KR20120118841A - Screw reactor for the de-chlorination of waste plastic and heating facility with the circulated heat medium system having this - Google Patents

Abstract

PURPOSE: A screw reactor for the dechlorination of waste plastic and a heat medium circulating type heating structure using the same are provided to efficiently heat and melt waste plastic of non-conductivity by passing heat medium oil of 300 to 350 deg C through the outer vessel of the reactor and the inner vessels of a screw shaft. CONSTITUTION: A screw reactor for the dechlorination of waste plastic includes a plurality of screws(20), a jacket(10), a chlorine part outlet(15), and a heat medium oil feeding pump(P1). The screws stir and transfer waste plastic. The jacket covers the screws. Chlorine parts from the waste plastic in the jacket are discharged through the chlorine part outlet. The heat medium oil feeding pump feeds heat medium oil into the jacket. Inner vessels(21) are formed in a screw shaft. The screw reactor includes an inner vessel connecting pipe(40) and outer vessel connecting pipes(31, 32). The inner vessel connecting pipe connects the inner vessels. The outer vessel connecting pipes connect the jacket and the inner vessels. [Reference numerals] (AA) Specimen supplying hopper; (BB) Waste plastic melt; (CC) Heat medium boiler

Description

Screw reactor for the de-chlorination of waste plastic and heating facility with the circulated heat medium system having this}

The present invention relates to a screw reactor for dechlorination of waste plastics and a heat medium circulation heating structure using the same.

Waste plastics or waste vinyl are often inevitably mixed with PVC, which is a source of harmful substances such as hydrochloric acid or dioxins during combustion. Therefore, chlorine should be removed when using waste plastic as fuel. .

In order to solve the problem of chlorine emissions from the use of waste plastic fuel, it is proposed to add the limestone component in the manufacture of waste plastic fuel. However, due to the limitation of incineration ash and chlorine removal efficiency that occurs after combustion, there is a practical limit to the industrial application.

As a prior art devised to improve the method of adding such a reagent, Patent Application No. 599377, filed by the applicant of the present application, discloses an 'indirect heating desalination system for removing chlorine from PVC mixed polymer waste'.

According to the present invention of the present applicant, in particular, when the size of the waste plastic processing facility is large, there is an advantage that can be efficiently delivered to the waste plastic inside the jacket by the heat medium oil, but in practical application in the industrial field, using heat medium oil There is a need for a technology that can be normally driven in consideration of a more stable and efficient heat transfer structure and a coupling structure between each component in a more specific and organic manner.

The present invention devised to solve the problems as described above, the more stable and efficient heat transfer structure using the heat medium oil, and the debonding of the waste plastic that can be normally operated in consideration of more specifically, organically the coupling structure between each component An object of the present invention is to provide a screw reactor for chlorine treatment and a heat medium circulation heating structure using the same.

The present invention for achieving the object as described above, a plurality of screws 20 for stirring and conveying the waste plastic to the outlet, a jacket 10 for covering the screw 20 from the outside, and the jacket 10 The chlorine powder outlet 15 for discharging chlorine generated from the waste plastic therein and a heat medium oil supply pump P1 for supplying heat medium oil to the jacket 10 are provided. Is disposed below, the inner cylinder 21 in which the heat medium oil flowing into the jacket 10 flows is formed inside the screw shaft, the heat medium oil introduced into the inner cylinder 21 of one side of the screw 20 is different An inner cylinder connecting pipe 40 which connects the inner cylinder 21 to each other outside the jacket 10 so as to be introduced into the inner cylinder 21 of a screw; And an outer cylinder connecting tube interconnecting the jacket 10 and the inner tube 21 of the screw to the outside of the jacket 10 to enable continuous flow of the heat medium oil between the jacket 10 and the inner cylinder 21 of the screw. Screw reactor for dechlorination of the waste plastic comprising;

Here, the jacket 10 is divided into upper and lower portions according to the position of the screw 20, the outer cylinder 11 is formed around the outer fluid 11, the heat medium oil flows, the upper and lower portions between the inner cylinder 11 It may include; a diaphragm 12 is formed continuously in the horizontal direction in the outer cylinder 11 to block the flow of heat medium oil.

In addition, a lower portion of the outer cylinder 11 of the jacket is connected to the inner cylinder 21 of the screw positioned below the plurality of screws 20, and an upper portion of the outer cylinder 11 of the jacket is the plurality of screws 20. It can be connected to the inner cylinder 21 of the screw located on the upper side.

In addition, the outer tube connecting pipe, the lower connecting pipe 31 for interconnecting the inner cylinder 21 of the screw located on the lower side of the jacket 10 and the plurality of screws 20; And an upper connecting pipe 32 interconnecting the outer cylinder 11 of the screw 20 located above the upper portion of the jacket 10 and the plurality of screws 20.

