bracket 110, the driving cylinder 120, the ignition unit 130, and the link unit 140, .

Here, the mounting bracket 110 is rotatably fixed to the first burner 100 for adjusting the angle of the first burner 100, and is attached to the lower portion of the auxiliary combustion chamber 20.

The driving cylinder 120 is connected to a hinge 121 of the mounting bracket 110 to adjust the angle of the first burner 100. The hinge 121 is connected to the mounting bracket 110, A first piston body 123 coupled to the first piston body 123 and a first rod 125 reciprocating by the first piston body 123.

In addition, the ignition part 130 is configured to generate a flame in the first combustion chamber 11, and the intensity of the flame can be controlled by adjusting the amount of the gas to be injected. In the first combustion chamber 11, And the hinge 133 is coupled to the connection port 131 to adjust the installation angle about the hinge 133.

The link unit 140 rotates the ignition unit 130 about the hinge 133 by transmitting the driving force of the driving cylinder 120 to the ignition unit 130 so that the installation angle of the ignition unit 300 One end and the other end of which are connected to the first rod 125 and the ignition unit 130 of the drive cylinder 120 in a state in which the shaft 141 is coupled to the rear of the first combustion chamber 11, Link.

In order to adjust the angle of the ignition part 130, the link part 140 may have a single structure. However, in order to adjust the angle of the ignition part 130, the shaft part 141 is coupled to the rear side of the first combustion chamber 11, A first link 140a linked to the first rod 125 of the first link 140a and a second link 140b linking the other side of the first link 140a with one side thereof being linked to the ignition unit 130, The link unit 140 composed of the first and second links 140a and 140b is connected to the driving cylinder 120 by the driving of the driving cylinder 120, The change of the angle of the ignition part 130 relative to the movement of the ignition part 130 is less likely to occur so that the ignition part 130 can be finely adjusted and the flame can be concentrated on the unburned part of the body.

Therefore, according to the first burner 100 described above, it is possible not only to accurately burn the unburned parts of the body through fine adjustment of the angle of the ignition part 130, but also to adjust the time- It is possible to adjust the injection amount and the angle of gas for each case, which has the advantage of saving time and cost for make-up.

The partition 200 divides the combustion chamber 10 into first and second combustion chambers 11 and 12 as shown in Figs. 1, 2 and 4, And a plurality of through holes 211 for communicating the second combustion chamber 12 and the first after-combustion chamber 30 are formed in the second combustion chamber 50. The second combustion chamber 50 is formed in the rear of the second combustion chamber, A first support 210 disposed at the rear of the first afterburning chamber 30 and connected to the second combustion chamber 12 and the second afterburning chamber 50 so that the heat of the second burner 12a is circulated And a second support 220 disposed in front of the second after-combustion chamber 50 to form a connection passage 221 through which the first and second supports 210 and 220 are connected. The two combustion chambers 12 are formed in communication with the first and second post combustion chambers 30 and 50, respectively.

The through holes 211 formed in the first support 210 function to circulate the heat of the second combustion chamber 12 to the first afterburning chamber 30. In the present invention, The through hole 211 is formed so as to have a downward inclination toward the front for easy post-burning of the ash placed in the first post-combustion chamber 30 so that the heat flowing into the first post-combustion chamber 30 through the through- .

The grate 230 includes a pair of support rails 210 and 220 disposed between the first and second support rods 210 and 220, And the second combustion chamber 12 is divided into a plurality of portions and assembled with each other to supply the smoke of the second combustion chamber 12 to the lower portion of the body.

It is preferable that the grate 230 can more easily supply the heat of the second combustion chamber 12 to the lower portion of the body and can more easily perform maintenance in case of partial thermal deformation and breakage .

The main body 234 includes a body 234 that is seated on the support rail 231, a latching protrusion 235 protruding upward from the body 234, A seating jaw 236 on which a latching jaw 235 of a neighboring grate 230 is seated and a second jaw 236 formed on a lower surface of the latching jaw 235 and through a space between the latching jaw 235 and the seating jaw 236, And a space 237 for transferring the heat of the combustion chamber 12 to the lower part of the body placed on the grate 230. In this case, It is more preferable that the thermal deformation preventing hole 233 for preventing thermal deformation is formed and the mounting portion 232 supported on the support rail 231 at both lower sides.

