JPS6326300A - Adjusting method for cake discharging of continuous press - Google Patents

Abstract

PURPOSE:To uniformly dehydrate and to increase the dehydration amount by intermittently pressing and releasing the pressing force of a cake scraper. CONSTITUTION:The dehydrated cake by being pushed out to the outlet port end 17a side of a punching plate 16 by a screw shaft 4 is discharged to a cake discharging port 21 from the outlet port end 17a. when a adjusting rod 23 is pulled into a solenoid 24 by passing a current to each solenoid 24, a cake scraper 22 is apart from the outlet port end 17a and the pressing force of the cake located at this outlet port end 17a side is released. The cake located in the gap of the screw shaft 4 at the outlet port end 17a side and the punching plate 16 loses its resistance force and becomes in the state of being loosened with rubbing. The cake containing more moisture being located at the shell part 5 side of the shaft 4 and that of the dehydration progressed being located at the side coming into contact with the cyrindrical part 17 of the plate 16 change their places. when the shaft 4 is rotated in this state the moisture inside the cake is further dehydrated, the dehydration becomes uniform in the inner part and the dehydration amount is increased more than that in the past.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for adjusting the sJ of a cake discharge section in a screw press type continuous press used for dewatering sludge and other materials.

(Prior Art) Conventionally, when dewatering sludge, pulp, extracts, etc. from human waste treatment plants, sewage treatment plants, etc., a screw press type compressor has been used to continuously compress these materials. This screw press type continuous pressing machine was developed in 1983.
As shown in Japanese Patent No. 1427 or Japanese Patent Application Laid-Open No. 60-247498, a stopper (cake scraper) having a tapered surface in the cake extrusion direction is provided on the cake discharge port side of the filter cylinder. The stopper is pressed in the direction of closing the discharge port by a compression (or tension) spring to apply pressure to the water-containing material, such as sludge, and to regulate the amount of cake-shaped sludge discharged. And the compression mentioned above (
or tension) spring t4 can be replaced with one having an appropriate pressing force depending on the nature of the water-containing material to be compressed.

(Problems to be Solved by the Invention) Therefore, in the conventional screw press type continuous press, the stopper is pressed with a constant pressure by a compression spring, so that the cake is discharged from the cake discharge port. The amount of water removed is different between the surface side in contact with the filtration cylinder, the interior, the front pushing side of the screw blade, and the rear side of the blade.The surface side with more water removal is hard, and the inner side with less water removal Otherwise, the front pushing side of the screw blade was hard and the rear side of the screw was soft, which caused the problem that the cake was not dehydrated uniformly.

Further, there was also the problem that the cake during dewatering was not discharged from the cake discharge port but instead rotated together with the screw shaft, or stuck to the screw blades on the front pushing side and the screw shaft.

In view of the above, when the cake is extruded from the cake discharge port, the present invention can uniformly dewater the surface and the inside, the front pushing side of the screw blades, and the rear side of one blade,
Another object of the present invention is to provide a screw press type continuous compressor that can release the co-rotation of the dewatered cake, fixation of the screw shaft and screw blades, and improve the dewatering rate.

(Means for Solving the Problems) In other words, in order to achieve the above object, the present invention has a filtration cylinder that is long in the front and back direction and has a sludge inlet at the front and a cake outlet at the rear. It is extruded from the outlet of the filter cylinder of the screw press Jfli continuous press, which has a rotatably installed screw shaft with spiral screw blades on the outer periphery of the body whose diameter gradually increases from the front to the rear. The pressure of the cake scraper to press down on the cake.

The pressure is applied and released intermittently.

(Function) The present invention configured by the above-mentioned means is capable of transferring sludge, etc. introduced from the input port of the filtration cylinder by rotating the screw shaft of the continuous press into the gradually narrowing gap between the inner surface of the filtration cylinder and the screw shaft. Push it inside to dehydrate. When the cake is extruded from the cake discharge port of the filter cylinder, the cake is pressed by a cake scraper to regulate the discharge amount and dehydrate the cake. Next, the pressing force of the cake scraper at the cake discharge port is temporarily applied or released, and the rotational speed of the screw shaft is adjusted.
Furthermore, by controlling this time and synchronously adjusting it with the g4 mechanism, a shock is applied from the outside to the dehydrated cake inside the filter cylinder, so that the cake on the cake outlet side is affected by the dehydrated surface. The areas where the dehydration has progressed and the areas where the dehydration inside has been delayed are loosened, the dehydration inside the cake progresses, co-rotation and sticking are eliminated, the cake is dehydrated uniformly, and the dehydration rate is improved.

(Example) In order to further clarify the gist of the present invention.

One embodiment will be explained using the drawings.

