JP2005081207A - Belt type concentrator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a belt type concentrator capable of certainly preventing sludge from dropping in outward lateral directions from an endless belt and capable of reducing load at the time of revolution of the endless belt. <P>SOLUTION: This belt type concentrator is equipped with the freely revolvable water permeable endless belt 9 for filtering sludge 3 while feeding the same and provided with a pair of guide bodies 29 for preventing the sludge 3 fed on a feed track 20 from dropping in outward lateral directions from the endless belt 9. Each of the guide bodies 29 is constituted of the partitioning rubber sheet 30 which comes into slide contact with the surface of the endless belt 9 in a state that the lower end part thereof is inwardly bent at an almost right angle and the reinforcing rubber sheet 31 provided along the outside of the partitioning rubber sheet 30 and the partitioning rubber sheet 30 is formed so as to be made thinner than the reinforcing rubber sheet 31. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a belt type concentrator used for concentration of surplus sludge (mixed raw sludge, digested sludge, OD surplus sludge) in a sewage treatment plant, for example.

  Conventionally, as this type of belt-type concentrator, as shown in FIGS. 11 and 12, for example, an endless transport belt 62 is wound between a pair of drive rolls 60 and a driven roll 61, and a plurality of support rolls are provided. An endless filter cloth 65 is wound around 63 and the stretch roll 64, and the filter cloth 65 is in close contact with the conveyor belt 62 over the conveyor track 66 of the conveyor belt 62 (see, for example, Patent Document 1).

  According to this, when the drive roll 60 is rotationally driven, the conveyor belt 62 is rotated, and the filter cloth 65 in close contact with the conveyor belt 62 is also rotated. Thereby, the sludge thrown into the starting end portion of the conveyance track 66 is filtered by the filter cloth 65 and dehydrated while being conveyed by the conveyance belt 62.

  At this time, the frame of the belt type concentrator is provided with a pair of left and right side walls 67 for preventing sludge on the conveyance track 66 from falling down from the filter cloth 65 in close contact with the conveyance belt 62 to both outer sides. Yes. These side walls 67 are made of steel plates, and the lower ends of the side walls 67 are in sliding contact with the filter cloth 65.

However, in the above-mentioned conventional type, there is a problem that a gap S is generated between the lower end of the side wall 67 and the filter cloth 65 due to the slack of the conveyor belt 62, and sludge spills outward from the gap S. In order to prevent the gap S due to the slack of the transport belt 62 from occurring, it is necessary to strongly press the lower end of the side wall 67 against the filter cloth 65, and the load when the transport belt 62 is rotated increases. There is a problem such as.
JP-A-8-206418

  It is an object of the present invention to provide a belt type concentrator that can reliably prevent sludge from spilling outward from the endless belt and reduce the load when the endless belt is rotated. Objective.

  In order to achieve the above object, the first invention is a belt-type concentrator equipped with a rotatable and water-permeable endless belt that filters sludge to be concentrated while being transported, and is transported on a transport track. A pair of guide bodies are provided to prevent the sludge to be concentrated from spilling from the endless belt to both outer sides, and the guide bodies are made of an elastic body whose lower end is in sliding contact with the surface of the endless belt. The sheet-shaped partition member and a reinforcing member that reinforces the partition member are included.

  According to this, the sludge to be concentrated supplied on the rotating endless belt is filtered and dehydrated while being transported on the transport track by the endless belt. At this time, since the partition member of the guide body in which the surface of the endless belt is in sliding contact is a thin sheet-like member made of an elastic body, the pressing force of the partition member against the endless belt becomes weak, and the endless belt is rotated. The load on the occasion can be reduced. Moreover, since the partition member is reinforced by the reinforcing member, even if the pressing force of the concentration target sludge acts on the partition member, deformation of the partition member is suppressed. Therefore, it is possible to prevent a gap from being generated between the lower end portion of the partition member and the surface of the endless belt due to the deformation of the partition member, and the sludge to be concentrated leaks from the gap and spills to the outside of the endless belt. Can be prevented.

Further, according to the second aspect of the present invention, a receiving member that receives the endless belt on the conveyance track from the lower side is provided below the position where the partition member is in sliding contact with the endless belt.
According to this, since the endless belt on the conveyance track is received from the lower side by the receiving member, the slack of the endless belt is reduced, and thereby the lower end portion of the partition member is in close contact with the surface of the endless belt and the gap is not formed. Occurrence is prevented. Therefore, it is possible to reliably prevent the sludge to be concentrated from falling from the endless belt to the outside.

