JP2019173556A - Crusher with screen - Google Patents

Abstract

To provide a crusher with a screen that has a function of removing contaminants deposited on a screen part; the crusher solving the problem in which part of contaminants is caught by the rotation of a rake and stays on the downstream side of the screen part without entering a crusher part when the contaminants are gathered, regarding a crusher with a screen that captures contaminants in processed water using a screen part and gathers the captured contaminants toward a crusher part using a rotational rake part.SOLUTION: The crusher with a screen is provided, the crusher being characterized by including a screen part 1 that captures contaminants in processed water, a crusher part 3 that is installed on one side of the screen part and crushes contaminants G, and a rotational rake part 2 that gathers the contaminants captured by the screen part toward the crusher part. The rotational rake part can be operated so as to be rotated in normal and reverse directions. By operating the rotational rake part so as to rotate in the normal and reverse directions, it is possible to remove contaminants g deposited on the screen part.SELECTED DRAWING: Figure 2

Description

  TECHNICAL FIELD The present invention relates to a crusher that is installed in a water channel such as a sewage treatment plant and that crushes foreign substances such as residue and floating in water. More specifically, a screen with a screen that traps foreign matter floating in water and residue such as residue at the screen, scrapes the foreign matter captured by the screen portion into the crushing portion by the rotating rake portion, and crushes the foreign matter at the crushing portion. It relates to crushers.

  In waterways such as sewage treatment plants, a crusher with a screen is installed for crushing foreign substances floating in the water and residue. The crusher with a screen installed in the waterway is used to crush the foreign matter captured by the screen unit and the crushing unit for crushing the foreign matter in addition to the crushing unit for crushing the foreign matter. The rotating rake part is provided, and the foreign material which flows over the full width of a waterway can be crushed by crushing to a crushing part.

  For example, Patent Document 1 describes an apparatus that crosses a screen device and a crusher installed on one side of the screen device in a water channel and collects impurities in the water into the crusher. The screen device includes an arc-shaped screen member stacked in a vertical direction and a vertical rake axis that fixes a rake group rotating between the arc-shaped screen members, and the rake axis is an outer peripheral edge of the screen. By installing it eccentrically with the center of the rake, the tip of the rake appears and disappears from the outer periphery of the screen, and the foreign matter captured by the screen is scraped to the crusher.

Japanese Patent No. 3581017

When the foreign substance is scraped by the rotating rake, a part of the foreign substance may be caught in the rotation of the rake and not flow into the crushing part. The foreign matter caught in the rake accumulates on the downstream side of the screen portion. If foreign matter accumulates, the rotation of the rake is loaded. Therefore, if there is any foreign matter accumulation, the rake operation was stopped and the accumulated foreign matter was removed.
An object of the present invention is to provide a crusher with a screen having a function of removing impurities accumulated on a screen portion, and to perform a crushing process with excellent workability.

As a result of intensive studies on the above-mentioned problems, the present inventor has found that impurities accumulated on the downstream side of the screen can be removed by rotating the rotary rake portion in the reverse direction, thereby completing the present invention.
Specifically, the present invention provides the following crusher with a screen.

  The present invention for solving the above problems is a screen unit that captures contaminants in the water to be treated, a crushing unit that is installed on one side of the screen unit and crushes contaminants, and is captured by the screen unit. A crusher with a screen provided with a rotating rake unit for scraping impurities to the crushing unit, wherein the rotating rake unit is capable of forward and reverse operation.

In this crusher with a screen, by rotating the rotating rake portion in reverse, it is possible to entangle the impurities accumulated during the forward rotation with the rake. The entangled impurities are transferred to the upstream side along the outer peripheral surface of the screen portion by the rake that performs the reverse rotation operation, and are scraped to the crushing portion when the normal rotation operation is resumed.
Therefore, according to this crusher with a screen, the foreign matter accumulated on the downstream side of the screen portion is removed using the rotary rake portion, so that the crushing process with excellent workability can be performed.

  Furthermore, the present invention is characterized in that the rotating rake portion includes a rotating shaft and a rake fixed radially from the rotating shaft.

  In a rake transfer device equipped with a chain and a sprocket, troubles such as small entanglements that have passed through the screen portion tend to occur. However, the rotating rake portion including the rotating shaft and the rake fixed radially from the rotating shaft is a simple structure, and thus has an advantage that such troubles are unlikely to occur.

