JPH02241696A - Sludge pressurizing and dehydrating device - Google Patents

Abstract

PURPOSE:To improve the dehydration efficiency of sludge by pressurizing directly the sludge filled in a sludge chamber by the side face of a pressurizing conical body and filtering and dehydrating it with filter cloth opposed to the side face of the conical body. CONSTITUTION:A piston 5 is allowed to ascend in advance to a prescribed position, and sludge is filled into a sludge chamber 17 from a sludge inflow port 1. After filling the sludge, a motor 6 is operated, and the piston 5 is allowed to descend. By interlocking with it, a pressurizing conical body 10 also descends, and the sludge is pressurized between the side face of the pressurizing conical body 10 and the wall surface of the sludge chamber 17. The sludge chamber 17 at the time of pressurization is closed up tightly by seals 3, 9 and a gate 25. In this state, the sludge is filtered by a filter cloth body 16, and water in the sludge is allowed to flow out as filtered water to a filtered water chamber 18, and discharged from a filtered water discharge port 24. Subsequently, a driving means 27 is operated, the gate 25 is opened, and by rotating the pressurizing conical body 10 by a motor 13, dehydrated cake adhering to the wall surface of the sludge chamber 17 is scraped out by a scraping bar 11 and discharged.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a sludge pressurized dewatering apparatus. More specifically, the present invention relates to a pressurized sludge dewatering device that is capable of dewatering sludge such as industrial waste to a desired moisture content with high efficiency, and is inexpensive and space-saving.

(Conventional technology and its problems) Conventionally, sludge from industrial waste, etc., which has been coagulated and settled and has a water content of about 70 to 90%, has been stored in a sludge storage tank, etc., and then turned into a cake with a water content of about 30 to 60%. It has been dehydrated and discarded. Regarding the dewatering treatment of such sludge,
Various methods have been known so far, and the dehydration methods are generally divided into natural dehydration methods using solar drying beds and forced mechanical dehydration methods. Mechanical forced dewatering has been widely used to reduce the amount of water. Such mechanical forced dehydration methods are classified into continuous filtration methods such as vacuum filtration, centrifugal filtration, and pressurized squeezing filtration, and intermittent filtration methods such as pressurization and filtration.

However, the continuous filtration method has the disadvantage that the moisture content of the dehydrated cake remains at a high level of approximately 60% compared to the pressure filtration of the intermittent filtration method. In the case of dewatering sludge using the method, there was a drawback that the time required for dewatering was longer than that in the continuous filtration method.

Furthermore, this mechanical forced dewatering method generally requires large-scale equipment, so there are problems in that the equipment cost is high and a large equipment area is required.

These drawbacks are undesirable in the context of the rapid rise in land prices and urbanization in recent years, as well as the increasing amount of construction work accompanying urbanization. It has been desired to realize a sludge dewatering facility that can dewater sludge from materials to a desired moisture content.

This invention was made in view of the above circumstances, and it solves the drawbacks of conventional sludge dewatering equipment, and makes it possible to efficiently dewater sludge from industrial waste to an appropriate moisture content in a short period of time. The object of the present invention is to provide a new pressurized sludge dewatering device that can be used at a low cost and is space-saving.

(Means for Solving the Problems) In order to solve the above-mentioned problems, the present invention provides a pressurizing cone-shaped body having a spiral scraper on the side surface, which is disposed on a piston that can freely move up and down. A hollow outer shell in the shape of an inverted truncated cone is provided below the cone-shaped body, and a filter cloth body is placed inside this outer shell to face the pressurized cone-shaped body as it descends. To provide a pressurized sludge dewatering device, which is separated into a drainage chamber for storing and discharging sludge, and is provided with a gate that can be freely opened and closed at the lower opening of an outer shell.

(Function) In the sludge pressure dewatering apparatus of the present invention, the sludge filled in the sludge chamber is directly pressurized with the side surface of the pressurizing cone-shaped body, and the sludge is filtered and dehydrated using the P cloth facing the side surface of the cone-shaped body. , the pressure filtration area of sludge can be increased, and the water content of the dehydrated cake can be significantly reduced in a short time. Moreover, the sludge dewatering device itself becomes compact, and the area occupied for installation can be reduced.