In the third invention, the reinforcing member is located outside the partition member, and is in sliding contact with the surface of the endless belt in a state where the lower end portion of the partition member is bent inward.
According to this, since the downward load due to the weight of the sludge to be concentrated acts on the bent portion bent inside the partition member, the bent portion of the partition member is pressed downward by the downward load, and the endless The sliding contact with the belt surface is ensured. Therefore, it is possible to ensure the necessary pressing force against the endless belt while reducing the thickness of the partition member, and to surely eliminate the gap between the surface of the endless belt and the lower end portion of the partition member. it can.

In the fourth aspect of the present invention, the partition member and the reinforcing member are separate members formed separately, and the reinforcing member is provided along the partition member.
The fifth aspect of the present invention is a belt-type concentrator equipped with a rotatable and water-permeable endless belt that filters while concentrating the sludge to be concentrated, and the sludge to be concentrated transported on the transport track is endless. A pair of guide bodies are provided to prevent the belt from falling down on both outer sides from the belt, and the guide bodies are thin sheet-like partition members made of an elastic body whose bottom end is in sliding contact with the surface of the endless belt. A receiving member configured to receive the endless belt on the conveyance track from below is provided below the position where the partition member is in sliding contact with the endless belt.

  According to this, the sludge to be concentrated supplied on the rotating endless belt is filtered and dehydrated while being transported on the transport track by the endless belt. At this time, since the guide body in which the surface of the endless belt is in sliding contact is composed of a thin sheet-like partition member made of an elastic body, the pressing force of the partition member against the endless belt becomes weak, and the endless belt rotates. Can reduce the load.

  In addition, since the endless belt on the conveyance track is received from the lower side by the receiving member, the slack of the endless belt is reduced, whereby the lower end portion of the partition member is in close contact with the surface of the endless belt, and a gap is generated. Is prevented. Therefore, it is possible to reliably prevent the sludge to be concentrated from falling from the endless belt to the outside.

  ADVANTAGE OF THE INVENTION According to this invention, the load at the time of rotating an endless belt can be reduced, and it can prevent reliably that the sludge to be concentrated spills outward from the endless belt.

Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
As shown in FIGS. 1 and 2, reference numeral 1 denotes a sludge on the terminal side, which is subjected to gravity filtration and dewatered and concentrated while conveying the target sludge 3 supplied from the sludge supply unit 2 (sludge supply chute, etc.) on the start side. It is a belt type concentrator which discharges from the discharge part 4 (sludge discharge chute etc.).

  This belt type concentrator 1 includes a rotatable driven roller 6 provided on the start end side, a drive roller 8 provided on the end side and driven to rotate by a motor 7, and a pair of front and rear rollers 6 and 8. And an endless belt 9 made of metal (made of stainless steel). Among these, as shown in FIG. 3, support shafts 11 are provided at both ends of the driving roller 8, and both the support shafts 11 are supported by a pair of left and right end side frames 13 a via a bearing 12. Yes. Similarly, support shafts 11 are provided at both ends of the driven roller 6, and both the support shafts 11 are supported by a pair of left and right start end side frames 13 b via a bearing 12.

  Among these, a roller side sprocket 14 is provided at the tip of one support shaft 11 provided at one end of the drive roller 8, and a motor side sprocket 15 is provided in the motor 7. A drive chain 16 is wound. Each of the support shafts 11 is provided with a sprocket 19 positioned between the end portions of the rollers 6 and 8 and the side frames 13a and 13b. The side frames 13a and 13b are provided upright at the terminal end and the starting end of a gantry 18 having a plurality of legs 17.

  As the track of the endless belt 9, a linear transport track 20 that transports the sludge 3 to be concentrated input from the sludge supply unit 2 to the sludge discharge unit 4, and a sludge discharge unit positioned below the transport track 20. A straight return trajectory 21 that returns from 4 to the sludge supply unit 2 is formed.

