JP6479591B2 - Dehydrator - Google Patents

Description

  The present invention relates to a dehydrator for dehydrating water from an object to be processed, and more specifically, dehydrating water from an object to be processed by pressing the object to be processed that includes water surrounded by a water-permeable material having water permeability. It relates to a dehydrator.

  The Great East Japan Earthquake that occurred on March 11, 2011 not only caused devastating damage to houses due to the earthquake and tsunami, but also caused serious damage such as the diffusion of radioactive materials at the Fukushima Daiichi Nuclear Power Station. In addition, access to the contaminated area is still restricted due to the diffusion of radioactive materials due to the nuclear accident, and recovery and restoration are not progressing at present due to insufficient measures to deal with the invisible pollution of radiation. is the current situation.

  For contamination by radioactive substances, so-called “decontamination” is performed in which radioactive substances are removed by washing. Decontamination is performed by spraying high-pressure washing water onto land, roads, buildings, etc. that are thought to have radioactive substances attached, and washing away radioactive substances. However, decontamination in rivers, lakes, paddy fields, etc. It is necessary to remove the accumulated mud, divide the removed mud into moisture and soil, and remove the radioactive substances contained in the moisture and soil by an appropriate method.

  Conventionally, as a method of dehydrating moisture from a material to be treated such as sludge containing moisture, for example, a flexible container bag having water permeability (hereinafter referred to as a “flexible bag”) is filled with the material to be treated, and natural due to its own weight. The method of dehydrating or dehydrating by placing a weight on the flexible container bag is used. However, such a method takes time and is extremely poor in productivity. For this reason, the flexible container bag is stored in a housing or a bag, and after filling the flexible container bag with an object to be treated and closing the outlet of the flexible container bag, the pusher and the pressure lid are lowered by the cylinder and the flexible container bag. A dehydration apparatus (see Patent Document 1) for dehydrating by pressurizing from above is proposed, and a solid-liquid separation basket (see Patent Document 2).

JP 2000-24796 A Japanese Patent Laid-Open No. 62-183823

  However, since the dehydrator of Patent Document 1 and the solid-liquid separation basket of Patent Document 2 are premised on being used by being fixedly installed in a predetermined place, the overall miniaturization is hardly considered. There is a problem that it is not suitable for transporting to a decontamination area etc. using a truck. In particular, in the case of decontamination caused by the nuclear accident, there are many places where the road to the decontamination target area is narrow and not paved, and large trucks may not enter the decontamination target area.

  In order to efficiently perform dehydration, it is preferable that the inner diameter of the dewatering cylinder that accommodates the object to be processed and the size of the dewatering plate that presses the object to be processed accommodated in the dewatering cylinder are approximately the same size. If the alignment between the dewatering cylinder and the dewatering plate is not performed correctly, the dewatering plate cannot be properly entered into the dewatering cylinder and the workpiece cannot be pressed. Furthermore, there is a problem in that when the object to be processed is pressed and the dewatering plate is held in a horizontal state and does not move up and down correctly, the object to be processed cannot be correctly pressed and the dewatering efficiency is lowered. .

  Therefore, an object of the present invention is to provide a compact dehydrator that is easy to transport.

  In addition, the present invention can easily align the dewatering cylinder for storing the object to be processed and the dewatering plate for pressing the object to be processed accommodated in the dewatering cylinder, and the pressing plate maintains the correct posture. An object of the present invention is to provide a dehydrator that can move up and down.

  Furthermore, an object of the present invention is to provide a dehydrator that efficiently recovers dehydrated water and improves solid-liquid separation performance.

In order to solve the above-mentioned problem, the present invention according to claim 1 is directed to an object to be treated surrounded by a water-permeable material having water permeability, wherein a plurality of drain holes are provided on the side surface and / or the bottom surface, and the upper side is a funnel. The dewatering cylinder formed so as to expand in a shape is accommodated, and the object to be treated accommodated in the dewatering cylinder is pressed by a dehydrating plate, whereby moisture is removed from the object to be treated through the water-permeable material. In the dehydrator for dehydrating, the dehydrating cylinder is disposed on a dehydrating cylinder mounting base formed to be horizontally movable in the front-rear and left-right directions, and is a gate that suspends and supports the dehydrating plate so as to be vertically movable by power from a drive source A dehydrating plate mounting frame having a mold shape, and a dehydrating plate mounting frame support column for guiding a pair of left and right legs of the dehydrating plate mounting frame that move up and down, respectively, and a pair of left and right legs of the dehydrating plate mounting frame. A side clearance adjusting bearing plate having a bearing guided by the dewatering plate mounting frame support column is attached to each lower end side with a predetermined clearance provided, and the dewatering plate mounting is performed by the side clearance adjusting bearing plate. thereby preventing the frame is inclined to the left and right, the dehydrated plate by allowing lowering the dehydration plate mounting frame remains vertical state by allowing the movement to the left and right of the dewatering plate mounting frame by said gap characterized in that to prevent the inclination is formed so as to perform a smooth vertical movement of the dewatering plate mounting frame.