In addition, the outer cylinder 11 of the jacket, the inner cylinder 21 of the screw, the inner cylinder connecting pipe 40, the outer cylinder connecting pipe, the heat medium oil flowed into the outer cylinder 11 lower portion of the jacket, the outer cylinder 11 of the jacket Lower, inner cylinder 21 of the screw positioned on the lower side of the plurality of screws 20, inner cylinder 21 of the screw located on the upper side of the plurality of screws 20, the outer cylinder 11 of the jacket It can form a flow path that can sequentially pass through.

In addition, the heat medium oil may be heated to a temperature of 300 or more to 350 ° C. or less in a heat medium boiler, and may be supplied to the jacket 10.

In addition, the jacket fixing mechanical seal 51 for rotatably coupling the screw shaft of the screw 20 extending out of the jacket 10 on the side wall 13 of the jacket;

In addition, the screw 20 is provided with two, the jacket fixing mechanical seal 51 may be installed at four places corresponding to the intersection between the both ends of each of the screw shaft and the jacket 10.

In addition, the inner cylinder connecting mechanical seal 52 for rotatably coupling the screw shaft of the screw 20 extending to the outside of the jacket 10 on the end of the inner tube connecting pipe (40).

In addition, the outer cylinder connecting mechanical seal 53 for rotatably coupling the screw shaft of the screw 20 extending to the outside of the jacket 10 on the end of the outer tube connecting pipe;

In addition, a discharge port 17 for discharging the waste plastic in the jacket 10 is formed between the upper and lower screw shafts, and the inner tube connecting pipe 40 connecting the upper and lower screw shafts is the discharge port ( It may have a shape bent to avoid the flow path with the waste plastic discharged through the 17).

In addition, the inner tube connecting tube 40 may have a bent portion bent so that the vertical extension portion 43 connecting the upper, lower both ends is located in the front or rear than the upper, lower both ends.

In addition, the cooling water circulator 60 for supplying cooling water to the outer cylinder connecting mechanical seal 53 or the inner cylinder connecting mechanical seal 52 to prevent damage due to the high temperature of the heat medium oil; may further include.

In addition, the cooling water circulator 60, the cooler 61 for cooling the cooling water; And the cooling water sequentially passes through an outlet of the cooler 61, one side and the other side of the inner cylinder connecting mechanical seal 52, one side and the other side of the outer cylinder connecting mechanical seal 53, and an inlet of the cooler 61. And a coolant circulation line 62 forming a continuously circulating coolant flow path.

In addition, the screw drive chain 70 is coupled to the screw shaft of the plurality of screws 20 extending to the outside of the jacket 10 to transmit and rotate the rotational force of the motor (P2) to the screw 20; It may further include.

In addition, the inner cylinder insert 80 is inserted into the inner cylinder 21 to reduce the cross-sectional area of the inner cylinder 21; may further include.

In addition, the inner cylinder insert 80 may have a bar or cylinder shape that extends continuously in the longitudinal direction of the inner cylinder 21.

In addition, the inner cylinder insert 80, both ends may be formed in a conical shape.

In addition, the present invention, a plurality of screws 20 for stirring and conveying the waste plastic to the outlet, the jacket 10 for covering the screw 20 from the outside, and in the waste plastic inside the jacket 10 The chlorine powder discharge port 15 through which the generated chlorine powder is discharged, and the thermal oil feed pump P1 for supplying the thermal fluid oil to the jacket 10 is provided, and the plurality of screws 20 are disposed up and down. An inner cylinder 21 through which the heat medium oil flowing into the jacket 10 flows is formed in the screw shaft, and the jacket 10 is partitioned into upper and lower sides according to the position of the screw 20, and the heat medium An outer cylinder 11 capable of flowing oil is formed, and the inner cylinder from the outside of the jacket 10 to allow the heat medium oil introduced into the inner cylinder 21 of one of the screws 20 to flow into the inner cylinder 21 of the other screw. Inner cylinder connecting pipe (40) for connecting each other (21); An outer cylinder connecting tube which interconnects the inner cylinder 21 of the jacket 10 and the screw outside the jacket 10 to enable continuous flow of the heat medium oil between the outer cylinder 11 and the inner cylinder 21; A jacket fixing mechanical seal (51) rotatably coupling the screw shaft of the screw (20) extending out of the jacket (10) onto the side wall (13) of the jacket; An inner cylinder connecting mechanical seal 52 rotatably coupling a screw shaft of the screw 20 extending out of the jacket 10 on an end of the inner tube connecting tube 40; And an outer cylinder connecting mechanical seal (53) rotatably coupling the screw shaft of the screw (20) extending out of the jacket (10) to the end of the outer tube connecting pipe (53). Screw reactors are another technical subject.

