JP2004155338A - Suction vehicle with volume reduction function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a suction vehicle with a volume reduction function which surely separates solid and liquid contained in sludge in a storage tank in a short time, and reduces the volume of the solid to the utmost, prevents breakage and fouling of a filter, and can be used as a multipurpose vehicle such as a normal suction vehicle for which no solid-liquid separation is required, a high-pressure washing vehicle, and a supplying vehicle supplying the high-pressure washing vehicle with water. <P>SOLUTION: The storage tank for settling and separating the recovered sludge inside and a suction mechanism connected to the storage tank, reducing the pressure of the inside of the storage tank and taking the sludge into the storage tank are loaded on the sludge suction vehicle. A movable plate provided with agitation blades at the front face and constituted to move back and forth in the storage tank is arranged in the storage tank. A liquid-permeable part through which only liquid components in the storage tank can pass and a blocking mechanism capable of blocking the liquid from passing to the liquid-permeable part are provided in the movable plate. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a suction vehicle for sucking and collecting sludge such as sludge and construction sludge deposited on road gutters and lakes, and more particularly, to separate solid and liquid components of sludge collected in a storage tank. The present invention relates to a suction / recovery vehicle having a structure capable of reducing the volume of a solid content and used as an ordinary suction / recovery vehicle for collecting waste that does not require solid-liquid separation.
[0002]
[Prior art]
Conventionally, in the process of collecting sludge generated as industrial waste such as sludge deposited in road gutters or lakes or construction sludge, a sludge collection vehicle having a suction mechanism and a storage tank mounted on a vehicle is dispatched to a collection site. The suction mechanism sucks and collects the sludge into the storage tank, and when the storage tank is full of sludge, transports the collected sludge to the intermediate treatment facility as it is, performs dehydration treatment at the intermediate treatment facility, and performs a water content below the specified value. And then transported to the final disposal site for processing.
However, in such a recovery treatment method, since the sludge as collected is transported to the treatment facility as it is, a large amount of water contained in the sludge can be removed together with the solid matter, despite the fact that only solids should be transported. Transport efficiency was very poor. Moreover, since the sludge treatment vehicle must leave the site every time it is transported, many recovery vehicles are required to collect a large amount of sludge in a short time. Furthermore, since a post-process for lowering the water content of the sludge after transportation is required, a great deal of time and cost are required for the treatment.
[0003]
In view of such circumstances, a flocculant is added to sludge collected in a storage tank mounted on a vehicle, and a solid component and a liquid component contained in the sludge are separated, so that only the solid content is stored in the storage tank. A sludge collection vehicle that can be transported and discarded while leaving wastewater has been proposed.
However, in such a conventional sludge recovery vehicle, the sludge and the flocculant were stirred and mixed by aerating the air into the storage tank.However, in this method, the sludge and the flocculant were difficult to be uniformly mixed, and a short time was required. It was difficult to perform solid-liquid separation reliably in a long time. Moreover, although the separated solid content still contains a large amount of water, it has not been possible to remove this water content on the vehicle to reduce the volume of the solid content.
[0004]
Therefore, the applicant of the present application has proposed a sludge suction vehicle equipped with a volume reduction device for solving such a problem of the conventional sludge collection vehicle (see Patent Document 1).
[0005]
[Patent Document 1]
JP 2001-32362 A
[Problems to be solved by the invention]
The sludge suction vehicle equipped with a volume reducing device proposed by the applicant of the present application is an extremely excellent sludge suction vehicle that can solve the problems of the conventional sludge collection vehicle as described above, but has several problems. Had.
First, in this sludge suction vehicle, solid-liquid separation is performed by providing a filter in the liquid passage portion of the moving plate that moves in the storage tank, but with use, the filter is damaged by external force or soiled by sludge. For example, there is a problem that solid-liquid separation in the storage tank cannot be performed satisfactorily.
In addition, this sludge suction vehicle enables solid-liquid separation in the storage tank by providing a liquid passage portion on the moving plate provided in the storage tank, but by providing the liquid passage portion, It cannot be used as a normal suction truck that does not require solid-liquid separation, and its use is limited.For example, if it becomes necessary to suction and collect other than sludge on site, separate normal suction and recovery There was a problem that a car was required. Furthermore, since there is no structure that can effectively recycle the liquid separated in the storage tank, for example, if cleaning work is required on site, replenish the water with a high-pressure cleaning car or a high-pressure cleaning car separately I had to send a car.
