JPS6113196Y2 - - Google Patents

Description

[Detailed description of the invention] This invention is a method of processing sludge generated during the clarification of water, wastewater, and other liquids, or flocculated sludge obtained by adding organic polymer flocculants or other flocculants to these sludges and flocculating them. This invention relates to an improvement of a screw press type dehydrator consisting of an outer cylinder made of a cylindrical material that can produce a dehydrated cake with a significantly low water content by continuously compressing and dehydrating the liquid using a screw shaft with screw blades. It is.

For example, as shown in FIG. 1, a conventional screw press has an outer cylinder 3' of a cylindrical shape provided between the sludge supply port 1' and the dewatered cake discharge port 6' of the sludge hopper 2', and a and a screw shaft 5' having screw blades 4', and the volume of the annular gap between the outer cylinder 3', the screw shaft 5', and the screw blades 4' is sequentially reduced as appropriate, and the sludge is fed into the sludge supply port 1'. The sludge is pushed out in the axial direction, that is, in the direction of the dewatered cake discharge port 6' by the rotation of the screw shaft 5', and squeezed sequentially. It has a structure and function designed to be taken out from '.

Note that the screw shaft 5' is supported and rotated by a bearing 7' and a drive device 9'. Furthermore, when discharging the dehydrated cake, the dehydrated cake discharge port 6' is narrowed with a tapered cone 8' to increase drainage resistance and to adjust the moisture content of the dehydrated cake.

Generally, when dewatering sludge using a screw press, the dewatering performance varies greatly depending on the properties of the sludge, so operating conditions are often changed in response to changes in the properties of the sludge. The operating conditions include the number of rotations of the screw shaft 5', the gap between the tapered cones 8', and the pushing pressure of the charged sludge. However, in actual operation, this is rarely possible and dehydration may not be possible.

In addition, in order to lower the moisture content of the dehydrated cake using a screw press, it is necessary to lengthen the rubbing time and increase the squeezing pressure. In order to lengthen the pressing time, the number of revolutions of the screw shaft 5' is lowered, and in order to increase the pressing pressure, the gap between the tapered cones 8' is narrowed and the resistance at the dewatered cake discharge port 6' is increased. Be taken. However, in these methods, lowering the rotation speed of the screw shaft 5' reduces the throughput of the screw press, and narrowing the gap between the taper cones 8' makes it easier for the dehydrated cake to slip.
This is not a rational method of operation because the so-called co-rotating phenomenon tends to occur, making it difficult for the dehydrated cake to be discharged.

Therefore, conventional screw presses have to be manufactured with specifications tailored to the narrow range of changes in the properties of sludge, and therefore have the disadvantage that they cannot cope with large changes in the properties of sludge.

The purpose of the present invention is to improve the various drawbacks of the conventional screw press and to provide an economical sludge dewatering machine that can perform efficient processing.

In the present invention, a conical screw shaft having screw blades on the outer periphery is rotatably arranged in an outer cylinder made of a cylindrical material having a sludge supply port and a cake discharge port, and sludge is compressed and dewatered by rotation of the screw shaft. In a screw press type dehydrator in which the gap between the outer surface of the screw shaft and the inner surface of the outer cylinder becomes smaller toward the cake discharge port so that the cake is discharged as a cake from the cake discharge port, the screw shaft end on the cake discharge port side is A part without screw blades is provided in the part, and the length of the part can be adjusted by sliding the screw shaft in the longitudinal direction of the outer cylinder. By drilling grooves in the surface and configuring the slide ring so that the projections of the slide ring can be inserted into and removed from the grooves, changes in the properties of the sludge can be accurately responded to.
This makes it possible to stably obtain a dehydrated cake with a low moisture content.

In the present invention, the term "portion without screw blades" refers to a portion of the cake discharge port side of the screw shaft surrounded by the outer cylinder in which screw blades are not formed.

One embodiment of the present invention will be described with reference to FIGS. 2 to 5. As shown in FIGS. 2 and 3, the overall structure of the device is the same as that of the conventional example shown in FIG. The shaft 5 is slidable along its longitudinal direction.

The end of the screw shaft 5 on the side of the dehydrated cake discharge port 6 is engaged with a transmission shaft 11 for transmitting the rotational power of the drive device 9, and the engagement is designed to prevent the screw shaft 5 from slipping in the longitudinal direction. Slide ring 1 between screw shaft 5 and transmission shaft 11
0 is interposed and the two rotate together.

That is, as shown in FIGS. 4 and 5, the end of the screw shaft 5 on the side of the dehydrated cake discharge port 6 has an uneven surface 5a on its inner peripheral surface so as to mesh with the gear-shaped tip 11a of the transmission shaft 11. The screw shaft 5 and the transmission shaft 11 are interlocked with each other.
Further, a plurality of grooves 5b are provided on the outer circumferential surface of the transmission shaft 11 in the longitudinal direction for fitting with the protrusion 10a of the slide ring 10, and the same grooves 5b are provided on the outer circumferential surface of the transmission shaft 11. One target groove 11b is provided. This slide ring 10 is divided into two parts in the vertical direction, and a gasket is inserted between the flanges of these two parts and fastened with bolts and nuts.

