KR100996272B1 - Cremator - Google Patents

Abstract

PURPOSE: An environment-friendly cremation furnace, which increases combustion efficiency by recycling exhaust gas as combustion air, is provided to prevent heat loss by maintaining the inside temperature of a combustion chamber using exhausted gas. CONSTITUTION: An environment-friendly cremation furnace comprises a primary combustion member(110), first and second exhausting units(120,140) and a reheat member(130). The primary combustion member has a first combustion burner. The first exhausting unit is communicated with the primary combustion member. The reheat member has an exhaust gas leading unit and a second combustion burner. The exhaust gas leading unit is communicated with the first exhausting unit. The second exhausting unit is communicated with the leading unit of the reheat member.

Description

Eco-Friendly Cosmetic Incinerator {CREMATOR}

According to the present invention, the first and second exhaust parts communicating with the main combustion means and the recombustion means surround the combustion chamber sidewalls of each combustion means, and are formed to be adjacent to each other so as to expand the contact area with each combustion chamber so that the high temperature exhaust gas passes through each exhaust part. The present invention relates to an environmentally friendly cosmetic incinerator that can block heat loss in each combustion chamber by maintaining a temperature in each combustion chamber and thereby improve combustion efficiency.

In general, as the social environment changes rapidly through the urban concentration and industrialization of the population, the future culture, which has been dependent on the burial culture in accordance with conventional Confucian customs, has also changed its perception, and in recent years it has gradually changed into a cremation culture.

In addition, the development of the technology is also being made in the incinerator that can cremate a human body, and most of the situation is being developed in an environment-friendly direction with energy saving.

Such a conventional cosmetic incinerator has been disclosed Patent Registration No. 10-0777436 (Nov. 12, 2007 "hereinafter known as the conventional technology.""Energy saving and environmentally friendly cosmetic incinerator".

However, the prior art uses a cocurrent flow method in which the flow direction of the combustion gas in the main combustion chamber and the flow direction of the combustion gas in the reburn chamber are the same.

In the beginning of the makeup, unburned gas flows into the reburning furnace in a large amount, and in this case, unburned gas does not get caught in the flame, and a large amount of soot and dust are generated.

In addition, due to the characteristics of the burner of the gun type, it is difficult to remove the pollutants because it is difficult to completely oxidize the flame and the flexible gas is separated.

In addition, the prior art has a problem that it is difficult to effectively use the heat emitted from the high-temperature exhaust gas by the exhaust gas combusted in the main combustion chamber is introduced into the reburn chamber through the duct type through the exhaust port,

In addition, there is a problem that the exhaust gas introduced into the recombustion chamber is not introduced into the flame burner in front of the combustion burner and thus the exhaust gas is not completely reburned.

The present invention has been made to solve the above problems,

The first and second exhaust parts communicating with the main combustion means and the recombustion means surround the combustion chamber sidewalls of each combustion means and are adjacent to each other to enlarge the contact area with each combustion chamber so that the hot exhaust gases passing through each exhaust part are each combustion chamber. It is an object of the present invention to provide an environmentally friendly cosmetic incinerator which can block heat loss in each combustion chamber by improving the internal temperature and thereby improve combustion efficiency.

In addition, the air supply means according to the present invention by heat-exchanging the exhaust gas passing through the exhaust portion to reuse the air for combustion to provide an eco-friendly cosmetic incinerator that can double the combustion efficiency by the cosmetic incinerator to save energy. do.

In addition, the induction part of the reburn means according to the present invention is eco-friendly to reduce the concentration of nitrogen oxide, an environmental pollutant, by recycling a part of the exhaust gas passing through the induction part by the reburn guide path formed by the partition wall and burning it again. Another object is to provide a cosmetic incinerator.

Furthermore, the induction part of the reburn means according to the present invention is provided with a porous partition wall to extend the residence time of the exhaust gas in the reburn chamber, and a reburn furnace is provided at the upper and lower parts of the partition wall to recirculate the exhaust gas to combust it. It is another object of the present invention to provide an eco-friendly cosmetic incinerator that can further double the efficiency.

In addition, the connection portion of the air supply pipe according to the present invention is provided with a pipe tightening unit to facilitate the connection work of each pipe, and also to prevent the leakage of gas at the connection portion of each pipe can provide the reliability of the product Another aim is to provide an eco-friendly cosmetic incinerator.

Furthermore, a separation partition is provided between the main combustion chamber and the reburn chamber according to the present invention, and a flame induction hole is formed in the separation partition to induce flames emitted by the second combustion burner of the reburn chamber to the main combustion chamber, thereby mainly causing odors. Intensive supply of flame at the point of time reduces odor and shortens combustion time,

In addition, the separation partition is equipped with an opening and closing means for opening and closing the flame guided work, which opens the flame guided work at the time of the major odor, and closes the flame guided work, thereby doubling the combustion efficiency at a specific time. To provide another purpose.

Eco-friendly cosmetic incinerator according to the present invention, the main combustion means 110 is provided with a first combustion burner (112);

A first exhaust part 120 in communication with the main combustion means 110;

Recombustion means (130) having an exhaust gas induction part (133) and a second combustion burner (132) communicating with the first exhaust part (120); And

And a second exhaust unit 140 communicated with the induction unit 133 of the re-burning unit 130,

The first and second exhaust parts 120 and 140 are formed to surround the entire sidewalls of the combustion means 110 and 130, respectively.

The first or second exhaust unit 120, 140, or both of the first or second combustion burner 112, 132, or both of the air supply means 150 is connected to the made of ,

The regeneration unit 130 further includes a partition wall 133a at one side or both sides of the induction unit 133,

In the outer direction of the partition wall 133a is in communication with the induction part 133, a reburn guide path 133b connected to the rear of the second combustion burner 132 is formed,

In the recombustion means 130, the induction part 133 is further provided with a porous partition wall 135,

The reinforcing furnace 136 connected to the rear of the second combustion burner 132 and communicated with the induction part 133 is formed on the upper or lower portion or both of the partition 135,

The air supply means 150 is further provided with an air supply pipe 151,

The connection portion between the air supply pipe 151 is further provided with a pipe joint unit (JU),

The pipe joint unit JU has a through hole 11 formed therein, and an inclined portion 13 having a smaller outer diameter is formed on the outer surface thereof from the center to both sides, and the inclined portions 13 on both sides are pipes. A support 10 inserted into the passage hole 3;

A bracket 20 inserted into an outer circumference of a pipe surrounding the inclined portion 13 of the support 10;

And tightening means 30 for connecting and tightening the two brackets 20 provided on the pipes 151 on both sides into which the inclined portion 13 of the support 10 is inserted.

The support 10 is made of a symmetrical shape, each composed of two powders (10a) (10b) inserted into the pipe flow path hole (3),

The contact surface of the two pipes 151 connected to each other and the two powders 10a and 10b respectively inserted into the two pipes 151 is provided with a packing 40 for airtightness.

