JP2015210067A - Lifter, lifter construction method and rotary kiln - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lifter, lifter construction method and rotary kiln in which installation and replacement of the lifter in the rotary kiln can be easily carried out.SOLUTION: This invention relates to a lifter 20 fixed to an inner wall 10d of a rotary kiln. Its first direction is defined as a longitudinal direction X, a sectional shape perpendicular to the first direction is a T-shape. It has a first plate part 25 and a second plate part 26 protruded from the first plate part 25 toward the inner side of the rotary kiln, both sides at the first plate part 25 holding the second plate part 26 between them are formed with open-holes through which anchor bolts 30 are passed, and this invention also relates to a construction method for the lifter 20 and a rotary kiln.

Description

  The present invention relates to a lifter, a lifter construction method, and a rotary kiln.

  Industrial waste is incinerated by a rotary kiln. The rotary kiln has a cylindrical shape, and the inner wall is fireproofed. Incinerators such as industrial waste are agitated and incinerated by the rotation of the rotary kiln.

  A lifter for stirring the incinerated product is installed on the inner wall of the rotary kiln, and the incineration proceeds uniformly by stirring with the lifter. Conventionally, a lifter including a reinforcement anchor (reinforcement hardware) provided on an inner wall of a rotary kiln and an amorphous refractory fixed to the inner wall of the rotary kiln by a reinforcement anchor (reinforcement hardware) is known (for example, Patent Document 1, (See 2nd grade).

JP 2005-24137 A JP-A-4-292785

  However, in Patent Documents 1 and 2 described above, since it is necessary to embed a reinforcing anchor (reinforcing hardware) in an irregular refractory, a great deal of labor is required to install and replace the lifter.

  Then, an object of this invention is to provide the lifter which can perform installation and replacement | exchange of a lifter easily, the construction method of a lifter, and a rotary kiln in view of said subject.

  The lifter according to the present invention is a lifter fixed to the inner wall of the rotary kiln, wherein the first direction is the longitudinal direction, the cross-sectional shape perpendicular to the first direction is a T-shape, and the lifter is fixed to the inner wall of the rotary kiln. A first plate portion and a second plate portion projecting from the first plate portion to the inside of the rotary kiln, on both sides of the first plate portion sandwiching the second plate portion, on the inner wall of the rotary kiln A through-hole through which an anchor bolt for fixing is inserted is formed.

  In this case, six or more through holes may be formed for a length of 1000 mm in the first direction of the first plate portion. The material of the first plate portion and the second plate portion may be acid resistant stainless steel. In this case, the acid resistant stainless steel may be SUS310S. In the present invention, the diameter of the through hole may be 20 mm or more.

  In the rotary kiln of the present invention, the lifter of the present invention is fixed to the inner wall by using anchor bolts and anchor nuts that are driven into the inner wall that forms a space for burning the incinerated material.

  In this case, a plurality of the lifters may be fixed to the inner wall, and the plurality of lifters may not be in a straight line. An irregular refractory may be provided in the gap between the first plate portion and the inner wall. In addition, an irregular refractory may be provided so as to cover the anchor nut and the anchor bolt. The amorphous refractory may be a plastic refractory material. The anchor bolt and the anchor nut may be acid resistant stainless steel.

  The lifter construction method of the present invention includes a step of inserting an anchor bolt driven into the inner wall of the rotary kiln into the through hole of the lifter of the present invention, and a step of screwing an anchor nut to the anchor bolt.

  The lifter, the lifter construction method, and the rotary kiln of the present invention have an effect that the lifter can be easily installed and replaced.

FIG. 1 is a schematic diagram illustrating a rotary kiln according to an embodiment. FIG. 2A is an enlarged view of the inside of the rotary kiln in the vicinity of the opening, and FIG. 2B is a diagram showing a state where the lifter fixed to the inner wall of the rotary kiln is viewed from the −X direction. . FIG. 3A is a perspective view for explaining the configuration of the lifter, and FIG. 3B is a perspective view showing a state in which the lifter is fixed to the inner wall of the rotary kiln. FIG. 4 is a diagram illustrating a comparative example.

  Hereinafter, an embodiment for carrying out the present invention will be described.

  Drawing 1 is a mimetic diagram showing rotary kiln 10 concerning one embodiment. As shown in FIG. 1, the rotary kiln 10 has a cylindrical portion 10d extending in the left-right direction on the paper surface, and a burner 10a is provided inside. The length L0 of the cylindrical portion 10d of the rotary kiln 10 is, for example, 50 m.

