KR102399530B1 - Apparatus for revolver typed continuous pyrolysis - Google Patents

Abstract

The present invention relates to a revolver type continuous pyrolysis apparatus to provide a revolver type continuous pyrolysis apparatus that is safe without risk of explosion, can continuously pyrolyze a large amount of waste without downtime to reduce time and cost, improve productivity, reduce production costs without requiring a large pyrolysis furnace, and is easy to install without requiring much installing space. According to the present invention, the apparatus comprises: on the front side, a pyrolysis furnace (10) having an inlet (11) formed on a virtual rotation path (R) rotating around a rotation axis (13) formed back and forth and accommodating waste therein; a heating unit (20) for heating the pyrolysis furnace (10) to pyrolyze the waste in the pyrolysis furnace (10); and a supply unit (30) for supplying waste into the pyrolysis furnace (10), wherein the supply unit (30) comprises: an input hopper provided in front of the pyrolysis furnace; a waste transfer pipe (50) communicated with the lower end of the input hopper (4) and having an outlet (51) not aligned with the inlet (11) on the rotary path (R) of the pyrolysis furnace (10); a cover plate installed at a distance from the front surface of the pyrolysis furnace (10) and having a first through hole (61) communicated with the outlet (51) of the waste transfer pipe (50) and a second through hole (62) aligned with the inlet (11) of the pyrolysis furnace (10); a supply revolver (70) provided to close the front and rear surfaces between the pyrolysis furnace (10) and the cover plate (60) and having a plurality of insertion chambers (72) spaced apart; a pressure cylinder (80) provided at one end of the waste transfer pipe (50); and a transfer cylinder (90) provided in the second through hole (62) of the cover plate (60).

Description

Apparatus for revolver typed continuous pyrolysis

The present invention relates to a revolver-type continuous pyrolysis device, and more particularly, a series in which combustible waste such as waste vinyl or waste plastic is put into the input hopper without the risk of explosion and is put into the pyrolysis furnace with oxygen and moisture removed It relates to a revolver-type continuous pyrolysis device in which the process is continuously performed.

Recently, various types of waste are rapidly generated due to rapid industrialization and urbanization. In particular, the disposal of combustible waste such as waste vinyl or waste plastic is emerging as a social problem. Such combustible wastes are incinerated or landfilled, but incineration releases hazardous substances such as dioxins and causes environmental pollution, and landfilling has problems in that it causes shortage of landfill sites and pollution of land and water. Accordingly, in recent years, a method of obtaining refined oil by condensing oil vapor generated through thermal decomposition in terms of reducing environmental pollution and recycling of resources has been proposed.

Conventional pyrolysis apparatus recovers refined oil by condensing oil vapor obtained in the process of thermally decomposing combustible waste such as waste vinyl or waste plastic by heating it to a high temperature in a pyrolysis furnace. At this time, in the process of putting combustible waste into the pyrolysis furnace, oxygen may be introduced, which may cause a large safety accident in which oxygen and oil vapor react and explode. I'm choosing batch mode.

However, in the conventional pyrolysis device, waste cannot be additionally added in the process of pyrolyzing a single batch of waste as described above. There is a problem that not only wastes time and money, but also lowers productivity. In order to solve this problem, since a large-scale pyrolysis furnace is required to process a large amount of waste in one process, it is not easy to manufacture such a large-scale pyrolysis furnace, and there is a problem in that the installation space is limited.

Korean Utility Model Publication No. 20-0311373

The present invention is to solve the above-mentioned problems, and an object of the present invention is to remove oxygen and moisture while putting waste such as waste vinyl or waste plastic into the input hopper, and a series of processes for inputting into the pyrolysis furnace is pyrolysis. Since the reaction takes place continuously, it is safe without the risk of explosion and can continuously pyrolyze a large amount of waste without downtime, which saves time and money, improves productivity, and reduces manufacturing costs because a large pyrolysis furnace is not required. An object of the present invention is to provide a revolver type continuous pyrolysis device that is easy to install because the installation area is not required.