  As shown in FIGS. 7 and 8, the endless belt 9 has a spiral shape around an axis in the belt width direction, and a plurality of metal wires 9a having different winding directions are alternately adhered along the track direction. The mesh belt is configured by inserting a straight bone wire 9b through a plurality of metal wires 9a that are arranged and overlapped in the belt width direction. The endless belt 9 has a large number of minute opening portions 9c communicating with the front surface and the back surface, and these opening portions 9c are formed between three metal wire rods 9a adjacent to each other. Thereby, each helical metal wire 9a is mutually connected by the bone wire 9b, and the endless belt 9 becomes bendable in the front and back direction, and has water permeability in the front and back direction. As shown in FIGS. 3 and 6, chains 22 that mesh with the sprockets 19 are provided on both side edges in the width direction of the endless belt 9.

  As shown in FIGS. 1 and 2, a plurality of horizontal frames (not shown) are installed between the front and rear sides of the end side frame 13a and the start side frame 13b. A plurality of support plates 24 that support the endless belt 9 from the lower side (back side) on the transport track 20 and a plurality of support rollers 25 that support the endless belt 9 from the lower side on the return track 21 are provided. . Further, the gantry 18 is provided with a drainage unit (not shown) for collecting and discharging the separated water dropped from the endless belt 9 by gravity filtering the sludge 3 to be concentrated.

  Further, in order to prevent the concentration target sludge 3 transported along the transport track 20 from spilling from the endless belt 9 to both outer sides between the end side frame 13a and the start side frame 13b. A pair of left and right guide bodies 29 are provided. As shown in FIGS. 3 to 6, both the guide bodies 29 are provided on a thin partition rubber sheet 30 (an example of a partition member) provided over almost the entire length of the conveyance track 20 and on the outside of the partition rubber sheet 30. Reinforcing rubber sheet 31 (an example of a reinforcing member) disposed along, a pair of metal fixing plates 32 and 33 sandwiching the upper portions of both rubber sheets 30 and 31 from both inside and outside, and both rubber sheets 30 , 31 and both fixing plates 32, 33 are integrally composed of a plurality of bolts 34 and nuts 35.

  An upper mounting frame 36 that protrudes inward is provided on the upper side of each of the side frames 13a and 13b. At the inner ends of these upper mounting frames 36, mounting plate portions 36a are provided. The guide body 29 is provided with a mounting bolt 37 inserted through the fixing plates 32 and 33, both rubber sheets 30 and 31, and the mounting plate portion 36a, and a nut 38 screwed into each mounting bolt 37. It is connected and fixed to the inner end of the upper mounting frame 36.

  Note that the lower end portion of the partition rubber sheet 30 is in sliding contact with the surface (upper surface) of the endless belt 9 from above in a state of being bent inward at a substantially right angle. The reinforcing rubber sheet 31 is a plate-like member formed separately from the partition rubber sheet 30. The lower end surface of the reinforcing rubber sheet 31 is in sliding contact with the surface (upper surface) of the endless belt 9 from above with a slight pressing force. The partition rubber sheet 30 is formed thinner than the reinforcing rubber sheet 31, and both the rubber sheets 30 and 31 are in sliding contact with the endless belt 9 inside the chain 22.

  A receiving member 40 that receives the endless belt 9 on the conveying track 20 from below is provided below the position where the lower end portions of the rubber sheets 30 and 31 are in sliding contact with the endless belt 9. These left and right receiving members 40 are polyethylene resin plate-like members provided over almost the entire length of the transport track 20. The terminal portion of the receiving member 40 is supported by a lower mounting frame 41 provided inward from the terminal side frame 13a. Similarly, the starting end portion of the receiving member 40 is directed inward from the starting side frame 13b. Is supported by a lower mounting frame 41 provided.

Hereinafter, the operation of the above configuration will be described.
When the drive roller 8 is driven to rotate by the motor 7, the driven roller 6 is driven to rotate, and each sprocket 19 is rotated to rotate the endless belt 9 in one direction. Then, as shown in FIG. 1, the concentration target sludge 3 to which the flocculant has been added in advance is supplied from the sludge supply unit 2 to the endless belt 9 on the conveyance track 20. The sludge 3 to be concentrated supplied to the endless belt 9 in this manner is gravity filtered while being transported from the start end side to the end side on the transport track 20 by the endless belt 9, dehydrated and concentrated, and discharged from the sludge discharge section 4. The Further, the separated water dropped from the endless belt 9 by the gravity filtration is collected and drained from a drainage section (not shown).

