JP5234785B2 - Sludge concentrator and sludge concentrator - Google Patents

Description

  The present invention relates to a sludge concentrator equipped with a sludge separator that takes in sludge water from a septic tank or the like and separates it into sludge and sewage, and a sludge concentrator equipped with this sludge concentrator.

  A sludge concentrating vehicle is used to collect sludge from a general household septic tank and transport it to a sludge treatment plant (see, for example, Patent Document 1). According to the sludge concentrator, the sludge water (raw sludge) in the septic tank is taken in and separated into solid sludge and moisture sludge, and the sludge is returned to the septic tank to collect and transport the solid sludge. it can. Thereby, the conveyance amount to a sludge treatment plant can be reduced.

  When solid sludge is separated and recovered from the sludge water in the septic tank by the sludge concentrating vehicle disclosed in Patent Document 1, the sludge water is taken into the reaction tank and stirred with the flocculant, from the sludge water. Aggregated sludge aggregated in a gel form is generated. The agglomerated sludge and the sewage remaining without agglomeration are separated by a drum screen installed in the upper part of the sludge tank. The separated agglomerated sludge is accumulated in the sludge tank, and the sewage is returned to the septic tank.

  In addition, sludge water in the septic tank (such as upper sludge water in which a large amount of solid sludge floats) is directly taken into the drum screen installed in the sludge tank, and separated into solid sludge and moisture sludge. Sometimes. Also in this case, the separated sludge is accumulated in the sludge tank, and the sewage is returned to the septic tank.

JP 2008-18318 A

  By the way, in the conventional sludge concentration vehicle, as shown in FIG. 3 of Patent Document 1, for example, a sludge water supply pipe for supplying sludge water to the drum screen side penetrates horizontally from the outside of the tank. Between the sludge water supply pipe and the drum screen, a sludge water guide portion for guiding the sludge water flow path is provided so as not to be detachable by welding or the like. For this reason, the structure in the tank is complicated, and it is difficult to perform surface treatment such as spraying in the tank.

  In addition, the hydraulic piping was installed from the hydraulic pump driven by the vehicle PTO to the hydraulic motor of the drum screen installed in the tank. However, the entire length of the hydraulic piping is long, and it is necessary to pass through the tank. As a result, there was a problem that a lot of man-hours were required for the piping work.

  Also, when cleaning and maintaining the drum screen, when removing the drum screen from the tank, it is necessary to remove the joint of the hydraulic piping leading from the hydraulic pump to the hydraulic motor, and it takes time to remove the joint. There was a problem. Further, when the joint is removed, there is a problem that oil in the hydraulic piping leaks out and pollutes the environment. In addition, when removing the drum screen from the tank, it is necessary to remove the pump (submersible pump), sensor wiring, pneumatic piping, etc., and much time and effort must be spent on cleaning and maintenance of the drum screen. There wasn't.

  Conventionally, there has been a problem that the drum screen cannot be easily cleaned and inspected while the drum screen is attached to the tank.

  Moreover, in the conventional sludge water guide part, since sludge water was flowing toward the horizontal direction, sludge was easy to accumulate in a sludge water guide part. In addition, the sludge water guide section is in the tank, and there is a problem that cleaning is difficult.

  The present invention has been devised in view of the above problems, and aims to simplify the structure in the tank, clean the drum screen and its surroundings, facilitate maintenance, and the like.

  As means for solving the above-mentioned problems, the sludge concentrating device and the sludge concentrating vehicle of the present invention are configured as follows.

  That is, the sludge concentrating device of the present invention includes a sludge tank for accumulating sludge, a drum screen unit installed in the sludge tank so as to be integrally removable from the upper opening of the tank, and a sludge tank outside. And a sludge water supply pipe provided across the sludge tank, wherein the drum screen unit is detachably connected to the sludge water supply pipe, and the sludge water supply port, A drum screen body that separates sludge water supplied from a sludge water supply port through a sludge water guide and separates it into sludge and sewage, a motor that rotationally drives the drum screen body, and the drum screen body. And a water container for receiving dirty water.

  According to the sludge concentrating apparatus having such a configuration, the structure of the tank is simplified compared to the conventional sludge concentrating apparatus because the sludge water guide portion is included in the drum screen unit removable from the sludge tank. In addition, surface treatment such as thermal spraying can be easily performed in the tank.

  The sludge concentrating apparatus of the present invention is the sludge concentrating apparatus having the above-described configuration, wherein the drum screen unit includes a first unit integrally including the drum screen main body and the motor, the sludge water supply port, and the sludge water. The guide unit and the water container may be integrated, and a second unit connected below the first unit may be provided.

  According to the sludge concentrating apparatus having such a configuration, it is possible to take out only the first unit from the sludge tank while leaving the second unit in the sludge tank, and perform cleaning maintenance of the drum screen body.

  Moreover, the sludge concentration apparatus of this invention is a sludge concentration apparatus provided with either of the said structures, The 2nd unit of the said drum screen unit is the sludge tank outside the sludge tank through the said opening of the said sludge tank. You may further provide the sewage extraction path to derive and the pump which supplies the sewage in the said water container in the said sewage extraction path.