According to a feature of the present invention, an inlet 11 is formed on the front surface of a virtual rotation path R that rotates about a rotation shaft 13 formed back and forth, and a pyrolysis furnace 10 in which waste is accommodated; a heating unit 20 for heating the pyrolysis furnace 10 so that waste is thermally decomposed in the pyrolysis furnace 10; and a supply unit 30 for supplying waste to the inside of the pyrolysis furnace 10; the supply unit 30 is provided in front of the pyrolysis furnace 10, and an input hopper 40 into which waste is put ); One end is in communication with the lower end of the input hopper 40 and the other end extending toward the front of the pyrolysis furnace 10 is disposed on the virtual rotation path R of the pyrolysis furnace 10 , the pyrolysis furnace 10 a waste transfer pipe 50 having an outlet 51 that is not aligned with the inlet 11 of the; The first through hole 61 is installed spaced apart from the front of the pyrolysis furnace 10, the other end of the waste transport pipe 50 is coupled to the front, and communicates with the outlet 51 of the waste transport pipe 50 on the surface. and a cover plate 60 having a second through hole 62 aligned with the inlet 11 of the pyrolysis furnace 10; It is provided so that the front and rear surfaces are closed between the pyrolysis furnace 10 and the cover plate 60, and is rotatably coupled to the pyrolysis furnace 10 about the rotation shaft 13, and is rotated about the rotation shaft 13 Accordingly, a plurality of insertion chambers 72 penetrated back and forth so as to be aligned with the first and second through holes 61 and 62 of the cover plate 60 are spaced apart from each other on the virtual rotation path R of the pyrolysis furnace 10 . and a supply revolver 70 provided with a heater 100 around the insertion chamber 72; It is provided at one end of the waste transport pipe 50 and pressurizes the waste input into the input hopper 40 into the insertion chamber 72 of the supply revolver 70 through the outlet 51 of the waste transport pipe 50. a pressurized cylinder 80 for generating compressed waste (1); and an insertion chamber 72 on one side of the supply revolver 70 provided in the second through hole 62 of the cover plate 60, into which the compressed waste 2 is inserted, is a pyrolysis furnace while the supply revolver 70 is rotated. When aligned with the inlet 11 of (10), the conveying cylinder 90 for introducing the compressed waste (1) into the pyrolysis furnace 10 through the inlet 11 of the pyrolysis furnace 10; There is provided a revolver type continuous pyrolysis device, characterized in that.

According to another feature of the present invention, in the cover plate 60, the insertion chamber at a position where the remaining insertion chambers 72 of the supply revolver 70 are not aligned with the first and second through holes 61 and 62 are aligned. There is provided a revolver-type continuous pyrolysis device, characterized in that a discharge hole 64 through which air and moisture generated from the compressed waste (1) inserted in (72) are discharged.

According to another feature of the present invention, the supply revolver 70 has an internal space ( 73) is formed, and in this inner space 73, a plurality of rod-type heaters 100 are radially arranged to cross between the respective insertion chambers 72 with the shaft hole 71 as a center. A continuous pyrolysis device is provided.

According to the present invention as described above, a plurality of insertions between the pyrolysis furnace 10 having the inlet 11 formed on the front side and the cover plate 60 provided with the second through hole 62 aligned with the inlet 11 . A supply revolver having a supply revolver 70 having a chamber 72 formed therein, and using a pressurizing cylinder 80 to pressurize waste through a waste transfer pipe 50 communicating with the first through hole 61 of the cover plate 60 . The compressed waste 1 is generated in the insertion chamber 72 of the 70, and as the supply revolver 70 is rotated, the conveying cylinder 90 provided in the second through hole 62 of the cover plate 60 is compressed waste. (1) is introduced into the pyrolysis furnace (10). In this way, a series of processes of putting waste into the pyrolysis furnace 10 and pyrolyzing it by compressing it before inputting it into the pyrolysis furnace 10 to remove air and moisture are continuously performed, thereby reducing time and cost and reducing costs. Productivity is improved by reducing the same time, and manufacturing cost is reduced because a large pyrolysis furnace is not required, and installation is easy because a large installation area is not required.