Here, the cooling water circulation device 60 for supplying the cooling water to the outer cylinder connecting mechanical seal 53 or the inner cylinder connecting mechanical seal 52 to prevent damage due to the high temperature of the heat medium oil; may further include.

In addition, the cooling water circulator 60, the cooler 61 for cooling the cooling water; And the cooling water sequentially passes through an outlet of the cooler 61, one side and the other side of the inner cylinder connecting mechanical seal 52, one side and the other side of the outer cylinder connecting mechanical seal 53, and an inlet of the cooler 61. And a coolant circulation line 62 forming a continuously circulating coolant flow path.

In addition, the present invention is a plurality of screws 20 for stirring and conveying the waste plastic to the outlet, the jacket 10 for covering the screw 20 from the outside, and generated in the waste plastic inside the jacket 10 In the dechlorination treatment of waste plastic with a screw reactor having a chlorine powder discharge port through which chlorine powder is discharged and a heat medium pump for supplying heat medium oil to the jacket 10, the inner cylinder 21 of one side of the screw 20. An inner cylinder connecting pipe 40 which connects the inner cylinder 21 to the outside of the jacket 10 so that the heat medium oil introduced into the inner cylinder 21 of the other screw and the jacket 10 and the screw By the outer cylinder connecting pipe interconnecting the jacket 10 and the inner cylinder 21 of the screw outside the jacket 10 to enable continuous flow of the thermal fluid between the inner cylinder 21, the thermal fluid oil of the jacket Lower part of the outer cylinder (11), The inner cylinder 21 of the screw positioned below the plurality of screws 20, the inner cylinder 21 of the screw positioned above the plurality of screws 20, and an upper portion of the outer cylinder 11 of the jacket are sequentially formed. The heat medium circulation heating structure of the screw reactor for the dechlorination treatment of waste plastic which heats the waste plastic in the jacket 10 while continuously passing through it is another technical gist.

Here, the inner shaft connecting mechanical seal 52 and the outer cylinder connecting the screw shaft of the screw 20 extending outside the jacket 10 rotatably coupled to the inner tube connecting tube 40, the end of the outer tube connecting tube, respectively. Cooling water may be supplied to the outer cylinder connecting mechanical seal 53 or the inner cylinder connecting mechanical seal 52 to prevent overheating damage of the mechanical seal 53.

In addition, the coolant passes sequentially through the outlet of the cooler 61, one side and the other side of the inner cylinder connecting mechanical seal 52, one side and the other side of the outer cylinder connecting mechanical seal 53, and an inlet of the cooler 61. It can be cycled continuously.

According to the present invention having the above-described configuration, the thermal fluid of 300 ~ 350 ℃ is sequentially passed through the outer cylinder of the screw reactor and the inner shaft of the screw shaft to efficiently pass the non-conductive waste plastics inside the jacket from inside and outside Allow to heat and melt.

Although the concentration of chlorine in waste vinyl contained in household waste before dechlorination is generally about 1.0-2.0%, the concentration of chlorine may be lowered to 0.6% or less when the dechlorination treatment according to an embodiment of the present invention is applied. In this way, the desalination efficiency can be dramatically improved, thereby contributing to the development of high-quality clean fuel with low chlorine content in utilizing waste plastics having high calorific value as energy in the high oil price era.

In addition, it has excellent applicability and can be used not only as a waste plastic treatment device but also as a dechlorination device for producing recycled products using waste vinyl as a raw material. In this case, melting is generally performed without dechlorination. Compared to the recycled material, the tensile strength can be increased significantly (double increase in 300 ~ 350 ℃ treatment).

Although most of the twin screw heating apparatus for melting waste plastic and waste vinyl currently installed on the market is limited to the external cylinder electric heating type, according to the present invention, the energy saving effect is achieved by the efficient heat transfer structure for supplying thermal oil to the inner cylinder of the screw. It can be expected and actively cope with the expansion of facilities due to industrialization in the future.

1-Conceptual view showing a screw reactor for dechlorination of waste plastics according to a first embodiment of the present invention
2-AA line cross-sectional view of FIG.
3-Perspective view of inner tube connector
4 is a conceptual diagram illustrating a screw reactor for dechlorination of waste plastics according to a second embodiment of the present invention.
5-4 is a cross-sectional view taken along line BB

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram illustrating a screw reactor for dechlorination of waste plastics according to a first embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line A-A of Figure 1, Figure 3 is a perspective view of the inner tube connecting tube.

According to the present invention, a plurality of screws 20 for stirring and conveying waste plastics to an outlet, a jacket 10 for covering the screws 20 from the outside, and chlorine powder generated from the waste plastics inside the jacket 10 The present invention relates to a screw reactor for dechlorination of waste plastic having a chlorine powder outlet (15) to be discharged and a heat medium oil supply pump (P1) for supplying heat medium oil to the jacket (10).