Accordingly, since the grate 230 having a plurality of gates 236 is assembled by being seated on the adjacent gates 236, even if partial thermal deformation or breakage occurs, the grate 230 can be easily replaced The time required for maintenance can be reduced.

Second, the auxiliary combustion chamber portion 20 is formed on the upper side of the combustion chamber 10 as shown in FIGS. 1 and 2, and is formed with a communication hole to be connected to the combustion chamber 10, 10 constitute a conventional secondary burner for completely burning incompletely burnt gas and dust.

Third, the first post-combustion chamber 30 is provided with an osseous body so as to allow the bereaved family to observe the auricular process, so that the ashes of the burned body can be post-burned in front of the partition 200, The first and second combustion chambers 11 and 12 are formed in the front of the combustion chamber 200 and include a first inlet passage 31 for receiving the ashes burnt in the grate 230 of the partition 200, , And a first rotation opening / closing means (33) for opening / closing the first inflow passage (31).

It is preferable that the first post-combustion chamber 30 further includes an air supply means 300 to which air for supplementing post-combustion of the ash is additionally supplied. (Not shown), and a plurality of blowing openings formed on the lower side of the supply pipe 310 for blowing air to the ashes placed on the second rotation opening / The injection nozzles 320 may be formed in a zigzag shape for uniform diffusion of the air injected into the first after-combustion chamber 30, It is more preferable that they are distributed and distributed in the lower direction.

Fourth, the first ashes take-off unit 40 is configured to take out the completely burnt ashes from the first afterburning chamber 30 and to take it out to the outside, A second discharge opening and closing means 43 for opening and closing the first discharge passage 41 and a second discharge opening and closing means 43 for opening and closing the first discharge opening 41, And a first receiving part (45) disposed below the means (43) for collecting ashes falling from the first after-combustion chamber (30) when the first discharge passage (41) is opened. And a carry-out cylinder 47 for pushing the first receiving portion 45 forward can be further provided at the lower side of the second combustion chamber 12.

The first rotation opening and closing means 33 of the first after-combustion chamber 30 and the second rotation opening and closing means 43 of the first ashes take-out port 40 are configured to open and close by rotation, In the present invention, as shown in FIGS. 1, 2, or 5 and 6, the first and second rotary opening / closing means 33 and 43 are formed in the first inlet passage 31 or the first outlet passage 41 A rotary shaft 332 and 432 coupled to one side and the other side of the rotary gates 331 and 431 and a rotary shaft 331 and 432 provided on the outer side of the rotary gates 331 and 431 for pivotally supporting the rotary shafts 332 and 432, An opening / closing cylinder 333 for opening / closing the first inlet passage 31 or the first outlet passage 41 by rotating the rotary gate interlocked with the rotary shaft by being coupled to the rotary shaft through a link, The opening and closing cylinders 338 and 438 are fixed to the outer wall through the fixing brackets 334 and 434, The second piston bodies 335 and 435 coupled to the first and second rods 337 and 437 and the second rods 337 and 437 coupled to the ends of the rotational shafts 332 and 432 through the links 336 and 436.

The rotary gates 331 and 431 are provided with rectangular plates 331a and 431a for opening and closing the first inlet passage 31 or the first discharge passage 41, 431b formed on both sides of the rectangular plates 331a, 431a and reinforcing the durability of the rectangular plates 331a, 431a by joining together the rotation shafts 332, 331d, and 431d.

The engaging portions 331d and 431d further include polygonal polygonal grooves 331c and 431c in which the rotating shafts 332 and 432 are inserted. The rotating gates 331 and 431 and the rotating shafts 332 and 432, One end of each of the rotation shafts 332 and 432 should be formed in a polygonal shape corresponding to the polygonal grooves 331c and 431c.