  The rotary kiln 10 is charged with air and fuel oil. In addition, waste oil, waste solvent, waste acid, waste alkali, and the like are also charged into the rotary kiln 10. Waste, such as waste plastic, is input as an input from the opening 10b of the rotary kiln 10 to the cylindrical portion 10d. Since the cylindrical portion 10d of the rotary kiln 10 rotates about the X axis as a rotation axis, the input material is incinerated in the rotary kiln 10 while being stirred by a lifter 20 described later. The incinerated charge is discharged out of the cylindrical portion 10d through the opening 10b. The cinder is discharged from the rotary kiln 10.

  2A is an enlarged view of the inside of the cylindrical portion 10d of the rotary kiln 10 near the opening 10b.

  A plurality of lifters 20 are provided inside (inner wall) the cylindrical portion 10 d of the rotary kiln 10. FIG. 2A illustrates three lifters 20 a to 20 c among the plurality of lifters 20. In the present embodiment, as an example, four sets of three lifters 20a to 20c are provided on the inner wall of the rotary kiln 10 at 90 ° intervals.

  The lifters 20a to 20c are not arranged on a straight line, but are arranged so as to form a step in the rotation direction. For example, the dimension D1 shown in FIG. 2A is assumed to be about 300 mm.

  FIG. 2B is a diagram illustrating a state where the lifter 20 fixed to the inner wall of the rotary kiln 10 is viewed from the −X direction. FIG. 3A is a perspective view for explaining the configuration of the lifter 20, and FIG. 3B is a perspective view showing a state where the lifter 20 is fixed to the inner wall of the rotary kiln.

  As shown in FIGS. 2B to 3B, the lifter 20 has two L-shaped angles 21 made of acid-resistant stainless steel such as SUS310S, for example. It is fixed by welding. The angle 21 includes a plate portion 22 having a surface extending in the XZ direction with the X axis direction as a longitudinal direction, a plate portion 23 having a surface extending in the X and Y directions with the X axis direction as a longitudinal direction, and the plate portion 22 and the plate portion 23. And a reinforcing plate portion 24 provided therebetween. The angle formed by the plate portion 22 and the plate portion 23 is 90 °. Note that the lifter 20 has a T-shaped YZ cross section when viewed as a whole, and the plate portion 22 portion of each angle 21 becomes a first plate portion 25 having a surface extending in the XZ direction. The plate portion 23 is a second plate portion 26 having a surface extending in the XY direction. In FIG. 2B, the length L1 of the lifter 20 in the X-axis direction is, for example, 1000 mm, and the height H is, for example, 70 mm. The width W1 in the Z-axis direction of the plate portion 22 is, for example, 70 mm, and the width W2 in the Z-axis direction of the first plate portion 25 is twice the width W1 (for example, 140 mm). The thickness T of the plate portions 22 and 23 is 9 mm, for example.

  A plurality (three in this embodiment) of through holes 27 are formed in the plate portion 22 of each angle 21 at a predetermined interval. That is, two rows of three through holes 27 are formed in the first plate portion 25 of the lifter 20 with the second plate portion 26 interposed therebetween. The reinforcing plate portion 24 is provided at substantially equal intervals from the through holes 27 adjacent in the X-axis direction. A distance D2 between the through holes 27 arranged in the X-axis direction is, for example, 400 mm. The diameter of the through hole 27 is, for example, 20 mm or more.

  As shown in FIG. 2B, the lifter 20 has an anchor bolt 30 driven into the inner wall of the cylindrical portion 10d of the rotary kiln 10 inserted into the through hole 27, and the anchor bolt 30 has anchor nuts 31, 32 (double By fastening (screwing) a nut, the nut is fixed to the inner wall of the cylindrical portion 10d of the rotary kiln 10. In addition, as a material of the anchor bolt 30 or the anchor nuts 31 and 32, for example, acid resistant stainless steel such as SUS310S can be adopted. Moreover, the diameter of the anchor bolt 30 is 20 mm or more, for example.

  When fixing the lifter 20, as shown in FIG. 2 (b), the indefinite refractory 40 is embedded in the gap between the first plate portion 25 and the inner wall of the cylindrical portion 10 d of the rotary kiln 10. The amorphous refractory 40 is, for example, a plastic refractory material. The amorphous refractory 40 can suppress the input (incinerated product) from entering the gap between the first plate portion 25 and the inner wall of the cylindrical portion 10d of the rotary kiln 10. Moreover, since the lifter 20 can be stably fixed by the irregular refractory 40, the lifter 20 can be prevented from falling off.

