JP2007229570A - Rotating sieve apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a rotating sieve apparatus capable of efficiently performing rolling of a rod by preventing abrasion of a rolling generation means and capable of furthermore efficiently performing a sieving operation. <P>SOLUTION: In the rotating sieve apparatus, a main body part of a rotating drum 1 rotatably supported is formed of a plurality of rods 2 interposing sieving gaps of a direction substantially parallel to the center line and the rolling generation means 5 which supports movably the rods 2 in bearing holes 3 and rolls the rods 2 in the bearing holes 3 by rotation of the rotating drum 1 in contact with the rods 2 is disposed along a part of the circumferential direction of the rotating drum 1, wherein the rolling generation means 5 is composed of a plurality of rotating rollers 6, the rods 2 in the bearing holes 3 between the rotating rollers 6 are in the falling state, are abutted to roller main bodies 6D of the rotating rollers 6 and, thereby, are rotated, are allowed to rise in the bearing holes 3 and are rolled. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a rotary sieving apparatus for sorting raw materials such as debris such as excavated soil and slabs into particle sizes suitable for each application.

  As a conventional rotary sieving device, a drum body called a trommel, which is constituted by a sieving net, is known. Moreover, as a thing using a rod instead of a net, for example, as a thing suitable for sieving adhesive materials (viscous soil) in a residual soil treatment facility, a rotating drum is supported by tilting the machine frame, and the rotating drum Is formed by a rod with a sieving gap in a direction substantially parallel to the center line, and the rod has an outer diameter smaller than the inner diameter of the bearing hole of the rod, and the rod is supported in a movable state in the bearing hole. Is known (see Patent Document 1).

  In a conventional rotary sieving device using a rod, the sieving gap between the rods varies slightly with the rotation of the rotary drum, and the rod rotates and revolves, or the elastic vibration and eccentric rotation range oscillates. Since it moves slightly in the direction perpendicular to the center line, it can be sorted more efficiently than the conventional trommel. Adhesive raw materials may clog the sieving gap, and sieving of residual soil containing the adhesive raw materials cannot be performed smoothly. Further, the problem that the light specific gravity is not sorted, that is, the light specific gravity is difficult to fall through the screening gap has not been solved. Further, the difference between the outer diameter of the rod and the inner diameter of the bearing hole is not so large from the drawings and the description of the specification, and the inner diameter of the bearing hole is at most about 10 to 25% larger than the outer diameter of the rod. . Therefore, the movable range in the bearing hole of the rod is narrow, and it is still insufficient for sieving more quickly and accurately, regardless of the specific gravity difference.

Therefore, a rotary sieving device has been developed that can accurately screen both adhesive materials and light specific gravity materials, and can quickly and efficiently screen large amounts of materials. (See Patent Document 2).
JP 2002-113422 A (2nd page, FIG. 1) Japanese Patent Laying-Open No. 2005-342583 (page 4, FIG. 3)

  The rolling generation means disclosed in Patent Document 2 includes a wave-like portion in which a convex portion and a concave portion are continuous in the circumferential direction corresponding to the interval between the bearing holes. By repeatedly rubbing with the rod, The convex part and the concave part were worn out.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a rotary sieving device that prevents wear of the rolling generating means and can efficiently perform rolling of the rod, thereby further improving the efficiency of the screening operation.

  In order to achieve the above-mentioned object, according to the present invention, a main body portion of a rotating drum that is rotatably supported is formed by a plurality of rods interposing a screening gap in a direction substantially parallel to the center line, and these rods are arranged in a bearing hole. In the rotary sieve device provided with rolling generating means that contacts the rods and rolls the rods in the bearing holes by rotation of the rotating drums along a part of the rotating drum in the circumferential direction. The rolling generating means is composed of a plurality of rotating rollers, and the rods in the bearing holes between the rotating rollers are in a lowered state, and are rotated and raised in the bearing holes by contacting the roller body of the rotating rollers. It rolls.