[0007]
The present invention has been made in order to solve the above-mentioned problems, and it is possible to reliably separate a solid content and a liquid content contained in sludge in a storage tank in a short time, and to further reduce the solid content as much as possible. It can also be used as a normal suction car that does not require solid-liquid separation, and can supply water to a high-pressure washing car or a high-pressure washing car. It is an object of the present invention to provide a suction vehicle with a volume reduction function that can be used as a multipurpose vehicle that can also be used as a supply vehicle.
[0008]
[Means for Solving the Problems]
The invention according to claim 1 is a sludge suction vehicle equipped with a storage tank that sediments and separates the collected sludge therein, and a suction mechanism that is connected to the storage tank and that depressurizes the inside of the storage tank and takes the sludge into the storage tank. In the storage tank, there is provided a moving plate having stirring blades on the front surface and configured to be movable back and forth in the storage tank, and the moving plate has a liquid passage portion through which only the liquid component in the storage tank can pass. The present invention relates to a suction vehicle with a volume reducing function, which is provided with a blocking mechanism capable of blocking the passage of the liquid to the liquid passing portion.
In the invention according to claim 2, the liquid passage portion includes a through hole that penetrates the moving plate in the front-rear direction, and a filter that is provided on the front surface or inside the through hole and allows the liquid in the through hole to pass therethrough. 2. The suction vehicle according to claim 1, wherein the blocking mechanism is configured to shield a front side of the filter.
[0009]
The invention according to claim 3 is characterized in that the blocking mechanism comprises an opening / closing plate arranged on the front side of the filter and a driving means for moving the opening / closing plate back and forth. With attached suction car.
The invention according to claim 4 relates to the suction wheel with a volume reducing function according to claim 2, wherein the shutoff mechanism comprises a valve disposed on the front side of the filter.
The invention according to claim 5 is characterized in that, in the front part of the storage tank, an outlet for taking out the liquid after passing through the liquid passage part, and the liquid taken out from the outlet is supplied with high-pressure washing water or coagulant. The suction vehicle with a volume reducing function according to any one of claims 1 to 4, further comprising a pump for reuse as dilution water or the like.
The invention according to claim 6 relates to a suction vehicle with a volume reducing function according to any one of claims 1 to 5, wherein a flocculant supply means for supplying a flocculant into the storage tank is provided.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of a suction wheel with a volume reducing function according to the present invention will be described with reference to the drawings.
FIG. 1 is an external side view showing the entirety of a suction vehicle with a volume reducing function according to the present invention, FIG. 2 is a flow sheet showing a configuration of a main part of the suction vehicle with a volume reducing function according to the present invention, and FIG. FIG. 4 is a cross-sectional view showing the internal structure of a storage tank in another embodiment of the suction vehicle with a volume reducing function according to the present invention, and FIG. 5 is a cut-off mechanism of FIG. It is a figure which expands and shows a part.
[0011]
The suction vehicle with a volume reducing function according to the present invention comprises a storage tank (1) for sedimentation and separation of the collected sludge therein, a suction mechanism (2) connected to the storage tank (1) for reducing the pressure inside the storage tank, and The coagulant supply means (3) for supplying the coagulant is mounted on the vehicle (4).
[0012]
The storage tank (1) is a substantially cylindrical tank, and a lid (50) that can be opened and closed is attached to the rear end of the storage tank (1). The inner surface of the lid (50) has stirring blades ( 51) is attached.
The vehicle (4) and the lid (50) are connected by a link mechanism including a hydraulic cylinder (52) to constitute a dump-up mechanism, and lift the front part of the storage tank (1) to cover the lid (50). Can be opened.
[0013]
Further, a disk-shaped moving plate (5) is disposed inside the storage tank (1), and the moving plate (5) is a hydraulically driven cylinder () disposed at the front end of the storage tank (1). By the drive of 6), the inside of the storage tank (1) can be moved back and forth as shown by the arrow.
In the description of the front and rear in this specification, the front side of the vehicle is referred to as a front part and the rear side of the vehicle is referred to as a rear part. The front of the storage tank is called the rear. Therefore, in FIG. 1, the right side of the figure is the rear part of the storage tank and the front part of the moving plate.
[0014]
The movable plate (5) is configured to slide while being in close contact with the inner peripheral surface of the storage tank (1) with the driving of the cylinder (6). Stirring blades (7) are provided.
The moving plate (5) has a through hole (8) penetrating the moving plate in the front-rear direction, and a filter disposed at the front or inside of the through hole (8) to allow the liquid in the through hole to pass therethrough. (9) is provided.