The tightening means (30) wraps the contact portion of the two pipes 151 connected to each other in an annular shape, the support (35) having a wing portion 36 is formed to protrude at an angle inclined upward from both sides, and

It is arranged to be parallel to the inclined portion 13 and comprises a tightening pin 31 for tightening by connecting the wing portion 36 of the bracket 20 and the support 35,

Protruding portions 43 are formed on both sides of the packing 40 to protrude,

The support 35 is adjustable in diameter by the bolt,

Press portions 39 protruding from the lower sides of the support 35 to press the protrusions 43 of the packing 40 to the outer periphery of the pipe 151,

The main combustion means 110 and the reburn means 130 are provided with a main combustion chamber 111 and a reburn chamber 131 partitioned by the separating partition 160,

An accommodation groove 161 is formed in the separation partition 160.

A flame induction hole 163 for communicating the main combustion chamber 111 and the reburn chamber 131 is formed in the separation partition 160 located above and below the accommodation groove 161.

Opening and closing means 170 is further provided in the receiving groove 161 to open and close the flame induction hole 163,

The opening and closing means 170 is

Opening and closing plate 171 to enter and exit the receiving groove 161, the guide groove 171a is formed with a screw thread on the inner peripheral surface,

A guide rod 173 inserted into the guide groove 171a of the opening and closing plate 171 and having a screw thread formed on an outer circumferential surface thereof;

It comprises a drive motor 175 connected to the end of the guide rod 173,

On the bottom surface of the main combustion chamber 111, a charging path 113 in the form of a rail is formed.

It is provided with a feed roll 114b mounted on the charging path 113 to enable a cloud movement, and an internal bogie 114 having a flame hole 114a at a corresponding position of the flame guide hole 163.

Flame blocking wall for preventing the flame is induced in the charging path 113 and the transfer roll 114b around the flame induction hole 163 adjacent to the charging path 113 in the flame induction hole 163 located in the upper portion ( 165) is formed.

In the bracket 20 according to the present invention, an insertion hole 21 into which the pipe 151 is inserted and a pinhole 23 into which the tightening pin 31 is inserted are formed.

The edge of the insertion hole 21 has an inclination angle corresponding to the inclination angle of the expansion portion 5 of the pipe 151,

The contact area is increased to smoothly move the contact of the bracket 20 on the outer surface of the pipe 151 and to reduce the load applied to the pipe 151 by distributing the force that the bracket 20 contacts and presses the pipe 151. The contact surface expansion portion 25 is provided to

Receiving groove 15 is formed on the front surface of each of the powder (10a) (10b) of the support 10,

Receiving projection 41 is inserted into the receiving groove 15 of the support 10 in the center of both sides of the packing 40 is formed,

Both sides of the packing is characterized in that a plurality of annular projections 45 protruded in an annular shape.

The eco-friendly cosmetic incinerator according to the present invention is formed so that the first and second exhaust parts communicating with the main combustion means and the recombustion means surround the combustion chamber sidewalls of each combustion means, and are adjacent to each other to enlarge the contact area with each combustion chamber, thereby expanding each exhaust gas. The high temperature exhaust gas passing through the portion serves to keep the temperature in each combustion chamber to block the heat loss in each combustion chamber, thereby improving the combustion efficiency.

In addition, the air supply means according to the present invention can save energy by doubling the combustion efficiency by the cremation incinerator by heat-exchanging the exhaust gas passing through the exhaust portion and reusing it as combustion air.

In addition, it is possible to reduce the concentration of nitrogen oxide, an environmental pollutant, by recycling a part of the exhaust gas passing through the induction part by the reburning guide path formed by the partition wall in the induction part of the reburn means according to the present invention. .

Furthermore, the induction part of the reburn means according to the present invention is provided with a porous partition wall to extend the residence time of the exhaust gas in the reburn chamber, and a reburn furnace is provided at the upper and lower parts of the partition wall to recirculate the exhaust gas to combust it. The efficiency can be further doubled.

On the other hand, the connection portion of the air supply pipe according to the present invention is provided with a pipe tightening unit to facilitate the connection work of each pipe, and also to prevent the leakage of gas at the connection portion of each pipe to provide the reliability of the product do.

Furthermore, a separation partition is provided between the main combustion chamber and the reburn chamber according to the present invention, and a flame induction hole is formed in the separation partition to induce flames emitted by the second combustion burner of the reburn chamber to the main combustion chamber, thereby mainly causing odors. Intensive supply of flame at the point of time reduces odor and shortens combustion time,

In addition, the separation partition is provided with an opening and closing means for opening and closing the flame induction hole is to open the flame induction when the odor mainly occurs, the flame induction other than that can double the combustion efficiency at a specific time.

1 is a processing system diagram of a hot air supply system using an environment-friendly cosmetic incinerator according to the present invention;
2 is a perspective view showing an eco-friendly cosmetic incinerator according to the present invention;
3a and 3b is a cross-sectional view showing an eco-friendly cosmetic incinerator according to the present invention,
Figure 4 is a perspective view showing the air supply means of the eco-friendly cosmetic incinerator according to the present invention,
5 is a conceptual diagram showing the exhaust gas flow in the induction part in the reburn chamber of the eco-friendly cosmetic incinerator according to the present invention;
6 is a cross-sectional view showing a reburn furnace of the eco-friendly cosmetic incinerator according to the present invention;
7 to 14 is a perspective view and a cross-sectional view showing a pipe joint unit for connecting the coupling portion of the supply pipe in the eco-friendly cosmetic incinerator according to the present invention.

Eco-friendly cosmetic incinerator according to the present invention will be described in more detail with reference to the accompanying drawings.

First, in the present specification, each process and processes in the cremation incinerator hot air supply system are connected by supply pipes or ducts (D) for the movement of exhaust gas.

Unless otherwise stated below, this is a presupposition.

1 to 6, eco-friendly cosmetic incinerator according to the present invention

A main combustion means (110) having a first combustion burner (112); A first exhaust part 120 in communication with the main combustion means 110; Recombustion means (130) having an exhaust gas induction part (133) and a second combustion burner (132) communicating with the first exhaust part (120); And a second exhaust part 140 in communication with the induction part 133 of the reburn means 130, wherein the first and second exhaust parts 120 and 140 are formed in the respective combustion means ( It characterized in that it is formed to surround the entire sidewall of 110 (130).

First, the eco-friendly cremation incinerator according to the present invention has a flow direction in which the exhaust gas flows in the main combustion chamber of the main combustion means and the recombustion chamber of the recombustion means flow in opposite directions.

This is due to the lack of the internal volume of the main combustion furnace due to the structure of the main combustion and the burner in the conventional cocurrent cremation incinerator, the heat portion is large, the amount of excess air for the combustion of fluid, etc.,

In the early stage of cremation, unburned gas flows into the reburning furnace, but unburned gas does not get caught in the flame, so a lot of smoke and dust are generated.