  According to the sludge concentrating apparatus having such a configuration, since the sewage outlet path for leading the sewage in the water container to the outside of the sludge tank is provided through the opening of the sludge tank, piping work for the sewage outlet path is easily performed. be able to.

  Moreover, the sludge concentration apparatus of this invention is a sludge concentration apparatus provided with the said structure, The 2nd unit of the said drum screen unit is a water level sensor for detecting the sewage water level in the said water container, and the power line of the said pump And may be further provided.

  According to the sludge concentrating apparatus having such a configuration, when removing the first unit (drum screen body) from the second unit for cleaning, maintenance or the like of the drum screen body, the signal line of the water level sensor or the power line of the pump Removal work is not required.

  The sludge concentrating apparatus of the present invention is a sludge concentrating apparatus having the above-described configuration, wherein the first unit of the drum screen unit closes the opening of the sludge tank and supports the drum screen main body downward. The lid plate may be provided with an opening / closing door for inspecting the drum screen main body.

  According to the sludge concentrating apparatus having such a configuration, the opening and closing door for inspecting the drum screen main body is provided on the cover plate, so that the first and second units are installed in the sludge tank by opening the opening and closing door. The inspection and cleaning can be performed while looking at the drum screen body. Thereby, maintainability improves.

  The sludge concentrating device of the present invention is a sludge concentrating device having the above-described configuration, wherein the motor of the first unit of the drum screen unit is a hydraulic motor, and an electric hydraulic pump unit that supplies hydraulic oil to the hydraulic motor. May be further provided.

  Further, the sludge concentrating apparatus of the present invention is the sludge concentrating apparatus having the above-described configuration, wherein the motor of the first unit of the drum screen unit is a hydraulic motor, and supplies the hydraulic oil to the hydraulic motor. An electric hydraulic pump unit installed above may be further provided.

  According to these sludge concentrating devices, the hydraulic pipe connecting the hydraulic motor and the electric hydraulic pump unit can be made shorter than before, and the number of man-hours for the piping work can be reduced. Further, since the hydraulic motor is driven by pressure oil from the electric hydraulic pump unit that is not affected by the rotational speed of the engine, there is also an advantage that the rotational speed of the drum screen body is stabilized.

  Further, the sludge concentrating apparatus of the present invention is a sludge concentrating apparatus having any one of the above configurations, wherein the sludge water guide section is a fan-shaped section that widens the sludge water flow path in a substantially fan shape from the bottom to the top, It may have a sludge water discharge opening opened in the horizontal direction so as to face the sludge water receiving part of the drum screen main body in the fan-shaped part or above the fan upper part.

  According to the sludge concentrating apparatus having such a configuration, the sludge water flows from the bottom to the top, so that it is difficult for the sludge to accumulate in the sludge water guide part, and the labor for cleaning the accumulated sludge is saved. Moreover, since the sludge water flow path is formed from the bottom to the top, it is possible to secure a sufficient flow path length in the sludge water guide portion as compared with the conventional case.

  The sludge concentration vehicle of the present invention includes any one of the above sludge concentration vehicles.

  According to the present invention, the structure in the tank (sludge tank) is simplified. In addition, the drum screen and its surroundings can be easily cleaned and maintained.

It is a left view which shows the sludge concentration apparatus and sludge concentration vehicle which concern on embodiment of this invention. It is a top view which shows the sludge concentration apparatus and sludge concentration vehicle which concern on embodiment of this invention. It is a rear view which shows the sludge concentration apparatus and sludge concentration vehicle which concern on embodiment of this invention. It is a piping diagram of the sludge concentration apparatus mounted in the sludge concentration vehicle which concerns on embodiment of this invention. It is a top view which shows a drum screen unit, a level switch, and an inverter. It is the fragmentary sectional view which looked at the drum screen unit from the side. It is AA sectional drawing of FIG. It is a top view of the 2nd unit. It is the figure which looked at the 2nd unit from the front. It is the exploded view which separated and represented the drum screen unit in the 1st unit and the 2nd unit. It is the fragmentary sectional view which looked at the sludge tank and the drum screen unit from back. It is a schematic back view which shows the sludge concentration apparatus and sludge concentration vehicle which concern on other embodiment of this invention, Comprising: It is a figure for demonstrating the installation position of a drum screen unit.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. First, prior to the description of the drum screen unit which is a characteristic part of the present invention, a sludge concentrating vehicle (sludge concentrating device) on which the drum screen unit is mounted will be briefly described.

[Appearance structure of sludge concentration vehicle]
FIG. 1 is a left side view of a sludge concentrating vehicle 1 according to an embodiment of the present invention, FIG. 2 is a plan view of the sludge concentrating vehicle 1, and FIG. In the sludge concentrating vehicle 1 shown in FIGS. 1 to 3, a subframe 4 is installed on a chassis frame 3 of a vehicle 2, and a tank 5 is mounted on the subframe 4. The tank 5 is separated into two tanks by a partition wall 6, a reaction tank 7 is in front of the partition wall 6, and a sludge tank 8 is behind the partition wall 6.