And since the heater 100 is provided around the insertion chamber 72 of the supply revolver 70 and the compressed waste 1 inserted into the insertion chamber 72 is continuously heated while the supply revolver 70 is rotated, It is possible to more effectively remove the moisture contained in the compressed waste (1), the above effect is further increased. At this time, since the plurality of rod-shaped heaters 100 are radially arranged to cross between the respective insertion chambers 72 in the inner space 73 of the supply revolver 70, the structure is simple and the plurality of insertion chambers 72 can be heated more effectively and quickly. At this time, as the oil 2 is filled in the inner space 73 of the supply revolver 70 and the heater 100 heats the oil 2, it is faster than directly heating the metal insertion chamber 72 Since it can be heated, the air and moisture contained in the compressed waste 1 can be removed more quickly and effectively, so that the above effects are further increased.

And the cover plate 60 is not aligned with the outlet 51 of the waste transport pipe 50 and the inlet 11 of the pyrolysis furnace 10, and a plurality of insertion chambers 72 of the supply revolver 70 are aligned. By forming discharge holes 64 at each location, air and moisture generated while the extruded waste 1 is compressed and heated are continuously discharged, so there is no need to install a separate exhaust pipe for discharging air and moisture. The structure is simple, the cost is reduced, and the air and moisture can be easily discharged.

1 is a perspective view showing an embodiment of a revolver type continuous pyrolysis device according to the present invention;
2 is an exploded perspective view of the embodiment;
3 is a view showing a process of putting the waste of the embodiment into the input hopper;
4 is a view showing a process of putting the waste of the embodiment into the supply revolver;
5 is a view showing the rotation of the supply revolver of the embodiment
6 is a view showing a process of inputting the compressed waste of the embodiment into the pyrolysis furnace;
7 and 8 are cross-sectional views showing a state in which the pyrolysis furnace and the waste transfer pipe are completely isolated when the waste is input in the embodiment;

The objects, features and advantages of the present invention described above will become more apparent through the following detailed description. Hereinafter, preferred embodiments of the present invention will be described based on the accompanying drawings.

1 to 8 are views showing a revolver type continuous pyrolysis device according to an embodiment of the present invention. As shown, the revolver type continuous pyrolysis apparatus according to an embodiment of the present invention includes a pyrolysis furnace 10 , a heating unit 20 and a supply unit 30 .

The pyrolysis furnace 10 exemplifies that waste such as waste vinyl or waste plastic is accommodated therein. At this time, the pyrolysis furnace 10 may be supported by the support 10a. On the front surface of the pyrolysis furnace 10 as described above, an inlet 11 through which waste is inputted from the outside is formed on a virtual rotation path R that is rotated about the rotation shaft 13 formed in front and back. The inlet 11 is preferably formed in a circular shape.

And as shown in FIG. 2 , an edge ring protruding forward from the edge is provided on the front surface of the pyrolysis furnace 10 , or a concave portion 12 is formed. On the other hand, as shown in Fig. 6, inside the pyrolysis furnace 10, there is a stirring rotation shaft 14 that is rotated together with the rotation shaft 13, and a stirring blade 15 protruding radially from the stirring rotation shaft 14 to stir the pyrolysis object. ) is provided. In addition, as shown in FIG. 1, the stirring rotation shaft 14 is driven by a stirring motor 16 and a driving means 17 such as a chain. Meanwhile, an exhaust pipe 19 may be provided on the rear surface of the pyrolysis furnace 10 .

The heating unit 20 heats the pyrolysis furnace 10 so that the waste is pyrolyzed in the pyrolysis furnace 10, as is well known.

The supply unit 30 supplies waste into the pyrolysis furnace 10, an input hopper 40, a waste transport pipe 50, a cover plate 60, a supply revolver 70, a pressurization cylinder 80, and It includes a transfer cylinder (90).

And the input hopper 40 is provided in front of the pyrolysis furnace 10, the waste is input. At this time, the waste may be put into the input hopper 40 in a crushed state as is well known. The input hopper 40 may be provided with a supply means 41 for transferring the waste to the bottom, and in some cases, a grinding roller for further pulverizing the waste may be further provided.