In order to solve the above-mentioned problem, the present invention according to claim 2 is directed to a workpiece surrounded by a water-permeable material having water permeability, wherein a plurality of drain holes are provided on the side surface and / or the bottom surface, and the upper side is a funnel. The dewatering cylinder formed so as to expand in a shape is accommodated, and the object to be treated accommodated in the dewatering cylinder is pressed by a dehydrating plate, whereby moisture is removed from the object to be treated through the water-permeable material. In the dehydrator for dehydrating, the dehydrating cylinder is disposed on a dehydrating cylinder mounting base formed to be horizontally movable in the front-rear and left-right directions, and is a gate that suspends and supports the dehydrating plate so as to be vertically movable by power from a drive source A dehydrating plate mounting frame having a mold shape, and a dehydrating plate mounting frame support column for guiding a pair of left and right legs of the dehydrating plate mounting frame that moves up and down. The dehydrating plate mounting frame support column has a predetermined interval. A guide bearing is attached to a predetermined position of a pair of left and right legs of the dewatering plate mounting frame and is guided while being sandwiched between the two columns. The guide bearing is mounted in a state where a predetermined gap is provided between a bearing receiving plate mounted on one of the opposed columns via a spacer and the other column, and the dewatering plate is mounted by the guide bearing. with the frame is prevented from tilting back and forth, the dehydrated plate by allowing lowering the dehydration plate mounting frame remains vertical state by allowing the movement back and forth of the dewatering plate mounting frame by said gap be characterized by preventing the inclination to the vertical movement of the dewatering plate mounting frame is formed so as to smoothly .

In order to solve the above-mentioned problem, the present invention according to claim 3 is the dehydrator according to claim 1 or 2 , wherein the dewatering plate is provided with a plurality of holes for draining, and the center side. It is the taper shape which inclines downward gradually toward the peripheral side from.

In order to solve the above-mentioned problem, the present invention according to claim 4 is the dehydrator according to any one of claims 1 to 3 , wherein the dewatering plate has a size slightly smaller than an inner diameter of the dewatering cylinder. It is formed and attached to the dehydrating plate mounting plate supported by the dehydrating plate mounting frame via a plurality of connecting plates arranged radially from the center.

In order to solve the above problem, the present invention according to claim 5 is the dehydrator according to any one of claims 1 to 4 , wherein the dewatering plate is moved up and down in the dewatering cylinder. In order to prevent breakage of the water-permeable material surrounding the object to be processed by the above, a breakage prevention member is disposed on the periphery of the dewatering plate.

In order to solve the above-mentioned problem, the present invention according to claim 6 is the dehydrator according to any one of claims 1 to 5 , wherein the dewatering cylinder mounting base is configured such that the dewatering cylinder is positioned at a lower side position of the dewatering plate, It is characterized by being arranged on a rail laid between the position where the article is stored in or taken out from the dewatering cylinder.

In order to solve the above-mentioned problem, the present invention according to claim 7 is the dehydrator according to claim 5 or 6 , wherein a stopper for restricting the range in which the dehydrating cylinder mounting base moves horizontally is arranged. It is characterized by.

In order to solve the above-mentioned problem, the present invention according to claim 8 is the dehydrator according to any one of claims 5 to 7 , wherein the dehydrating cylinder mounting base is used when the dehydrating plate is pulled up from the dehydrating cylinder. It is characterized in that an anti-lifting stopper is arranged so as not to lift up.

In order to solve the above problems, the present invention according to claim 9 is characterized in that in the dehydrator according to any one of claims 1 to 8 , a grating is disposed under the dewatering cylinder.

  According to the dehydrator according to the present invention, the storage bag storing the dehydrate to be dehydrated can be easily stored in the main body, and the dehydrating time can be shortened by smoothing the process until the start of dehydration.