  Furthermore, the present invention is characterized in that the rake of the rotating rake portion includes an inclined portion that intersects the outer peripheral surface of the screen at an acute angle at the front portion during reverse rotation operation.

Contaminants entangled in the rake by the reverse operation may be caught in the rake and drawn into the screen part when the rake is housed inside the screen part.
According to the above feature, while the rake protrudes from the outer peripheral surface of the screen during the reverse rotation operation, the front portion of the rake is inclined toward the rear in the traveling direction, so that foreign matters are drawn into the screen. It has the effect of preventing

Further, according to the present invention, the inclined portion has a first inclined portion and a second inclined portion having different inclination angles with respect to the outer peripheral surface of the screen, and the first inclined portion is formed at the tip of the rake, and the first inclined portion The inclination angle is smaller than the inclination angle of the second inclined portion.
With this feature, the inclined portion formed in the rake is further inclined toward the tip.

  Since the second inclined portion intersects the outer peripheral surface of the screen portion at an acute angle, the second inclined portion intersects the screen outer peripheral surface at a larger inclination angle than the first inclined portion while suppressing the entrainment of impurities into the screen. Therefore, it has higher performance than the first inclined portion in the action of entwining the impurities accumulated on the screen portion and the action of transferring the impurities to the upstream side of the screen portion.

On the other hand, since the first inclined portion has a smaller inclination angle than that of the second inclined portion, the action of entwining and transferring the contaminants is reduced, but the contamination at the tip of the rake is prevented from being drawn into the screen. Is highly effective.
That is, by forming the first inclined portion and the second inclined portion, the action of entwining and transferring the accumulated contaminants and the effect of preventing the transferred contaminants from being drawn into the screen are more reliably achieved. It can be demonstrated.

Furthermore, the present invention includes a control unit that controls the rotation direction of the rotary rake unit, and the control unit intermittently executes the operation of the rotary rake unit, and after the rotary rake unit starts the forward rotation operation, the control unit performs a predetermined operation. It has a characteristic that executes the reverse operation at least once t after _one hour has elapsed.

  According to this feature, since the operation of the rotating rake unit is intermittently performed, unnecessary operation time of the rotating rake unit is reduced, and a crusher with a screen excellent in terms of energy saving can be provided.

  On the other hand, when the rotating rake portion is intermittently operated, the amount of contaminants scraped at the start of the forward rotation operation is temporarily increased due to the impurities captured when the rotating rake portion is stopped. For this reason, at the start of the forward rotation operation, a phenomenon is observed in which the amount of contaminants deposited downstream of the screen portion temporarily increases. Here, in one cycle of the intermittent operation of the rotating rake part, when the dust accumulated in the downstream of the screen part is left in a large amount, the amount of contaminants increases at the start of the forward rotation operation of the next cycle, The load applied to the rotating rake is temporarily extremely high. And overload to the rotating rake portion may cause troubles such as forced stop of the rotating rake portion.

However, according to the control unit described above, at least one reverse operation is performed after the elapse of a predetermined t ₁ time since the start of the forward operation, so a large amount of contaminants accumulated at the start of the forward operation is It is removed before the forward run stops. The predetermined t ₁ time is a time for sufficiently scraping the foreign matter captured when the rotary rake portion is stopped. Since this control unit does not leave a large amount of contaminants accumulated at the start of the forward rotation operation at the start of the next forward rotation operation, there is an effect of preventing an extremely high load from being applied to the rotary rake portion.

Furthermore, the control unit of the present invention performs the reverse rotation operation once after a lapse of a predetermined t ₁ time after the rotation rake portion starts the forward rotation operation, and thereafter executes the reverse rotation operation every predetermined t ₂ hours. Has characteristics.

When one cycle is executed for a long time in the intermittent operation of the rotating rake portion, impurities are gradually accumulated during the forward rotation operation. According to the above feature, since the reverse rotation operation is executed every predetermined t ₂ hours, it is possible to periodically remove impurities that have gradually accumulated during the normal rotation operation.

  According to the crusher with a screen of the present invention, the crushing process with excellent workability can be performed because it has a function of removing impurities accumulated on the downstream side of the screen portion.