  A hose reel 9 is installed in the upper part of the tank 5. The hose reel 9 accommodates a suction / discharge hose 11 which is a long (eg, 60 m) hose so that it can be unwound and wound. A float valve 10 (see FIG. 2) that closes the pipe line in response to the overflow of the water level in the reaction tank 7 is provided in the upper part of the tank 5 in front of the hose reel 9.

  A drum screen unit 100 is installed in the upper part of the sludge tank 8. The drum screen unit 100 will be described in detail later.

  A flocculant tank 12 containing a liquid flocculant is installed on the front left side of the chassis frame 3. Further, an air separator 15, an oil separator 13, an overflow safety valve 14, and the like are installed behind the flocculated liquid tank 12.

  In addition, a reaction tank viewing window 16 made of a transparent material is provided on the side surface of the tank 5 in order to confirm the state in the reaction tank 7. Similarly, a level meter 18 for confirming the water level in the reaction tank 7 is installed on the side surface of the tank 5. A level meter 19 for confirming the water level in the sludge tank 8 is installed on the rear surface of the tank 5.

  A hose hanger 21 is installed at the rear part of the tank 5, and a short (for example, 10 m) suction / discharge hose 22 used for work at a short distance is wound around the hose hanger 21. The short suction / discharge hose 22 and the long suction / discharge hose 11 are selectively used according to the distance from the parking position of the sludge concentrating vehicle 1 to the septic tank.

[Piping configuration of sludge concentrator]
Next, the piping configuration of the sludge concentrating device 20 mounted on the sludge concentrating vehicle 1 will be described based on the piping diagram of FIG.

  Reference numeral 51 denotes a power take-out device (PTO) that extracts the power of the traveling engine E, and reference numeral 52 denotes a vacuum pump driven by the power take-out device (PTO) 51.

  A discharge side pipe 53 is connected to the discharge side of the vacuum pump 52, and a suction side pipe 54 is connected to the suction side of the vacuum pump 52. An oil separator 13 is provided in the middle of the discharge side pipe 53, and a check valve 55 for backflow prevention is provided in the middle of the suction side pipe 54. Further, a maintenance discharge valve 56 is provided upstream of the check valve 55 of the suction side pipe 54.

  A reaction tank suction pressurization pipe 60 is connected to the reaction tank 7 of the tank 5, and a sludge tank suction pressurization pipe whose one end is connected to the sludge tank 8 of the tank 5 at an intermediate position of the reaction tank suction pressurization pipe 60. The other end of 70 is connected. In the middle of the reaction tank suction and pressurization pipe 60, a relief communicating with the float valve 10, the overflow safety valve 14, the air separator 15, and the atmosphere 63 for preventing the water level in the tank 5 from overflowing in order from the tank 5 side. A tube 68 is provided. A relief valve 69 is provided in the middle of the relief pipe 68. The end of the reaction tank suction pressurizing tube 60 on the side opposite to the tank 5 is connected to a predetermined port of a suction pressurization switching valve 66 described later.

  Reference numeral 64 denotes an atmospheric intake / exhaust pipe, and a one-way variable throttle valve 61 is provided in the middle of the pipe. In the atmospheric intake / exhaust pipe 64, a bypass pipe 65 leading to the atmosphere 63 is branched between the one-way variable throttle valve 61 and the suction / pressurization switching valve 66, and the atmosphere is opened to a midway position of the bypass pipe 65. A valve 62 is provided.

  The discharge side pipe 53, the suction side pipe 54, the reaction tank suction pressurization pipe 60, and the atmospheric intake / exhaust pipe 64 described above are connected so as to communicate with each other by the switching operation of the suction pressurization switching valve 66.

  Further, an air switching valve 71 is provided in the middle of the sludge tank suction pressurizing pipe 70, and the sludge tank 8 is switched to the suction / pressurization switching valve 66, the atmosphere 63 or these by the switching operation of the air switching valve 71. Communicate with both.

  Reference numeral 72 denotes a tank communication pipe, one end of which is connected to the bottom of the reaction tank 7 of the tank 5, and the other end is connected to a predetermined port of the tank switching valve 73. Moreover, the upper part of the sludge tank 8 of the tank 5 is the first sludge water supply pipe 74 and the side part of the sludge tank 8 of the tank 5 (in FIG. 4, it is the upper part of the sludge tank 8 for convenience of drawing. ) Is connected with a second sludge water supply pipe 75. Reference numeral 76 denotes a sewage recirculation pipe, one end of which is connected to a discharge port of a submersible pump 154 (described later) in the drum screen unit 100, and the other end of which is a predetermined sludge treatment switching valve 77 (described later). Connected to the port. Reference numeral 78 denotes a raw sludge suction pipe, and one end thereof is connected to the proximal end of the suction / discharge hose 11 accommodated in the hose reel 9. Further, a first hose on-off valve 79 for opening and closing the pipe line is provided in the middle position of the raw sludge suction pipe 78. Furthermore, one end of a branch pipe 80 is connected to the tank 5 side from the first hose on / off valve 79 in the middle of the raw sludge suction pipe 78, and a second hose on / off valve 81 is provided at the other end. ing. A short suction / discharge hose 22 can be connected to the second hose on-off valve 81.