In addition, it is possible to solve the problem that it is difficult to remove contaminants due to the nature of the gun-type burner, the flame and the flexible gas is separated and difficult to completely oxidize.

1 to 6, in the eco-friendly cosmetic incinerator according to the present invention, the main combustion means 110 is

A main combustion chamber 111 in which the incinerator is placed, and a first combustion burner 112 arranged at one side of the main combustion chamber 111 to supply a flame to combust the incinerator;

The main combustion chamber 111 is made of a fireproof wall.

In addition, in the main combustion means (110) according to the present invention, the main combustion chamber (111) bottom surface has a rail-shaped charging path (113) for charging the object into the main combustion chamber (111),

The incinerator is enclosed, and comprises an internal furnace 114 that can be transported along the charging path (113).

In addition, the main combustion chamber 111 is provided with a cooling chamber 115 formed to extend the charging path 113 to be able to automatically carry in and take out the incinerated body of the makeup,

In addition, cooling is performed for a predetermined time before or after the incineration of the incinerator.

In addition, an opening / closing door 116 is provided between the main combustion chamber 111 and the cooling chamber 115, and the furnace bogie 114 runs along the charging path 113 through the opening / closing door 116. ) Or can be taken out.

In addition, the upper surface portion of the main combustion chamber 111 is provided with a partition wall 117,

The partition wall 117 is installed adjacent to the exhaust port E communicating with the first exhaust unit 120 to be described later, and the first processing exhaust gas combusted by the first combustion burner 112 receives the main combustion chamber 111. Cycle through)

By discharging through the first exhaust unit 120 to extend the residence time in the main combustion chamber 111, the exhaust gas,

At the same time, the exhaust gas is reburned by the first combustion burner 112 before flowing into the first exhaust part 120, thereby increasing the combustion efficiency.

In the eco-friendly cosmetic incinerator according to the present invention as shown in Figure 2 to 6, the first exhaust unit 120 is

Is formed to communicate with the main combustion means 110,

The first exhaust part 120 is connected to the exhaust port (E) formed behind the partition body 117,

Primary treatment exhaust exhausted from the main combustion chamber 111 is formed to surround both side walls or one side wall of the main combustion chamber 111 of the main combustion means 110 and the reburn chamber 131 of the reburn means 130. The gas is supplied to the reburn chamber 131.

In this case, in order to allow the exhaust gas in the main combustion chamber 111 to smoothly flow into the reburn chamber 131, as shown in FIG. 2, the first exhaust unit 120 is equal to the amount of each combustion chamber 111 and 131. It is desirable to be formed on the sidewalls to ensure more efficient movement of the exhaust gas.

The first exhaust unit 120 according to the present invention is installed to surround both side walls or one side wall of the main combustion chamber 111 and the reburn chamber 131 together with the second exhaust unit 140 to be described below.

In addition, it is formed by dividing each wall of the main combustion chamber 111 and the reburn chamber 131

As the high-temperature exhaust gas passes through each of the exhaust parts 120 and 140, it serves to maintain the temperature in each combustion chamber 111 and 131, thereby preventing heat loss of each combustion chamber 111 and 131. ,

This ensures a high combustion efficiency.

Therefore, the primary treatment exhaust gas discharged from the main combustion chamber 111 flows into the reburn chamber 131 through the first exhaust unit 120.

In this case, the first exhaust part 120 supplies the exhaust gas to the reburn chamber 131 through the exhaust port E formed in the reburn chamber 131 of the reburn means 130.

This is to more effectively burn the exhaust gas by allowing the exhaust gas discharged from the exhaust port E connected to the first exhaust part 120 to be ejected together with the flame ejected to the second combustion burner 132.

1 to 6, in the eco-friendly cosmetic incinerator according to the present invention, the reburn means 130 is

A reburn chamber 131 arranged below the main combustion chamber 111 of the main combustion means 110 and an exhaust port E connected to the first exhaust unit 120 are formed in the reburn chamber 131.

And the exhaust port (E) is located on the inner wall surface of the reburn chamber 131,

One side of the reburn chamber 131 is provided with the second combustion burner 132.

In this case, the exhaust port E may be formed on the upper or lower portion of the inner wall of the reburn chamber 131, or both.

In addition, in order to more effectively burn the exhaust gas flowing through the exhaust port (E), it is advantageous that the exhaust port (E) is arranged in a position adjacent to the second combustion burner (132).

Furthermore, although not shown in the accompanying drawings, it is also preferable that the exhaust port is arranged behind the second combustion burner so that the combustion can be ejected with the flame ejected from the second combustion burner to ensure more effective combustion efficiency. .

In addition, an induction part 133 for moving exhaust gas is formed in the reburn chamber 131 according to the present invention.

The induction part 133 moves exhaust gas reburned by the second combustion burner 132 and is discharged through the second exhaust part 140.

In addition, an exhaust port E connected to the second exhaust part 140 is formed at the rear of the induction part 133 to communicate with the second exhaust part 140.

The wall 134 is formed in front of the exhaust port E, so that the exhaust gas passing through the induction part 133 stays in the reburn chamber 131 to increase the combustion efficiency.

Furthermore, the induction part 133 according to the present invention is further provided with partition walls 133a on one side or both sides thereof.

The recombustion guide path 133b communicating with the induction part 133 and connected to the rear of the second combustion burner 132 is formed in an outer direction of the partition wall 133a.

This is to provide a more complete eco-friendly cosmetic incinerator by reducing the concentration of nitrogen oxide, which is an environmental pollutant, by recirculating a part of the exhaust gas passing through the induction part 133 by the reburn guide path 133b.

As shown in FIG. 5, partition walls 133a are formed at both sides of the induction part 133 along a longitudinal direction.

The reburning guide path 133b and the induction part 133 communicate with the front end of the partition wall 133a, and the guide wall 133c to guide the exhaust gas passing through the induction part 133 to the reburning guide path 133b. Is inclined toward the rear.

Accordingly, some of the exhaust gas passing through the induction part 133 is introduced into the reburn guide path 133b by the guide wall 133c, and the exhaust gas thus introduced is along the reburn guide path 133b. It is moved and reburned by the second combustion burner 132.

In this case, the partition wall 133a is formed such that the reburning guide path 133b is connected to the rear of the second combustion burner 132 so that the exhaust gas is wound around the flame of the second combustion burner 132 and simultaneously ejected. It is possible to increase the combustion efficiency.

Furthermore, as shown in FIG. 6, the induction part 133 according to the present invention further includes a porous partition wall 135.

The upper or lower portion of the porous bulkhead body 135 or both thereof further includes a reburn furnace 136 extending to the rear of the second combustion burner 132 and communicating with the induction part 133.

