KR100507025B1 - Silo for discharging sludge - Google Patents

Abstract

The present invention relates to a sludge storage silo, the purpose of which is to install a plurality of auxiliary bars on the inner side of the outer bar and the reinforcing material constituting the sliding frame to increase the discharge efficiency of the sludge, reciprocating the sliding frame using a lead screw By making the sludge discharge device more compact and simplified, it is possible to provide a sludge storage silo that can prevent the discharge device from being damaged by the load generated during the reciprocating motion of the sliding frame.

The present invention reciprocates the elliptical sliding frame installed to the bottom of the storage silo storing the sludge generated during the treatment process, such as a sewage treatment plant or water purification facility to discharge the stored sludge, screw feeder installed in the lower portion of the sliding frame In the sludge storage silo configured to discharge the sludge to the outside of the storage silo, the lead screw is installed on the bottom surface of the storage silo to be located at the lower end of the sliding frame, the nut-type transfer block is fastened to the lead screw The technical gist of the sludge storage silo, which is fixed to the bottom surface of the sliding frame and is connected to the lead screw and rotates the lead screw, is installed outside the storage silo.

Description

Silo for discharging sludge}

The present invention relates to a sludge storage silo, and more particularly, the discharge device for reciprocating by the operation of the lead screw on the inner bottom of the storage silo in which the dewatered sludge from the dehydration operation is stored to discharge a certain amount of sludge. A sludge storage silo provided.

In general, sludge, which is a sediment remaining after treating waste water, is produced in sewage treatment plants or water purification facilities, and these sludges are stored in an arbitrary storage tank for drying, and then discharged to an outside by discharging an appropriate amount as needed. Sludge storage silos are used for storage.

The sludge storage silo is manufactured in a cylindrical shape or a square shape, and a separate sludge discharge device is installed to prevent sludge stored in the sludge and smooth discharge thereof.

Looking at the Republic of Korea Utility Model Registration No. 20-0241592 as the sludge discharge device, as shown in Figure 7, the sliding frame 110 is installed on the lower end of the main body of the storage silo 100, the sliding frame reciprocating The cylinder 120 is installed on the outside of the main body is connected to the sliding frame, the screw feeder 130 is installed at the lower end of the sliding frame to present the sludge discharge device configured to discharge the sludge by the reciprocating motion of the sliding frame. There is a bar.

On the other hand, the sliding frame is an elliptical structure in which the left and right are symmetrical to each other when positioned in the center of the storage silo, each bar constituting the sliding frame has a cross-sectional shape of a right triangle as shown in FIG. The sludge is formed to move the sludge outside the sliding frame to the inside of the sliding frame when the sliding frame is moved forward, and the sludge located inside the oval sliding frame is discharged to the screw feeder when the sliding frame is moved backward. When the sludge (S) located inside the sliding frame is reversed to ride over the sliding frame again when the backward has a problem that the sludge discharge efficiency is lowered.

In addition, since the cylinder for reciprocating the sliding frame is operated by hydraulic or pneumatic pressure, the configuration is complicated, while the cylinder rod connecting the sliding frame and the cylinder must have a length sufficient as the stroke distance of the sliding frame. Since the cylinder is installed at the distance of the cylinder rod from the main body, a lot of installation space is required when installing the storage silo, and the load generated during the reciprocating movement of the sliding frame is concentrated on the cylinder rod. Another problem is that the discharge device is damaged and its life is reduced.

The present invention is devised to solve the conventional problems as described above, the object is to install an auxiliary bar on the inner side of the outer bar and the reinforcement constituting the sliding frame to increase the discharge efficiency of the sludge, sliding by using a lead screw By reciprocating the frame, the sludge discharge device can be more compact and simplified, and a sludge storage silo that can prevent the discharge device from being damaged by the load generated during the reciprocating motion of the sliding frame can be provided.