FIG. 1 is a schematic explanatory diagram showing the configuration of a crusher with a screen according to a first embodiment of the present invention. FIG. 2 is a schematic explanatory diagram for explaining the operation during reverse rotation of the crusher with a screen according to the first embodiment of the present invention. FIG. 3 is a schematic explanatory view for explaining the shape of the rake of the crusher with a screen according to the first embodiment of the present invention. FIG. 4 is a schematic explanatory diagram illustrating another shape of the rake of the crusher with a screen according to the present invention. FIG. 5 is a flowchart showing the flow of the program execution process in the control unit of the crusher with a screen according to the first embodiment of the present invention. FIG. 6 is a schematic explanatory diagram showing the configuration of the crusher with a screen according to the second embodiment of the present invention.

Hereinafter, embodiments of a crusher with a screen according to the present invention will be described in detail with reference to the drawings.
The crusher with a screen of the present invention is installed in a water channel and is used for crushing impurities in the water to be treated flowing through the water channel. For example, the water channel is a sand basin or the like such as a sewage treatment plant, and the contaminant is a waste contained in sewage such as sewage.

(First embodiment)
FIG. 1 is a schematic explanatory diagram showing the configuration of a crusher with a screen according to a first embodiment of the present invention. In addition, in FIG. 1, as shown by the arrow in a figure, the action | operation at the time of the normal rotation driving | operation of the crusher with a screen is demonstrated.

  The crusher with a screen according to the first embodiment of the present invention includes a screen unit 1 for capturing the contaminant G contained in the water to be treated flowing through the water channel R, and a crushing unit for the contaminant G captured by the screen unit 1. The rotating rake part 2 for scraping to 3 and the crushing part 3 for crushing the foreign substance G are provided.

  The screen unit 1 is composed of a plurality of screen members stacked in a substantially vertical direction, and each screen member is installed separately. The water to be treated flowing from the upstream of the screen unit 1 passes through the gap between the screen members, and the impurities G are captured on the upstream side of the screen unit 1. In addition, what kind of member may comprise the screen part 1, for example, you may comprise with the board member etc. in which the some slit was formed substantially horizontal.

One end side of the screen portion 1 is fixed to the side wall R1 of the water channel R and is installed so as to cross to the vicinity of the side wall R2. The other end side extends to approximately the center of the water channel R, forms an arc portion curved in an arc shape from the approximate center of the water channel R toward the downstream side, and is fixed to the casing side surface of the crushing portion 3 on the center side of the water channel. Yes.
In addition, the fixing method in particular of the screen part 1 is not restrict | limited, You may fix to the box etc. which surround the rotary rake part 2 and the crushing part 3.

  The rotary rake portion 2 includes a rotary shaft 22 and a plurality of rakes 21 fixed radially from the rotary shaft 22. The rake 21 is a plate blade having a thickness capable of passing through the gap between the laminated screen members. The rake 21 having the same number as the gap formed in the screen portion 1 is arranged in the height direction in the rotary rake portion 2. Has been.

  The rotating shaft 22 of the rotating rake portion 2 is installed eccentrically with the center of the arc portion of the screen portion 1. When the rake 21 circulates around the rotating shaft 22, the rake 21 protrudes from between the screen members. Then, while the rake 21 protrudes from the outer peripheral surface of the screen portion 1, the foreign matter G captured by the screen portion 1 is scraped and flows into the crushing portion 3.

The rotating rake portion of the present invention may have any configuration as long as the dust G captured by the screen portion 1 can be scraped to the crushing portion 3 and should be appropriately designed according to the shape of the screen portion 1. Can do. For example, in addition to the configuration comprising the rotary shaft 22 and the rake 21 as in the rotary rake portion 2 of the first embodiment, a chain with a rake attached as in the rotary rake portion 5 of the second embodiment described later There are configurations including a plurality of sprockets for circling the chain.
Like the rotary rake portion 2 of the first embodiment, the rotary rake portion constituted by the rotary shaft 22 and the rake 21 attached radially from the rotary shaft 22 does not have a structure that meshes like a chain and a sprocket, Since it is a simple structure, there is an advantage that troubles such as entanglement of the rotating rake portion 2 are less likely to occur.

  The crushing part 3 of the first embodiment of the present invention is installed between the screen part 1 and the side wall R2 of the water channel R. The crushing part of the present invention may be any crusher, for example, a vertical biaxial crusher, a horizontal crusher, or the like. Since a crushing part can be installed equally in the height direction of the screen part 1, it is preferable to use a vertical crusher.

As described above, by rotating the rotary rake unit 2 in the forward direction, the foreign matter G captured by the screen unit 1 is scraped to the crushing unit 3, and the foreign matter G can be crushed by the crushing unit 3. .
However, as shown in FIG. 1, a part of the contaminant G may be caught in the rotation of the rotary rake portion 2 and may be deposited on the downstream side of the screen portion 1 without flowing into the crushing portion 3.