  Further, after fixing the lifter 20, as shown in FIG. 2 (b) and FIG. 3 (b), the amorphous refractory 41 is attached so as to cover the + Y side end of the anchor bolt 30 and the anchor nuts 31, 32. Provide. The amorphous refractory 41 is, for example, a plastic refractory material. As a result, the anchor bolt 30 and the anchor nuts 31 and 32 are completely covered with the irregular refractory 41 and are not exposed, so that the anchor bolt 30 and the anchor nuts 31 and 32 are protected from heat and input (incinerated material). Damage is suppressed. Further, since the impact due to the collision with the input material is softened, the occurrence of loosening or dropping off of the anchor nuts 31 and 32 is suppressed.

  As described above, according to this embodiment, the YZ cross section of the rotary kiln 10 is T-shaped, the first plate portion 25 fixed to the inner wall of the rotary kiln, and the inner side of the rotary kiln 10 from the first plate portion 25. And a through hole 27 through which the anchor bolt 30 is inserted is provided on both sides of the first plate portion 25 with the second plate portion 26 interposed therebetween. For this reason, the lifter 20 can be easily installed in the rotary kiln 10 by inserting the anchor bolt 30 into the through hole 27 and tightening (screwing) the anchor nuts 31 and 32. Moreover, since the lifter 20 can be easily removed from the inner wall of the rotary kiln 10 by removing the anchor nuts 31 and 32 from the anchor bolt 30 and extracting the lifter from the anchor bolt 30, the replacement of the lifter 20 is easy. The lifter 20 has a T-shaped cross section, and is fixed to the inner wall of the rotary kiln 10 by anchor bolts 30 and anchor nuts 31 and 32 at a plurality of positions on both sides of the first plate portion 25 across the second plate portion 26. Therefore, the fixing strength can be maintained high. This point will be described using a comparative example.

  FIG. 4 is a diagram showing a comparative example (a diagram corresponding to FIG. 2B). In this comparative example, the angle 21 alone is used as a lifter.

  As shown in FIG. 4, the angle 21 is fixed to the inner wall of the rotary kiln 10 by an anchor bolt 30 and an anchor nut 31. The anchor nut 31 is welded to the plate portion 22 of the angle 21.

  In this comparative example, the angle 21 is fixed via three through holes formed in the plate portion 22 and arranged in the X-axis direction. For this reason, the fixing strength of the angle 21 is weak, and if the input (incinerated material) keeps in contact with the operation of the rotary kiln 10, the angle 21 may fall off.

  On the other hand, according to the present embodiment, the both sides of the first plate portion 25 sandwiching the second plate portion 26 are fixed by the anchor bolts 30 and the anchor nuts 31 and 32. Therefore, compared to the comparative example, The fixing strength of the lifter 20 can be increased.

  In the present embodiment, the lifter 20 having a T-shaped cross section is formed by welding two L-shaped angles 21, so that the first plate portion 25 and the second plate portion 26 are welded. Thus, the strength of the lifter can be improved compared to the case of forming a lifter having a T-shaped cross section. Further, since the second plate portion 26 is in a state where two plate portions 23 are overlapped, the strength of the lifter can be improved also in this respect.

  In the present embodiment, as shown in FIG. 2A, the lifters 20 a to 20 c are not arranged on a straight line, but are arranged stepwise with respect to the rotation direction of the rotary kiln 10. As a result, the input (incinerated product) is stirred in the vicinity of the opening 10b, and smoothly moves again in the direction of the opening 10b while maintaining a certain residence time.

  Further, in the present embodiment, acid resistant stainless steel such as SUS310S is adopted as the material of the lifter 20, the anchor bolt 30, and the anchor nuts 31 and 32. Therefore, the input material in the rotary kiln 10 contains a chlorine-based substance. Even when hydrochloric acid is generated by incineration, the occurrence of damage can be suppressed. However, the present invention is not limited to this, and a metal other than stainless steel may be employed as the material of each member.

  Moreover, in this embodiment, since the indefinite shape refractory 40 is provided in the clearance between the first plate portion 25 and the inner wall of the rotary kiln 10, the input (incineration) is provided in the clearance between the first plate portion 25 and the inner wall of the rotary kiln 10. ) Can be prevented from entering. Moreover, since the lifter 20 can be stably fixed by the irregular refractory 40, the lifter 20 can be prevented from falling off.