The present invention to achieve the object as described above and to perform the problem to eliminate the conventional defects is an oval sliding frame is installed on the inner bottom of the storage silo to store the sludge generated in the treatment process, such as sewage treatment plants or water purification facilities, A cylinder for reciprocating the sliding frame is installed outside the storage silo, and a screw feeder is installed at the lower end of the sliding frame to discharge the sludge supplied to the screw feeder by the reciprocating motion of the sliding frame to the outside through the screw feeder. In the sludge storage silo configured so that, a plurality of auxiliary bars protruding inwardly in the upper end portion is installed on the outer side of the sliding frame and the inner side of the reinforcing material to increase the discharge efficiency of the sludge.

In addition, the present invention reciprocates the elliptical sliding frame installed to the inner bottom of the storage silo to store the sludge generated during the treatment process, such as sewage treatment plants or water purification facilities to discharge the stored sludge, while installed under the sliding frame In a sludge storage silo configured to discharge sludge out of a storage silo through a screw feeder, a lead screw is installed to be positioned at a lower end of the sliding frame, and a nut-type transfer block fastened to the lead screw is at the bottom of the sliding frame. It is fixed to, characterized in that the reducer and the motor is connected to the lead screw to rotate the lead screw is installed installed on the outside of the storage silo.

In addition, a guide bar is installed inside the sliding frame, and a guide into which the guide bar is inserted is installed on the bottom surface of the storage silo to guide the reciprocating motion of the sliding frame, and a plurality of fine protrusions are provided on the upper surface of the guide bar. The protrusion is provided with a saw-toothed first protrusion formed at a predetermined interval, and the inside of the guide into which the guide bar is inserted is formed with a second protrusion made of at least one or more other protrusions corresponding to the protrusion of the first protrusion. It is characterized by.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view showing the configuration of a storage silo according to a first embodiment of the present invention, Figure 2 is a partial cross-sectional view showing the shape of the auxiliary bar according to the present invention, the storage silo according to a first embodiment An oval sliding frame 20 reciprocating by a cylinder 80 installed outside the storage silo 10 is installed on the bottom surface 11 of the storage silo 10, while the inner side of the sliding frame 20 is provided. A plurality of auxiliary bars 30 are installed in the screw rod, and the screw feeder 70 is installed at the lower end of the sliding frame 20 so that the sludge supplied by the sliding frame 20 rotates to the outside of the screw feeder 70. Will be discharged.

The sliding frame 20 has an outer frame having an elliptical shape in which both ends of two outer bars 21 having a curvature of a size smaller than the inner diameter of the storage silo 10 are interconnected, and two outer bars (inside) 21) The inner bar 22 connecting the center portion is installed while the reinforcement 23 is installed in the "X" shape, the guide bar 24 for connecting both ends of the reinforcement 23 is the inner bar ( It is installed in parallel with 22 to be guided back and forth by the guide 12 installed on the bottom surface 11 of the storage silo 10.

In addition, a plurality of auxiliary bars 30 are installed on the inner side surfaces of the two outer bars 21 and the reinforcement 23, and the auxiliary bars 30 are formed in a cross-sectional shape in which an upper end thereof protrudes inward.

The auxiliary bar 30 installed as described above increases the discharge efficiency of the sludge discharge device by preventing the sludge from passing over the sliding frame 20 when the sliding frame 20 moves backward.

The first surface of the guide bar 24 is provided with a plurality of finely projecting pieces protruding in a sawtooth-shaped over a predetermined interval, the inside of the guide 12 into which the guide bar 24 is inserted A second protrusion 13 made of at least one or more other protrusions corresponding to the protrusion of the first protrusion is formed so that when the front or rear movement of the sliding frame 20 is moved, the first and second protrusions are provided on the sliding frame 20. By generating vibration, the discharge of sludge becomes easier.

As described above, in the present embodiment, a plurality of auxiliary bars 30 are installed on the inner side of the outer bar 21 and the reinforcing material 23 constituting the sliding frame 20 to reciprocate by the cylinder 80. When the sludge is supplied to the screw feeder 70 by the sliding frame 20, the sludge is prevented from passing over the sliding frame 20, thereby increasing the sludge discharge efficiency.