Therefore, in order to remove the accumulated impurities g, the rotary rake part 2 of the crusher with a screen of the present invention has a function of performing reverse operation.
Hereinafter, the reverse rotation operation of the rotary rake portion 2 will be described with reference to FIG.

  As shown in FIG. 2, by rotating the rotary rake portion 2 in the reverse direction, the impurities g accumulated on the downstream side of the screen portion 1 can be entangled by the rake 21. Then, the entangled foreign matter g is transferred to the upstream side along the outer peripheral surface of the screen unit 1 by the rake 21 that performs reverse operation.

The foreign matter g transferred along the outer peripheral surface of the screen unit 1 is peeled off from the rake 21 and remains on the outer peripheral surface of the screen unit 1 when the rake 21 is accommodated inside the screen unit 1 on the upstream side.
And the foreign substance g which remained on the outer peripheral surface of the screen part 1 is scraped and crushed to the crushing part 3, when normal rotation driving | operation is restarted.

The shape of the rake 21 includes a first inclined portion and a second inclined portion that intersect the outer peripheral surface of the screen portion 1 at an acute angle on the front surface portion during reverse rotation operation (back surface during normal rotation operation). That is, when the rake 21 that performs reverse operation protrudes from the outer peripheral surface of the screen portion 1, the inclined portion is inclined toward the rear in the traveling direction.
In the present invention, when the outer peripheral surface of the screen portion 1 is curved, the angle (inclination angle) formed between the outer peripheral surface of the screen portion 1 and the inclined portion is the tangent T of the screen portion 1 and the inclined portion. Say the corner.

The foreign matter g transferred to the upstream side of the screen unit 1 by the reverse rotation operation may be caught by the rake 21 and drawn into the screen unit 1 when the rake 21 is accommodated inside the screen unit 1.
However, like the rake 21 of the present invention, an inclined portion that intersects the outer peripheral surface of the screen portion 1 at an acute angle is provided on the front surface portion during reverse rotation operation, thereby preventing the foreign matter g from being drawn into the screen portion 1. can do.

  Next, the inclined portion will be described in detail with reference to FIG. As shown in FIG. 3, the inclined portion of the rake 21 has a first inclined portion and a second inclined portion having different inclination angles with respect to the outer peripheral surface of the screen portion 1.

  The first inclined portion is formed at the tip of the rake 21 and has a smaller inclination angle (α) than the second inclined portion. When the rake 21 is housed inside the screen unit 1, the foreign matter g is easily caught at the tip, and the action of drawing it into the screen unit 1 is strong. For this reason, it is desirable to reduce the inclination angle of the first inclined portion formed at the tip of the rake 21.

  The inclination angle (α) of the first inclined portion is not particularly limited, but is preferably 1 to 60 °, and particularly preferably 3 to 50 °. When the angle is less than 1 °, the angle (γ) formed with the second inclined portion is small, and therefore, the impurities g are likely to be caught at the angle with the second inclined portion. Therefore, the foreign matter g is easily caught at the tip of the rake 21.

  The second inclined portion is an inclined portion formed adjacent to the first inclined portion, and has a larger inclination angle (β) than the first inclined portion. When the inclination angle of the inclined portion is reduced, the action of drawing the impurities g into the screen portion 1 is reduced, but the action of entwining the impurities g is also reduced. Therefore, the second inclined portion has an inclination angle larger than that of the first inclined portion, and the performance of entwining the contaminant g is enhanced.

  The inclination angle (β) of the second inclined portion is not particularly limited, but is preferably 20 to 89 °, particularly preferably 30 to 70 °. When the angle is less than 20 °, the effect of entwining the foreign matter g is small, and the foreign matter g may not be removed. On the other hand, when the angle exceeds 89 °, the action of drawing the foreign substance g into the screen part 1 is enhanced, and the foreign substance g may flow into the inside of the screen part 1.

  Moreover, the angle (γ) formed by the first inclined portion and the second inclined portion is not particularly limited, but is preferably 95 to 175 °, and particularly preferably 110 to 165 °. When the angle is less than 95 °, the impurities g are easily caught at an angle formed by the first inclined portion and the second inclined portion, and when the angle exceeds 175 °, each inclined portion of the first inclined portion and the second inclined portion. Therefore, the effect of providing the first inclined portion and the second inclined portion is reduced.