The liquid passage section (10) is configured to allow only the liquid to pass from the front to the rear of the moving plate (8) and prevent the solid from passing.
[0015]
Further, the moving plate (5) is provided with a shutoff mechanism (11) capable of shutting off the passage of the liquid to the liquid passage section (10), and the shutoff mechanism (11) is provided for the filter (9). The front side can be shielded.
FIGS. 2 and 3 show a first embodiment, and FIGS. 4 and 5 show a second embodiment of the present invention.
[0016]
The shut-off mechanism (11) shown in FIGS. 2 and 3 comprises a valve (12) arranged on the front side of the filter (9). By closing the valve (12), the front side of the filter (9) is opened. And the passage of the liquid to the liquid passage section (10) can be blocked.
The blocking mechanism (11) shown in FIGS. 4 and 5 includes an opening / closing plate (13) arranged on the front side of the filter (9) and a driving means (14) for moving the opening / closing plate (13) back and forth. It is configured. The opening / closing plate (13) is disposed so as to completely cover the front surface of the filter (9), and moves forward and backward as indicated by an arrow by driving a driving means (14) composed of a hydraulic cylinder, and moves to a rearmost position. It is possible to block the filter (9) and to block the passage of the liquid to the liquid passage section (10).
[0017]
In the present invention, the provision of such a blocking mechanism (11) allows the liquid passage section (10) via the filter (9) not only when the moving plate (5) is stationary but also when moving. ) Can be blocked. Thus, the filter can be prevented from being damaged or soiled, and can be used as a normal suction / recovery vehicle for collecting waste that does not require solid-liquid separation.
[0018]
As shown in FIG. 3, the suction mechanism (2) stores the suction port side of a roots blower (21) used as a vacuum pump through a first mist catcher / silencer water tank (22) by a suction pipe (25). The first mist catcher and silencer tank (24) is connected to the outlet side through a discharge silencer (23).
Two branch passages open to the outside air are formed in the middle of the suction pipe (25) connecting the first mist catcher / silencer water tank (22) and the storage tank (1). Are provided with a load regulating valve (26) and a vacuum breaker (27), respectively. Then, by driving the roots blower (21), a suction force is generated in the suction pipe (25) to make the inside of the storage tank (1) in a reduced pressure state, and the suction pipe (40) passes through the sludge inlet (70). Sludge can be sucked into the storage tank (1).
[0019]
At the front bottom of the storage tank (1), two outlets for taking out the liquid after passing through the liquid passage part (10) are provided, and one of the outlets (15) has a valve (16). ) Is connected to a drain pump (17) so that the liquid after the solid content is separated can be discharged to the outside.
A high pressure pump (20) is connected to the other outlet (18) via a valve (19). The pipe connected from the outlet of the high-pressure pump (20) is branched into two branches, and one pipe (30) is open to the outside air. By driving the pump (20), the water separated in the storage tank (1) can be reused for various purposes such as on-site cleaning work and dilution of the flocculant. As a result, it is possible to use the vehicle as a versatile suction / recovery vehicle having not only a function as a mere suction / recovery vehicle but also a function as a high-pressure washing vehicle or a replenishing vehicle for supplying water to the high-pressure washing vehicle.
The other pipe (31) is introduced into the storage tank (1) via the valve (32), and drives the pump (20) to pass the liquid from behind the moving plate (5). High-pressure water is sprayed on the section (10) to eliminate clogging of the filter (9).
[0020]
In addition, a communication path (33) connecting the front and rear of the storage tank is provided at the upper part of the storage tank (1), and air or aggregating agent for aeration is provided inside the storage tank (1) at a position close to the rear. A supply port (34) for supplying into the storage tank is provided.
[0021]
As shown in FIG. 3, the coagulant supply means (3) includes a water tank (42) and two coagulant tanks (43). The water tank (42) includes a heater (44) and a coagulant tank (43). ) Are provided with stirring blades (45), respectively.
The water tank (42) and the coagulant tank (43) are connected to each other via a pump (46) and a three-way valve (47), and the warm water heated by the heater (44) is supplied to the coagulant tank (43). Is supplied, and is stirred by the stirring blade (45). By using warm water in this way, a high-concentration flocculant can be obtained in a short time.
The flocculant stirred and mixed with the hot water in the flocculant tank (43) is supplied from the supply port (34) into the storage tank (1) through the flocculant supply pipe (48).
When the coagulant is supplied into the storage tank (1), a negative pressure may be applied to the storage tank by the suction mechanism (2), and a supply pump is not particularly required.
[0022]
The coagulant used in the present invention may be either an organic coagulant (polymer coagulant) or an inorganic coagulant.