1 and 2, the screw reactor according to the first embodiment of the present invention includes a pair of the screw 20 arranged up and down, and the screw flows into the jacket 10 inside the screw shaft. An inner cylinder 21 in which a heat medium oil is flowable is formed, and the jacket 10 is divided into upper and lower parts according to the position of the screw 20, and has a structure in which an outer cylinder 11 in which the heat medium oil is flowable is formed. .

Referring to FIG. 2, an outer cylinder 11 through which the heat medium oil flows is formed around the jacket 10, and the inner cylinder 11 is formed in accordance with the position of the pair of screws 20 arranged up and down. It is divided into upper and lower parts.

In partitioning the inside of the outer cylinder 11 up and down so as to block the flow of the heat medium oil between the upper and lower portions of the outer cylinder 11, the inner wall and the outer wall of the outer cylinder 11 are located at an intermediate point in the vertical direction of the inner cylinder 11. The diaphragm 12 which connects (not shown) is continuously formed in the horizontal direction.

Outside the jacket 10, the inner cylinder connecting the inner cylinder 21 to each other so that the heat medium oil introduced into the inner cylinder 21 of the screw located in the lower side can be introduced into the inner cylinder 21 of the screw located in the upper side. The connecting pipe 40 is installed.

In addition, the outer surface of the jacket 10, which interconnects the jacket 10 and the inner cylinder 21 of the screw so that the heat medium oil can continuously flow between the jacket 10 and the inner cylinder 21 of the screw. Outer cylinder connecting pipes 31 and 32 are installed.

The outer tube connecting pipe (31, 32), and the lower connecting pipe 31 for interconnecting the inner cylinder 21 of the screw located on the lower side of the jacket 10 and the plurality of screws (20), It includes an upper connecting pipe 32 for interconnecting the outer cylinder 11 of the screw 20 located on the upper side of the jacket 10 and the plurality of screws 20 above.

The lower portion of the outer cylinder 11 of the jacket is connected to the inner cylinder 21 of the screw located below the plurality of screws 20 by the outer tube connecting pipes 31 and 32, and the outer cylinder 11 of the jacket. An upper part is connected to the inner cylinder 21 of the screw located above the plurality of screws 20.

The heat medium introduced into the outer cylinder 11 of the jacket by the outer cylinder 11 of the jacket, the inner cylinder 21 of the screw, the inner cylinder connecting pipe 40, the outer cylinder connecting pipes 31 and 32, The oil is provided in the lower part of the outer cylinder 11 of the jacket, the inner cylinder 21 of the screw located on the lower side of the screw 20, the inner cylinder 21 of the screw located on the upper side of the screw 20, and the outer cylinder of the jacket ( 11) While passing through the upper part in sequence, heat transfer for dechlorination of waste plastic is performed.

Both ends of the screw shaft of the screw 20 are installed to protrude out of the jacket 10, and an intersection portion between the screw shaft of the screw 20 and the jacket side wall 13 extending outside the jacket 10. (Connecting portion) is provided with a jacket fixing mechanical seal 51 for rotatably coupling the screw shaft of the screw 20 on the side wall 13 of the jacket.

In the first embodiment of the present invention, as the pair of screws 20 are provided, the jacket fixing mechanical seal 51 is provided at four positions corresponding to the intersections between both ends of each of the screw shafts and the jacket 10. Installation will be done.

At both ends of the screw shaft of the screw 20 located outside the jacket 10, the inner cylinder connecting mechanical seal 52 for rotatably coupling the screw shaft of the screw 20 on the end of the inner tube connecting pipe 40 ) And an outer cylinder connecting mechanical seal 53 rotatably coupled to the ends of the outer tube connecting pipes 31 and 32.

The jacket fixing mechanical seal 51, the inner cylinder connecting mechanical seal 52, the outer cylinder connecting mechanical seal 53, in consideration of the size, processing capacity, working conditions, etc. of the device comprehensively select a more suitable one from the known mechanical seals Since it is preferable to apply, detailed description of the structure and the principle is omitted.

In general, the mechanical seal has a structure including a ceramic ring and a carbon ring spring, wherein the outer diameter of the ceramic ring and the inner diameter of the housing (housing) are sealed with an o-ring, and between the inner diameter of the carbon ring and the outer diameter of the shaft (shaft). Part) is sealed with o-ring, and the surface of ceramic ring and carbon ring is driven by pushing carbon ring with spring, and the sealing is realized with the surface.

In addition, the jacket fixing mechanical seal 51, the inner cylinder connecting mechanical seal 52, the outer cylinder connecting mechanical seal 53 is representatively selected and described as being most suitable to apply to the embodiment of the present invention, It is not limited to a specific member and structure as long as the screw 20 can be rotatably fixed and supported while implementing an airtight structure capable of preventing the loss of the heat medium oil using another seal member.