The porous bulkhead 135 has a plurality of porous holes 135a formed therein so that reburned exhaust gas moving along the induction part 133 stays in the reburn chamber 131 for a long time to increase combustion efficiency. It is.

In particular, the reburn furnace 136 recycles some of the reburned exhaust gas to the rear of the second combustion burner 132 without immediately exiting through the porous partition wall 135.

By allowing the combustion of the second combustion burner 132 to be ejected together with the flame, more complete combustion can be achieved.

6, the reburn furnace 136 according to the present invention is shown to be located both above and below the induction part 133.

This corresponds to an example of the embodiment according to the present invention and unlike FIG. 6, it is also possible to implement the reburn furnace to be selectively arranged at the top or the bottom, respectively.

3A and 3B according to the present invention are not shown the configuration related to the reburn furnace as shown in FIG.

In addition, Figure 6 is not shown in the configuration, such as flame induction, opening and closing means of Figures 3a and 3b

It is to be noted that in the above drawings, the inevitable choices for more clearly showing each component are not independent or individualized from each other.

In the eco-friendly cosmetic incinerator according to the present invention as shown in Figure 2 to 6, the second exhaust 140 is

In communication with the induction part 133 of the reburn means 130,

The second exhaust unit 140 is connected to the outlet of the reburn chamber 131 to discharge the exhaust gas reburned by the reburn means 130 to supply to the hot air supply system which will be described below to exhaust gas It removes odor, dust or harmful gas contained in and releases it to the atmosphere.

That is, the second exhaust unit 140 according to the present invention is formed to surround the entire sidewalls of the main combustion chamber 111 and the reburn chamber 131 together with the first exhaust unit 120 as described above.

The first and second exhaust parts 120 and 140 are adjacent to each other and are arranged in half of the side walls of each combustion chamber.

Accordingly, the second exhaust unit 140 serves to keep the high temperature exhaust gas reburned by the reburning means 130 together with the first exhaust unit 120 to maintain the temperature in each combustion chamber.

As a result, it is possible to prevent heat loss in each combustion chamber and to increase combustion efficiency.

The exhaust gas discharged through the second exhaust unit 140 is an exhaust gas discharge passage provided on an upper wall of the main combustion chamber 111 through an exhaust port E formed on the second exhaust unit 140. It is discharged through the exhaust duct 147 via the 145.

Furthermore, as shown in FIG. 4, the first or second exhaust unit 120, 140, or both, according to the present invention may be connected to the first or second combustion burners 112, 132, or both. Connected air supply means 150 is further provided,

The air supply means 150 may double the combustion efficiency by the cremation incinerator by reusing it as combustion air through heat exchange using exhaust gas flowing along each exhaust part.

In addition, the air supply pipe 151 is preferably provided with an air supply valve 153 for adjusting the input amount of the combustion air supplied through heat exchange with the exhaust gas so that the input amount of the combustion air can be adjusted and opened and closed. .

Therefore, it is possible to obtain an energy saving effect on the air supply means 150, and at the same time, it is possible to obtain a synergistic effect that can enhance economic efficiency.

And attached to Figure 4 shows that the air supply pipe 151 of the air supply means 150 is connected to the first and second exhaust unit 120, 140, respectively,

Also shown is connected to each combustion burner 112,132,

This is only one example of an embodiment according to the present invention. The air supply pipe 151 may also be selectively installed in the first exhaust unit 120 or the second exhaust unit 140.

Meanwhile, as shown in FIGS. 3A and 3B, the main combustion chamber 111 and the reburn chamber 131 according to the present invention are provided with a separating partition 160 for dividing them.

In the second combustion burner 132 provided in the reburn chamber 131, a flame induction hole 163 is formed in the separation partition 160 to enable communication between the main combustion chamber 111 and the reburn chamber 131. The flame that is ejected can be guided into the furnace bogie 114 provided in the main combustion chamber 111 through the flame induction hole 163.

This assumes that it takes about two hours for the body to be completely incinerated,

Odor is mainly generated in the process of incineration of skin, skin, or organs of the corpse, thus inducing the flame of the second combustion burner 132 to the main combustion chamber 111 by the flame guider 163. By supplying to the rear part of the body placed in the cart 114

When the odor mainly occurs, the flame increases concentration and shortens the incineration time, thereby reducing the occurrence of odor, and further increasing the combustion efficiency.

However, the point of occurrence of odor is from the initial point of start of makeup to the point corresponding to 2/3 to 3/4 hours based on the time required for the entire incineration,

Thereafter, rather than supplying the flame of the second combustion burner 132 to the main combustion chamber 111, it is preferable to re-burn only the combustion gas discharged by incineration from the main combustion chamber 131 so as to increase the combustion efficiency.

Therefore, the separating partition 160 is provided with a receiving groove 161,

In this case, the separating partition 160 is divided into upper and lower separating partitions 160A and 160B with the receiving groove 161 therebetween.

The flame guides 163 are formed on the upper and lower separation partitions 160A and 160B to correspond to each other.

The receiving groove 161 is provided with opening and closing means 170 for opening and closing each flame induction hole 163 to open and close the flame supply of the second combustion burner 132.

Opening and closing means 170 according to the present invention is to open and close the receiving groove 161, the opening and closing plate 171 having a guide groove (171a) formed with a screw thread on the inner peripheral surface,

A guide rod 173 inserted into the guide groove 171a of the opening and closing plate 171 and having a screw thread formed on an outer circumferential surface thereof;

It includes a drive motor 175 connected to the end of the guide rod 173.

That is, when the driving motor 175 rotates the opening and closing plate 171 in the opening and closing means 170, the guide rod 173 is rotated in the guide groove 171a of the opening and closing plate 171,

At this time, the opening and closing plate 171 enters or enters the receiving groove 161 according to the rotation direction of the guide rod 173.

Therefore, when the opening and closing plate 171 advances out of the receiving groove 161, that is, exits from the receiving groove 161, the flame induction hole 163 is opened so that the flame of the second combustion burner 132 is flamed. Induced into the main combustion chamber 111 through the induction hole (163),

On the contrary, when the opening and closing plate 171 enters the receiving groove 161 while the opening and closing plate 171 is advanced from the receiving groove 161, the flame induction hole 163 is closed by the opening and closing plate 171 to allow the second combustion. The flame flowing into the flame induction hole 163 by the burner 132 is blocked.

Furthermore, in the furnace bogie 114, flame holes 114a are formed at positions corresponding to the flame induction hole 163.

When the flame induction hole 163 is opened by the opening and closing means 170 and the flame flows into the main combustion chamber 111, the flame is directly supplied to the body through the flame hole 114a of the furnace bogie 114, so that the rear part of the body Combustion can be further shortened the combustion time, thereby reducing the occurrence of odor.