And one end of the waste transport pipe 50 is coupled to the lower end of the input hopper 40 and the other end extends toward the front of the pyrolysis furnace 10 . Such a waste transport pipe 50 is made in a straight shape, and a communication hole 52 communicating with the input hopper 40 is formed on one end side as shown in FIG. 3, and the pyrolysis furnace 10 at the other end as shown in FIG. ), an outlet 51 disposed on the virtual rotation path R is formed. The waste transport pipe 50 has a circular cross-section so that the outlet 51 has a circular shape. At this time, the outlet 51 is configured not to be aligned with the inlet 11 of the pyrolysis furnace (10).

And the cover plate 60 is spaced apart from the front surface of the pyrolysis furnace 10, and the other end of the waste transport pipe 50 is coupled to the front surface. A first through hole 61 communicating with the outlet 51 of the waste transport pipe 50 and a second through hole 62 communicating with the inlet 11 of the pyrolysis furnace 10 are formed in the cover plate 60 . . As shown in FIG. 2 , the cover plate 60 preferably has a shape corresponding to the front surface of the pyrolysis furnace 10 .

On the other hand, on the rear surface of the cover plate 60, the auxiliary concave portion 63 corresponding to the concave portion 12 formed on the front surface of the pyrolysis furnace 10 is formed.

And the supply revolver 70 is provided with a predetermined thickness so that the front and rear surfaces are closed between the pyrolysis furnace 10 and the cover plate 60, and is rotatably rotatable around the rotation shaft 13 on the front surface of the pyrolysis furnace 10 are combined At this time, in the center of the supply revolver 70, the shaft hole 71 into which the rotation shaft 13 is inserted is penetrated back and forth. As the supply revolver 70 is rotated about the rotation shaft 13, a plurality of insertion chambers 72 penetrated back and forth so as to communicate with the first and second through holes 61 and 62 of the cover plate 60 are described above. It is formed spaced apart on the virtual rotation path (R) of the pyrolysis furnace (10). At this time, each insertion chamber 72 of the gok grade revolver 70 is partitioned by the partition wall (70a).

On the other hand, as the front and rear ends of the supply revolver 70 are respectively inserted into the concave portion 12 of the pyrolysis furnace 10 and the auxiliary concave portion 63 of the cover plate 60, the insertion chamber 72 is more effectively sealed. can In this case, packings 130 and 131 for more effectively sealing the insertion chamber 72 of the supply revolver 70 may be further provided on the front surface of the pyrolysis furnace 10 and the rear surface of the cover plate 60 . The packings 130 and 131 may be formed in various forms such as O-rings, plates, and membranes. And, on the other hand, as illustrated in FIG. 2 , the supply revolver 70 has five insertion chambers 72 formed therein, and the insertion chamber 72 may be formed in a cylindrical shape. The supply revolver 70 may be configured to rotate about the rotation shaft 13 by a driving means 76 such as a revolver motor 75 and a chain.

In the revolver type continuous pyrolysis apparatus according to an embodiment of the present invention, a heater 100 may be further provided around the insertion chamber 72 of the supply revolver 70 . Such a heater 100 may be installed embedded in the supply revolver (70). 4 and 5 , an inner space 73 may be formed in the supply revolver 70 , and the heater 100 may be formed in a bar shape, and a plurality of heaters 100 may be formed in the inner space 73 . It may be radially arranged so as to cross between each insertion chamber 72 around the shaft hole (71). Accordingly, since each insertion chamber 72 can be heated more effectively and quickly while having a simple structure, air and moisture can be quickly and effectively removed from the compressed waste 1 inserted into the insertion chamber 72 .

And by filling the inner space 73 with oil 2 and configuring the heater 100 to heat the oil 2, it can be heated more quickly than directly heating the metal insertion chamber 72. Excellent thermal efficiency. Accordingly, as the compressed waste 2 put into the insertion chamber 72 is heated more quickly, air and moisture can be removed more effectively and quickly.