  The tank communication pipe 72, the first sludge water supply pipe 74, the second sludge water supply pipe 75, the sewage recirculation pipe 76, and the raw sludge suction pipe 78 are connected to each other by a connecting pipe 90 as shown in FIG. The pipes are connected so as to communicate with each other by the switching operation of the sludge treatment switching valve 77.

  A sight glass 83 is provided in the middle of the tank communication pipe 72 so that the sludge flowing through the pipe can be seen.

  The flocculated liquid tank 12 communicates with the bottom of the reaction tank 7 through a flocculated liquid injection pipe 84 provided through the reaction tank 7. An opening / closing valve 85 is provided in the middle of the aggregate liquid injection pipe 84. Further, an atmospheric suction pipe 86 and an on-off valve 87 that communicate with the atmosphere 63 are provided on the reaction chamber 7 side of the on-off valve 85 of the aggregate liquid injection pipe 84.

  At the rear bottom of the tank 5, a discharge pipe 88 for discharging the aggregated sludge from the sludge tank 8 and an opening / closing valve 89 for opening and closing the pipe line are provided.

[Drum screen unit]
Hereinafter, the drum screen unit 100 which is a characteristic part of the present invention will be described. The drum screen unit 100 filters sludge water sucked from the septic tank S (raw sludge that has not been subjected to agglomeration reaction treatment) to obtain solid sludge (hereinafter also referred to as “primary sludge”) and sludge water (hereinafter referred to as “primary sludge”). (Also referred to as “primary sewage”), or sludge water that has been subjected to a flocculation reaction treatment is filtered to obtain flocculated sludge (hereinafter also referred to as “secondary sludge”) and sewage (hereinafter referred to as “secondary sewage”). ").

  5-7 has shown the state in which the drum screen unit 100 was installed in the upper part in the sludge tank 8 of the tank 5 of the sludge concentration vehicle 1. FIG. The drum screen unit 100 is installed in the sludge tank 8 through the opening 23 at the top of the sludge tank 8, and the upper flange 151 b of the drum screen unit 100 is supported by the mounting flange 24 at the edge of the opening 23 at the top of the sludge tank 8. It is fixed. The upper flange 151b and the mounting flange 24 are fastened together with bolts and nuts together with a cover plate 113 described later.

  The drum screen unit 100 includes a first unit 110 and a second unit 150, and the second unit 150 is detachably connected from below the first unit 110.

<First unit>
As shown in FIG. 6 or 7, the first unit 110 includes a cover plate 113, a drum screen main body 114, a scraper 115 attached to the drum screen main body 114, a sludge water guide plate 123, a hydraulic motor 116 (motor), an electric motor A hydraulic pump unit 117 and the like are provided.

  The cover plate 113 substantially corresponds to the shape of the upper opening 23 of the sludge tank 8, and is provided so as to close the upper opening 23 of the sludge tank 8 together with the upper flange 151b. However, as shown in FIG. 5, two corners of the cover plate 113 are notched portions 113a that are notched inward. For this reason, the upper flange 151b of the second unit extends inward so as to compensate for the notches 113a and 113a of the cover plate 113.

  As shown in FIG. 5, the lid plate 113 is provided with a hinged opening / closing door 112 for checking the drum screen main body 114. The open / close door 112 is provided directly above the drum screen main body 114, and when opened, the drum screen main body 114 can be directly seen from directly above. Since the opening / closing door 112 is partially made of a transparent member such as glass, the drum screen main body 114 can be seen through the transparent member even when the door 112 is closed.

  The drum screen main body 114 is rotatably supported between two drum mounting plates 118 extending in parallel downward from the lower surface of the lid plate 113. As the drum screen main body 114, one in which a large number of wires are wound in the circumferential direction with a slight gap in a cylindrical shape is employed. When the sludge water is supplied onto the sludge water receiving portion 114a of the drum screen main body 114 (the upper portion of the drum screen main body 114; see FIG. 7), the sludge contained in the sludge water is formed between the numerous wires. It falls off and is separated from the solid sludge. The drained sewage is received by the water container 151 of the second unit, and the sludge remains on the drum screen main body 114. The sludge remaining on the drum screen main body 114 is scraped off by a scraper 115 described later provided on the drum screen main body 114 and accumulated in the sludge tank 8.

  The scraper 115 is fixed to a lower end of a scraper frame 121 provided via a hinge 120 with a spring material provided on a support frame 119A provided between a pair of drum mounting plates 118. The lower end side of the scraper frame 121 and the scraper 115 are pressed against the drum screen main body 114 side by a hinge 120 with a spring. For this reason, the scraper 115 pressed to the sludge discharge side of the drum screen main body 114 can scrape off the sludge adhering to the drum screen main body 114.

  As shown in FIG. 7, the sludge water guide plate 123 is also provided on a support frame 119 </ b> B provided between a pair of drum mounting plates 118 through a hinge 120 </ b> A with a spring material. The sludge water guide plate 123 includes a sludge water discharge port connection port 123a connected to a sludge water discharge port 153c, which will be described later, by a pressing force of a hinge with spring material 120A, and a sludge water discharge port 153c and a sludge water discharge port connection port 123a. Side plate portion 123b and lower plate portion 123c for guiding the sludge water supplied from the upper part of the drum screen main body 114. The side of the drum plate main body 114 of the side plate portion 123b is cut out in an arc shape corresponding to the cylindrical shape of the drum screen main body 114.