In particular, since the jacket fixing mechanical seal 51 is sufficient to hermetically seal the outer peripheral surface of the screw shaft of the screw 20 and the side wall 13 of the jacket, it is possible to prevent the waste plastic melt flowing out of the jacket 10. If the pressure packing structure is implemented, it is desirable to apply an economical and rigid sealing member having a simpler structure.

While rotating the upper and lower screws 20 in opposite directions, the waste plastic is transferred from one side to the other side of the jacket 10 where the sample supply hopper is located to melt the waste plastic, and thus, the inside of the jacket 10. The discharge port 17 for discharging the waste plastic to the outside is preferably formed between the upper and lower screw shafts, the smoothest conveying force of the waste plastic.

Accordingly, the discharge port 17 is positioned to overlap or intersect with the inner cylinder connecting pipe 40 connecting the upper and lower screw shafts, and this difficulty is the waste discharged through the discharge port 17 It can be easily solved by forming the inner tube connecting pipe 40 in a bent shape to avoid the flow path with the plastic.

1 and 3, in forming the inner tube connecting tube 40, the vertical extension part 43 connecting the upper and lower ends thereof is bent to be positioned forward or rearward relative to the upper and lower both ends. If it is to have a be-shaped bent portion, both the installation and the external discharge of the waste plastic using the jacket fixing mechanical seal 51 and the inner cylinder connecting mechanical seal 52 can be easily implemented.

According to the experimental results of the applicant, it is preferable to heat the heat medium oil in a heat medium boiler to a temperature of 300 or more to 350 ° C or less to supply to the jacket 10, the jacket fixing mechanical seal 51, the external cylinder connection mechanical The seal 53, the inner cylinder connecting mechanical seal 52, and the like may include a material that is melted at a temperature of 300 to 350 ° C. or less.

Accordingly, the jacket fixing mechanical seal 51, the outer cylinder connecting mechanical to prevent damage to the jacket fixing mechanical seal 51, the outer cylinder connecting mechanical seal 53, the inner cylinder connecting mechanical seal 52 due to the high temperature of the heat medium oil A coolant circulator 60 is further provided to supply coolant to the seal 53 or the inner cylinder connecting mechanical seal 52.

In the first embodiment of the present invention, the coolant circulator 60 includes a cooler 61 for cooling the coolant, an outlet of the cooler 61, and the pair of inner cylinder connecting seals 52. One side and the other side, one of the pair of outer cylinder connecting mechanical seals 53, one side and the other side, the structure including a cooling water circulation line 62 to sequentially pass through the inlet of the cooler 61 to form a continuously circulating cooling water flow path (62) Has

Cooling water in the cooler 61 can be supplied to the inner cylinder connecting mechanical seal 52 by cooling to a constant temperature, and if the antifreeze is used as the coolant, it can be easily applied even in winter.

If a coolant flow path (not shown) is formed in the inner cylinder connecting mechanical seal 52 and the outer cylinder connecting mechanical seal 53 to communicate with the cooling water circulation line 62, the inner diameter portion may be formed by more direct heat exchange with the cooling water. It is possible to effectively prevent overheat damage such as a soft sealing member to be positioned.

The first embodiment of the present invention transmits the rotational force of the motor P2 to the screw 20 on the screw shaft of the plurality of screws 20 extending outside the jacket 10, the screw drive chain 70 has a coupled structure, by the screw movable chain 70, the plurality of screws 20 can be easily co-rotated outside the jacket 10.

The screw movable chain 70 is representatively selected and described as being most suitable to be applied to the embodiment of the present invention, it is possible to transmit a rotational force to the plurality of screws 20 from the jacket 10 outside. If so, it is not limited to a specific member and structure, including a belt member.

4 is a conceptual view illustrating a screw reactor for dechlorination of waste plastics according to a second embodiment of the present invention, and FIG. 5 is a cross-sectional view taken along line B-B of FIG. 4.

4 and 5, the screw reactor according to the second embodiment of the present invention, compared to the first embodiment of the present invention, by inserting the inner cylinder insert 80 into the inner cylinder 21, It has a structure in which the cross-sectional area of the inner cylinder 21 is further reduced.

In fixing the inner cylinder insert 80 at a designated position inside the inner cylinder 21, by connecting a connecting member such as the inner cylinder connecting portion 81 to the inner wall of the inner cylinder 21 by welding or the like, in FIG. The inner cylinder connecting portion 81 may be continuously formed along the longitudinal direction of the inner cylinder 21, or may be formed to be spaced apart over a plurality of places along the longitudinal direction of the inner cylinder 21, or two up and down. In addition to the two places, it may be formed radially, such as a spokes.

