JPH05212202A - Continuous equipment for removing moisture from highly hydrous mud - Google Patents

Abstract

PURPOSE:To continuously obtain mud without fluidity which can be loaded on an transported by a truck and thrown away by decreasing moisture in highly hydrous mud. CONSTITUTION:A rotary cylinder 1 is rotatably held at the prescribed inclined angle and a flame jet burner 3 for heating the inside of the rotary cylinder 1 is installed. Highly hydrous mud is continuously fed to the rotary cylinder 1 at the upper end part by a guide 6 and the rotary cylinder 1 is turned by a rotation drive motor 2. When the mud moving downward in the rotary cylinder 1 gradually loses fluidity by the evaporation of moisture to move to the upper side of the inner wall of the rotary cylinder 1 by rotation, it becomes clods to fall by its weight. The clods are scraped up by scrape-up plates 4 while repeating rotational movement and fall, and finally discharged from the lower end of the rotational cylinder 1 as clods without fluidity.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a continuous moisture removing device for removing moisture from high water content mud discharged after dewatering mud circulated in a shield machine.

[0002]

2. Description of the Related Art A shield machine which circulates and uses mud water in which bentonite and the like are dispersed is used for excavation of pipelines such as sewers and subway tunnels. The mud mixed with soil and sand used in the shield machine is treated with a slurry decanter. In the slurry decanter, soil and muddy water are mechanically separated, and the separated muddy water is used again by the shield machine. When such a separation process is performed, a mud having a high water content of 40 to 60% including the earth and sand after excavation is discharged from the slurry decanter.

[0003]

The discharged high-moisture content mud has a fluidity and cannot be discarded as it is. In addition, since it is not possible to carry and carry a normal truck, it has been conventionally carried using a vacuum car. However, there is a problem that the transportation cost becomes very high when using the vacuum car.

[0004] In order to make it possible to load and transport high-moisture-content mud by truck, it is considered to solidify it using quicklime. However, when quick lime is used, the pH of the mud increases and becomes strongly alkaline, which causes a problem that it cannot be discarded. In addition, solidification by super absorbent resin is also considered,
Since the unit price of the super absorbent polymer is very high, it is rather disadvantageous economically.

The present invention has been made to solve the above problems, and an object of the present invention is to reduce the water content of high-moisture content mud so that it has no fluidity and can be loaded and transported by truck. It is an object of the present invention to provide a device that can obtain mud that is possible and can be discarded.

[0006]

SUMMARY OF THE INVENTION A continuous water removing apparatus for high-moisture content mud according to the present invention is held at a predetermined inclination angle and the mud is thrown in from the upper end and the mud removed from the lower end is discharged. A rotary cylinder, a rotary drive means for rotating the rotary cylinder about its central axis, and a heating means for evaporating the water content of the mud put into the rotary cylinder.

In the above apparatus, a scraping plate extending in the lengthwise direction of the rotary cylinder may be added to the inner wall of the rotary cylinder.

Further, in any of the above devices, the heating means may be a flame injection burner which radiates a flame from the lower end of the rotary cylinder toward the inside of the rotary cylinder.

[0009]

In the continuous water removing apparatus for high-moisture content mud having the above structure, fluid high-moisture content mud is charged from the upper end of the rotating cylinder held at a predetermined inclination angle. Since the rotary cylinder is rotationally driven about its central axis by the rotary drive means, the high water content mud is gradually moved downward while rotating along the inner wall of the rotary cylinder and heated by the heating means. The high-moisture content mud gradually loses its water content by heating, and when it rotates and moves to the upper side of the inner wall of the rotating cylinder, it becomes a lump of earth due to its own weight and falls.

By repeating such a rotational movement and a fall,
Eventually, it is discharged from the lower end of the rotating cylinder as a low-moisture soil mass with no fluidity.

Further, in the structure in which the scraping plate extending in the longitudinal direction of the rotary cylinder is provided on the inner wall of the rotary cylinder,
The soil mass that has fallen by its own weight can be efficiently scraped up by the scraping plate above the rotating rotary cylinder, so that water can be efficiently removed.

Further, in the structure in which the heating means is a flame injection burner which radiates a flame from the lower end of the rotary cylinder toward the inside of the rotary cylinder, the high-moisture content mud introduced is directly heated by the flame, so that the moisture content is increased. The removal efficiency is improved.

[0013]

Embodiments of the present invention will now be described in more detail with reference to the drawings.