  In the present invention, the rake of the rotating rake portion may not be provided with an inclined portion. Also, a single inclined portion or three or more inclined portions may be provided. In view of the action of entwining the impurities g and transporting them upstream, the action of preventing the entry of the impurities g into the screen part, etc., it is preferable to provide two or more inclined parts having different inclination angles.

  Furthermore, it is preferable that the inclined portion is formed in the entire region protruding from the outer peripheral surface of the screen portion 1 in the front surface portion of the rake 21 during the reverse rotation operation. Thereby, the drawing of the foreign substance g into the screen part 1 is further prevented.

  Next, with reference to FIG. 4, another aspect of the inclined portion will be described. FIG. 4A is an example of a rake having a single inclined portion 25a. The inclination angle of the single inclined portion with respect to the outer peripheral surface of the screen portion 1 is not particularly limited. For example, 20 to 89 ° is preferable, and 30 to 70 ° is particularly preferable, similar to the inclination angle (β) of the second inclined portion.

FIG. 4B is an example of a rake having a single curved portion 25b that is curved. As described above, the shape of the inclined portion may be curved in the forward direction during the reverse rotation operation.
In the present invention, the inclination angle with the outer peripheral surface of the screen portion 1 in the case of having a curved inclined portion is the inclination angle between the straight line (string) connecting the start and end points of the curve and the outer peripheral surface of the screen portion 1. .

FIG. 4C is an example of a rake having a curved second inclined portion 24 a and a linear first inclined portion 23. Thus, you may comprise combining the curved inclination part and the linear inclination part.
In addition, since the curved inclination part becomes small the effect | action which entangles the accumulated foreign substance g, it is preferable to comprise with a linear inclination part.

[Control unit]
Next, the control part which controls the rotation direction of the rotary rake part 2 of this invention is demonstrated. Although not shown in FIG. 1, the control unit is an electronic computer connected to the rotary rake unit 2, and controls the rotation direction of the rotary rake unit 2.

  The control part of this invention performs the driving | operation of the rotary rake part 2 intermittently. Thereby, the unnecessary operation time of the rotary rake part 2 is reduced, and the crusher with a screen excellent in the viewpoint of energy saving can be provided.

Furthermore, the control unit of the present invention executes at least one reverse rotation operation after a predetermined t ₁ time has elapsed since the rotary rake portion 2 started the normal rotation operation.
When the rotary rake unit 2 is intermittently operated, the contaminants G accumulate on the screen unit 1 when the rotary rake unit 2 is stopped. For this reason, at the start of the forward rotation operation, the amount of foreign matter G that is temporarily scraped increases, and the amount of foreign matter g that does not flow into the crushing portion 3 and accumulates downstream of the screen portion 1 also increases. Considering problems such as an increase in load applied to the rotating rake portion 2, it is desirable that the amount of the foreign matter g accumulated at the downstream of the screen portion 1 is small at the start of the forward rotation operation.

By executing the reverse operation at least once after a lapse of a predetermined time t ₁ after the start of the forward operation, a large amount of foreign matter g accumulated at the start of the forward operation is The forward rotation operation is stopped in a state in which the amount of accumulated impurities g is removed and the amount of accumulated impurities g is small. Therefore, it is possible to avoid an excessive burden on the rotating rake portion 2 due to a temporary increase in the foreign matter g at the start of the next forward rotation operation.

  FIG. 5 is a flowchart showing the flow of the program execution process in the control unit of the crusher with a screen according to the first embodiment of the present invention. Note that the flowchart of FIG. 5 is an example of the forward rotation operation execution program of the control unit of the present invention, and the present invention is not limited to this.

In the forward rotation operation execution program shown in FIG. 5, after a forward rotation operation start command is input, a reverse rotation start command is automatically input after a predetermined t ₁ time has elapsed, and the reverse rotation operation is started. Then, when the predetermined reverse operation program ends, the reverse operation is stopped.

Thereafter, if there is no forward rotation stop command, the reverse rotation operation program is executed every predetermined t ₂ hours. After reverse rotation operation is executed at least once after t ₁ time has passed, if there is a forward rotation stop command input, forward rotation operation is stopped and the forward rotation operation execution program ends.

Incidentally, if, when a command for forward run stop before the predetermined t ₁ hour elapsed is input, it is ended forward operation execution program after performing the reverse operation program, not perform the reverse operation program Alternatively, the forward rotation operation execution program may be terminated.