  Further, in the present embodiment, since the irregular refractory 41 is provided so as to cover the end portion of the anchor bolt 30 and the anchor nuts 31 and 32, it depends on the heat of the anchor bolt 30 and the anchor nuts 31 and 32 and the input. Damage can be suppressed. Moreover, since the impact caused by the collision with the input material is softened, the dropout of the anchor nuts 31 and 32 can be suppressed.

  Moreover, in this embodiment, since the reinforcement board part 24 is provided between the 2nd board part 26 and the 1st board part 25, a deformation | transformation of the lifter 20 can be suppressed. However, the reinforcing plate portion 24 is not necessarily provided. Further, in the above embodiment, the case where the lifter 20 includes two L-shaped angles 21 and welds these angles 21 to form a T-shaped section as a whole is not limited to this. The lifter 20 may be a single metal member (such as stainless steel) having a T-shaped cross section as a single unit.

  In addition, the dimension of the lifter 20 illustrated by the said embodiment, the number, arrangement | positioning, and the number, arrangement | positioning, etc. of the through-hole 27 are examples. Therefore, the size, number, and arrangement of the lifter 20 and the number and arrangement of the through holes 27 can be changed as appropriate. In this case, considering the size of the rotary kiln 10, the size, number, and arrangement of the lifter 20, and the number and arrangement of the through holes 27 can be set.

  In the above embodiment, the case where the anchor nuts 31 and 32 (double nuts) are fastened to the anchor bolt 30 has been described. However, the present invention is not limited to this, and only one nut may be fastened to the anchor bolt 30. .

  In the above embodiment, the input (incinerated product) may be taken out from the opening 10c on the opposite side of the opening 10b of the cylindrical portion 10d. In this case, the rotational direction of the rotary kiln 10 may be different from that in the above embodiment, and the arrangement direction of the lifters 20a to 20c may be changed to an arrangement direction that is vertically symmetrical with respect to FIG.

  Although the embodiments of the present invention have been described in detail above, the present invention is not limited to such specific embodiments, and various modifications and changes can be made within the scope of the gist of the present invention described in the claims. It can be changed.

DESCRIPTION OF SYMBOLS 10 Rotary kiln 20 Lifter 25 1st board part 26 2nd board part 27 Through-hole 30 Anchor bolt 31, 32 Anchor nut 40, 41 Amorphous refractory

Claims (12)

A lifter fixed to the inner wall of the rotary kiln,
The first direction is a longitudinal direction, and the cross-sectional shape perpendicular to the first direction is a T-shape, and the first plate portion fixed to the inner wall of the rotary kiln and the inner side of the rotary kiln protrude from the first plate portion. A second plate part,
The lifter according to claim 1, wherein through holes for inserting anchor bolts for fixing to the inner wall of the rotary kiln are formed on both sides of the second plate portion of the first plate portion.   The lifter according to claim 1, wherein six or more through holes are formed for a length of 1000 mm in the first direction of the first plate portion.   The lifter according to claim 1 or 2, wherein the material of the first plate portion and the second plate portion is acid-resistant stainless steel.   The lifter according to claim 3, wherein the acid-resistant stainless steel is SUS310S.   The lifter according to any one of claims 1 to 4, wherein the diameter of the through hole is 20 mm or more.   The lifter according to any one of claims 1 to 5 is fixed to the inner wall by using an anchor bolt and an anchor nut that are driven into an inner wall that forms a space for incineration of the incinerated material. A featured rotary kiln. A plurality of the lifters are fixed to the inner wall,
The rotary kiln according to claim 6, wherein the plurality of lifters are not in a straight line.   The rotary kiln according to claim 6 or 7, wherein an irregular refractory is provided in a gap between the first plate portion and the inner wall.   The rotary kiln according to any one of claims 6 to 8, wherein an amorphous refractory is provided so as to cover the anchor nut and the anchor bolt.   The rotary kiln according to claim 8 or 9, wherein the amorphous refractory is a plastic refractory material.   The rotary kiln according to any one of claims 6 to 10, wherein the anchor bolt and the anchor nut are acid-resistant stainless steel. A step of inserting the anchor bolt driven into the inner wall of the rotary kiln through the through hole of the lifter according to any one of claims 1 to 5,
And a step of screwing an anchor nut onto the anchor bolt.

Images