4 is a plan view showing a configuration of a storage silo according to a second embodiment of the present invention, and FIG. 5 is a side view showing a configuration of a storage silo according to a second embodiment of the present invention. According to the storage silo, the rotational force generated by the motor 60 is decelerated through the reducer 50 and then transmitted to the lead screw 40 to rotate, and the nut-type transfer block moving by the rotation of the lead screw 40 ( 41 is fixed and installed on the sliding frame 20 to supply the sludge to the screw feeder 70 by reciprocating the sliding frame 20, and discharge the sludge to the outside by the rotation of the screw feeder (70). .

The sliding frame 20 is composed of an outer bar 21, an inner bar 22, a reinforcing material 23, a guide bar 24, as in the second embodiment described above, and the bottom surface of the storage silo 10 ( It is guided back and forth by the guide 12 installed in 11).

In addition, a plurality of auxiliary bars 30 are installed inside the two outer bars 21 and the reinforcement 23, and the upper surface of the guide bar 24 is formed with a first protrusion 25 and the guide ( A second protrusion 13 corresponding to the first protrusion 25 is formed inside the 12.

The lead screw 40 is installed below the bottom surface 11 of the storage silo 10 so as to be parallel to the inner bar 22, and one end thereof protrudes out of the storage silo 10 to be connected to the motor 60. It is connected to the reducer 50 and rotated by the driving force of the motor 60.

On the other hand, the lead screw 40 is provided with a nut-shaped transfer block 41, the transfer block 41 is fixed to the bottom surface of the inner bar 22 of the sliding frame 20 when the lead screw 40 is rotated The sliding frame 20 is moved forward or backward.

In addition, the lead screw 40 may also be installed inside the inner bar 22 as shown in FIG. 6, in which the transfer block 41 coupled to the lead screw 40 inside the inner bar 22 may have an inner bar. It may be formed integrally to cause the sliding frame to reciprocate by the rotation of the lead screw.

The lead screw 40 is a compact sludge discharge device in a smaller space than the conventional cylinder 80 type by only rotating the motion in a state where the position is always fixed regardless of the position movement of the sliding frame 20 Since it can be configured, it is possible to reduce the installation space of storage silos.

When the sludge is discharged using the sludge discharge device configured as described above, the driving force is generated by operating the motor 60, and the generated driving force is decelerated at a constant speed through the reducer 50 to rotate the lead screw 40. The nut-type feed block 41 engaged with the lead screw 40 moves forward or backward in accordance with the rotation direction of the lead screw 40, and at this time, the nut-shaped feed block 41 is fixed to the sliding frame ( 20 moves together with the transfer block 41 to supply the sludge stored in the storage silo 10 to the screw feeder 70.

Meanwhile, in order to reciprocate the sliding frame 20, the rotation direction of the lead screw 40 should be changed according to the moving distance of the sliding frame 20, and for this purpose, the storage silo 10 is disposed below the bottom 11 of the storage silo 10. When the sliding frame 20 is completely moved in one direction by installing two non-shown limit switches, the nut-type transfer block 41 and one limit switch come into contact with each other to switch the rotational direction of the motor 60 to slide. The frame 20 is reciprocated.

Due to the reciprocating motion of the sliding frame 20, some of the sludge in the storage silo 10 is dropped to the rotating screw feeder 70, the sludge conveyed by the screw feeder 70 is discharged to the outside through the discharge port will be.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention installs a plurality of auxiliary bars on the inner side of the outer bar and the reinforcement of the sliding frame to discharge the sludge by reciprocating motion to prevent the sludge from passing over the sliding frame during the sludge discharge operation of the sludge discharge apparatus It is possible to improve the efficiency, and by reciprocating the sliding frame by using a motor and a lead screw, its structure is simple, so that the configuration of the storage silo is easy and the installation space of the storage silo can be reduced, and the conventional cylinder type discharge device Compared to the storage silo provided is to reduce the axial load transmitted during the reciprocating motion of the sliding frame to prevent damage and damage to the equipment.