Therefore, when the ashes of the burned body are burned through the first afterburning chamber 30 according to the request of the bereaved family, the ashes from the first ash take-off part 40 through the inspection hole 13 formed at the front lower side of the present invention The first and second rotation opening and closing means for rotating the first and second rotary cylinders in the first and second combustion chambers are respectively rotated so that they can see the deaf , All the ashes located in the first post-combustion chamber of the osteocutaneous bone can be easily removed from the first metacarpal part without fail.

Fifth, the second post-combustion chamber 50 shown in FIGS. 1 and 2 is provided with a first and a second combustion chamber 50, which are disposed behind the partition 200 so as to enable post-combustion in the rear portion of the makeup furnace, A second inflow passage 51 formed in the rear of the grate 230 of the partition 200 to receive the burnt ashes and a second inflow passage 51 formed to communicate with the first inflow passages 51, The first slide opening / closing means 53 constitutes a first slide opening / closing means 53 for opening /

Sixth, the second ashes take-out unit 60 is configured to take out the completely burnt ash from the second after-combustion chamber and to carry it out to the outside, and the second after-combustion chamber 50 corresponds to the second inflow passage 51, A second slide opening and closing means 63 for opening and closing the second discharge passage 61 and a second slide opening and closing means 63 disposed on the lower side of the second slide opening and closing means 63, And a second receiving portion 65 for collecting the ashes falling from the second after-combustion chamber 50 when the second exhaust passage 61 is opened.

Therefore, since the ashes of the bodies burnt in the first and second combustion chambers 11 and 12 can be taken out through the second after-combustion chamber 50, it is possible to carry out the introduction of the body and the take- And the second post-combustion chamber 50 and the second ash tray take-out portion 60 are known in the prior art as described in the above prior art documents, and a detailed description thereof will be omitted.

The operation according to the preferred configuration of the present invention as described above will be described below.

First, after the passage of the make-up furnace is opened by driving the cylinder gate formed at the front in order to make up the body, a single tube having the body is put into the combustion chamber 10, (230).

After the tube is charged as described above, the passage is closed through the reverse drive of the cylinder gate, and the first burner 200 is operated to perform the primary combustion of the body using the flame in the first combustion chamber 11 The exhaust gas incompletely burnt during the primary combustion is completely burned by using the auxiliary combustion chamber 20 disposed on the upper side of the combustion chamber.

After the body is combusted in the first combustion chamber 11 as described above, the ashes of the primary combustion body are moved to the first afterburning chamber 30 or the second afterburning chamber 50 according to a survivor's request.

In order to move the ash to the first post-combustion chamber 30, the first inflow passage 31 must be opened through the driving of the first rotation opening / closing means 33, and the ash is introduced into the first inflow passage 31 After the gas is moved to the first after-combustion chamber 30, a new tube is charged into the first combustion chamber 11 and the tube is placed on the grate 230 to prepare for burning the tube placed on the grate 230 The second post-combustion chamber 30 is ready for secondary combustion, that is, post-combustion, of the ashes.

Thereafter, along with the closing of the passage using the cylinder gate, the first rotary opening / closing means 33 drives the first inlet passage 31 to close the first combustion chamber 11, Since the heat is accumulated by the makeup, the action of auto-ignition by the high-temperature radiant heat of 500 ° C or more is performed without injecting the external heat source. The amount of the pollutant generated in the cremation of the body by pyrolysis combustion using such radiant heat Can be reduced, and the initial heat-up is not required since the radiant heat is stored. Therefore, the overall make-up time can be shortened and the daily processing ability per one unit can be improved with make-up.

Therefore, primary burning can be performed through the radiant heat accumulated in the combustion of the body and the flame generated in the first burner 100, and the ash contained in the first post-treatment chamber 30 can be burned in the second The ash can be completely burned by secondary combustion using the heat of the burner 12a and the heat source of the second burner 12a flows into the lower part of the body through the space between the grate 230 And the angle of the first burner 100 can be finely adjusted through the drive cylinder 120 and the link portion 140 to concentrate the thermal power to a desired portion so that the burning time, .