  Furthermore, there is an effect that the device can be made compact, the movement can be facilitated, and the convenience at the destination can be made a factory.

1 is a perspective view showing a preferred embodiment of a dehydrator according to the present invention. It is a front view of the dehydrator shown in FIG. It is a schematic diagram of the right side surface of the dehydrator shown in FIG. It is a front view of the dehydration cylinder of the dehydrator shown in FIG. It is a perspective view of the dehydrator which shows the state where the dehydrating plate descended and reached the lowest position. It is a schematic diagram which shows a drop-off prevention stopper.

Hereinafter, a dehydrator according to the present invention will be described in detail based on a preferred embodiment with reference to the drawings. FIG. 1 is a perspective view showing a preferred embodiment of a dehydrator according to the present invention, FIG. 2 is a front view thereof, and FIG. 3 is a schematic diagram of a right side face thereof. In FIG. 3, the rail base is omitted.
[Configuration of dehydrator]

  The illustrated dehydrator 1 generally includes a cylindrical dehydration cylinder 5, a dehydration plate 6 that presses an object to be processed accommodated in the dehydration cylinder 5, and a dehydration plate 6 that is suspended and supported by the dehydration plate 6. And a left and right dewatering plate mounting frame support column 17 for guiding the vertical movement of the pair of left and right legs 10, 10 of the dewatering plate mounting frame 8 that moves up and down. , 17 and a pair of hydraulic cylinders 12 and 12 which are disposed between the left and right ends of the dehydrating plate mounting frame 8 and the bottom of the main body 2 and raise and lower the dehydrating plate mounting frame 8 in the vertical direction. . The hydraulic cylinder 12 is controlled by the hydraulic unit 100 shown in FIG. 3, and the hydraulic unit 100 is configured to operate using a commercial power source (AC 100V) as a power source, so that a power source is ensured. It is considered easy.

  The dewatering cylinder 5 is formed in a cylindrical body shape having an open top and bottom, and is disposed almost at the center of the main body 2 having a square frame-shaped frame structure as a whole. As shown in FIG. 4, the side surface of the dewatering cylinder 5 is formed by a punching metal provided with a large number of holes 50, and the water dehydrated from the object to be processed is squeezed through the holes 50. It has become so. The dehydrating cylinder 5 is fixed to the dehydrating cylinder mounting base 4 with screws or by fixing means such as a dedicated jig. As will be described later, the upper surface of the dehydrating cylinder mounting base 4 is a grating 41. The dehydrating cylinder 5 in this embodiment is not provided with a bottom. However, it is also possible to provide a bottomed structure by providing a bottom plate formed of a punching metal provided with a hole 50 similar to the side surface.

  The upper edge of the dewatering cylinder 5 is a funnel-shaped (tapered) widened portion 51 that gradually widens upward, and has a water permeability that is filled with an object to be processed by the widened portion 51. The water-permeable bag 31 that is a flexible container bag can be easily accommodated in the dehydrating cylinder 5 and the dehydrating plate 6 can enter the dehydrating cylinder 5. Since the inner diameter of the dehydrating cylinder 5 is set to be the same as or slightly smaller than the outer diameter of the water permeable bag 31, the water permeable bag 31 is pressed when the water permeable bag 31 filled with the object to be processed is pressed. Is prevented from breaking. Here, in the present embodiment, the object to be processed is described as being filled in a water permeable bag 31 having water permeability, but the object to be processed is filled only in the bag-shaped water permeable bag 31. Instead, a sandbag or a filter cloth may be used as long as the material has water permeability.

  The dehydrating plate 6 is a member that presses the water permeable bag 31 accommodated in the dehydrating cylinder 5 and squeezes moisture from the object to be processed. The dewatering plate 6 is formed in a disc shape having a size slightly smaller than the inner diameter of the dewatering cylinder 5 and is formed of a punching metal having a large number of holes 60 for draining, similarly to the side surface of the dewatering cylinder 5. ing. Further, the dewatering plate 6 has a tapered shape that is gradually inclined downward from the center side toward the peripheral side. By making the dewatering plate into such a shape, it is easy to remove the dehydrated water from the object to be processed, and it is easy to flow the water in the peripheral direction without staying on the dewatering plate 6. Further, the dewatering plate 6 is attached to a disc-shaped dewatering plate mounting plate 7 supported by the dewatering plate mounting frame 8 via a plurality of connecting plates 9 and 9 that are arranged radially from the center. The connecting plates 9 and 9 have a right triangle shape when viewed from the side. In this way, the dehydrating plate mounting plate 7 moves the dehydrating plate 6 up and down via the connecting plates 9 and 9. However, since the connecting plates 9 and 9 are arranged radially, the dehydrating plate mounting plate 7 is pushed. The pressure is evenly transmitted to the dewatering plate 6. Further, a round bar 18 having a circular cross section as a damage preventing member is attached to the periphery of the dewatering plate 6 so as to surround it. The round bar 18 prevents the water permeable bag 31 from being damaged when the dewatering plate 6 is moved up and down.