  In the present invention, a main body portion of a rotating drum that is rotatably supported is formed by a plurality of rods with a screening gap in a direction substantially parallel to the center line, and these rods are movably supported in bearing holes. In a rotary sieving device provided with rolling generation means that contacts the rod and rolls the rod within the bearing hole by rotation of the rotating drum along a part of the circumferential direction of the rotating drum, the rolling generation means is rotated a plurality of times. Since the rod in the bearing hole between these rotating rollers is in a lowered state, it is configured to roll by rotating and rising in the bearing hole by contacting the roller body of the rotating roller. The roller body also rotated, wear of the rolling generation means decreased, and durability was improved. In addition, because multiple rods are forced to move and roll (roll) forcibly by rolling means, there is no internal adherence, and the crushing action of the lump works, allowing it to move within the bearing hole. The raw material on the rod, which is coupled with the rotation of the rotating drum, falls from the screening gap even with a low specific gravity, and the adhesive raw material can be screened quickly and accurately. In addition, a large amount of raw materials can be processed quickly and efficiency is good.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a front view of a rotating drum 1, and a main body portion of the rotating drum 1 that is rotatably supported is formed by a plurality of rods 2 having a screening gap in a direction substantially parallel to the center line. Both ends of the bearing are movably supported in the bearing hole 3. The rotary drum 1 is rotatably supported by the support roller 4 and when the rotary drum 1 rotates in the direction of the arrow, the rotary drum 1 passes through the region immediately before reaching the directly below position and immediately before reaching the horizontal position. The motion generating means 5 is provided. The rolling generation means 5 is configured by arranging a plurality of rotating rollers 6 at equal intervals on an arc that is approximately a quarter of the rotation locus of the rotating drum 1. In other words, the means 5 is provided so as to occupy approximately one half of the lower half arc of the rotating drum 1. In the illustrated example, the rolling generation means 5 is configured by arranging a plurality of rotating rollers 6 at equal intervals. The bearing hole 3 is formed in an elliptical or rectangular shape that is long in the radial direction of the rotary drum 1, and the lateral width is slightly larger than the diameter of the rod 2 that fits in the bearing hole 3, and the radial length is the length of the rod 2. The rod 2 is formed to be slightly longer than twice the diameter, and the rod 2 rolls in the bearing hole 3. In order to increase the amount of vibration by increasing the amount of movement of the rod 2 in the radial direction, the radial length of the bearing hole 3 may be further increased and the diameter of the rotating roller 6 may be increased. Further, the support roller 4 and the rolling generation means 5 are attached to the machine frame 7.

  FIG. 2 is a cross-sectional view showing a part on the raw material inlet 8 side. A flange portion 10 is fixed to the outer periphery of the rotary cylinder 9, and the rotary drum 1 is attached to the flange portion 10. The outermost periphery of the rotating drum 1 is composed of a plurality of frame members 11, and the main body portion of the rotating drum 1 is composed of a plurality of rods 2. The gap between the frame members 11 is larger than the gap between the rods 2. The opposite side (exit) of the rotating drum 1 is also provided with the same components as the rotating cylinder 9 and the flange portion 10.

  The bearing hole 3 is formed in the flange portion 10, and a flange 12 (the same applies to the opposite end portion) is attached so that the rod 2 inserted into the bearing hole 3 does not shift in the axial direction. The end of the rod 2 that protrudes with the flange 12 attached is in contact with the rotating outer peripheral surface of the rotating roller 6. The rotating roller 6 is attached to an attachment plate 13 fixed to the machine casing 7.

  As shown in FIG. 2, the rotating drum 1 is rotated by a chain 17 between the sprocket 15 of the motor 14 and the sprocket 16 provided on the outer periphery of the rotating cylinder 9 to rotate the rotating cylinder 9 and the rotating drum 1. I am trying. As the rotating drum 1 rotates, the rod 2 successively contacts the rotating roller 6 and then rolls within the bearing hole 3 when released. Since the weight of the raw material put into the rotating drum 1 is applied to the rod 2 positioned below, the rod 2 to which the raw material weight has been added is pressed against the outer peripheral surface of the rotating roller 6, and the rotating roller 6 And the rod 2 rotate in opposite directions. The rod 2 is moved in the radial direction of the rotating drum 1 while contacting the rotating roller 6, that is, rotates in the bearing hole 3 while being vibrated. The rod 2 repeats such an operation by the number of the rotating rollers 6.

  FIG. 3 shows a cross section of the rotating roller 6, the central portion 6A is attached to the mounting plate 13 with bolts 18, the bearing 6B is provided on the outer periphery of the central portion 6A, and the cylindrical portion 6C is provided on the outer periphery of the bearing 6B. A roller body 6D is provided on the cylindrical portion 6C. The roller body 6D is preferably formed of a synthetic resin material having strength such as nylon in order to prevent noise.

The front view of a rotating drum. The partial sectional side view of the entrance side. Sectional drawing of a rotating roller.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Rotating drum 2 Rod 3 Bearing hole 5 Rolling generation means 6 Rotating roller 6D Roller body

Claims (5)

The main part of the rotating drum that is rotatably supported is formed by a plurality of rods with a screening gap in a direction substantially parallel to the center line, and these rods are movably supported in the bearing holes and contact the rods. In a rotary sieving device provided with rolling generating means for rolling the rod in the bearing hole by rotation of the rotating drum along a part of the circumferential direction of the rotating drum,
The rolling generation means is composed of a plurality of rotating rollers,
A rotary sieving device characterized in that a rod in a bearing hole between the rotating rollers is in a lowered state, and is rotated and raised in the bearing hole by abutting against a roller body of the rotating roller to roll.   2. The rotating screen device according to claim 1, wherein a roller body of the rotating roller is made of a synthetic resin material.   The rotary sieve device according to claim 1, wherein the bearing hole has a substantially elliptical shape or a rectangular shape that is long in a radial direction of the rotary drum.   4. The rotary sieving device according to claim 1, wherein a radial length of the rotating drum of the bearing hole is at least twice a diameter of a rod in the bearing hole.   The rotary sieving device according to any one of claims 1 to 4, wherein the rolling generation means is provided so as to occupy approximately three-quarters of the arc of the lower half of the rotary drum.

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