In FIGS. 2 and 3, 1 is a sludge supply port, 2 is a sludge hopper, 3 is a cylindrical outer cylinder, 4 is a screw blade, 7 is a bearing, and 8 is a tapered cone.

Therefore, in the above embodiment, FIG. 2 shows a state in which the screw shaft 5 is slid to the maximum extent toward the transmission shaft 11, and the length of the "portion without screw blades" is minimized (l ₁ ), and the third On the contrary, the figure shows a state in which this length is maximized (l ₁ +l ₂ ).

To describe the procedure for sliding the screw shaft 5 in a dehydrator having such a structure, first, the slide ring 10 is removed, the bearing 7 is also freed, and the screw shaft 5 is made free. Next, when the screw shaft 5 is rotated normally, the screw shaft 5 is resisted by the sludge in the gap with the outer cylinder 3 and slides toward the sludge supply port 1 side. When the slide width reaches a predetermined position, the rotation of the screw shaft 5 is stopped, and the slide ring 10 and bearing 7 are set to prevent them from sliding. In this way, the screw shaft 5
The length of the part without screw blades can be increased by sliding the screw.

On the other hand, in order to shorten the length of the above-mentioned portion, on the other hand, the slide ring 10 may be similarly removed and the screw shaft 5 may be rotated in the opposite direction. By doing this, the screw shaft 5 moves toward the dehydrated cake discharge port 6 side.

In this way, the screw shaft 5 has the advantage that even during operation, the screw shaft 5 can be easily slid with a short interruption in operation. In the above example, the slide ring 10, the screw shaft 5, and the transmission shaft 1
It is also possible to omit the first engagement and use a key instead.

Further, it is preferable that the end of the screw shaft 5 on the sludge supply port 1 side has the same diameter as described above, which simplifies the shaft sealing structure of the bearing 7, but it may also be tapered.

Therefore, when operating a screw press type dehydrator, if the properties of the input sludge change, it is necessary to adjust the residence time or squeezing time to suit the properties of the sludge in order to keep the moisture content of the dehydrated cake constant. Generally speaking, if you examine the pressure distribution in the axial direction of a screw press, you will see a slight pressure increase from the sludge inlet to the dewatered cake outlet; The pressure gradually increases from before the tip on the cake discharge port side, reaches a maximum at the tip of the screw blade, and reaches zero at the dehydrated cake discharge port.

Therefore, in the dehydrator of the present invention, by shortening the section without screw blades, the sludge squeezing time can be shortened, and when the taper cone is open, the contact resistance between the dewatered cake and the outer cylinder is reduced. As it becomes smaller, the squeezing pressure decreases.

Although it is possible to increase the squeezing pressure by narrowing the gap between the tapered cones, this is not a preferable method because it tends to cause synergism as described above.

On the other hand, in order to extend the sludge compression time, it is possible to lower the rotation speed of the screw shaft.
The disadvantage is that the throughput is reduced. On the other hand, in the dehydrator of the present invention, by lengthening the section without screw blades, the section with high squeezing pressure and the squeezing time can be lengthened, and the water content can be accurately reduced without causing the sludge co-circulation phenomenon. You can get a dehydrated cake at a high rate.

In order to further enhance the effects of the present invention, it is desirable that the outer cylinder in the section without screw blades be formed of a material that has a high contact resistance with the dehydrated cake and does not slip in the direction of rotation.

As mentioned above, the screw press type dewatering machine of the present invention can stably handle sludge without reducing the amount of sludge processed by adjusting the length of the part without screw blades in response to changes in the properties of the input sludge. This method has the advantage that a dehydrated cake with a low moisture content can be obtained.

[Brief explanation of the drawing]

Fig. 1 is a vertical cross-sectional view of the conventional example, Fig. 2 is a longitudinal cross-sectional view of an embodiment of the present invention, and Fig. 3 is a state in which the screw shaft is slid in the example shown in Fig. 2 to make the section without screw blades the longest. 4th longitudinal sectional view showing
The figure is a longitudinal cross-sectional view of the screw shaft sliding mechanism, and FIG. 5 is a cross-sectional view taken along the line A--A in FIG. 4. 1...Sludge supply port, 2...Sludge hopper, 3...
... Outer cylinder, 4 ... Screw blade, 5 ... Screw shaft, 6 ... Dehydrated cake outlet, 7 ... Bearing, 8
... Taper cone, 9 ... Drive device, 10 ...
Slide ring, 11...Transmission shaft.

Claims (1)

[Scope of utility model registration request] A conical screw shaft having screw blades on the outer periphery is rotatably arranged in an outer cylinder made of a cylindrical material having a sludge supply port and a cake discharge port, and the rotation of the screw shaft compresses and dewaters the sludge while the cake discharge port is removed. In a screw press type dehydrator in which the gap between the outer surface of the screw shaft and the inner surface of the outer cylinder becomes smaller toward the cake discharge port so as to discharge the cake as a cake, a screw blade is installed at the end of the screw shaft on the cake discharge port side. A groove is provided on the outer circumferential surface of the screw shaft on the cake discharge port side and on the outer circumferential surface of the transmission shaft so that the length of the portion can be adjusted by sliding the screw shaft in the longitudinal direction of the outer cylinder. A screw press type dehydrator is constructed so that a protrusion of a slide ring can be inserted into and removed from the groove.