  The dewatering plate mounting frame 8 includes an upper beam member 8a extending to the left and right, and a cross-shaped support member 8b disposed substantially at the lower center of the upper beam member 8a, and both left and right ends of the upper beam member 8a. In the vicinity, a pair of left and right leg portions 10, 10 extending downward is provided and has a gate shape. Further, as shown in FIG. 1, the eight support members 8b of the dewatering plate mounting frame support the dewatering plate mounting plate 7 in a suspended manner at a plurality of locations (here, four locations). Further, hydraulic cylinders 12 and 12 as drive sources are attached to both ends of the upper beam member 8a, and ascend and descend the range indicated by the solid line and the dotted line shown in FIG. The hydraulic cylinders 12 and 12 are, for example, a double-acting type, and a driving force is generated in both the downward direction and the upward direction. The hydraulic cylinders 12 and 12 are operated by an ultrahigh-pressure two-stage hydraulic pump using a single-phase 100V as a power source. As a result, a powerful force can be generated even if the inner diameter of the hydraulic cylinders 12 and 12 is small, and when the load is small, the cylinder speed is increased by taking advantage of the characteristics of the large flow rate at the low pressure of the pump, and the operation time that can be used in practice. Can be secured.

  And the side clearance adjustment bearing plate 11 provided with bearings 110, 110 guided to the dehydrating plate mounting frame support columns 17, 17 on the lower ends of the pair of left and right legs 10, 10 of the dehydrating plate mounting frame 8, 11 are respectively attached. Two bearings 110 and 110 are attached to the side clearance adjusting bearing plates 11 and 11 respectively in the vertical direction along the height direction. A gap with a predetermined interval is provided between the bearings 110 and 110 and the dewatering plate mounting frame support column 17. In the present embodiment, the interval is about 1 mm, but is not limited to this. However, if the clearance is widened and the dehydrating plate mounting frame 8 is allowed to move to the left or right, the dehydrating plate 6 contacts the upper edge of the tapered expanding portion 51 of the dehydrating cylinder 5 and the dehydrating plate 6 is damaged. Therefore, it is preferable to determine the gap interval in consideration of the diameter of the dewatering plate 6 and the inner diameter of the dewatering cylinder 5. The dewatering plate mounting frame support column 17 is formed by two columns 170, 170 that are erected in parallel in the left-right direction in FIG. The side gap adjusting bearing plate 11 can be disposed so as to face either one or both of the two columns 170, 170, respectively.

  With this structure, when the dewatering plate mounting frame 8 is lowered and the object to be processed accommodated in the dewatering cylinder 5 is pressed by the dewatering plate 6, it is between the bearings 110, 110 and the dewatering plate mounting frame support column 17. Since the movement of the dewatering plate mounting frame 8 in the left-right direction when viewed from the front is allowed by the provided gap, the dewatering plate 6 can be smoothly moved up and down during pressing. Further, when the dewatering plate mounting frame 8 is going to tilt further in the left-right direction when viewed from the front, the bearings 110 and 110 come into contact with the dewatering plate mounting frame support column 17 and the dehydrating plate mounting frame 8 tilts in the left-right direction. To guide the descent in the vertical state. In this case, since the bearings 110 and 110 are in contact with the dewatering plate mounting frame support column 17, the lifting and lowering of the dewatering plate mounting frame 8 is not hindered.