On the other hand, in the inner space 73 of the supply revolver 70, a plurality of tubes 74 radially arranged to cross between the respective insertion chambers 72 around the shaft hole 71 may be integrally formed. And on the circumferential surface of the supply revolver 70, an inlet hole 74a through which the heater 100 enters and exits is formed. Accordingly, since the rod-shaped heater 100 can be removably inserted into each tube 74 , the heater 100 can be easily replaced.

And the pressurization cylinder 80 is installed at one end of the waste transport pipe 50 and transports the waste input through the input hopper 40 to the outlet 51 along the waste transport pipe 50 to the supply revolver 70 of the Compressed waste (1) is generated by pressurizing into the insertion chamber (72).

And the transfer cylinder 90 is installed in the second through hole 62 of the cover plate 60, and the compressed waste 1 inserted into the insertion chamber 72 of the supply revolver 70 is inserted into the inlet of the pyrolysis furnace 10. (11) is input.

The pressurization cylinder 80 and the transfer cylinder 90 as described above include the cylinder housings 81 and 91, the cylinder rods 82 and 92 extending and contracting from the cylinder housings 81 and 91, and the cylinder rod 82, 92) and may include pressure plates 83 and 93 having a shape corresponding to the inner diameter of the waste transfer pipe 50 and the inner diameter of the insertion chamber 72 of the supply revolver 70. The cylinder rod 82 of the pressurizing cylinder 80 may be of a form that can be expanded and contracted in two stages.

On the other hand, in the pyrolysis furnace 10 or the cover plate 60, the insertion chamber 72 of the supply revolver 70 is an index ( 18) may be provided. In addition, the supply revolver 70 may be provided with a display unit 77 aligned with the index 18 . Accordingly, it can be checked whether the insertion chamber 72 of the supply revolver 70 is aligned with the first and second through-holes 61 and 62 of the cover plate 60, and if not aligned, it can be corrected to be aligned.

The revolver-type continuous pyrolysis device according to an embodiment of the present invention may further include an auxiliary transfer cylinder 110 for putting the waste inputted into the input hopper 40 into the waste transport pipe 50 .

3, the lower end of the input hopper 40 is provided with a loading housing 120 in which the input waste is temporarily loaded. The loading housing 120 has a vertically flat shape, and a communication hole 52 on the side of the waste transport pipe 50 is installed on one side to communicate with each other.

And on the other side of the loading housing 120, an auxiliary transport cylinder 110 for putting the waste input into the loading housing 120 into the waste transport pipe 50 through the communication hole 52 of the waste transport pipe 50 is provided. do. The auxiliary transfer cylinder 110 includes an auxiliary cylinder housing 111, an auxiliary cylinder rod 112 that is expanded and contracted in the auxiliary cylinder housing 111, and an auxiliary pressure plate 113 provided at the tip of the auxiliary cylinder rod 112. includes The auxiliary pressure plate 113 corresponds to the side cross-section of the loading housing 120, and closes the communication hole 52 of the waste transfer pipe 50 at the front end surface, but forms a part of the inner circumferential surface of the waste transfer pipe 50. A face 114 is formed. Since the inner circumferential surface of the waste transport pipe 50 is circular, the closed face 114 of the auxiliary pressure plate 113 has an arc shape.

In the revolver type continuous pyrolysis device according to an embodiment of the present invention, a discharge hole 64 through which air and moisture are discharged may be further formed in the cover plate 60 . 2 and 5, the cover plate 60 has the first and second through-holes 61 and 62, and the insertion chamber ( A discharge hole 64 through which air and moisture generated from the compressed waste 2 inserted in 72) is discharged may be formed. At this time, the cover plate 60 may be formed in the form of a double plate in which the inner space 60a is formed, and the discharge hole 64 may be formed on the rear surface of the cover plate 60 , and may be formed through the discharge hole 64 . The discharged air and moisture are discharged to the inner space 60a of the cover plate 60, and the air and moisture discharged to the inner space 60a may be discharged to the outside through a drain port not shown.