In FIGS. 1 and 2, the continuous compressor has a base 1, and an inlet stand 2 and a rear bearing bracket 3 are attached to the upper surface of both longitudinal ends of the base 1, respectively. The screw shaft 4 has a tapered body FIS5 whose diameter gradually increases from the front to the rear, and screw blades 6 provided in a spiral shape on the outer peripheral surface of the body 5. The rear end side of the large diameter of the body 5 has a predetermined length and the same diameter.No screw blades 6 are formed in this large diameter portion 5a.The screw shaft shaft 7 is located at the axial center of the body 5. A front shaft portion 7a of the shaft 7 protruding from the small diameter side of the body portion 5 is supported by an entrance side bearing 8 attached to the entrance side stand 2.

Furthermore, the rear shaft portion 7b of the screw shaft shaft 7 extends rearward from the large diameter portion 5a of the body portion 5, and the large diameter portion 5
The outlet side bearing 10 is attached to the rear shaft portion 7b at a position a predetermined distance away from the rear end of the shaft 7a.

Side wall 9 of exit side stand 9 provided at the top of base 1
It is attached to a.

Further, the rear shaft portion 7b of the screw shaft shaft 7 extends further rearward than the outlet side bearing 10, and its tip portion i±
Rear bearing 11 attached to the upper part of the rear axle bearing bracket
It is rotatably supported by. And the rear bearing 11
A driven sprocket 12 is attached to the rear shaft portion 7b in the vicinity, and this driven sprocket 12 is rotated by a drive sprocket 14 which is rotated by a drive motor 13 (see Fig. 3) equipped with a reduction gear, and is driven by a chain 15. and rotated.

Here, both the inlet side bearing 8 and the outlet S bearing 10 rotatably support the screw shaft shaft 7, and
It also serves as a thrust bearing that stops the coaxial shaft 7 from moving in the axial direction.

A cylindrical punching plate 16 is provided on the outside of the screw shaft 4. This punching plate 16 has a cylindrical P1170 and its bottom end is the stand 2 on the 11 side.
A charging hopper 18 for charging sludge and the like is provided at the upper end of this vertical plate 2a. Punching brake) 16 has a small diameter dehydration hole 19 in its cylindrical part 17.
Numerous openings are made, and a wire mesh 20 is attached to the inner peripheral surface of the cylindrical portion 17. A filter tube is formed by the punching plate 16 and the wire mesh 20, and a small gap is provided between the wire mesh 20 of the filter tube and the outer periphery of the screw blade 6 of the screw shaft 4. Outlet end 17a of cylindrical portion 17 of punching plate 16
The outlet stand 9 has a diameter larger than the inner diameter of the cylindrical part 17 and is connected to an outlet stand 9 having a cake outlet 21 .

A cake scraper 22 having an annular shape and a tapered surface 22a on the side opposite to the outlet end 17a of the first cylindrical portion 17 is slidably inserted into the screw shaft 4 on the large diameter portion 5a side of the body portion 5. has been done.

The cake scraper 22 is configured to close the outlet end 17a when its tapered surface 22a is pressed against the outlet end 17a.

A suitable number of adjusting rods 23 are attached to the cake scraper 22 perpendicularly to the longitudinal plane on the back side of the tapered surface 22a thereof. This adjustment rod 23 has a solenoid 24 attached to the rear end or the side wall 9a of the exit side stand 9.
It is slidably inserted inside. The solenoid 24 is:
As shown in Figure jS4, there is a coil 26 inside the steel step 25, and the adjustment rod 23 is inserted into the shaft hole of this coil 26. Note that a compression spring 27 is installed in the shaft hole of the coil 26.
is inserted, and the adjustment rod 23 of this compression spring 27
The opposite end abuts a set screw 28 screwed into a hole in the steel step 25. Therefore, the adjustment rod 23 is constantly pushed out from the coil 26 by the biasing force of the compression spring 27, and when current flows through the coil 26, the adjustment rod 23 is pulled into the coil 26 against the biasing force of the compression spring 27. .

Note that the screw shaft 4 and the cake scraper 22 are synchronized by controlling the rotation speed of the screw shaft 4 and also by timing the rotation speed using a control mechanism (not shown), and , are connected so that the pressing force of the cake scraper 22 can be intermittently applied, released, and adjusted.

Next, the operation of this embodiment will be explained. In a human waste treatment plant, a sewage treatment plant, etc., sludge that has been concentrated while removing impurities in an appropriate pre-treatment process is charged from the input hopper 18, and the drive motor 13 is operated to rotate the drive sprocket 14. drive sprocket)
A driven sprocket 12 is rotated via a chain 15 wound around a chain 14. As a result, the screw shaft 4 rotates at a low speed, and the screw blades 6 of the shaft 4 move the introduced sludge to the large diameter portion 5 of the body 5 of the shaft 4.
In the process of sending the sludge in the direction a, the sludge is squeezed by the gradually narrowing gap between the outer periphery of the screw shaft 4 and the inner periphery of the punching plate 16, and the water inside the sludge is pushed out. This water passes through the pores of the wire mesh 20 and the countless dehydration holes 19 of the punching plate 16, and is leached out of the punching plate 16. Then, this leached water is transferred to the punching plate 1.
It accumulates in a saucer 29 located below the container 6, and is then discharged to the outside.