On the other hand, the charging path 113 is formed in the bottom surface of the peripheral chamber 111 in the form of a rail,

The furnace trolley 114 is provided with a feed roll (114b) to be mounted on the upper rail-shaped charging path (113) to move the cloud,

In this case, the flame flowing into the lower portion of the furnace trolley 114 through the flame guide hole 163 is provided at an upper portion to prevent the flame from being supplied to the charging path 113 and the feed roll 114a of the furnace furnace 114. A flame blocking wall 165 is formed around the flame guide hole 163 adjacent to the charging path 113 in the flame guide hole 163 located therein.

Therefore, the flame blocking wall 165 blocks the flame which is directly supplied to the charging path 113 and the transfer roll 114b, thereby reducing the occurrence of thermal stress applied to the charging path 113 and the transfer roll 114b. By doing so, thermal deformation can be prevented.

Furthermore, the main combustion chamber 111 is located on the ground, the reburn chamber 131 is buried underground, the opening and closing means 170 is also buried underground,

At this time, the end portion of the guide rod 173 inserted into the guide groove 171a in the opening and closing plate 171 by the opening and closing means 170 and overlapping the opening and closing plate 171 may be opened or closed. Irrespective of the separation partition 160, it is always desirable to be located in the subterranean part.

When the guide rod 173 is located between the separation partition 160, the heat of combustion of the main combustion chamber 111 and the reburn chamber 131 may be transmitted to the guide rod 173, and thermal stress may occur.

In this case, thermal deformation occurs in the guide rod 173, so that the opening and closing operation of the flame induction hole 163 by the opening and closing means 170 is not smoothly maintained,

Or, in severe cases, the operation reliability, such as not working at all, to prevent the problem from occurring in advance.

Hereinafter, to discharge to the clean air from which the harmful substances, pollutants, odors, etc. contained in the exhaust gas discharged from the eco-friendly cosmetic incinerator 100 according to the present invention, and re-supply the hot air by the exhaust gas to the combustion burner To save energy by

The hot air supply system including an eco-friendly cosmetic incinerator 100 will be described in more detail.

As shown in Figure 1 cremation incinerator hot air supply system according to the present invention

A cosmetic incinerator 100 having combustion burners 112 and 132; Rapid cooling heat exchange means 200 is connected to the cremation incinerator 100; Hot air supply means (300) for connecting the rapid cooling heat exchange means (200) and the combustion burners (112) (132) of the cosmetic incinerator (100); Filtering means 500 connected to the rapid cooling heat exchange means 200; And a clean air outlet 700 connected to the filtration means 500.

 In the incinerator hot air supply system according to the present invention as shown in Figure 1 to 6, the cosmetic incinerator 100 is

Since the eco-friendly cosmetic incinerator 100 is used as it is, the description thereof will be omitted below.

1, in the incinerator hot air supply system according to the present invention, the rapid cooling heat exchange means 200 is

Cooling means 210 connected to the second exhaust 140 of the cosmetic incinerator 100,

It includes a first heat exchanger 220 connected to the cooling means 210, and a second heat exchanger 230 connected to the first heat exchanger 220.

Introducing the rapid cooling heat exchange means 200 according to the present invention

The exhaust gas reburned by the reburn means 130 of the cosmetic incinerator 100 is discharged at a high temperature of about 850 ° C.,

Such exhaust gas is known to regenerate dioxins in the temperature range of about 700 ℃ to 300 ℃,

Therefore, the rapid cooling heat exchange means 200 is to prevent the regeneration of dioxin by allowing a high temperature exhaust gas to pass quickly through the regeneration zone of dioxin through rapid cooling and heat exchange to the exhaust gas temperature below 200 ℃.

In this rapid cooling heat exchange means 200, the cooling means 210 and the second heat exchanger 230 are respectively connected to the combustion blower 250 and the cooling blower 240 to supply cooling air,

Each of the heat exchangers 220 and 230 adopts an indirect heat transfer method to minimize the initial construction cost and maintenance cost by reducing the processing capacity.

Furthermore, in the rapid cooling heat exchange means 200 according to the present invention, it is preferable to control the combustion gas temperature by automatically adjusting the damper to the value set in the controller by the temperature value detected by the temperature sensor.

On the other hand, the first or second heat exchanger 220, 230, or the waste heat recovery means 800 for using the waste heat of about 300 ℃ high temperature discharged from all of them are further provided,

The waste heat recovery means 800 embeds waste heat pipes for supplying waste heat in a landscaping-related facility and uses energy generated by waste heat to prevent water space fog, heat supply of sunken chairs, or freezing a frozen mountain. To increase.

In addition, the waste heat recovery means 800 secures 100% of the geothermal heat by using a geothermal heat pump and a buffer tank to utilize geothermal heat generated from the ground in which the cremation incinerator 100 is embedded for building or home air conditioning. It is desirable to use energy for energy saving.

In addition, the combustion gas finally discharged through the rapid cooling heat exchange means 200 according to the present invention is discharged to a temperature of about 200 ℃ ~ 230 ℃,

Therefore, it is possible to prevent the dioxin from being regenerated from the exhaust gas discharged through the rapid cooling and heat exchange through the rapid cooling heat exchange means 200.

Meanwhile, the exhaust gas passed through the rapid cooling heat exchange means 200 according to the present invention is moved to the filtering means 500 to be described later through the supply pipe D.

In this case, the adsorption means 400 is further provided between the rapid cooling heat exchange means 200 and the filtration means 500.

Adsorption means 400 according to the present invention comprises a hydrated lime supply unit 410 and activated carbon supply unit 420,

The slaked lime supply unit 410 is connected to the slaked lime supply tank 411 and the slaked lime supply tank 411 to blow the slaked lime into a supply pipe (D) connecting the quick cooling heat exchange means 200 and the filtration means 500. It comprises a calcined lime transfer blower (413) for loading.

In addition, the activated carbon supply unit 420 is connected to the activated carbon supply tank 421 and the activated carbon supply tank 421 to the supply pipe (D) for connecting the activated carbon to the rapid cooling heat exchange means 200 and the filtration means 500. It comprises an activated carbon transfer blower (423) for blowing.

In addition, the slaked lime supply unit 410 and the activated carbon supply unit 420 are provided with opening and closing valves 415 and 425 for adjusting the slaked lime and activated carbon supply, respectively.

Therefore, in the exhaust gas discharged through the quick cooling heat exchange means 200 by the calcined lime and activated carbon supply parts 410 and 420 of the adsorption means 400.

Calcium hydroxide (CaOH ₂₎ (or limestone) supplied to the by reacting HCl with Ca ^{2 +} and sulfur oxides (SOx) are removed by inertial collision of particles and chemical reaction,

In addition, by supplying powdered activated carbon to adsorb organic materials to the activated carbon, dioxins are removed in the form of particles.