  Further, as described above, the dewatering plate mounting frame support column 17 is formed by the two columns 170 and 170 which are erected in parallel at a predetermined interval, as shown in FIG. Guide bearings 13 and 13 are attached to predetermined positions of the pair of left and right legs 10 and 10 of the dewatering plate mounting frame 8 so as to be guided while being sandwiched between the two columns 170 and 170. In addition, bearing receiving plates 14 and 14 are respectively attached to the opposing surfaces of the two columns 170 and 170 constituting the dewatering plate mounting frame support column 17. A spacer 15 is interposed between at least one bearing receiving plate 14 and the column 170. The spacer 15 is appropriately inserted according to the inclination state of the dewatering plate mounting frame 8, and the gap interval can be adjusted by changing the thickness of the spacer 15. The guide bearings 13 and 13 are attached in a state where a predetermined gap is provided between the bearing bearing plates 14 and 14. Moreover, as shown in FIG. 2, the height of the main body 2 can be lowered by setting the mounting positions of the guide bearings 13 and 13 as low as possible. In the present embodiment, the height is set to 2100 mm or less, and the dehydrator 1 can be downsized.

  In the present embodiment, the gap between the bearing receiving plates 14 and 14 and the guide bearings 13 and 13 is about 1 mm, but is not limited to this. This is the same as the gap between the bearings 110, 110 and the dewatering plate mounting frame support column 17, and the same applies to the determination of the gap interval. That is, the clearance allows the dehydrating plate mounting frame 8 to move in the front-rear direction, so that the dehydrating plate 6 moves smoothly and the dehydrating plate mounting frame 8 tends to tilt in the front-rear direction. In this case, the guide bearings 13, 13 abut on the two columns 170, 170 of the dewatering plate mounting frame support column 17 via the bearing receiving plates 14, 14, so that the dewatering plate mounting frame 8 moves back and forth further. Prevents tilting and guides descent in a vertical state. In this case, since the guide bearings 13 and 13 are in contact with the bearing receiving plates 14 and 14 provided on the two columns 170 and 170 of the dewatering plate mounting frame support column 17, the lifting and lowering of the dewatering plate mounting frame 8 is hindered. There is no.

  Further, the dewatering plate mounting frame support columns 17 and 17 are provided with anti-lifting stoppers 16 and 16 for preventing the dehydrating tube mounting base 4 on which the dehydrating tube 5 is installed. This is because the dehydrating cylinder mounting base to which the dehydrating cylinder 5 is fixed when the dehydrating board 6 is pulled up while the water permeable bag 31 is caught between the dehydrating cylinder 5 and the dehydrating board 6. This is to prevent 4 from floating.

  The dehydrating cylinder mounting base 4 on which the dehydrating cylinder 5 is installed is disposed substantially at the center of the main body 2. A grating 41 is provided on the surface on which the dehydrating cylinder 5 is installed and temporarily stores the dehydrated moisture. It is formed in a container shape that can be used. Further, a drain pipe 42 is provided on the side surface of the dehydrating cylinder mounting base 4, and the water stored in the dehydrating cylinder mounting base 4 can be appropriately drained by dehydrating the object to be processed. ing. Wheels 40, 40 are attached to the bottom surface of the dehydrating cylinder mounting base 4.

  The dehydrating cylinder mounting base 4 is arranged on the rails 30 and 30 laid on the rail 2 mounted so as to extend outward from the main body 2 and the main body 2, and the dehydrating cylinder 5 is arranged in the front-rear direction in FIG. It can be moved. Thereby, the water permeable bag 31 can be easily taken in and out of the dehydrating cylinder 5 by pulling out the dehydrating cylinder mounting base 4 from the main body 2. And the fall prevention stopper 4a, 4a which regulates the movement so that the dehydrating cylinder mounting base 4 does not fall from the rails 30, 30 by contacting the dehydrating cylinder mounting base 4 on the front end side and the rear end side of the rail base 3. Are detachably attached. Further, a stopper 35 is attached to prevent the dehydrating cylinder mounting base 4 from moving when the dehydrating cylinder mounting base 4 is arranged at a predetermined position of the main body 2. The stopper 35 includes a concave portion 35a formed so as to be fitted to the rails 30 and 30, a stopper main body 35b for preventing movement of the wheels 40 and 40 of the dewatering cylinder mounting base 4, and a side portion of the stopper main body 35b. The bolt insertion hole 35c is provided to the lower frame constituting the main body 2 with the bolt 36 inserted in the bolt insertion hole 35c. As a result, the stopper 35 can be rotated about the bolt 36 between the stopper setting position and the release position, and has a hinge structure that is stiff and easy to set.