As the polymer coagulant, any of anionic, cationic and nonionic coagulants can be used, and polyacrylamide, sodium polyacrylate and modified polyacrylamide are used as anionic, and polyacrylamide is used as cationic. Examples of the methacrylate, polyacrylate, polyamine, and nonion include polyacrylamide and modified polyacrylamide. Specific products include Clifflock (trade name, manufactured by Kurita Kogyo Co., Ltd.), Super Floc, Akofloc (all trade names, manufactured by Mitsui Cytec), and the like.
Further, as the inorganic coagulant, any of metal coagulants such as iron and aluminum, and calcium powder coagulant (precipitant) can be used. As examples of iron-based products, polytetraz (trade name, manufactured by Nippon Mining Co., Ltd.), aluminum-based products such as polyaluminum chloride (commonly known as packs), and specific examples of powder coagulants include Mosnite (trade name) And Super Namit (trade name, manufactured by NORTEC).
[0023]
In the present invention, one or more of the above-mentioned coagulants can be appropriately selected and supplied to the storage tank according to the properties of the sludge collected in the storage tank. In addition, depending on the type of sludge, it may not be necessary to supply the flocculant.
[0024]
Hereinafter, the operation of the suction wheel with a volume reducing function according to the present invention will be described.
When performing the sludge collection work using the suction wheel according to the present invention, first, the tip of the suction pipe (40) is inserted into a place such as the side groove (S) where sludge collection is required, and the roots blower (21) of the suction mechanism is inserted. , A suction force is generated in the suction pipe (25) to bring the inside of the storage tank (1) into a reduced pressure state, and from the suction pipe (40) to the inside of the storage tank (1) through the sludge intake (70). Aspirate sludge.
[0025]
Next, the coagulant mixed and stirred with the warm water supplied from the water tank (42) is supplied from the coagulant tank (43) into the storage tank (1) via the coagulant supply pipe (48). At this time, depending on the pH value of the sludge, a pH adjuster such as a sulfuric acid band is charged into the storage tank (1) to make the sludge neutral. As described above, it is not necessary to supply the flocculant depending on the type of sludge.
[0026]
After the coagulant is supplied, the motor is driven to rotate the stirring blade (7). When the stirring is performed sufficiently, flocs are formed, and the sludge is separated into a liquid and a solid.
Then, the cylinder (6) is slightly driven to reciprocate the moving plate (5) back and forth in the storage tank (1), and at the same time, the motor is driven to rotate the stirring blade (7), so that separation is impossible. Even enough sludge is quickly separated into liquid and solid.
[0027]
After the flocculant and the sludge are mixed by the reciprocating movement of the moving plate (5) a required number of times, the sludge is compressed and reduced by advancing the moving plate (5) toward the rear part of the storage tank (1). . The pressure during this compression step is, for example, about 50 to 70 kg / cm ² .
In this compression step, the moisture contained in the compressed sludge passes through the liquid passage section (10) and moves to the rear of the moving plate (5) (front of the storage tank), whereby the moving plate (5) In front of (the rear part of the storage tank), only the solid content in the sludge accumulates.
[0028]
By repeating the above process a required number of times, the solid component contained in the collected sludge is placed in front of the moving plate (5) (at the rear of the storage tank), and the liquid component is placed behind the moving plate (5) (at the front of the storage tank). Since it is determined that the solids are hardly contained in the contents taken out from the front of the storage tank (1), the valve (16) is opened and the storage tank (1) is opened. The water taken out from the rear of is discharged to the outside. If necessary, the valve (19) is opened to operate the high-pressure pump (20), so that the water stored in the rear part of the storage tank (1) is sprayed as high-pressure water to the liquid passage section (10). The filter (9) can be reused as a high-pressure washing water for washing the site, a diluting water for the coagulant, or the like, for eliminating clogging of the filter (9).
Therefore, even when a cleaning operation is required on site, there is no need to separately dispatch a high-pressure cleaning car or a supply vehicle for supplying water to the high-pressure cleaning car.
[0029]
In addition, in the present invention, by operating the shut-off mechanism (11), it can be used as an ordinary suction truck for collecting waste other than sludge that does not require solid-liquid separation.
In the case of the suction / recovery vehicle provided with the shut-off mechanism (11) shown in FIGS. 2 and 3, the valve (12) is closed to shield the filter (9) and pass the liquid to the liquid passage section (10). Can be used as an ordinary suction truck for collecting waste that does not require solid-liquid separation.