When the cross-sectional area of the inner cylinder 21 and the cross-sectional area of the upper or lower portion of the outer cylinder 11 separated by the diaphragm 12 are different, stagnation of the heat medium oil may partially occur, and The smaller the cross-sectional area, the higher the flow rate of the heat medium oil can reduce the temperature deviation in the flow direction to the longitudinal direction.

By providing the inner cylinder insert 80, the cross-sectional area of the inner cylinder 21 can be reduced and adjusted to compensate for the difference in the cross-sectional area and the passage flow rate with the outer cylinder 11. By increasing the flow rate, the heat transfer efficiency can be further improved.

The inner cylinder insert 80 has a bar or cylinder shape that extends continuously in the longitudinal direction of the inner cylinder 21, and when both ends are formed in a conical shape, the heat medium oil rides on a conical slope and the inner cylinder insert ( Since the fluid flows between the cylinder 80 and the inner cylinder 21, the thermal fluid flowing into the inner cylinder insert 80 or flowing out of the inner cylinder insert 80 is lost due to a rapid change in the cross-sectional area of the flow path. Impact, vortex, etc. are generated and it can prevent that fluidity falls.

According to the configuration of the second embodiment, the diameter of the inner cylinder connecting pipe 40, the outer cylinder connecting pipes (31, 32) may be smaller than the diameter of the screw shaft of the screw 20, as described above If there is a difference in diameter between the screw shaft and the inner tube connecting tube 40 and the outer tube connecting tubes 31 and 32, a reducer is additionally installed on the connecting end of one side having a smaller diameter. Complementary, the inner cylinder connecting mechanical seal 52 and the outer cylinder connecting mechanical seal 53 can be installed.

When using a screw reactor for the dechlorination of waste plastic according to the present invention having the configuration as described above, in the dechlorination treatment of waste plastic, the heat medium oil is lowered to the outer cylinder 11 of the jacket, the plurality of screws ( While continuously passing through the inner cylinder 21 of the screw located at the lower side of the 20), the inner cylinder 21 of the screw located at the upper side of the plurality of screws 20, and the upper portion of the outer cylinder 11 of the jacket sequentially. A heat medium circulation heating structure capable of heat treating the waste plastic in the jacket 10 may be implemented.

In addition, in the supply of cooling water to the outer cylinder connecting mechanical seal 53 or the inner cylinder connecting mechanical seal 52 to prevent overheat damage of the inner cylinder connecting mechanical seal 52 and the outer cylinder connecting mechanical seal 53, Passing through the outlet of the cooler 61, one side and the other side of the pair of inner cylinder connecting mechanical seals 52, one side and the other side of the pair of outer cylinder connecting mechanical seals 53, the inlet of the cooler 61 in sequence Can be circulated.

The chlorine gas discharged during the heating process of the waste plastic is discharged through the chlorine powder outlet 15 and is transported to and removed from the designated processing position by a vacuum pump (not shown).

The present invention has been described with reference to preferred embodiments of the present invention, but the present invention is not limited to these embodiments, and the claims and detailed description of the present invention together with the embodiments in which the above embodiments are simply combined with existing known technologies. In the present invention, it can be seen that the technology that can be modified and used by those skilled in the art are naturally included in the technical scope of the present invention.

10: jacket 11: outer cylinder
12: diaphragm 13: side wall
15: chlorine discharge port 17: discharge port
20: screw 21: inner cylinder
31: lower connector 32: upper connector
40: inner tube connector 43: vertical extension
51: Jacket fixing mechanical seal 52: Inner cylinder connection mechanical seal
53: external seal mechanical seal 60: cooling water circulation device
61: cooler 62: coolant circulation line
70: screw operation chain 80: inner cylinder insert
81: inner cylinder connection P1: heat medium oil supply pump
P2: motor

Claims (24)