  The hydraulic motor 116 is installed on the drum mounting plate 118 and rotationally drives the drum screen main body 114. Further, a hydraulic pipe 122 is provided between the hydraulic motor 116 and the electric hydraulic pump unit 117 that supplies pressure oil. The hydraulic pipe 122 is connected to the cover plate 113 by a joint 122a.

  The electric hydraulic pump unit 117 is installed on the cover plate 113 and includes a hydraulic pump and an electric motor that drives the hydraulic pump. With this configuration, pressure oil is supplied to the hydraulic motor 116 through the hydraulic pipe 122. As the electric hydraulic pump unit 117, a unit that can supply a hydraulic pressure (for example, 14 MPa) much higher than the predetermined hydraulic pressure to the hydraulic motor 116 that requires a predetermined hydraulic pressure (for example, 2 MPa) as the driving hydraulic pressure is used for several tens of minutes. ing. However, the apparent current supplied to the electric motor of the electric hydraulic pump unit 117 is made significantly smaller than the rated current, so that the hydraulic oil 116 is supplied with the predetermined hydraulic pressure (2 MPa). Many general-purpose electric hydraulic pump units are suitable for short-time operation, but by reducing the apparent current to be supplied, heat generation of the electric motor can be suppressed. As a result, the electric hydraulic pump unit 117 can be operated for a long time. Continuous operation is possible.

<Second unit>
On the other hand, as shown in FIGS. 6 to 9, the second unit 150 includes a water container 151, a sludge water supply port 152, a sludge water guide section 153, a submersible pump 154, water level detection electrodes 155 and 156, a sewage discharge pipe 159. Etc.

  The water container 151 receives and temporarily stores the sewage flowing down from the drum screen main body 114. As shown in FIG. 6, slope portions 151 a and 151 a that descend toward the center are formed at the bottom of the water container 151 so that sewage collects near the center of the bottom. And the submersible pump 154 is installed so that the suction inlet 154a may be arranged in the comparatively low position of the gradient part 151a.

  Further, the upper flange 151b extending in the horizontal direction is integrally formed at the upper edge of the water container 151. As described above, the upper flange 151b is supported and fixed to the mounting flange 24 provided at the edge of the mounting port 23. As shown in FIG. 5 and FIG. 8, the upper flange 151b has two corners that protrude inward from the inner wall 151c of the water container 151, and a power line (power line) 154b of the submersible pump 154 extends to the protruding part 151d. Is fixed through. A coupler 154bb is interposed in the middle of the power line 154b so that the power line 154b can be separated in the coupler 154bb (see FIG. 5) when the drum screen unit 100 is removed from the sludge tank 8. It has become. Further, as shown in FIGS. 6 and 7, water level detection electrodes (water level sensors) 155 and 156 are installed in the water container 151, and the electrodes 155 and 156 are also fixed to the overhanging portion 151d. Has been. Moreover, as shown in FIGS. 6-9, the above-mentioned sludge tank suction pressurization pipe | tube 70 and the sewage recirculation | reflux pipe | tube 76 are each connected to the said overhang | projection parts 151d and 151d of the upper flange 151b.

  As shown in FIG. 5, the signal lines 155a and 156a and the power line 154b connected to the terminals of the water level detection electrodes 155 and 156 are respectively connected to the level switch 25 and the inverter 26 installed at predetermined positions of the sludge concentrating vehicle 1. It is connected. The level switch 25 sends an operation / stop signal to the inverter 26 based on signal levels from the water level detection electrodes 155 and 156 having different lengths (water level detection heights), and the inverter 26 follows the signals. Supply / stop of driving power to the submersible pump 154 is performed. As a result, the submersible pump 154 operates above the predetermined water level and stops below the predetermined water level.

  As shown in FIGS. 6 to 11, the sludge water guide section 153 is substantially fan-shaped from the bottom to the top through the sludge water flow path supplied from the sludge water supply port 152 via the introduction pipe 157. A fan-shaped portion 153a that widens, a rectifying portion 153b extending above the fan-shaped portion 153a, and a sludge water discharge port that opens horizontally from the rectifying portion 153b to face the sludge water receiving portion 114a of the drum screen main body 114 153c. The fan-shaped part 153 a and the rectifying part 153 b are formed along the inner wall 151 c of the water container 151. The opening width of the sludge water discharge port 153c substantially corresponds to the width of the region of the drum screen main body 114 that can be filtered. The sludge water discharge port 153c may be provided in the fan-like portion 153a instead of the rectifying portion 153b as long as it is provided so as to face the sludge water receiving portion 114a of the drum screen main body 114. Moreover, as the fan-shaped portion 153a, a pipe structure that branches from a single pipe into a plurality of pipes in a fan shape from the sludge water supply port 152 side toward the sludge water discharge port 153c side may be adopted.

  One end of the sewage outlet pipe 159 is connected to the discharge port of the submersible pump 154, and the other end is connected to the sewage recirculation pipe 76. The sewage outlet pipe 159 forms a sewage outlet path for leading sewage stored in the water container 151 to the outside of the sludge tank 8 through the opening 23 of the sludge tank 8.