In the case of the suction / recovery vehicle provided with the blocking mechanism (11) shown in FIGS. 4 and 5, the driving means (14) is driven to move the opening / closing plate (13) backward, thereby blocking the filter (9). By blocking the passage of the liquid to the liquid passage section (10), it can be used as an ordinary suction truck for collecting industrial waste that does not require solid-liquid separation.
Since the operation of the shut-off mechanism (10) can be performed extremely easily and in a short time, for example, in a site where sludge requiring solid-liquid separation and waste not requiring solid-liquid separation exist. However, only one suction / collection vehicle needs to be dispatched, which is extremely convenient.
[0030]
【The invention's effect】
As described above, according to the invention of claim 1, it is possible to separate the solid content and the liquid content of the sludge collected in the storage tank to reduce the volume of the solid content and to shut off the solid content. By providing the mechanism, a suction and recovery vehicle with excellent versatility that can be used as a normal suction and recovery vehicle for sucking waste that does not require solid-liquid separation is provided.
According to the second aspect of the present invention, it is possible to prevent the filter from being damaged or soiled by the blocking mechanism, and to perform a good solid-liquid separation process for a long period of time. According to the invention according to claim 3, it is possible to use the sludge as a vehicle for collecting sludge requiring solid-liquid separation by advancing the open / close plate, and to dispose of the solid-liquid separator by retracting the open / close plate. It can be used as an object recovery vehicle, and a suction recovery vehicle excellent in versatility with a simple configuration can be obtained.
[0031]
According to the invention of claim 4, by opening the valve, it becomes possible to use it as a vehicle for collecting sludge that requires solid-liquid separation, and by closing the valve, waste that does not require solid-liquid separation can be used. It can be used as a recovery vehicle, and a suction recovery vehicle excellent in versatility with a simple configuration can be obtained.
According to the invention according to claim 5, a liquid obtained by solid-liquid separation of sludge that has been conventionally discarded can be effectively reused as a high-pressure washing water or a diluent of a flocculant. This is a suction and recovery vehicle that can be used as a high-pressure washing vehicle or a replenishing vehicle that supplies water to the high-pressure washing vehicle.
According to the invention according to claim 6, it becomes possible to quickly settle and separate the solid component of the sludge collected in the storage tank.
[Brief description of the drawings]
FIG. 1 is an external side view showing the entirety of a suction vehicle with a volume reducing function according to the present invention.
FIG. 2 is a flow sheet showing a configuration of a main part of the suction wheel with a volume reducing function according to the present invention.
FIG. 3 is a flow sheet showing an overall configuration of a suction vehicle with a volume reducing function according to the present invention.
FIG. 4 is a sectional view showing an internal structure of a storage tank in another embodiment of the suction wheel with a volume reducing function according to the present invention.
FIG. 5 is an enlarged view of the shut-off mechanism of FIG. 4;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Storage tank 2 Suction mechanism 3 Coagulant supply means 4 Vehicle 5 Moving plate 8 Through hole 9 Filter 10 Liquid passing part 11 Shutoff mechanism 12 Valve 13 Opening / closing plate 14 Driving means

Claims (6)

A sludge suction vehicle equipped with a storage tank for sedimentation and separation of the collected sludge therein, and a suction mechanism connected to the storage tank and configured to suction the sludge into the storage tank by depressurizing the inside of the storage tank. A moving plate which is provided with stirring blades and is configured to be movable back and forth in the storage tank is provided. A suction vehicle with a volume reducing function, comprising a shut-off mechanism capable of shutting off air. The liquid passage portion includes a through-hole that penetrates the moving plate in the front-rear direction, and a filter that is provided on or in front of the through-hole and that allows passage of liquid in the through-hole. The suction wheel with a volume reducing function according to claim 1, wherein a front side of the suction wheel can be shielded. 3. The suction vehicle with a volume reducing function according to claim 2, wherein the blocking mechanism comprises an opening / closing plate disposed on the front side of the filter, and a driving unit for moving the opening / closing plate back and forth. 3. The suction vehicle with a volume reducing function according to claim 2, wherein the shut-off mechanism comprises a valve arranged on the front side of the filter. In the front part of the storage tank, an outlet for taking out the liquid after passing through the liquid passage part, and for reusing the liquid taken out from the outlet as high-pressure washing water or coagulant dilution water, etc. The suction vehicle with a volume reducing function according to any one of claims 1 to 4, further comprising: The suction vehicle with a volume reducing function according to any one of claims 1 to 5, further comprising a flocculant supplying means for supplying a flocculant into the storage tank.

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