  At this time, as shown in FIGS. 3 to 5, the surface (upper surface) of the rotating endless belt 9 is in sliding contact with the lower end portions of the rubber sheets 30 and 31 on the conveyance track 20. Of these, the partition rubber sheet 30 is formed to be thinner than the reinforcing rubber sheet 31, so that the pressing force of the partition rubber sheet 30 against the endless belt 9 is weakened, and the endless belt 9 is rotated. Can reduce the load. Thereby, the motor 7 etc. can be reduced in size and weight.

  Further, since the partition rubber sheet 30 is reinforced by the reinforcing rubber sheet 31, even if the outward pressing force F of the sludge 3 to be concentrated acts on the partition rubber sheet 30, the partition rubber sheet 30 is deformed. Is suppressed. Therefore, it is possible to prevent a gap from being generated between the lower end portion of the partition rubber sheet 30 and the surface of the endless belt 9 due to the deformation of the partition rubber sheet 30, and the concentration target sludge 3 leaks from the gap and is endless. Problems such as spilling to the outside of the belt 9 or adhering to the chain 22 can be prevented.

  Further, the lower end portion of the partition rubber sheet 30 is in sliding contact with the surface of the endless belt 9 from the upper side while being bent at a substantially right angle, so that the bent portion 30a of the partition rubber sheet 30 is subject to concentration. A downward load due to the weight of the sludge 3 acts, and by this downward load, the bent portion 30a is pressed downward and reliably contacts the surface of the endless belt 9. Therefore, it is possible to ensure a necessary pressing force against the endless belt 9 while reducing the thickness of the partition rubber sheet 30, and between the surface of the endless belt 9 and the lower end portion of the partition rubber sheet 30. The gap can be eliminated without fail. Thereby, it can prevent reliably that the concentration object sludge 3 spills outward from between the surface of the endless belt 9 and the lower end portion of the partition rubber sheet 30.

  Further, when the endless belt 9 is rotating, the back surface (lower surface) of the endless belt 9 slides with respect to the pair of left and right receiving members 40 on the conveyance track 20, and both side portions of the endless belt 9 are It is received from the lower side by the receiving member 40. For this reason, the slack of the endless belt 9 is reduced, the lower end portion of the partition rubber sheet 30 is in close contact with the surface of the endless belt 9, and the generation of a gap is more reliably suppressed. Therefore, it is possible to more reliably prevent the concentration target sludge 3 from falling from the endless belt 9 to the outside.

  In the first embodiment, as shown in FIG. 4, the lower end surface of the reinforcing rubber sheet 31 is brought into sliding contact with the surface of the endless belt 9 from above with a slight pressing force. The rubber sheet 30 for reinforcement and the rubber sheet 31 for reinforcement block the leakage of the sludge 3 to be concentrated. Therefore, even if the lower end of the partition rubber sheet 30 is damaged, It is possible to suppress leakage of the concentration target sludge 3 to a certain extent, and safety is improved. A gap may be formed between the lower end surface of the reinforcing rubber sheet 31 and the surface of the endless belt 9 without causing the lower end surface of the reinforcing rubber sheet 31 to slide in contact with the surface of the endless belt 9. In this case, since the frictional resistance of the reinforcing rubber sheet 31 to the endless belt 9 is eliminated, the load when the endless belt 9 is rotated can be further reduced.

  In the first embodiment, as shown in FIG. 4, the partition rubber sheet 30 (an example of a partition member) and the reinforcing rubber sheet 31 (an example of a reinforcement member) are overlapped and provided as individual plate shapes. However, as a second embodiment, as shown in FIG. 9, the partition rubber sheet 30 and the reinforcing rubber sheet 31 may be integrally molded. At this time, the reinforcing rubber sheet 31 is formed integrally with the outside of the partition rubber sheet 30, and the lower end of the reinforcing rubber sheet 31 is spaced above the endless belt 9.

  In the second embodiment, the reinforcing rubber sheet 31 is integrally molded on the outside of the partitioning rubber sheet 30, but may be integrally molded on the inside of the partitioning rubber sheet 30. Further, although the lower end of the reinforcing rubber sheet 31 is spaced above the endless belt 9, the reinforcing rubber sheet 31 may be brought into sliding contact with the surface of the endless belt 9 with a weak pressing force.