On the other hand, the dehydrated cake (not shown) pushed out to the outlet end 17a side of the punching plate 16 by the screw shaft 4 is discharged from the outlet end 17a to the cake discharge port 21; The cake scraper 22 with its end 17a closed is thereby pushed back against the biasing force of the compression spring 27 of the solenoid 24.

The cake is pushed out into the cake discharge port 21 through the gap between the tapered surface 22a of the cake scraper 22 and the outlet end 17a of the punching plate 16.

In this state, when a current is applied to each solenoid 24 and the adjustment rod 23 is pulled into the solenoid 24, the cake scraper 22 is separated from the outlet end 17a, and this exit end 1
The pressing force of the cake on the 7a side is released. As a result, the cake in the gap between the screw shaft 4 and the punching plate 16 on the outlet end 17a side loses its resistance in the direction of movement, becomes loosened as the screw shaft 4 rotates, and the cake is loosened as the screw shaft 4 rotates. The screw shaft 4 on the body 5 side containing a large amount of water, and the punching plate 16 on the side in contact with the cylindrical portion 17 and have been dehydrated.

change. As described above, when the screw shaft 4 rotates in a state where the inside of the cake has changed, the water in the cake is further dehydrated, the dehydration state becomes uniform inside the cake, and the amount of dewatering increases compared to the conventional cake.

Furthermore, a screw shaft 4 and a cake scraper 2
2 are connected to each other in synchronization through the control mechanism 4j4 as described above, so that in addition to pressurizing and releasing the pressure force in the axial direction of the cake scraper 22, the number of rotations, the timing of the rotation, and the By randomly selecting the direction and kneading the material, the dehydration efficiency was further increased and the product became urea.

Furthermore, when a reversible motor is used as the drive motor 13 and the solenoid 24 is operated, if the drive motor 13 is reversed and the screw shaft 4 is reversed, the kneading effect on the cake becomes even greater. Average
The dewatering and dewatering effects can be improved compared to when the drive motor 13 is not reversed.

In this embodiment, the solenoid 24 and the compression spring 27 are used to retract the adjustment rod 23, but within the scope of achieving the above-described purpose and operation of the present invention and the effects described below, for example, hydraulic cylinder,
It goes without saying that the pneumatic cylinder and the like may be arbitrarily determined, and that none of these changes changes the gist of the present invention.

(Effects of the Invention) As explained above in detail, the present invention actively and intermittently applies pressing force by a cake puff creper to the cake extruded from the unplanned discharge port of a screw press type continuous press. We decided to pressurize and release the screw shaft, and also to adjust the rotation speed, timing, and rotation direction of the screw shaft to suit the situation of the cake, so that the cake on the discharge port side will not be affected by the rotation of the screw shaft. As a result, the dehydrated parts are mixed with the parts that have not dehydrated, and the cake stuck to the screw shaft and blades is loosened and mixed, so that the rotation of the screw shaft is loosened. As a result, the water is dehydrated evenly and the amount of water dehydrated is increased compared to the conventional method. Therefore, in order to make the amount of water removed from the cake the same, it is possible to use a -rank compact continuous press, and the cost of the press can be reduced, making this invention a truly excellent invention in practical terms.

[Brief explanation of drawings]

The drawings show an embodiment of the cake discharge adjustment method for a continuous compressor according to the present invention, in which FIG. 1 is a longitudinal sectional view, FIG. 2 is a view taken in the direction of arrow A in FIG. 1, and FIG. B arrow view of , Figure 4 is the 1st
FIG. 3 is an enlarged vertical cross-sectional view of the solenoid shown in the figure. 4----11-Screw shaft 5----1 Body part 6------- Screw blade 16---- Punching plate 17---- Cylindrical part 1 7 a ---1 Output edge 18-
---Insertion hopper 19---1 Dewatering hole 20-1--Wire mesh 22--Cake scraper 23--Adjustment rod 2
4 --- --- So Shi Noi
Do. 1. Indication of the case 1986 Patent Application No. 170598 2. Name of the invention Method for adjusting cake discharge of a continuous press 3. Person making the amendment 486 Relationship to the case Patent application No. 3'i, Aichi Prefecture] 3F rh 剟′：i'd”
1-81 Name Mari Co., Ltd.
Representative V.B.Y. 4, Agent 〒461 (A request for examination of the application was submitted at the same time) Attachment (1) Specification @ page 14, line 2, “hydraulic cylinder, pneumatic cylinder” is as follows: Correct to. "Hydraulic cylinders, air cylinders, and hydraulic cylinders operated via oil and air pressure converters" and above

Claims (1)

[Claims] Inside the filtration cylinder, which is long in the front-rear direction and has a sludge inlet at the front and a cake outlet at the rear, there is a spiral screw on the outer periphery of the body whose diameter gradually increases from the front to the rear. To intermittently pressurize or release the pressing force of a cake scraper that presses the cake extruded from the discharge port of the filter cylinder of a screw press type continuous press that is rotatably provided with a screw shaft equipped with blades. A method for adjusting the cake discharge of a continuous press machine.