That is, by removing the hydrated lime and activated carbon supply unit 410,420, which are the adsorption means 400 according to the present invention, HCl, sulfur oxides, organic substances, and dioxins can be removed, thereby improving exhaust gas treatment efficiency.

In the incinerator hot air supply system according to the present invention as shown in Figure 1, the hot air supply means 300 is

By connecting the rapid cooling heat exchange means 200 and the combustion burners 112 and 132 of the cremation incinerator 100, the combustion is performed to reuse the hot air discharged through the rapid cooling heat exchange means 200 as combustion air. It will be resupplied to burners 112 and 132.

This is the first or second heat exchanger 220, 230 for hot air of about 850 ℃ cooled by the rapid cooling heat exchange means 200 to the hot heat gas of about 850 ℃ discharged to the cremation incinerator 100 Or hot air supply means 300 connected to all of them,

That is, the supply pipe 310 is connected to the first or second combustion burners 112 and 132 of the cremation incinerator 100, or both, and reuses hot air as combustion gas, thereby saving about 30% of fuel. Will be obtained.

In this case, a combustion air blower 250 is connected to the cooling means 210 and the first heat exchanger 220 in the hot air supply means 300, and a hot air control valve 320 is provided to the supply pipe 310. Is provided to control the supply amount or opening and closing of the hot air to supply the hot air for combustion to each combustion burner 112,132 of the cosmetic incinerator 100.

Therefore, the hot air supply means 300 according to the present invention can be discharged from the cremation incinerator 100, and the economical efficiency and eco-friendliness can be improved by recycling the hot air cooled to a predetermined temperature by the rapid cooling heat exchange means 200 as energy. Will be.

In the incinerator hot air supply system according to the present invention as shown in Figure 1, the filtering means 500 is

HCL, sulfur oxides (SOx), nitrogen oxides (NOx), which are connected through the rapid cooling heat exchange means 200 and the supply pipe D, and are included in the exhaust gas discharged through the rapid cooling heat exchange means 200, And residual dioxins.

Filtration means 500 according to the present invention comprises a bag filter 510 or a low temperature catalyst filter 530, or both,

The filter dust collector 510 is composed of compressed air supply means 520 (air compressor 521, storage tank 523, cooler 525 and air dryer 527) for supplying the compressed compressed air. ),

The low temperature catalyst filter 530 is further provided with ammonia supply means 540 for supplying ammonia.

That is, the filter dust collector 510 of the filtering means 500 according to the present invention can remove 99% or more of fine particles of 0.1 micrometer or less using a filter cloth of heat resistance and corrosion resistance,

In addition, a vibrator is installed below the filter dust collector 510 to precipitate and remove dust.

In addition, the filter dust collector 510 is to remove the dust by spraying the air pressure of a predetermined air pressure (5 ~ 7kg / cm ² ) by the compressed air supply means 520,

In addition, the dust precipitated by the vibrator is supplied to the centrifugal force precipitator 551 by the rotary valve 550 to remove coarse particles.

In addition, the exhaust gas passing through the centrifugal force dust collector 551 is removed by adsorption trapping and dedusting on the filtration surface by the residual portion filter unit 553,

In this case, the residual recovery filter unit 553 is connected to the compressed air supply means 520 to inject air pressure at a predetermined pressure to increase the removal efficiency.

In addition, the clean air from which the residue and the fly ash are removed by the residual collection filter unit 553 is discharged into the atmosphere through the blower 555.

The low temperature catalyst filter 530 of the filtration means 500 according to the present invention is connected to the filter dust collector 510 to remove dioxins and nitrogen oxides (NOx) that are not removed from the filter dust collector 510.

The low temperature catalyst filter 530 decomposes and removes dioxin through an oxidation reaction through a low temperature reaction catalyst for removing dioxins of the titanium-based alloy.

In addition, the ammonia supply unit 540 removes nitrogen oxides (NOx) in the exhaust gas by injecting the ammonia gas stored in the ammonia cylinder 541 through the injection nozzle 543 provided in the supply pipe (D).

Therefore, the clean air of about 60 ° C. in which dioxins and nitrogen oxides (NOx) are removed by the bag filter 510 and the low temperature catalyst filter 530 of the filtering means 500 is discharged into the atmosphere through the discharge part 700. It is

In this case, the smoke prevention means 600 is further provided in the supply pipe or the duct D connecting the filtration means 500 and the clean air discharge part 700.

As shown in FIG. 1, the smoke prevention means 600 according to the present invention is

It is formed to surround the supply pipe or duct (D) for connecting the clean air outlet 700 connected to the low-temperature catalyst filter 530 of the filtration means 500,

The cooling water supply unit for supplying the cooling water to the supply pipe or the duct (D) passing through the inside of the smoke prevention means 600, or a smoke prevention blower 610 is provided.

The cooling water supplied from the cooling water supply unit or the cooling air supplied from the smoke prevention blower 610 is brought into contact with the exhaust gas having a predetermined temperature passing through the supply pipe or the duct D to lower the temperature, thereby reducing the temperature difference between the exhaust gas and the convection. It is possible to prevent the haze, white smoke, etc. generated by the environment more comfortable surrounding the incinerator 100.

In this case, the smoke prevention means 600 is preferably provided with a waste water storage tank 620 for storing condensed water generated by the temperature difference between the exhaust gas and the atmosphere.

In the incinerator hot air supply system according to the present invention as shown in Figure 1, the clean air outlet 700

The low-temperature clean gas that has passed through the smoke prevention means 600 is guided by an induction blower 720 connected to the smoke prevention means 600,

By being discharged into the atmosphere through the year (710) it is possible to provide an environmentally friendly cosmetic incinerator hot air supply system.

And not shown in the accompanying drawings in the incinerator hot air supply system according to the present invention

Each blower or blower is equipped with anti-vibration rubber or anti-vibration springs to minimize vibration of the equipment, and attaches a silencer to minimize it to a certain standard value.

Furthermore, by installing a noise wall on the inner wall of each combustion chamber of the toilet to prevent noise from being transmitted to the outside,

In addition, it is desirable to adopt an inverter method to allow each equipment to operate at low rpm.

Furthermore, in the eco-friendly cosmetic incinerator according to the present invention, a pipe joint unit (JU) is further provided at the air supply pipe connection portion of the air supply means to ensure the binding force and airtightness between pipes.

Hereinafter, various modifications regarding the pipe joint unit JU, and their respective functions and actions will be described.

Pipe joint unit (JU) according to the present invention can reduce the production cost because the connection structure is simple, the combination of the components, that is, the connection of each pipe can be made quickly and simply,

In addition, by introducing a packing to the contact portion of the two pipes to be in close contact with each other it is possible to block the leakage of the flowing gas.

As shown in FIGS. 7 to 14, the pipe joint unit JU according to the present invention includes a support 10, a bracket 20, a fastening means 30, and a packing 40.