  Here, the width of the wheels 40, 40 is formed to be about 5 mm wider than the width of the rails 30, 30 so that the dehydrating cylinder mount 4 can be moved in the left-right direction. On the other hand, an appropriate gap, for example, about 5 mm, is provided between the dehydrating cylinder mounting base 4 and the stopper 35 so that the dehydrating cylinder mounting base 4 can move in the front-rear direction. With this configuration, even if a slight displacement occurs between the upper edge of the dewatering cylinder 5 and the dewatering plate 6, the dewatering plate 6 can enter the expanded portion 51. For example, as the dehydrating plate 6 is lowered, the dehydrating tube 5 fixed to the upper surface of the dehydrating tube mounting base 4 is appropriately moved horizontally so that the dehydrating plate 6 is correctly inserted into the dehydrating tube 5. The wheels 40 and 40 attached to the dehydrating cylinder mounting base 4 have a thick shaft and a small outer diameter, so that the height from the rails 30 and 30 to the upper surface of the dehydrating cylinder mounting base 4 is reduced. Therefore, the height of the dehydrator 1 can be reduced.

[Operation of dehydrator]
Next, operation | movement of the dehydrator 1 mentioned above is demonstrated. FIG. 5 is a perspective view of the dehydrator showing a state in which the dewatering plate 6 is lowered and reaches the lowest position. The dehydrating cylinder 5 is fixed at a fixed position on the dehydrating cylinder mounting base 4 by fixing means such as screws. First, the hydraulic cylinders 12 and 12 are driven to position the dewatering plate 6 at the uppermost position (solid line position shown in FIGS. 1 and 2). Then, the dehydrating cylinder mounting base 4 is pulled out from the main body 2 along the rails 30 and 30, and the water permeable bag 31 filled with the object to be processed is accommodated in the dehydrating cylinder 5. Since the dehydrating cylinder 5 is provided with the expanding portion 51, the water permeable bag 31 is guided so as to slide on the inner surface of the expanding portion 51, and the water permeable bag 31 is easily accommodated in the dehydrating cylinder 5. be able to.

  When the water permeable bag 31 is stored in the dehydrating cylinder 5, the dehydrating cylinder mounting base 4 is set on the main body 2. Then, the hydraulic cylinders 12 are operated by the hydraulic unit 100 to lower the dehydrating plate mounting frame 8. When the dehydrating plate mounting frame 8 is lowered, the dehydrating plate 6 attached via the dehydrating plate mounting plate 7 is lowered and inserted into the dehydrating cylinder 5. The lowering of the dewatering plate 6 is smoothly performed by the side gap adjusting bearing plates 11 and 11 and the guide bearings 13 and 13. At this time, even if there is a slight misalignment between the upper edge of the dehydrating cylinder 5 and the dehydrating plate 6, if the dehydrating plate 6 is positioned in the tapered expanded portion 51, the dehydrating cylinder mounting base 4 is Since the dehydrating cylinder 5 fixed to the upper surface of the dehydrating cylinder mounting base 4 is horizontally moved appropriately, the dehydrating plate 6 is guided so as to be correctly inserted into the dehydrating cylinder 5. Is done.

  As the dehydration plate 6 descends, the upper portion of the water permeable bag 31 is pressed by the dehydration plate 6. When the water permeable bag 31 is pressurized by the dewatering plate 6, the object to be processed in the water permeable bag 31 is squeezed, and the moisture passes through the hole 50 of the dewatering cylinder 5 and the hole 60 of the dewatering plate 6. It overflows to the outside from the surface and bottom, and is stored in the dehydrating cylinder mounting base 4 via the grating 41. Here, depending on the condition of the object to be processed in the water permeable bag 31, the dewatering plate 6 may be inclined without being evenly pressed. When the dewatering plate mounting frame 8 is about to tilt in the left-right direction, the bearings 110 and 110 of the side clearance adjusting bearing plate 11 come into contact with the two columns 170 and 170 constituting the dewatering plate mounting frame support column 17. The dewatering plate mounting frame 8 is prevented from tilting in the left-right direction. Further, when the dewatering plate mounting frame 8 is inclined in the front-rear direction, the guide bearings 13 and 13 are bearing receivers disposed on the two columns 170 and 170 constituting the dewatering plate mounting frame support columns 17 and 17. The dewatering plate mounting frame 8 is prevented from inclining in the front-rear direction by contacting the plates 14 and 14. As a result, the dewatering plate 6 is lowered without congestion.