After the primary combustion using the first burner 100 and the post combustion using the second burner 12a are simultaneously performed as described above, the operation of the second rotation opening / closing means 43 constituted in the first ashes take- So that the completely burnt ashes can be moved to the first receiving portion 45 and then can be taken out through the inspection opening 13 to the outside by the opening of the first discharge passage 41. At this time, Through the process of being able to see the process of the gingiva, it becomes possible to greet the deceased person more warmly.

Since the rotary gate 431 of the second rotary opening / closing means 43 supporting the ash in the first post-treatment chamber 30 is rotated, when the first discharge passage 41 is opened, It is also possible to prevent the phenomenon that the ash does not fall off from the aspiration hole 431, thereby preventing a phenomenon that part of the ash is mixed with the ashes of the other person.

On the other hand, when it is difficult to observe the process of the bereavement of the bereaved family, the ashes of the first combustion are moved to the second after-combustion chamber 50 without moving the first after-combustion chamber 30, The first slide opening / closing means 53 and the second slide opening / closing means 63 can be used to prevent the bereaved from seeing the auricular process by post-burning and carrying out according to the procedure, And controlling the operation of the second burner 12a while opening and closing the passage 51 and the second discharge passage 61 can be easily achieved.

In addition, after the post-combustion using the first post-combustion chamber 30 or the second post-combustion chamber 50 and the taking-off of the ashes are completed as described above, repetitive body makeup can be continuously performed by repeating the above- It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It is obvious to those who have knowledge.

10: combustion chamber 11, 12: first and second combustion chambers 12a: second burner 13:
20: auxiliary combustion chamber portion
30: first post-combustion chamber 31: first inlet passage 33: first rotation opening /
40: first ashes take-off part 41: first discharge passage 43: second rotation opening / closing means 45: first receiving part 47: take-out cylinder
50: second post-combustion chamber 51: second inflow passage 53: first slide opening / closing means
60: second ashes take-off part 61: second discharge passage 63: second slide opening / closing means 65:
The present invention relates to a hinge of a hinge, which comprises: a first burner 110; a mounting bracket 120; a driving cylinder 121; a hinge 123; a first piston body 125; a first rod 130; a spark portion 131; 141 Axis
The present invention relates to an apparatus and a method for controlling a position of a seat of a vehicle, the seat including: : Space portion
300: air supply means 310: supply pipe 311: holder 320: injection nozzle
The present invention relates to an apparatus and a method for controlling a rotation of a rotary shaft of a rotary shaft of a rotary shaft of a bearing, 2 piston body 336, 436: link 337, 437: second rod 338, 438: opening / closing cylinder
500: Economical, environmentally friendly, advanced pyrolysis makeup.

Claims (6)