  As shown in FIG. 8, a through hole 151 e is provided at the bottom of the water container 151 in order to extract the sewage in the water container 151, and the through hole 151 e extends from the through hole 151 e to the peripheral edge of the through hole 151 e. A drain pipe 160 (see also FIG. 6) for discharging sewage is connected. In addition, an open / close valve 161 is provided at the lower end of the drain pipe 160 (see FIG. 4).

[Operation of sludge concentrator]
An example of the operation / treatment procedure when the septic tank S is cleaned by the sludge concentrating vehicle 1 described above will be described.

<Original sludge suction>
As an initial state of various valves of the sludge concentrating vehicle 1, the first hose on-off valve 79, the second hose on-off valve 81, the on-off valves 85, 87, 89, the air release valve 62, and the like are closed.

  From the initial state, first, the suction / discharge hose 11 is unwound from the hose reel 9 and its tip is inserted into the anaerobic tank S ′ of the septic tank S. Although the short suction / discharge hose 22 can be used instead of the long suction / discharge hose 11, in this embodiment, the case of using the long suction / discharge hose 11 is given as an example.

  In the anaerobic tank S ′, the scum 200, the intermediate water 201, and the precipitated sludge 202 form three layers in order from the top. The suction operation into the tank 5 of each layer is performed in the order of the upper layer scum 200, the intermediate layer intermediate water 201, and the lower layer precipitated sludge 202.

  First, the upper scum 200 is directly sucked and collected in the sludge tank 8 without passing through the drum screen unit 100. In order to execute this suction recovery, the tip of the suction / discharge hose 11 is inserted into the scum 200 in the anaerobic tank S ′, and the vacuum pump 52 is driven. Further, the suction pressure switching valve 66 is switched to the right position a, the sludge treatment switching valve 77 is switched to the right position a, the tank switching valve 73 is switched to the left position a, and the air switching valve 71 is switched to the left position a. The first hose opening / closing valve 79 is opened.

  After the suction of the scum 200 to the sludge tank 8 is completed, the intermediate water 201 is sucked into the reaction tank 7. In order to execute this suction, the tip of the suction / discharge hose 11 is inserted into the intermediate water 201 in the anaerobic tank S ′ from the above state, and the tank switching valve 73 is switched to the neutral position b.

  After the suction of the intermediate water 201 into the reaction tank 7 is completed, the precipitated sludge 202 is sucked and collected directly into the sludge tank 8 without passing through the drum screen unit 100. In order to execute this suction recovery, from the above state, the tip of the suction / discharge hose 11 is inserted into the sedimented sludge 202 in the anaerobic tank S ', and the tank switching valve 73 is switched to the left position a again.

<Aggregation reaction>
After the suction of the precipitated sludge 202 to the sludge tank 8 is completed, the agglomeration reaction process is performed on the intermediate water 201 sucked into the reaction tank 7 before that. In order to execute this agglomeration reaction process, the air switching valve 71 is switched to the right position c from the above state, the closed on-off valves 85 and 87 are opened, and the opened first hose on-off valve 79 is closed. To do. Then, the reaction tank 7 is depressurized, the air-mixed coagulated liquid is mixed into the intermediate water 201 in the reaction tank 7, and the coagulation reaction is uniformly promoted by the stirring action by bubbling, so that the intermediate water 201 in the reaction tank 7 is mixed. From this, gel aggregate sludge (secondary sludge) is produced.

  Next, secondary sludge water composed of the secondary sludge generated in the reaction tank 7 and the secondary sludge remaining without agglomeration is pumped to the drum screen main body 114. In order to execute this processing, from the above state, the suction / pressurization switching valve 66 is switched to the left position c, the tank switching valve 73 is switched to the neutral position b, and the sludge processing switching valve 77 is switched to the left position b. The valve 79 is opened. Further, the open on-off valves 85 and 87 are closed. Then, the secondary sludge water in the reaction tank 7 is pumped to the drum screen unit 100 through the tank communication pipe 72, the tank switching valve 73, the sludge treatment switching valve 77, and the second sludge water supply pipe 75. In FIG. 4, the second sludge water supply pipe 75 is connected on the drum screen unit 100, but actually, as shown in FIG. 11, the second sludge water supply is provided. The pipe 75 is connected to the sludge water supply port 152 of the drum screen unit 100 from below. Flange 152a, 75a is provided in the both ends of the 2nd sludge water supply pipe 75 and the sludge water supply port 152, and these flanges 152a, 75a are fastened with the volt | bolt and nut which are not shown in figure. That is, the second sludge water supply pipe 75 and the sludge water supply port 152 are detachably connected to each other.

  The secondary sludge water flows in the direction indicated by the arrow P in the region indicated by the dots in FIGS. 9 to 11 and flows through the sludge water supply port 152 through the introduction pipe 157 and the fan-shaped portion 153a of the sludge water guide portion 153. Widen the road. And it discharges to the sludge water receiving part 114a (refer FIG. 11) of the drum screen main body 114 from the sludge water discharge port 153c provided in the rectification | straightening part 153b of the sludge water guide part 153.