(Example) Hereinafter, the sludge dewatering apparatus of the present invention will be described in more detail by showing examples along with the drawings.

FIG. 1 is a longitudinal sectional view showing an embodiment of the sludge pressurized dewatering apparatus of the present invention.

Inside the cylinder (2) having the sludge inlet (1),
A piston (5) connected to the shaft (4) via a seal (3).
) is inserted. The upper side of the shaft (4) is the cylinder (
2) Arranged on the top surface! The motor (6) meshes with the worm gear (7) provided on the motor (6) with a reduction gear.
) allows the piston (5) to move up and down. A bearing (
8) to allow the piston (5) to move up and down smoothly. The method of raising and lowering the piston (5) is not limited to the motor (6) illustrated in FIG.
For example, a pressurizing cone-shaped body (10) is provided on the lower surface of the piston (5) via a seal (9), and the lifting and lowering of the piston (5) It is designed to be linked to the cone-shaped body 10). 4. A spiral scraper (11) is provided on the side surface of the pressure cone (10). The scraper (11) is for scraping out the dehydrated cake, as will be described later. Pressure cone-shaped body (10)
is supported on the shaft (12), and the shaft (12) is supported on the piston (
5〉 and the shaft (4) through the coaxial motor (]3)
is connected to. Therefore, by operating the coaxial motor (13), only the pressure cone (10) can be rotated without rotating the piston (5).

In addition, a bearing (14) is attached to the pressure cone-shaped body (10).
is provided to ensure smooth rotation.

Below this pressure cone-shaped ft (io>) is a cylinder (
2) is provided with a hollow outer shell (15) in the shape of an inverted truncated cone that is continuous with the outer shell (15), and a P-shaped body (16) that faces the side surface of the pressure cone cover (10) is arranged inside the shell! Thus, a sludge chamber (17) and a fresh water chamber (18) are formed separately. Sludge room (17)
After the sludge filled in the reactor is filtered by a sludge body (16), the reactor water is led to the r-water chamber (18). There are no particular restrictions on the material and structure of the cloth, for example, it may be made of nylon and have a mesh size of about 32 to 100, and a cloth suitable for the sludge to be dewatered can be appropriately selected and replaced.

FIG. 2 is an enlarged view of the area (A) within the dotted line circle in FIG. 1 in more detail.

As shown in this FIG.
It can have a structure in which the cloth is sandwiched. In addition, the outer body (
A cleaning vibe (21) for removing clogging of the r body (16) can be provided on the inner wall surface of the r body (15). The cloth washing pipe (21) can be formed with a number of spouts (22) that spout high-pressure water, and the high-pressure water can be sprayed onto the cloth body 16) for cleaning. High pressure water can be supplied to the furnace cloth cleaning pipe (21) by, for example, the pump (23) system shown in FIG.

As shown in Figure 1, at the bottom of the P water chamber (18),
A reactor water discharge port (24) is provided to discharge reactor water from the sludge to the outside of the apparatus. Further, a gate (25) pivotally supported on the outer wall of the outer shell (15) at one end is provided in the lower opening of the outer shell (15) so as to be openable and closable. Game 1-(25)
By opening the container, the dehydrated cake can be discharged. At this time, the pressurizing cone (]0) is rotated and the dehydrated cake is scraped off by the scraper (11). The gate (25) can be opened and closed by a driving means (27) provided on the pedestal (26). There is no particular restriction on the opening/closing mechanism of the gate (25), and any mechanism such as a hydraulic cylinder or an air cylinder can be used.

FIG. 3 shows a BB cross section of the sludge pressurized dewatering apparatus of the present invention illustrated in FIG. 1. Pressure cone (
10), the sludge chamber (17), the P solid body (16), and the reactor water chamber (18) are concentric, and the sludge filled in the sludge chamber (17) is transferred to the pressurized cone-shaped body (10). 1! Pressurize on one side, filter and dehydrate. The pressure filtration area for sludge is large, allowing for quick dewatering.

Next, an example of a process for dewatering sludge will be described.