A combustion chamber 10 partitioned by an upper first combustion chamber 11 in which the first burner 100 is formed through the partitioning portion 200 and a lower second combustion chamber 12 in which the second burner 12a is formed;
An auxiliary combustion chamber 20 disposed above the combustion chamber 10;
A first inflow passage 31 formed to communicate with the first and second combustion chambers 11 and 12 in front of the partition 200 and a first rotation opening and closing means for opening and closing the first inflow passage 31 A first after-combustion chamber (30) constituting a combustion chamber (33);
A first discharge passage 41 formed at a lower side of the first rear combustion chamber 30 so as to correspond to the first inlet passage 31 and a second rotary opening and closing means 43 for opening and closing the first discharge passage 41 And a first receiving portion 45 disposed below the second rotation opening and closing means 43 for collecting ashes falling from the first after-combustion chamber 30 when the first discharge passage 41 is opened A first ashes take-out unit 40 configured by:
A second inflow passage 51 formed to communicate with the first and second combustion chambers 11 and 12 at the rear of the partition 200 and a first slide opening and closing means for opening and closing the second inflow passage 51 A second after-combustion chamber (50) constituting the combustion chamber (53);
A second discharge passage 61 formed at a lower side of the second after-combustion chamber 50 so as to correspond to the second inlet passage 51 and a second slide opening / closing means 63 for opening / closing the second discharge passage 61 And a second receiving portion 65 disposed below the second slide opening / closing means 63 for collecting ashes falling from the second after-combustion chamber 50 when the second discharge passage 61 is opened And a second ashes take-out unit (60)
The method according to claim 1, wherein the ashes of the ashes are selectively identified by the first ashes take-out unit (40) or the second ashes take-out unit (60) With makeup.
2. The burner according to claim 1, wherein the first burner (100)
An installation bracket 110 coupled to the auxiliary combustion chamber 20;
A driving cylinder 120 constituting a first piston body 123 coupled to the mounting bracket 110 with a hinge 121 and a first rod 125 reciprocating by the first piston body 123;
A spark portion 130 coupled to a hinge 133 on a connection port 131 coupled to an outer wall of the first combustion chamber 10 to generate a flame in the first combustion chamber 10;
And a link unit 140 linked to the first rod 125 of the drive cylinder 120 and the ignition unit 130 while being coupled to the shaft 141 behind the first combustion chamber 11, Consistently,
And the flame angle of the ignition part (130) injected into the first combustion chamber (11) can be adjusted through driving of the driving cylinder (120).
2. The apparatus of claim 1, wherein the partition (200)
A first support 210 for forming a plurality of through holes 211 communicating between the second combustion chamber 12 and the first rear combustion chamber 30;
A second support 220 for forming a connection passage 221 connecting the second combustion chamber 12 and the second after-combustion chamber 50 so that the heat of the second burner 12a is circulated;
A grate 230 mounted on a pair of support rails 231 disposed between the first and second supports 210 and 220 to support the body and transfer the heat of the second combustion chamber 12 to a lower portion of the body, ; ≪ / RTI >
The through hole 211 of the first support 210 is formed to have a downward inclination directed forward for easy post-combustion of the ashes transferred to the first after-combustion chamber 30. The economical and environmentally friendly advanced pyrolysis With makeup.
4. The apparatus of claim 3, wherein the plurality of grate (230)
A body 234 constituting a seating part 232 formed at both sides under the support rail 231 to form a heat deformation preventing hole 233 passing through the front and rear sides;
A locking protrusion 235 projecting upward from the upper side of the body 234;
A seating jaw 236 formed on the upper rear side of the body 234 and on which a retaining jaw 235 of a neighboring grate 230 is seated;
The space 230 is formed in the lower surface of the latching jaw 235 and communicates the heat of the second combustion chamber 12 through the space between the latching jaw 235 and the seating jaw 236 to the lower portion of the body placed on the grate 230. [ (237); and an economical and environmentally friendly advanced pyrolysis makeup.
The air conditioner according to claim 1, wherein the first post-combustion chamber (30) is provided with a supply pipe (310) for receiving air from the outside, And an air supply means (300) composed of a plurality of spray nozzles (320) for spraying air,
Wherein the injection nozzle (320) is formed in a zigzag shape for diffusing the air injected into the first post combustion chamber, and is an economical and environmentally friendly advanced pyrolysis makeup.
2. The apparatus according to claim 1, wherein the first and second rotary opening / closing means (33, 43)
Rotation gates (331, 431) installed in the first inlet passage (31) or the first outlet passage (41);
Rotation shafts 332 and 432 coupled to one side and the other side of the rotation gates 331 and 431;
Bearings 333 and 433 fixed to the outer wall so as to rotate and support the respective rotary shafts 332 and 432;
A second piston body 335 and 435 hinged to the outer wall through the fixing brackets 334 and 434 and a second rod 337 coupled to the end of the rotary shafts 332 and 432 through the links 336 and 436, 437 for turning the first inlet passage 31 or the first outlet passage 41 by rotating the rotary gates 331, 431 interlocked with the rotary shafts 332, 432, ); And an economical and environmentally friendly advanced pyrolysis make-up.

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