1 is a side view showing the configuration of a sludge storage silo according to a first embodiment of the present invention

2 is a partial cross-sectional view showing the shape of the auxiliary bar according to the present invention.

Figure 3 is a cross-sectional view showing a coupling structure of the guide bar and the guide according to the present invention

Figure 4 is a plan view showing the configuration of a sludge storage silo according to a second embodiment of the present invention

Figure 5 is a side view showing the configuration of the sludge storage silo according to a second embodiment of the present invention

Figure 6 is a side view showing another configuration of the sludge storage silo according to the second embodiment of the present invention

7 is a plan view showing the configuration of a conventional sludge discharge apparatus

8 is an exemplary view showing a sludge discharge state using a conventional sludge discharge device.

<Description of the symbols for the main parts of the drawings>

(S): Sludge (10): Storage Silos

(11): bottom surface 12: guide

13: second projection 20: sliding frame

21: outer bar 22: inner bar

23: reinforcement 24: guide bar

25: first protrusion 30: auxiliary bar

(40): Lead screw (41): Transfer block

50: reducer 60: motor

70: screw feeder 80: cylinder

100: storage silo 110: sliding frame

120: cylinder 130: screw feeder

Claims (4)

In the sludge storage silo generated during the treatment of sewage or water purification facilities, A sliding frame 20 disposed at an inner lower end of the silo and having an outer bar 21 for moving the sludge to a center of the lower end of the silo and a reinforcement 23 for supporting the outer bar 21; A plurality of auxiliary bars 30 attached to the inner side surfaces of the outer bar 21 and the reinforcing member 23 and protruded in an upper direction thereof; A cylinder (80) connected to the sliding frame (20) to reciprocate the sliding frame (20); A guide bar 24 fixed to the sliding frame 20 to guide the reciprocating motion of the sliding frame 20 and having first protrusions formed on the upper surface of the sliding frame 20 at predetermined intervals; The sliding frame is fixedly disposed on the bottom surface of the silo to guide the movement path of the guide bar 24, and a second protrusion having a plurality of protrusions formed on an inner surface thereof corresponding to the protrusion of the first protrusion. A guide 12 for generating vibrations during the reciprocation of the 20; And a screw feeder (70) fixedly disposed on the bottom surface of the silo to discharge the sludge moved to the center of the storage silo to the outside. In the sludge storage silo generated during the treatment of sewage or water purification facilities, A sliding frame 20 disposed at an inner lower end of the silo and having an outer bar 21 for moving the sludge to a center of the lower end of the silo and a reinforcement 23 for supporting the outer bar 21; Nut-shaped transfer block 41 is fixed to the sliding frame 20; A lead screw 40 coupled to the transfer block 41 and reciprocating the transfer block 41 by rotation; A motor 60 connected to the lead screw 40 to rotate the lead screw 40; A reducer (50) connected between the motor (60) and the lead screw (40) to reduce the rotational force of the motor (60) and transmit the deceleration force to the lead screw (40); A guide bar 24 fixed to the sliding frame 20 to guide the reciprocating motion of the sliding frame 20; A guide 12 fixedly disposed at a bottom surface of the silo to guide a movement path of the guide bar 24; And a screw feeder (70) fixedly disposed on the bottom surface of the silo to discharge the sludge moved to the center of the storage silo to the outside. The method of claim 2, Sludge storage silo characterized in that it further comprises a plurality of auxiliary bars (30) attached to the inner side of the outer bar (21) and the reinforcement (23) and protruded in the inner direction. The method of claim 2, A second protrusion having a plurality of protrusions formed on the upper surface of the guide bar 24 at a predetermined interval, and a plurality of protrusions formed on the inner surface of the guide 12 corresponding to the protrusions of the first protrusion; Sludge storage silo characterized in that for generating a vibration during the reciprocating motion of the sliding frame (20).