In the revolver-type continuous pyrolysis device according to an embodiment of the present invention configured as described above, waste is put into the loading housing 120 through the input hopper 40 as shown in FIG. 3 , and the auxiliary transport cylinder 110 is the loading housing 120 . ) of the waste into the inside of the waste transport pipe 50 through the communication hole 52 of the waste transport pipe 50 .

And, as shown in FIG. 4, the pressurizing cylinder 80 transfers the waste injected into the waste transport pipe 50 toward the outlet 51 of the waste transport pipe 50 and inserts it into the insertion chamber 72 of the supply revolver 70. The compressed waste 1 is generated in the insertion chamber 72 of the supply revolver 70 by pressurizing it.

And as shown in FIG. 5 , as the supply revolver 70 is rotated about the rotation shaft 13 , the insertion chamber 72 into which the compressed waste 1 is inserted is aligned with the discharge hole 64 formed in the cover plate 60 . Accordingly, the compressed waste 1 is compressed as described above and air and moisture generated while being heated by the heater 100 are discharged through the discharge hole 64 . As the supply revolver 70 continues to rotate about the rotation shaft 13 , it is continuously heated so that air and moisture can be completely removed. That is, since the previously compressed compressed waste 1 is continuously heated while the three insertion chambers 72 are aligned with the outlet 51 of the waste transport pipe 50, air and moisture can be completely removed. . At this time, even when the supply revolver 70 is rotated, since the insertion chamber 72 is effectively sealed by the packings 130 and 131 , the inflow of air into the compressed waste 1 is effectively blocked.

And, as shown in FIG. 6 , the compressed waste 1 inserted into the insertion chamber 72 of the supply revolver 70 is inserted into the inlet 11 of the pyrolysis furnace 10 and the second through hole 62 of the cover plate 60 and When aligned, the transfer cylinder 90 puts the compressed waste 1 into the pyrolysis furnace 10 through the inlet 11 of the pyrolysis furnace 10 . At this time, since the insertion chamber 72 of the supply revolver 70 is effectively sealed by the packings 130 and 131 , the inflow of air into the pyrolysis furnace 10 is effectively blocked. As described above, since the compressed waste 1 is put into the pyrolysis furnace 10 in a state in which air and moisture are completely removed, it can be pyrolyzed more safely and stably in the pyrolysis furnace 10 .
7 and 8 show when the waste discharged to the outlet 51 of the waste transport pipe 50 is inputted into the pyrolysis furnace 10 through the supply revolver 70, the inlet 11 of the pyrolysis furnace 10 It is a view showing that the discharge port 51 of the waste transport pipe 50 is always isolated by the partition wall 70a of the supply revolver 70. As shown in FIG. 7 , when waste is introduced into the insertion chamber 72 on one side of the supply revolver 70 through the outlet 51 of the waste transport pipe 50, the inlet 11 of the pyrolysis furnace 10 and the waste Since the outlet 51 of the pipe 50 is not communicated with each other by the partition wall 70a of the supply revolver 70 and is isolated from each other, the oxygen introduced into the waste transport pipe 50 flows into the interior of the pyrolysis furnace 10 thing is blocked As shown in FIG. 8 , the compressed waste 1 that was put into the insertion chamber 72 of the supply revolver 70 in FIG. 7 and the supply revolver 70 is rotated is introduced into the inlet 11 of the pyrolysis furnace 10 . Since the inlet 11 of the pyrolysis furnace 10 and the outlet 51 of the waste transfer pipe 50 are not communicated with each other by the partition wall 70a of the supply revolver 70 and are isolated from each other, the waste transfer pipe 50 ), the inflow of oxygen into the pyrolysis furnace 10 is blocked. In this way, in the process in which the waste supplied to the waste transport pipe 50 is continuously input into the inside of the pyrolysis furnace 10, the inlet 11 of the pyrolysis furnace 10 and the outlet 51 of the waste transport pipe 50 Since the supply revolver 70 does not continuously communicate with each other and is isolated from each other by the partition wall 70a, the inflow of oxygen into the pyrolysis furnace 10 is blocked, and there is no risk of explosion due to the reaction, thereby improving safety.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