FIG. 1 is an external view of the continuous water removing apparatus for high-moisture content mud of this embodiment, and FIG. 2 is a front view thereof.
Further, FIG. 3 shows a side perspective view of this device. The continuous water removing apparatus of this embodiment includes a rotary cylinder 1 held at a predetermined inclination angle, a drive motor 2 as a rotary drive unit for rotating the rotary cylinder 1 around its central axis, and a rotary cylinder 1 inside. The flame injection burner 3 as a heating means for evaporating the water content of the mud. In this embodiment, the rotating cylinder 1
A metal cylinder having a length of 1000 mm and a diameter of 300 mm was used as Further, the flame injection burner 3 is a pressure injection burner (injection pressure 1.
5-2 Kg / cm ² , kerosene capacity 5 L, trade name “Kusayaki Jumbo”) was used.

Rotating circular rings 7 and 7 for holding the rotating cylinder 1 are attached to upper and lower portions of the outer periphery of the rotating cylinder 1, and the rotating circular rings 7 and 7 are driving rollers 8 and 8 and supporting rollers 8a and 8a. 8a (FIG. 2). The drive motor 2 rotates the rotary ring 7, 7 via the first gear 9, the second gear 10, the drive shaft 11 and the two drive rollers 8, 8. The rotary cylinder 1 rotates as the rotary rings 7, 7 rotate. In addition, at the lower end of the rotary cylinder 1,
A stop roller 12 that supports the rotating cylinder 1 is provided. The drive motor 2, the first and second gears 9 and 10, the drive shaft 11, the drive rollers 8 and 8 and the support rollers 8a and 8a are attached to a frame 13, and the frame 13 is attached to a support base 15. .. The angle of the frame 13 is adjusted by the angle adjusting handle 14 (FIG. 2), and thereby the inclination angle of the rotating cylinder 1 is adjusted. In the present embodiment, the inclination angle of the rotary cylinder 1 is set to 22 °, but it may be adjusted appropriately within the range of 30 ± 10 ° depending on the amount of treated mud, the water content, the thermal power of the flame injection burner 3, etc. Good.

FIG. 4 shows a sectional view of the apparatus of this embodiment, taken along a plane perpendicular to the central axis of the rotary cylinder 1. As shown in FIGS. 3 and 4, on the inner wall of the rotary cylinder 1, six scraping plates 4, 4, ... Extending in the length direction of the rotary cylinder 1 are arranged at equal intervals in the circumferential direction of the rotary cylinder 1. It is provided in. Scraping plate 4
The number of is not particularly limited, but is preferably 6 to 8.

As shown in FIGS. 3 and 4, three scraping plates 5, 5, ... For scraping off the adhered mud are attached to the upper end of the rotary cylinder 1. If these scraping plates 5 are not provided, dry muddy soil may gradually accumulate on the upper end of the rotary cylinder 1. The scraping plate 5 is provided to scrape off the accumulated mud. The number of the scraping plates 5 and the depth from the charging port of the parts to which these are attached vary depending on the heating power of the flame injection burner 3, the charging speed of the mud, the rotating speed of the rotary cylinder 1, etc. It should be in the range where

Further, the continuous water removing apparatus of this embodiment has
A guide 6 for guiding the input mud into the rotary cylinder 1 is attached to the upper end of the rotary cylinder 1. Further, a baffle plate 16 is attached to the lower end of the rotary cylinder 1 so as to prevent the lump of water that has been dewatered and discharged from hitting the flame injection burner 3. The flame injection burner 3 is omitted in FIG. 2 for simplicity.

The flame injection burner 3 is fixed so that the flame injected from its tip heats the inside of the rotary cylinder 1. The direction of the flame injection burner 3 is not particularly limited, but it is better to aim it obliquely with respect to the rotation axis of the rotating cylinder 1 so that the injected flame directly heats the inner wall of the rotating cylinder 1. .. When the flame injection burner 3 is directed in such a direction, the effect of dropping the mud adhered in the rotating cylinder 1 is also produced. Further, although the inner wall of the rotating cylinder 1 is directly heated by the flame of the flame injection burner 3, the rotating cylinder 1 rotates, so that it is not locally heated. Although the flame injection burner is used as the heating means in the present embodiment, other configurations such as high-temperature hot air can be used, and further, heating from the outside of the rotary cylinder 1 by an electric heater, a heat medium, etc. You can also do it.

The method of use and the operation of the continuous moisture removing device for high-moisture content mud of this embodiment will be described. First, the flame injection burner 3 is ignited. Next, the drive motor 2 is driven to rotate the rotary cylinder 1. After sufficiently heating the rotary cylinder 1 in this state, the charging of the high-hydrated mud is started from the upper part of the rotary cylinder 1.