  When pressurization of the water permeable bag 31 by the dewatering plate 6 is continued for a predetermined time, the operation directions of the hydraulic cylinders 12 and 12 are switched to raise the dehydrating plate mounting frame 8 and the dewatering plate 6. At this time, if the water permeable bag 31 is bitten between the dehydrating cylinder 5 and the dehydrating plate 6, the dehydrating cylinder 5 is lifted, and the dehydrating cylinder mounting base 4 is attached to the rail 30, There is a risk of floating from 30. However, in the dehydrator 1 of this embodiment, since the anti-lifting stoppers 16 and 16 are provided, the anti-lifting stoppers 16 and 16 prevent the dehydrating cylinder mounting base 4 from floating, and the dehydrating plate 6 serves as the dehydrating cylinder. Drawn from 5. Then, the dehydrating cylinder mounting base 4 is pulled out from the inside of the main body 2 along the rails 30 and 30, and the water permeable bag 31 is taken out from the dehydrating cylinder 5 and moved to a storage place or the like. On the other hand, the water stored in the dehydrating cylinder mounting base 4 is collected into a predetermined container through the drain pipe 42. Thus, the dehydration process for one water permeable bag 31 is completed. Thereafter, the dehydration process is performed on the other non-dehydrated water permeable bags 31 in the same manner.

[Effect of the embodiment]
According to the dehydrator 1 according to the present embodiment, since the expanding portion 51 that expands the upper edge of the dehydrating cylinder 5 upward in a funnel shape is provided, the guide that guides the dehydrating plate 6 to the inside of the dehydrating cylinder 5. Therefore, the water permeable bag 31 can be easily accommodated in the dehydrating cylinder 5, and the water permeable bag 31 can be easily accommodated in the dehydrating cylinder 5.

  Further, since the dehydrating cylinder mounting base 4 can be moved horizontally in the front / rear and left / right directions, even if the positions of the dehydrating plate 6 and the dehydrating cylinder 5 are slightly shifted, the dehydrating plate 6 is guided so as to be correctly inserted into the dehydrating cylinder 5. There is an effect that can be done.

  Further, according to the present embodiment, the hydraulic cylinders 12 and 12 are arranged on the side surface of the main body 2 (by the way, the upper side in the configuration of the conventional technique), so that the height of the dehydrator 1 can be reduced. There exists an effect that size reduction can be achieved. Further, by providing the side clearance adjusting bearing plates 11 and 11 and the guide bearings 13 and 13, the dehydrating plate mounting frame 8 is prevented from tilting back and forth and left and right, and the dehydrating plate 6 is lowered in a vertical state. Therefore, the dehydration process can be safely performed.

  Moreover, according to this embodiment, since the dehydrating cylinder mounting base 4 and the dehydrating cylinder 5 can be pulled out from the main body 2, there is an effect that the water permeable bag 31 can be easily stored and taken out.

  Moreover, according to this embodiment, since a dehydration process can be performed with a commercial power supply of 100 V, there are no restrictions on a moving place or a use environment, and an operation rate of the dehydrator 1 can be increased.

  As described above, the preferred embodiment of the present invention has been described in detail. However, the present invention is not limited to the specific embodiment, and within the scope of the gist of the present invention described in the claims, Needless to say, various modifications and changes are possible.

  The present invention can also be used for dewatering sediments generated at the construction site and agricultural pond bottoms and turbid water treatment where sludge is generated by water treatment. It is not limited, For example, it can utilize for the production | generation of the fruit for juice, vegetable oil (for example, soybean oil), etc., and various uses for which spin-drying | dehydration is requested | required besides that.

DESCRIPTION OF SYMBOLS 1 Dehydrator 2 Main body 3 Rail base 4 Dehydration cylinder mounting base 4a Fall prevention stopper 5 Dehydration cylinder 6 Dehydration plate 7 Plate 8 Dehydration plate attachment frame 9 Connection plate 10 Leg part 11 Side clearance adjustment bearing plate 12 Hydraulic cylinder 13 Guide bearing 14 Bearing Base plate 15 Spacer 16 Lifting prevention stopper 17 Dehydration plate mounting frame support column 18 Round bar 30 Rail 31 Water permeable bag 35 Stopper 35a Concave portion 35b Stopper body 35c Bolt insertion hole 36 Bolt 40 Wheel 41 Grating 42 Drain pipe 50 Hole 51 Opening 60 Hole 100 Hydraulic unit 110 Bearing 170 Prop

Claims (9)