  The secondary sludge water is separated into secondary sludge (gel-like coagulated sludge) and non-aggregated secondary sludge water by the drum screen main body 114, and the secondary sludge is scraped from the drum screen main body 114 by the scraper 115. It is dropped and accumulated in the sludge tank 8. On the other hand, the secondary sewage is temporarily stored in the water container 151. Thereafter, when the water level of the sewage in the water container 151 reaches a predetermined level, the submersible pump 154 is operated, and the secondary sewage in the water container 151 is discharged out of the drum screen unit 100 (sludge tank 8) through the sewage outlet pipe 159. It is discharged and further returned to the septic tank S through the sewage recirculation pipe 76, the sludge treatment switching valve 77, the raw sludge suction pipe 78 and the suction / discharge hose 11 connected to the sewage outlet pipe 159.

  After the completion of the secondary sewage recirculation, the vacuum pump 52 and the drum screen main body 114 are stopped, the opened first hose on-off valve 79 is closed, and the sludge concentrating vehicle 1 is moved to the disposal site.

  In the present embodiment, only the sludge water that has been subjected to the agglomeration reaction process is filtered using the drum screen unit 100, but sludge water (raw sludge) is directly applied to the drum screen unit 100 from the septic tank S. It is of course possible to take in and filter.

<Concentrated sludge discharge>
At the disposal site, a short suction / discharge hose 22 is connected to the on-off valve 89, and the tip of the hose 22 is disposed at a predetermined location of the disposal site.

  Then, the suction and pressure switching valve 66 is switched to the left position c, the air switching valve 71 is switched to the left position a, the tank switching valve 73 is switched to the right position c, the sludge treatment switching valve 77 is switched to the right position a, and is opened and closed. When the valve 89 is opened and the vacuum pump 52 is driven, the inside of the sludge tank 8 is pressurized, and the concentrated sludge accumulated in the sludge tank 8 passes through the discharge pipe 88 and the short suction / discharge hose 22 at the disposal site. It is discharged to a predetermined place.

[Effect of sludge concentrator]
In the sludge concentrating vehicle 1 described above, as shown in FIG. 10, the drum screen unit 100 is installed so that it can be taken out upward from the opening 23 at the top of the sludge tank 8. Further, since the first unit 110 can be separated upward from the second unit 150, only the first unit 110 is left in the sludge tank 8 while the second unit 150 is left in the sludge tank 8. Can be removed from. Moreover, it is also possible to remove the 1st unit 110 and the 2nd unit 150 from the sludge tank 8 integrally.

  The sludge water guide 153 of the second unit 150 is not fixed to the tank 5 by welding or the like, but is provided in the second unit. Thus, the sludge water guide 153 can be detached from the sludge tank 8 together with the drum screen unit 100. For this reason, the structure in the tank is simplified and surface treatment such as spraying is easily performed in the tank as compared with the conventional sludge concentrating vehicle in which the sludge water guide is fixed in the tank by welding or the like. It becomes possible.

  In the sludge concentrating vehicle 1, the first unit 110 of the drum screen unit 100 includes a hydraulic motor 116 that drives the drum screen body 114 and an electric hydraulic pump unit 117 that are integrally included in the first unit 110. Yes. For this reason, the hydraulic pipe 122 that connects the hydraulic motor 116 and the electric hydraulic pump unit 117 can be made shorter than before, and the number of piping work can be greatly reduced. Further, since the hydraulic motor 116 is driven by the pressure oil from the electric hydraulic pump unit 117 that is not affected by the rotational speed of the engine E, there is also an advantage that the rotational speed of the drum screen body 114 is stabilized.

  Further, since the drum screen main body 114, the hydraulic motor 116, the electric hydraulic pump unit 117, and the hydraulic pipe 122 are integrally provided in the first unit 110, when the drum screen main body 114 is cleaned, maintained, etc. Without disassembling the hydraulic pipe 122, the first unit 110 need only be pulled upward with respect to the second unit 150 and the tank 5. Since it is not necessary to disassemble the hydraulic pipe 122, there is no fear that the oil in the hydraulic pipe 122 leaks outside and pollutes the environment.

  Further, since the submersible pump 154 and the water level detection electrodes 155 and 156 are integrally included in the second unit 150 of the drum screen unit 100, the second unit 150 is used for cleaning, maintenance and the like of the drum screen main body 114. When removing the first unit 110 (drum screen main body 114) from 150, sewage is connected to the signal lines 155a and 156a of the water level detection electrodes 155 and 156, the power line 154b of the submersible pump 154, and the submersible pump 154. It is not necessary to remove the pipe 159, the sewage reflux pipe 76, and the like.

  In addition, since the lid plate 113 is provided with an opening / closing door 112 for inspecting the drum screen main body 114, the first and second units 110, 150 are placed in the sludge tank 8 by opening the opening / closing door 112. Inspection and cleaning while looking at the drum screen main body 114 can be performed with the installation. Thereby, maintainability improves.

  Further, in the sludge water guide section 153, the sludge water flows from the bottom to the top, so that it is difficult for the sludge to accumulate inside, and the trouble of cleaning the accumulated sludge is saved.

  As described above, according to the sludge concentrating vehicle 1, surface treatment such as thermal spraying can be easily performed in the tank 5, and the work burden in cleaning and maintenance of the drum screen can be reduced.