1: Compressed waste 2: Oil
10: pyrolysis furnace 11: inlet
20: heating unit 30: supply unit
40: input hopper 50: waste transfer pipe
60: cover plate 70: supply revolver
72: insertion chamber 80: pressurized cylinder
90: transfer cylinder 100: heater
110: auxiliary transfer cylinder 120: loading housing

Claims (3)

A pyrolysis furnace 10 in which an inlet 11 is formed on a virtual rotation path R that rotates about a rotation shaft 13 formed in front and back, and a waste is accommodated therein;
a heating unit 20 for heating the pyrolysis furnace 10 so that waste is pyrolyzed in the pyrolysis furnace 10; and
and a supply unit 30 for supplying waste to the inside of the pyrolysis furnace 10;
The supply unit 30,
an input hopper 40 provided in front of the pyrolysis furnace 10 and into which waste is put;
One end is in communication with the lower end of the input hopper 40 and the other end extending toward the front of the pyrolysis furnace 10 is disposed on the virtual rotation path R of the pyrolysis furnace 10 , the pyrolysis furnace 10 a waste transport pipe 50 having an outlet 51 that is not aligned with the inlet 11 of the;
A first through hole 61 that is installed spaced apart from the front of the pyrolysis furnace 10, the other end of the waste transport pipe 50 is coupled to the front, and communicates with the outlet 51 of the waste transport pipe 50 on the surface. and a cover plate 60 having a second through hole 62 aligned with the inlet 11 of the pyrolysis furnace 10;
It is provided so that the front and rear surfaces are closed between the pyrolysis furnace 10 and the cover plate 60, and is rotatably coupled to the pyrolysis furnace 10 about the rotation shaft 13, and is rotated about the rotation shaft 13 Accordingly, a plurality of insertion chambers 72 penetrated back and forth so as to be aligned with the first and second through holes 61 and 62 of the cover plate 60 are spaced apart from each other on the virtual rotation path R of the pyrolysis furnace 10 . and a supply revolver 70 provided with a heater 100 around the insertion chamber 72;
It is provided at one end of the waste transport pipe 50 and pressurizes the waste input into the input hopper 40 into the insertion chamber 72 of the supply revolver 70 through the outlet 51 of the waste transport pipe 50. a pressurized cylinder 80 for generating compressed waste (1); and
Provided in the second through hole 62 of the cover plate 60, one side insertion chamber 72 of the supply revolver 70 into which the compressed waste 2 is inserted is a pyrolysis furnace ( When aligned with the inlet 11 of 10), the conveying cylinder 90 for putting the compressed waste 1 into the pyrolysis furnace 10 through the inlet 11 of the pyrolysis furnace 10;
The one side insertion chamber 72 of the supply revolver 70 communicates with the first through hole 61 of the cover plate 60 and the discharge port 51 of the waste conveying pipe 50, so that the waste is discharged from the one side insertion chamber 72 In the supplied state, the inlet 11 of the pyrolysis furnace 10 is isolated from the outlet 51 of the waste transfer pipe 50 by the partition wall 70a between the insertion chambers 72 of the supply revolver 70, A revolver type continuous pyrolysis device, characterized in that the oxygen introduced into the transfer pipe (50) is blocked from flowing into the pyrolysis furnace (10). The insertion chamber (72) according to claim 1, wherein the remaining insertion chambers (72) of the supply revolver (70) that are not aligned with the first and second through holes (61, 62) are aligned in the cover plate (60). ) Revolver type continuous pyrolysis device, characterized in that the discharge hole (64) through which the air and moisture generated from the compressed waste (1) inserted in the is formed. The internal space of claim 1 or 2, wherein the supply revolver (70) has a shaft hole (71) into which the rotating shaft (13) is inserted, and the supply revolver (70) is filled with oil (2). A revolver, characterized in that 73 is formed, and in this inner space 73, a plurality of rod-type heaters 100 are radially arranged to cross between the respective insertion chambers 72 with the shaft hole 71 as the center. Expression continuous pyrolysis device.

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