The charged high-moisture content mud rotates as the rotary cylinder 1 rotates, and is gradually heated downward in the rotary cylinder 1 while being heated by the flame injection burner 3. Due to the evaporation of water, the high-moisture content mud gradually loses its fluidity, and when it rotates and moves to the upper side of the inner wall of the rotating cylinder 1, it becomes a clod by its own weight and falls. The mud having lost its fluidity is scraped up above the rotating cylinder 1 by the scraping plate 4 provided on the rotating rotating cylinder 1. By repeating such rotational movement and dropping, finally, a low-moisture soil mass having no fluidity is discharged from the lower end of the rotating cylinder.

As described above, by using the continuous water removing apparatus of this embodiment, it is possible to continuously remove the water in the high-moisture content mud and use inexpensive kerosene.
Water can be removed at low cost.

Further, in this embodiment, the mud accumulated on the upper end of the rotary cylinder 1 is scraped down by the scraping plate 5 below the rotary cylinder. Therefore, in this embodiment, it is possible to prevent the accumulation of mud on the upper end portion of the rotary cylinder, and to prevent the reduction of water removal efficiency.

The treatment amount of the high-moisture content mud and the water content of the discharged mud are determined by the feed rate of the high-moisture content mud and the flame injection burner 3
It can be appropriately adjusted by changing the heating power, the inclination angle of the rotary cylinder 1, the rotation speed, and the like. Further, by changing the length and the diameter of the rotary cylinder 1, it is possible to adjust the treatment amount of the high-moisture content mud and the water content of the discharged mud.

The following is an example of an experiment using the continuous water removing apparatus for high-moisture content mud of this embodiment. The experimental conditions and experimental results are as follows.

<Experimental conditions> Rotational speed of the rotating cylinder 12 rotations / min. Inclination angle of the rotating cylinder 22 degrees Average water content of original sample (high water content mud) 44.2% Flame tip temperature 700-800 ° C Temperature of mud discharge port 330 ° C Method and speed of feeding high-moisture content mud about 300g x 8 times / min (average feeding speed 2.4Kg / min) <Experimental result> Water content of discharged mud 35.2% (fluidity None) Decreased water content 9.0% As shown in the experimental results above, by using the continuous water removal device of this example, it is possible to reduce the water content by about 10%, and to carry the cargo by truck. I was able to get the possible mud.

[0027]

Industrial Applicability As described above, by using the continuous moisture removing apparatus for high-moisture content mud according to the present invention, it is possible to efficiently remove moisture in the high-moisture content mud and to transport the mud by truck. Obtainable. Therefore, the transportation cost can be significantly reduced as compared with the case where the conventional vacuum car is used. Moreover, since the obtained mud is not fluid, it can be dumped directly into a landfill.

Further, the structure provided with the scraping plate can improve the moisture removal efficiency. Further, by using a flame injection burner using kerosene as the heating means, it is possible to remove moisture in the high water content mud at low cost, which is economically more advantageous.

Further, since the continuous processing is possible by using the apparatus of the present invention, the size of the apparatus itself can be reduced. Therefore, it becomes possible to install it in a civil engineering work site where a large space cannot be secured.

[Brief description of drawings]

FIG. 1 is an external configuration diagram showing a continuous moisture removing device for high-moisture content mud according to an embodiment of the present invention.

FIG. 2 is a front view of the continuous moisture removing device for highly water-containing mud of FIG.

FIG. 3 is a side perspective view of the continuous moisture removing device for high water content mud of FIG.

FIG. 4 is a cross-sectional view of the continuous moisture removing device of FIG. 1 taken along a plane perpendicular to the central axis of the rotating cylinder.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Rotation cylinder 2 ... Drive motor (rotation drive means) 3 ... Flame injection burner (heating means) 4 ... Scraping plate 5 ... Scraping plate 6 ... Guide 7 ... Rotating ring 8 ... Drive roller 8a ... Support roller 9 ... First gear 10 ... Second gear 11 ... Drive shaft 12 ... Stop roller 13 ... Frame 14 ... Angle adjusting handle 15 ... Support base

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location F26B 23/02 A 9140-3L 25/04 9140-3L

Claims (3)

[Claims] 1. A rotating cylinder which is held at a predetermined inclination angle and into which mud is introduced from the upper end and from which the moisture is removed from the lower end is discharged, and a rotation which rotates the rotating cylinder about its central axis. A continuous water removing device for high-moisture content mud, comprising: a driving means and a heating means for evaporating the water content of the mud charged in the rotating cylinder. 2. The continuous water removing device for high-moisture content mud according to claim 1, wherein a scraping plate extending in a length direction of the rotating cylinder is provided on an inner wall of the rotating cylinder. .. 3. The high water content mud according to claim 1, wherein the heating means is a flame injection burner that radiates a flame from the lower end of the rotary cylinder toward the inside of the rotary cylinder. Continuous water removal device.