An object to be treated surrounded by a water-permeable material having water permeability is accommodated in a dewatering cylinder formed such that a plurality of drain holes are provided on the side surface and / or the bottom surface and the upper side is expanded in a funnel shape. In the dehydrator for dehydrating moisture from the object to be processed through the water-permeable material by pressing the object to be processed accommodated in the dewatering cylinder with a dehydrating plate,
The dehydrating cylinder is disposed on a dehydrating cylinder mounting base formed to be horizontally movable in the front-rear and left-right directions.
A gate-shaped dewatering plate mounting frame that suspends and supports the dewatering plate so as to be vertically movable by power from a drive source;
A dehydrating plate mounting frame support column for guiding a pair of left and right legs of the dehydrating plate mounting frame that moves up and down;
With
Side clearance adjustment bearing plates provided with bearings guided by the dewatering plate mounting frame support pillars are attached to the lower ends of the pair of left and right legs of the dewatering plate mounting frame in a state where a predetermined gap is provided, thereby preventing the said dehydration plate mounting frame by said side clearance adjusting bearing plate is inclined to the left, the dehydration plate vertical state the dehydration plate mounting frame allowing movement to the left and right mounting frames by said gap dehydrator, wherein a vertical movement of the dewatering plate mounting frame to prevent tilting of the dehydrated plate is formed so as to perform smoothly by a lowerable remain. An object to be treated surrounded by a water-permeable material having water permeability is accommodated in a dewatering cylinder formed such that a plurality of drain holes are provided on the side surface and / or the bottom surface and the upper side is expanded in a funnel shape. In the dehydrator for dehydrating moisture from the object to be processed through the water-permeable material by pressing the object to be processed accommodated in the dewatering cylinder with a dehydrating plate,
The dehydrating cylinder is disposed on a dehydrating cylinder mounting base formed to be horizontally movable in the front-rear and left-right directions.
A gate-shaped dewatering plate mounting frame that suspends and supports the dewatering plate so as to be vertically movable by power from a drive source;
A dehydrating plate mounting frame support column for guiding a pair of left and right legs of the dehydrating plate mounting frame that moves up and down;
With
The dewatering plate mounting frame support column is formed by two columns that are erected at a predetermined interval,
A guide bearing that is guided while being sandwiched between the two columns is attached to a predetermined position of a pair of left and right legs of the dehydrating plate mounting frame,
The guide bearing is attached in a state where a predetermined gap is provided between a bearing receiving plate attached to one of the opposed columns via a spacer and the other column, and the dewatering plate mounting frame is installed by the guide bearing. There is prevented from being inclined to the front and rear, of the dewatering plate by allowing lowering the dehydration plate mounting frame remains vertical state by allowing the movement back and forth of the dewatering plate mounting frame by said gap dehydrator, characterized in that it is formed so as to perform a smooth vertical movement of the dewatering plate mounting frame to prevent tilting. The dehydrator according to claim 1 or 2 ,
The dehydrator has a plurality of holes for draining, and has a tapered shape gradually inclined downward from the center side toward the peripheral side. The dehydrator according to any one of claims 1 to 3 ,
The dehydrating plate is formed to have a size slightly smaller than the inner diameter of the dehydrating cylinder, and via a plurality of connecting plates arranged radially from the center on the dehydrating plate mounting plate supported by the dehydrating plate mounting frame. A dehydrator characterized by being attached. The dehydrator according to any one of claims 1 to 4 ,
A damage preventing member is disposed on the periphery of the dewatering plate in order to prevent breakage of the water permeable material surrounding the object to be processed by the dewatering plate when the dewatering plate is moved up and down in the dewatering cylinder. To dehydrator. The dehydrator according to any one of claims 1 to 5 ,
The dehydrating cylinder mounting base is configured such that the dehydrating cylinder is disposed on a rail laid between a position on the lower side of the dehydrating plate and a position where the object to be processed is accommodated or taken out from the dehydrating cylinder. Characteristic dehydrator. The dehydrator according to claim 5 or 6 ,
A dewatering machine characterized in that a stopper for restricting a range in which the dewatering cylinder mounting base moves horizontally back and forth is disposed. The dehydrator according to any one of claims 5 to 7 ,
A dewatering machine comprising a lifting prevention stopper so that the dewatering cylinder mounting base does not float when the dehydrating plate is pulled up from the dehydrating cylinder. The dehydrator according to any one of claims 1 to 8 ,
A dehydrator, wherein a grating is disposed under the dewatering cylinder.

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