Chlorine from which a plurality of screws 20 for agitating and conveying waste plastic to an outlet, a jacket 10 for covering the screws 20 from the outside, and chlorine generated from the waste plastic inside the jacket 10 are discharged. The minute outlet 15 and the heat medium oil supply pump (P1) for supplying heat medium oil to the jacket 10 is provided,
The plurality of screws 20 are disposed up and down, and the inner cylinder 21 in which the heat medium oil flowing into the jacket 10 flows is formed inside the screw shaft.
An inner cylinder connecting pipe connecting the inner cylinder 21 to the outside of the jacket 10 so that the heat medium oil introduced into the inner cylinder 21 of one of the screws 20 can enter the inner cylinder 21 of the other screw ( 40); And
An outer cylinder connecting pipe interconnecting the jacket 10 and the inner cylinder 21 of the screw to allow the continuous flow of the heat medium oil between the jacket 10 and the inner cylinder 21 of the screw;
Screw reactor for dechlorination of waste plastic comprising a.
The method of claim 1,
The jacket 10,
According to the position of the screw 20 is divided into upper and lower, the outer cylinder 11 is formed around the heat medium oil flowable,
A diaphragm 12 continuously formed in the outer cylinder 11 in a horizontal direction to block the flow of the heat medium between upper and lower portions of the outer cylinder 11;
Screw reactor for dechlorination of waste plastic comprising a.
The method according to claim 1 or 2,
The lower portion of the outer cylinder 11 of the jacket is connected to the inner cylinder 21 of the screw positioned below the plurality of screws 20, and the upper portion of the outer cylinder 11 of the jacket is the upper side of the plurality of screws 20. Screw reactor for dechlorination of waste plastics connected to the inner cylinder (21) of the screw located in.
The method according to claim 1 or 2,
The outer tube connecting pipe,
A lower connection pipe 31 interconnecting a lower portion of the jacket 10 and an inner cylinder 21 of the screw positioned on a lower side of the plurality of screws 20; And
An upper connecting pipe 32 interconnecting an upper portion of the jacket 10 and an outer cylinder 11 of the screw 20 positioned on an upper side of the plurality of screws 20;
Screw reactor for dechlorination of waste plastic comprising a.
The method according to claim 1 or 2,
The outer cylinder 11 of the jacket, the inner cylinder 21 of the screw, the inner cylinder connecting pipe 40, the outer cylinder connecting pipe,
The heat medium oil introduced into the outer cylinder 11 of the jacket is lower than the outer cylinder 11 of the jacket, the inner cylinder 21 of the screw located below the plurality of screws 20, and the plurality of screws 20. Screw reactor for dechlorination of the waste plastic to form a flow path that can pass sequentially through the inner cylinder (21) of the screw, the upper portion of the outer cylinder (11) of the jacket located in the upper side.
The method according to claim 1 or 2,
The heat medium oil,
Screw reactor for the dechlorination treatment of waste plastic which is heated to a temperature of more than 300 to 350 ℃ in a heat medium boiler supplied to the jacket (10).
The method according to claim 1 or 2,
A jacket fixing mechanical seal (51) rotatably coupling the screw shaft of the screw (20) extending out of the jacket (10) onto the side wall (13) of the jacket;
Screw reactor for dechlorination of the waste plastic further comprising.
The method of claim 7, wherein
The screw 20 is provided with two,
The jacket fixing mechanical seal (51) is a screw reactor for dechlorination of waste plastics installed at four places corresponding to the intersections between both ends of each of the screw shaft and the jacket (10).
The method of claim 1,
An inner cylinder connecting mechanical seal 52 rotatably coupling a screw shaft of the screw 20 extending out of the jacket 10 on an end of the inner tube connecting tube 40;
Screw reactor for dechlorination of the waste plastic further comprising.
The method of claim 1,
An outer cylinder connecting mechanical seal 53 rotatably coupling a screw shaft of the screw 20 extending out of the jacket 10 onto an end of the outer tube connecting tube;
Screw reactor for dechlorination of the waste plastic further comprising.
The method of claim 1,
A discharge port 17 for discharging the waste plastic inside the jacket 10 is formed between the upper and lower screw shafts, and the inner tube connecting pipe 40 connecting the upper and lower screw shafts is the discharge port 17. Screw reactor for dechlorination of the waste plastic having a shape bent to avoid the flow path with the waste plastic discharged through.
The method of claim 11,
The inner tube connecting pipe 40,
Screw reactor for dechlorination of the waste plastic having an L-shaped bent portion is bent so that the vertical extension portion (43) connecting the upper, lower both ends are located in the front or rear than the upper, lower both ends.
11. The method according to claim 9 or 10,
Cooling water circulator 60 for supplying cooling water to the outer cylinder connecting mechanical seal 53 or the inner cylinder connecting mechanical seal 52 to prevent damage due to the high temperature of the heat medium oil;
Screw reactor for dechlorination of the waste plastic further comprising.
The method of claim 13,
The cooling water circulation device 60,
A cooler (61) for cooling the coolant; And
The cooling water sequentially passes through the outlet of the cooler 61, one side and the other side of the inner cylinder connecting mechanical seal 52, one side and the other side of the outer cylinder connecting mechanical seal 53, and the inlet of the cooler 61 in sequence. Cooling water circulation line 62 to form a cooling water flow path circulating with;
Screw reactor for dechlorination of waste plastic comprising a.
The method according to claim 1 or 2,
A screw driving chain (70) coupled to the screw shafts of the plurality of screws (20) extending outside the jacket (10) to transmit and rotate the rotational force of the motor (P2) to the screw (20);
Screw reactor for dechlorination of the waste plastic further comprising.
The method according to claim 1 or 2,
An inner cylinder insert 80 inserted into the inner cylinder 21 to reduce a cross-sectional area of the inner cylinder 21;
Screw reactor for dechlorination of the waste plastic further comprising.
The method of claim 16,
The inner cylinder insert 80,
Screw reactor for dechlorination of waste plastics having a bar or cylinder shape extending continuously in the longitudinal direction of the inner cylinder (21).
18. The method of claim 17,
The inner cylinder insert 80,
A screw reactor for dechlorination of waste plastic having both ends formed in a conical shape.