The support 10 is inserted into the end flow path hole 3 of the pipe 151, reinforces the bearing force for the expansion of the end of the inserted pipe 151,

The support 10 is preferably made of a metal material so that deformation does not occur against a pressing force applied from the outside of the pipe 151 when the two pipes 151 are connected.

In the center of the support 10, a through hole 11 communicating with the passage hole 3 of the pipe 151 is formed therethrough, and the outer surface of the support 10 extends the diameters of the two pipes 151 inserted and connected to both sides. An inclined portion 13 is formed in which the outer diameter gradually decreases while going from the center to both sides.

In addition, the support 10 may be made of one in which the inclined portion 13 is integrally provided at both sides as shown in FIGS. 8 and 10,

As shown in FIGS. 9 and 11, or 13 and 14, they may be formed of two powders 10a and 10b having a symmetrical shape and having the inclined portions 13 provided on both sides thereof in contact with each other. .

In this case, when the support 10 is made of one, it may be convenient to store, transport, and connect two pipes.

Due to the difference in the material properties of the support 10 and the pipe 151, it is difficult for the outer surface of the support, which is the contact surface, and the inner surface of the pipe to be in close contact with each other, so that gas may leak into the gap between the contact surfaces.

Therefore, a packing is necessary to prevent the leakage of gas into these contact surface gaps, and it is difficult to interpose the packing therebetween when the support 10 is inserted into the pipe 151.

When the support 10 is composed of two powders 10a and 10b, a packing may be provided on the contact surface of the two powders 10a and 10b connected to each other and the contact surface of the two pipes 151 to prevent leakage. can do.

In addition, the packing 40 is a high-temperature gas to move the pipe 151, so a material having heat resistance as well as sealing should be used,

Therefore, the material of the packing 40 is preferably a material such as asbestos yarn treated with heat-resistant lubricating oil satisfying these conditions and coated with graphite.

In addition, the receiving grooves 15 in which the receiving protrusions 41 of the packing 40 are received are formed on the front surfaces (ie, inner surfaces of the two surfaces 10a and 10b) constituting the support 10.

The bracket 20 is inserted into the pipe 151 and disposed on the inclined portion 13 of the support 10, that is, the expansion portion 5 of the pipe 151.

The tightening means 30 connects and tightens the two brackets 20 inserted into the pipes 151 on both sides so that the two pipes 151 are press-contacted.

As the tightening means 30, a fastening pin 31 having a head and a screw thread and a nut 32 may be used.

In addition, the bracket 20 has an insertion hole 21 into which the pipe 151 is inserted, and a pin hole 23 into which the tightening pin 31 is inserted.

In addition, the edge of the insertion hole 21 has an inclination angle corresponding to the inclination angle of the expansion part 5 of the pipe 151, and the contact area is increased to allow the bracket 20 to smoothly move in contact with the outer surface of the pipe 151.

The contact surface extension part 25 which distributes the force which the bracket 20 contacts and pressurizes the pipe 151, and reduces the load applied to the pipe 151 is provided.

The pinhole 23 is formed in a rounded long hole shape, it is preferable that the fastening pin 31 can be fastened even without precisely aligning the two brackets 20 on both sides,

It is preferable to increase the binding force while preventing the movement of the tightening pin 31 along the long hole through the washer 33 in the head and nut 32, respectively.

7 to 11, when the brackets 20 on both sides are directly connected with the tightening pins 31 and tightened, the direction in which the tightening pins 31 pull the two brackets 20 and the brackets 20 are pipes 151. ) Ascending on the outside does not match,

Accordingly, the stability and coupling force of the two brackets 20 fastened by the tightening pins 31 may be weakened, and the load on which the bracket 20 exerts the outer surface of the pipe 151 is concentrated at a specific site, thereby damaging the pipe 151. Can be generated.

Therefore, it is necessary to match the direction in which the tightening pin 31 pulls the bracket 20 with the direction in which the bracket 20 moves forward on the outer surface of the pipe 151. With this necessity, the present invention is illustrated in FIGS. 11 to 13. As shown in the tightening means 30 was provided with a support (35).

In addition, the support 35 is coupled to the connecting portion of the two pipes 151, the wing portion 36 is protrudingly formed on both sides toward the upper side, and the tightening pin 31 is inserted into the protrusion 43 is coupled The pin hole 37 to be formed is formed.

At this time, the wing portion 36 is protruded in a direction perpendicular to the inclined surface of the expansion portion 5 of the pipe 151, the pin hole 37 is formed in the form of a long hole like the pin hole 23 of the bracket 20 desirable.

Furthermore, in connecting two brackets 20 on both sides and two wings 36 of the supporter 35 with a tightening pin 31,

The head of the tightening pin 31 is located on the wing 36 and the nut 32 is located on the bracket 20 so that the tightening pin 31 does not interfere with each other, and the two tightening pins 31 on both sides are It may be desirable to stagger.

And when the fastening pin 31 is inserted into the pin hole 37 of the wing portion 36, the cutout portion connected to the pin hole 37 to the wing portion 36 so as not to be disturbed by the wing portion 36 on the opposite side ( It may be desirable to form 38).

In addition, the support 35 is tightened by a bolt (b) is possible to adjust the diameter, the lower part is in contact with the outer surface of the pipes 151 on both sides and as the diameter is reduced by the bolt (b) the outer surface of the pipe 151 The pressurizing part 39 which presses is protruded in both sides.

In addition, the packing 40 is interposed and pressurized on the contact surfaces of the two pipes 151 and the two powders 10a and 10b connected to each other to seal their contact gaps to prevent the leakage of gas flowing in the pipes 151. .

In addition, the center of both sides of the packing 40 is formed with a receiving projection 41 is inserted into the receiving groove 15 of the support 10, the projections 43 are formed on both sides of the protruding portion 43,

On both sides, a plurality of annular protrusions 45 are formed to protrude in an annular shape.

In addition, the receiving protrusion 41 guides the alignment position of the packing 40, and the protrusion 43 is pressurized to the outer surface of the pipe 151 by the pressurizing portion 39 of the support 35 to leak the gas. Block the second again, the annular projections 45 on both sides to increase the airtightness of the packing (40).

And the pipe joint unit (JU) is not only the supply pipe 151,

Although not shown in the accompanying drawings, it is preferable to be able to introduce the supply pipes, supply pipes, and the like of the air supply unit so that it is possible to ensure the confidentiality at the connection sites of the respective pipes and the convenience of the fastening operation.

In describing the eco-friendly cosmetic incinerator of the present invention with reference to the accompanying drawings, the present invention has been described with a particular shape and direction, but the present invention can be variously modified and changed by those skilled in the art, such modifications and changes are the rights of the present invention. It should be construed as being included in the scope.