[Other Embodiments]
In the embodiment described above, the drum screen unit 100 is installed so that its longitudinal direction is in the vehicle front-rear direction, as shown in the drawing. 8 may be installed. By installing the drum screen unit 100 in this way, the installation position of the partition wall 6 in the tank 5 can be moved backward. As a result, although the capacity of the sludge tank 8 is reduced, the capacity of the reaction tank 7 can be expanded (for example, expanded from the 7-person tank size to the 10-person tank size). The working time related to the agglutination reaction process in the 10-person tank septic tank can be shortened.

  In the above-described embodiment, the drum screen unit 100 is installed at the highest position of the sludge tank 8 having a circular cross section (tank 5 having a circular cross section). However, as shown in FIG. You may install in the comparatively low position (for example, between the highest position and side part of the sludge tank 8) biased to the side from the highest position of the sludge tank 8 (tank 5).

  The total height H of the vehicle needs to be within the total height limit value (3.8 m) determined by the vehicle limit ordinance, and the drum screen unit 100 is attached to the sludge tank 8 (tank 5) as shown by a two-dot chain line in FIG. The exposed portion from the tank surface 5a of the drum screen unit 100 affects the overall height H, and it becomes difficult to increase the diameter of the sludge tank 8 (tank 5). However, as shown by the solid line in the figure, when the drum screen unit 100 is installed at a position that is biased laterally from the highest position of the sludge tank 8 (however, the hose reel 9 is installed in the sludge concentration vehicle 1). It is possible to increase the capacity of the tank 5 with the top of the sludge tank 8 (tank 5) as the highest position.

  INDUSTRIAL APPLICABILITY The present invention can be applied to a sludge concentrator equipped with a drum screen that takes in sludge water from a septic tank or the like and separates it into sludge and sewage, and a sludge concentrator equipped with this sludge concentrator.

1 Sludge Concentration Vehicle 8 Sludge Tank 20 Sludge Concentrator 23 Opening at the Top of the Sludge Tank 75 Second Sludge Water Supply Pipe (Sludge Water Supply Pipe)
DESCRIPTION OF SYMBOLS 100 Drum screen unit 110 1st unit 112 Opening / closing door 113 Cover plate 114 Drum screen main body 114a Sludge water receiving part 116 Hydraulic motor 117 Electric hydraulic pump unit 150 Second unit 151 Water container 152 Sludge water supply port 153 Sludge water guide part 153a Fan shape 153c Sludge water outlet 154 Submersible pump (pump)
154b Power line (power line)
155, 156 Water level detection electrode (water level sensor)
159 Sewage outlet pipe (sewage outlet)

Claims (9)

A sludge tank for accumulating sludge, a drum screen unit installed in the sludge tank so as to be integrally removable from the opening of the tank, and sludge water provided from outside the sludge tank to the sludge tank A sludge concentrating device comprising a supply pipe,
The drum screen unit is
A sludge water supply port detachably connected to the sludge water supply pipe;
A drum screen main body that separates sludge water supplied from the sludge water supply port through a sludge water guide section into sludge and sewage;
A motor for rotationally driving the drum screen body;
A water container for receiving sewage separated by the drum screen body;
A sludge concentrating device comprising: In the sludge concentration apparatus according to claim 1,
The drum screen unit is
A first unit integrally including the drum screen body and the motor;
A second unit integrally having the sludge water supply port, the sludge water guide section and the water container, and connected below the first unit;
A sludge concentrating device characterized by comprising In the sludge concentration apparatus according to claim 2,
The second unit of the drum screen unit is:
A sewage lead-out path for leading the sewage in the water container out of the sludge tank through the opening of the sludge tank, and a pump for feeding the sewage in the water container into the sewage lead-out path
The sludge concentration apparatus further comprising: In the sludge concentration apparatus according to claim 3,
The second unit of the drum screen unit is:
A water level sensor for detecting a sewage water level in the water container, a power line of the pump,
The sludge concentration apparatus further comprising: In the sludge concentration apparatus of any one of Claims 2-4,
The first unit of the drum screen unit is:
The lid further comprises a lid plate for closing the opening of the sludge tank and supporting the drum screen body downward.
A sludge concentrating device, wherein the lid plate is provided with an opening / closing door for checking the drum screen body. In the sludge concentration apparatus according to claim 2,
The motor of the first unit of the drum screen unit is a hydraulic motor;
A sludge concentrating device, further comprising an electric hydraulic pump unit that supplies hydraulic oil to the hydraulic motor. In the sludge concentration apparatus of Claim 5,
The motor of the first unit of the drum screen unit is a hydraulic motor;
The sludge concentrating device further comprising an electric hydraulic pump unit installed on the lid plate for supplying hydraulic oil to the hydraulic motor. In the sludge concentration apparatus of any one of Claims 1-7,
The sludge water guide section faces a sludge water receiving section of the drum screen main body at the fan-shaped section or above the fan upper section, and a fan-shaped section that widens the flow path of the sludge water from the bottom to the top. Sludge water discharge opening that opens horizontally,
A sludge concentrating device characterized by comprising:   A sludge concentrator equipped with the sludge concentrator according to any one of claims 1 to 8.

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