Here, the role of the time t _{1 and the} time t ₂ will be described. The time t ₁ is a time for scraping the dust G accumulated on the screen unit 1 while the forward rotation operation is stopped. When the foreign matter G accumulated in the screen portion 1 is scraped, the foreign matter g deposited on the downstream side of the screen portion 1 also temporarily increases. Therefore, the time t ₁ is set to be relatively short, and it is preferable to quickly remove the foreign matter g temporarily increased after the start of the forward rotation operation. The t ₁ time is preferably 1 to 30 minutes, and particularly preferably 2 to 20 minutes.

The t ₂ time is a time for setting the interval of the reverse operation program for periodically removing the contaminant g that gradually accumulates while continuing the normal operation. Therefore, t ₂ time is longer than t ₁ time, preferably 30 minutes or more, and particularly preferably 1 hour or more.

  The start or stop command for forward rotation operation may be any method, for example, a method in which an operator manually inputs a start or stop command, or a start or stop command is input every predetermined time. And a method of inputting a start or stop command when the flow rate measurement value of the water channel R reaches a predetermined value.

(Second embodiment)
FIG. 6 is a schematic explanatory diagram showing the configuration of the crusher with a screen according to the second embodiment of the present invention.
In the crusher with a screen of the second embodiment, in the crusher with a screen of the first embodiment, the screen 4 having a long straight portion and a curved arc portion that are installed inclined at the downstream direction, and the rake 53. And a rotary rake portion 5 having two sprockets 51 a and 51 b for driving the chain 52. Other configurations are the same as those in the first embodiment.
As in the second embodiment, the crusher with a screen provided with the rotating rake portion 5 using a chain and a plurality of sprockets can install the water channel R regardless of the width. Therefore, it is a crusher with a screen suitable when installing in the water channel R with a large width | variety.

  Similarly to the first embodiment, the crusher with a screen of the second embodiment is configured so that the rotary rake portion 5 can be operated in reverse, and has a function of removing the foreign matter g accumulated on the downstream side of the screen portion 4. Have.

  The rake 53 attached to the chain 52 also has an inclined portion that intersects the outer peripheral surface of the screen portion 4 at an acute angle on the front surface during reverse rotation operation, like the rake 21 in the first embodiment.

  The crusher with a screen of the present invention can be used as a crusher for crushing impurities in the water to be treated flowing through a water channel. Specifically, for example, in a sand basin of a sewage treatment plant, it can be used as a crusher for capturing and crushing residue as a contaminant.

DESCRIPTION OF SYMBOLS 1 Screen part, 2 rotation rake part, 21 rake, 22 rotating shaft, 23 1st inclination part, 24, 24a 2nd inclination part, 25a, 25b inclination part, 3 crushing part, 4 screen part, 5 rotation rake part, 51a , 51b Sprocket, 52 chain, 53 rake, R water channel, R1, R2 side wall, G contaminants, g accumulated contaminants

Claims (5)

A screen unit for capturing impurities in the water to be treated;
A crushing unit installed on one side of the screen unit to crush the contaminants;
A rotating rake portion that scrapes the contaminants captured by the screen portion to the crushing portion, and
The crusher with a screen, wherein the rotating rake portion is capable of forward and reverse operations. The rotating rake portion includes a rotating shaft and a rake fixed radially from the rotating shaft,
2. The crusher with a screen according to claim 1, wherein the rake includes an inclined portion that intersects with an outer peripheral surface of the screen at an acute angle at a front surface portion during reverse rotation operation.   The inclined portion includes a first inclined portion and a second inclined portion having different inclination angles with respect to the outer peripheral surface of the screen, and the first inclined portion is formed at a tip of the rake, and the first inclined portion The crusher with a screen according to claim 2, wherein an inclination angle is smaller than the inclination angle of the second inclined portion. A control unit for controlling the rotation direction of the rotary rake unit;
The control unit intermittently executes the operation of the rotary rake unit, and executes at least one reverse rotation operation after a predetermined t ₁ time has elapsed since the rotary rake unit started normal rotation operation. The crusher with a screen according to any one of claims 1 to 3. Further, the control unit performs the reverse rotation operation once after a predetermined t ₁ time has elapsed since the rotation rake portion started the forward rotation operation, and thereafter executes the reverse rotation operation every predetermined t ₂ hours. The crusher with a screen according to claim 4.

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