10: support 11: through hole
13: inclined portion 15: receiving groove
20: bracket 21: insertion hole
23: pinhole 25: contact surface expansion
30: tightening means 31: tightening pin
35 support 36: wing
38: incision 39: pressing portion
40: packing 41: receiving protrusion
43: protrusion 45: annular protrusion
100: cremation incinerator
110: main combustion means 111: main combustion chamber
112: first combustion burner 113: charging path
114: internal truck 114a: flame ball
114b: feed roll 115: cooling chamber
116: opening and closing door 117: partition wall
120: first exhaust
130: reburn means 131: reburn chamber
132: second combustion burner 133: induction part
133a: partition wall 133b: reburn guide
133c: guide wall
134: wall 135: porous partition wall
135a: ventilation hole 136: by reburn
140: second exhaust portion 145: discharge passage
147: exhaust duct
150: air supply means 151: air supply pipe
153: air supply valve
160: separating partition 161: storage groove
163: flame guidance 165: flame shading wall
170: opening and closing means 171: opening and closing plate
171a: Guide groove 173: Guide rod
175: drive motor
200: rapid cooling heat exchange means 210: cooling means
220: first heat exchanger 230: second heat exchanger
240: cooling blower 250: combustion air blower
300: hot air supply means 310: supply pipe
320: hot air control valve
400: adsorption means 410: calcined lime supply
411: slaked lime supply tank 413: slaked lime transfer blower
415: on-off valve 420: activated carbon supply
421: activated carbon supply tank 423: activated carbon transfer blower
425: on-off valve
500: filtration means 510: bag filter
520: compressed air supply means 521: air compressor
523: air storage tank 525: air cooler
527: air dryer 530: low temperature catalyst filter
540: ammonia supply means 541: ammonia cylinder
543: injection nozzle
600: smoke prevention means 610: smoke prevention blower
620: wastewater storage tank
700: clean air outlet 710: year
720: manned blower
800: waste heat recovery means
E: Exhaust port D: Supply pipe or duct
JU: Pipe Joint Unit

Claims (2)

A main combustion means (110) having a first combustion burner (112);
A first exhaust part 120 in communication with the main combustion means 110;
Recombustion means (130) having an exhaust gas induction part (133) and a second combustion burner (132) communicating with the first exhaust part (120); And
It comprises a; the second exhaust portion 140 in communication with the induction portion 133 of the reburn means 130,
The first and second exhaust parts 120 and 140 are formed to surround the entire sidewalls of the combustion means 110 and 130, respectively.
The first or second exhaust unit 120, 140, or both of the first or second combustion burner 112, 132, or both of the air supply means 150 is connected to the made of ,
A partition wall 133a is further provided on one side or both sides of the induction part 133 in the reburn means 130,
In the outer direction of the partition wall 133a is in communication with the induction part 133, a reburn guide path 133b connected to the rear of the second combustion burner 132 is formed,
In the recombustion means 130, the induction part 133 is further provided with a porous partition wall 135,
The reinforcing furnace 136 connected to the rear of the second combustion burner 132 and communicated with the induction part 133 is formed on the upper or lower portion or both of the partition 135,
The air supply means 150 is further provided with an air supply pipe 151,
The connection portion between the air supply pipe 151 is further provided with a pipe joint unit (JU),
The pipe joint unit JU has a through hole 11 formed therein, and an inclined portion 13 having a smaller outer diameter is formed on the outer surface thereof from the center to both sides, and the inclined portions 13 on both sides are pipes. A support 10 inserted into the passage hole 3;
A bracket 20 inserted into an outer circumference of a pipe surrounding the inclined portion 13 of the support 10;
And tightening means 30 for connecting and tightening the two brackets 20 provided on the pipes 151 on both sides into which the inclined portion 13 of the support 10 is inserted.
The support 10 is made of a symmetrical shape, each composed of two powders (10a) (10b) inserted into the pipe flow path hole (3),
The contact surface of the two pipes 151 connected to each other and the two powders 10a and 10b respectively inserted into the two pipes 151 is provided with a packing 40 for airtightness.
The tightening means (30) wraps the contact portion of the two pipes 151 connected to each other in an annular shape, the support (35) having a wing portion 36 is formed to protrude at an angle inclined upward from both sides, and
It is arranged to be parallel to the inclined portion 13 and comprises a tightening pin 31 for tightening by connecting the wing portion 36 of the bracket 20 and the support 35,
Protruding portions 43 are formed on both sides of the packing 40 to protrude,
The support 35 is adjustable in diameter by the bolt,
Press portions 39 protruding from the lower sides of the support 35 to press the protrusions 43 of the packing 40 to the outer periphery of the pipe 151,
The main combustion means 110 and the reburn means 130 are provided with a main combustion chamber 111 and a reburn chamber 131 partitioned by the separating partition 160,
An accommodation groove 161 is formed in the separation partition 160.
A flame induction hole 163 for communicating the main combustion chamber 111 and the reburn chamber 131 is formed in the separation partition 160 located above and below the accommodation groove 161.
Opening and closing means 170 is further provided in the receiving groove 161 to open and close the flame induction hole 163,
The opening and closing means 170 is
Opening and closing plate 171 to enter and exit the receiving groove 161, the guide groove 171a is formed with a screw thread on the inner peripheral surface,
A guide rod 173 inserted into the guide groove 171a of the opening and closing plate 171 and having a screw thread formed on an outer circumferential surface thereof;
It comprises a drive motor 175 connected to the end of the guide rod 173,
On the bottom surface of the main combustion chamber 111, a charging path 113 in the form of a rail is formed.
It is provided with a feed roll 114b mounted on the charging path 113 to enable a cloud movement, and an internal bogie 114 having a flame hole 114a at a corresponding position of the flame guide hole 163.
Flame blocking wall for preventing the flame is induced in the charging path 113 and the transfer roll 114b around the flame induction hole 163 adjacent to the charging path 113 in the flame induction hole 163 located in the upper portion ( 165) eco-friendly cosmetic incinerator, characterized in that formed. The method of claim 1,
The bracket 20 has an insertion hole 21 into which the pipe 151 is inserted, and a pin hole 23 into which the tightening pin 31 is inserted.
The edge of the insertion hole 21 has an inclination angle corresponding to the inclination angle of the expansion portion 5 of the pipe 151,
The contact area is increased to smoothly move the contact of the bracket 20 on the outer surface of the pipe 151 and to reduce the load applied to the pipe 151 by distributing the force that the bracket 20 contacts and presses the pipe 151. The contact surface expansion portion 25 is provided to
Receiving groove 15 is formed on the front surface of each of the powder (10a) (10b) of the support 10,
Receiving projection 41 is inserted into the receiving groove 15 of the support 10 in the center of both sides of the packing 40 is formed,
Eco-friendly cosmetic incinerator, characterized in that a plurality of annular projections 45 are formed protruding in an annular shape on both sides of the packing.

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