The piston (5) is raised to a predetermined position ff, t,
Sludge is filled into the sludge chamber (17) from the sludge inlet (1). After filling the sludge, the motor (6) is operated and the piston (5
) is lowered. In conjunction with this, a pressure cone-shaped body 10
) also descends, and the sludge is pressurized between the side of the pressure cone (10) and the wall of the sludge chamber (17).
17) is sealed with the seal (3) (9>) and the gate (25). The sludge is filtered by the sludge body (16);
The water in the sludge flows out as reactor water into the reactor water chamber (18) and is discharged from the reactor water outlet (24).

Then, actuate the drive means (27) to close the gate (25).
The motor (13) pressurizes the cone-shaped body (10).
is rotated to scrape out the dehydrated cake adhering to the wall of the sludge chamber (17) with the scraper (11) and discharge it. After discharging the dewatered cake, the rotation of the pressure cone 101 is stopped and the piston (5) is pulled up to the initial position to complete the sludge dewatering cycle. Thereafter, the sludge is dehydrated in the same manner.

Of course, the sludge may be compressed by rotating the pressure cone (10) simultaneously with the descent of the piston (5). Any operation can be performed depending on the desired dehydration state.

Furthermore, by providing a control device, continuous automatic sludge dewatering work is also possible.

For example, when using the sludge pressurized dewatering apparatus illustrated in Figs. The piston (5) is then lowered and compressed and dehydrated using the pressurizing cone (10). At a pressure of 50 kg/-, the thickness of the dehydrated cake after dehydration is measured. It can be compressed to about 2 to 3 am.

At this time, open the gate (25) and press the scrubber (11).
The moisture content of the dehydrated cake scraped out can be reduced to 45-50%. Furthermore, the dewatering process is about 3 minutes per cycle, and when sludge is dehydrated for 1 hour continuously using this cycle, the sludge can be dehydrated 20 times, and the amount of sludge processed is 1. It was confirmed that the zero work efficiency, which was 5 m', was significantly improved.

Of course, the present invention is not limited to the above examples; details such as the configuration and structure of the sludge pressurized dewatering device, the lifting and lowering method of the piston, the material and structure of the sawcloth, and the operating method of the device may vary. It goes without saying that various configurations are possible, such as cylinder diameter, piston stroke,
As for the cloth mesh, etc., an appropriate one can be selected depending on the amount of sludge to be treated and the particles.

(Effects of the Invention) As explained in detail above, the sludge pressure dewatering apparatus of the present invention significantly improves the sludge dewatering efficiency compared to the conventional method. It is also possible to significantly reduce the moisture content of the dehydrated cake. Since the structure of the device is simple and compact, the equipment cost and installation area can be much reduced compared to conventional ones.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view showing an embodiment of the sludge pressurized dewatering apparatus of the present invention. FIG. 2 is a partially enlarged sectional view of the sludge pressurized dewatering apparatus illustrated in FIG. 1. FIG. 3 is a horizontal sectional view of the two-sludge pressurized dewatering apparatus illustrated in FIG. 1. 1...Sludge inlet 2...Cylinder 3.9...Seal 4.12...Shaft 5...Piston 6.13...Motor 7...Worm gear 8.14...Bearing 10...Pressure cone-shaped body 11...Scraper 15...Outer shell 16...R body 17...Sludge chamber 18...Reactor water chamber 19.20...Frame plate 21. ... Furnace cloth cleaning vibrator 22 ... Spout port 23 ... Pump 24 ... Reactor water discharge port 25 ... Gate 26 ... Frame 27 ... Drive means Fig. 1

Claims (3)

[Claims] (1) A rotatable pressure cone-shaped body having a spiral scraper on the side surface is disposed on a piston that can be raised and lowered, and a hollow outer body in the shape of an inverted truncated cone is provided below the pressure cone-shaped body. Inside this outer shell, a filter cloth body is arranged to face the pressurized cone-shaped body when it is lowered, and is separated into a sludge chamber filled with sludge and a filtration chamber for storing and discharging filtrate, and an opening at the bottom of the outer shell. A pressurized sludge dewatering device characterized by having a gate that can be freely opened and closed. (2) The pressurized sludge dewatering apparatus according to claim (1), wherein a filter cloth cleaning pipe having a large number of high-pressure water spouts is disposed on the inner wall surface of the outer shell. (3) The pressurized sludge dewatering apparatus according to claim (1), further comprising a filter cloth body in which a filter cloth is sandwiched between perforated plates.