  In the first embodiment, the guide body 29 is constituted by a partition rubber sheet 30 (an example of a partition member) and a reinforcing rubber sheet 31 (an example of a reinforcement member) as shown in FIG. As a third embodiment, as illustrated in FIG. 10, the reinforcing rubber sheet 31 may not be provided, and the guide body 29 may be configured only by the partition rubber sheet 30 (an example of a partition member).

  According to this, since the pressing force of the partition rubber sheet 30 against the endless belt 9 is weak, a load when the endless belt 9 is rotated can be reduced. Thereby, the motor 7 etc. can be reduced in size and weight. Further, since a downward load due to the weight of the sludge 3 to be concentrated acts on the bent portion 30a of the partition rubber sheet 30, it is necessary for the endless belt 9 while reducing the thickness of the partition rubber sheet 30. A pressing force can be ensured, and the gap between the surface of the endless belt 9 and the lower end of the partition rubber sheet 30 can be reliably eliminated. Further, since both side portions of the endless belt 9 are received from the lower side by the receiving member 40, the slackness of the endless belt 9 is reduced, and the lower end portion of the partition rubber sheet 30 is in close contact with the surface of the endless belt 9 to be a gap Occurrence of this is more reliably suppressed. Therefore, it is possible to more reliably prevent the concentration target sludge 3 from falling from the endless belt 9 to the outside.

  In the said 1st-3rd embodiment, although the rubber sheet 30 for a partition was used as an example of a thin sheet-like partition member, it is not limited to a rubber sheet, For example, the resin sheet etc. which have elasticity are used. May be. Moreover, although the reinforcing rubber sheet 31 is used as an example of the reinforcing member, the reinforcing rubber sheet 31 is not limited to the rubber sheet, and for example, a resin plate or a metal plate may be used.

It is a schematic side view of the belt type concentrator in the 1st Embodiment of this invention. It is an AA arrow line view in FIG. It is a figure which shows the structure of the installation part of the drive roller of the terminal part of a belt type concentrator similarly. It is a figure of the attachment part of the guide body and side frame of a belt type concentrator. It is sectional drawing which shows the structure of the guide body of a belt type concentrator similarly. It is a top view of the guide body of the belt type concentrator. FIG. 3 is an enlarged plan view showing the configuration of an endless belt of the belt type concentrator. It is an AA arrow line view in FIG. It is a figure of the attachment part of the guide body and side frame of the belt-type concentrator in the 2nd Embodiment of this invention. It is a figure of the attachment part of the guide body and side frame of the belt-type concentrator in the 3rd Embodiment of this invention. It is a schematic side view of the conventional belt type concentrator. It is a perspective view of a pair of left and right side walls provided in the belt type concentrator.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Belt type concentrator 3 Sludge to be concentrated 9 Endless belt 20 Transport track 29 Guide body 30 Rubber sheet for partition (partition member)
31 Reinforcing rubber sheet (reinforcing member)
40 receiving member

Claims (5)

A belt-type concentrator equipped with an endless belt that is freely permeable and capable of filtering while conveying the sludge to be concentrated,
A pair of guide bodies are provided to prevent the sludge to be concentrated transported on the transport track from falling from the endless belt to both outer sides, and the guide body has a lower end portion with respect to the surface of the endless belt. A belt-type concentrator comprising a thin sheet-like partition member made of an elastic body in sliding contact and a reinforcing member for reinforcing the partition member. 2. The belt type concentrator according to claim 1, wherein a receiving member for receiving the endless belt on the conveyance track from below is provided below a position where the partition member is in sliding contact with the endless belt. The reinforcing member is positioned outside the partition member, and is in sliding contact with the surface of the endless belt in a state where the lower end portion of the partition member is bent inward. Belt type concentrator. The belt type according to any one of claims 1 to 3, wherein the partition member and the reinforcing member are separate members formed separately, and the reinforcing member is provided along the partition member. Concentrator. A belt-type concentrator equipped with an endless belt that is freely permeable and capable of filtering while conveying the sludge to be concentrated,
A pair of guide bodies are provided to prevent the sludge to be concentrated transported on the transport track from falling from the endless belt to both outer sides, and the lower end of the guide body slides on the surface of the endless belt. It is composed of a thin sheet-like partition member made of an elastic body that comes into contact, and a receiving member that receives the endless belt on the conveyance track from below is provided below the position where the partition member slides on the endless belt. A belt type concentrator.

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