Chlorine from which a plurality of screws 20 for agitating and conveying waste plastic to an outlet, a jacket 10 for covering the screws 20 from the outside, and chlorine generated from the waste plastic inside the jacket 10 are discharged. The minute outlet 15 and the heat medium oil supply pump (P1) for supplying heat medium oil to the jacket 10 is provided,
The plurality of screws 20 are disposed up and down, and the inner cylinder 21 in which the heat medium oil flowing into the jacket 10 flows is formed inside the screw shaft.
The jacket 10 is divided into upper and lower sides according to the position of the screw 20, the outer cylinder 11 is formed around the heat medium oil flow,
An inner cylinder connecting pipe connecting the inner cylinder 21 to the outside of the jacket 10 so that the heat medium oil introduced into the inner cylinder 21 of one of the screws 20 can enter the inner cylinder 21 of the other screw ( 40);
An outer cylinder connecting tube which interconnects the inner cylinder 21 of the jacket 10 and the screw outside the jacket 10 to enable continuous flow of the heat medium oil between the outer cylinder 11 and the inner cylinder 21;
A jacket fixing mechanical seal (51) rotatably coupling the screw shaft of the screw (20) extending out of the jacket (10) onto the side wall (13) of the jacket;
An inner cylinder connecting mechanical seal 52 rotatably coupling a screw shaft of the screw 20 extending out of the jacket 10 on an end of the inner tube connecting tube 40; And
An outer cylinder connecting mechanical seal 53 rotatably coupling a screw shaft of the screw 20 extending out of the jacket 10 onto an end of the outer tube connecting tube;
Screw reactor for dechlorination of waste plastic comprising a.
20. The method of claim 19,
Cooling water circulator 60 for supplying cooling water to the outer cylinder connecting mechanical seal 53 or the inner cylinder connecting mechanical seal 52 to prevent damage due to the high temperature of the heat medium oil;
Screw reactor for dechlorination of the waste plastic further comprising.
21. The method of claim 20,
The cooling water circulation device 60,
A cooler (61) for cooling the coolant; And
The cooling water sequentially passes through the outlet of the cooler 61, one side and the other side of the inner cylinder connecting mechanical seal 52, one side and the other side of the outer cylinder connecting mechanical seal 53, and the inlet of the cooler 61 in sequence. Cooling water circulation line 62 to form a cooling water flow path circulating with;
Screw reactor for dechlorination of waste plastic comprising a.
Chlorine from which a plurality of screws 20 for agitating and conveying waste plastic to an outlet, a jacket 10 for covering the screws 20 from the outside, and chlorine generated from the waste plastic inside the jacket 10 are discharged. In dechlorination of waste plastic with a screw reactor having a powder outlet and a heat medium pump for supplying heat medium oil to the jacket 10,
An inner cylinder connecting pipe connecting the inner cylinder 21 to the outside of the jacket 10 so that the heat medium oil introduced into the inner cylinder 21 of one of the screws 20 can enter the inner cylinder 21 of the other screw ( 40 and interconnecting the jacket 10 and the inner cylinder 21 of the screw to the outside of the jacket 10 to enable continuous flow of the thermal fluid between the jacket 10 and the inner cylinder 21 of the screw. By outer tube connector,
The inner barrel 21 of the screw positioned below the outer cylinder 11 of the jacket, the lower portion of the plurality of screws 20, and the inner cylinder of the screw positioned above the plurality of screws 20 ( 21), the heat medium circulation heating structure of the screw reactor for the dechlorination treatment of the waste plastic to heat the waste plastic in the jacket (10) while successively passing the upper portion of the outer casing (11) of the jacket.
The method of claim 22,
An inner cylinder connecting mechanical seal 52 and an outer cylinder connecting mechanical seal rotatably coupling the screw shaft of the screw 20 extending out of the jacket 10 to the inner tube connecting tube 40 and the ends of the outer tube connecting tube, respectively. Heat medium circulation heating structure of the screw reactor for the dechlorination treatment of waste plastic for supplying cooling water to the outer cylinder connecting mechanical seal (53) or the inner cylinder connecting mechanical seal (52) to prevent overheating damage of (53).
24. The method of claim 23,
The coolant passes sequentially through the outlet of the cooler 61, one side and the other side of the inner cylinder connecting mechanical seal 52, one side and the other side of the outer cylinder connecting mechanical seal 53, and the inlet of the cooler 61 sequentially. Heat medium circulation heating structure of screw reactor for dechlorination of waste plastic to circulate.

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