KR101581704B1 - Filtration device for small sewage treatment using a filter cloth - Google Patents

Abstract

It is a filtration device to remove floating matters of small scale sewage generated in farming and fishing areas. It uses centrifugal force to impregnate the influent sewage so that filter cloth can be selected according to the characteristics and concentration of sewage. In addition, A filtration apparatus for small-scale sewage treatment using a filter cloth to allow foreign substances or the like to be easily collected in a lower portion of a housing. The filtration device of the present invention selectively separates the filter cloth in the installation of the filtration device according to the characteristics and concentration of the sewage that is expected to be introduced, thereby making it possible to separate the sewage and float in the area most effectively and to remove the debris that sinks to the bottom of the impeller The gutter provided with the guide vane can be easily collected, and the separation effect can be maximized by effectively separating sewage, debris, floats and the like by using one or more air nozzles provided in the trough.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a filtration device for a small-

The present invention relates to a filtration apparatus, and more particularly, to a filtration apparatus for removing suspended solids of small-scale sewage generated in a farming and fishing area, and a centrifugal force is generated by using an impeller on sewage introduced, And a filtration apparatus for filtering suspended solids or foreign matter generated during filtration to be easily collected in a lower portion of the housing.

A general configuration of a filtration apparatus for small-scale sewage treatment for filtering small-scale sewage generated in rural areas and fishing villages is shown in FIG. The structure and operation of the conventional filtration apparatus for small-scale sewage treatment 10 will now be briefly described. When the sewage flows into the housing 12 of the filtration apparatus 10, A centrifugal force is generated in the sewage in the housing 12 by rotating the impeller 13. At this time, a filtering plate 14 having holes with a predetermined size is installed in the housing 12 to remove sewage and debris After the separation, the sewage that has passed through the filtration plate 14 is discharged to the outside through the sewage valve 15, and the debris that has not passed through the filtration plate 14 is discharged to the outside through the residue valve 16.

The conventional filtration apparatus configured as described above is structured so as to treat uniformly irrespective of the characteristics and concentration of the sewage to be treated, so that it is impossible to precisely separate the waste from the sewage, and the treated sewage and the residue The function is not able to function as an original filtration device and the remnant valve may be blocked by the float to cause a failure of the device.

Prior art relating to the above-described small-scale sewage treatment filtration apparatus includes a cylindrical filtration system having an impeller type surface cleaning apparatus (hereinafter referred to as Prior Art 1). However, the prior art 1 is composed of a collecting tower made of stainless steel or duplex steel and an impeller-type surface cleaning apparatus, and is a filtration apparatus and system that can increase the durability of the product and make the cleaning work more convenient. Is an invention completely different in configuration and orientation.

In addition, a filter composed of a bundle of fibers is attached to a drum in a filtration tank so that suspended matters of wastewater can be adsorbed to the filter, and the diameter of the inner drum So that the filter can be attached as much as possible by increasing the circumferential area.

However, the prior art 2 is also a wastewater filtration device composed of a filter having a large diameter drum and a filter using fiber yarn inside the drum, which is a completely different invention from that of the present invention.

Patent Document 10-1047148 (hereinafter referred to as Prior Art 3), which is related to a water purifying apparatus, relates to a small-sized water purifying apparatus for purifying water by removing impurities such as rivers and sterilizing the water, It consists of impeller and filter for forced inflow. However, the above-mentioned prior art 3 is also another invention of the filtration apparatus for sewage treatment using a filter cloth, which is different from the present invention in terms of construction, driving method and orientation.

 (Hereinafter referred to as "Prior Art 4") which discloses a dehydrator for a food garbage collection device. However, the prior art 4 described above also relates to a food garbage collection device and is an invention not related to the present invention.

The present invention solves the problems of the prior art as described above and is a filtration device for removing suspended solids of small-scale sewage occurring in a rural area. The filtration device has a high filtration efficiency considering the characteristics and concentration of sewage in the area. By the installation, the filtration effect is maximized when the sewage is passed, and the floating matters or debris that have not passed through the filtration membrane are collected and discharged in the trough provided with the guide vane formed at the lower end of the impeller and one or more air nozzles, , And a filtration apparatus for a small-scale sewage treatment using a filter cloth capable of maximizing the filtration effect.

In order to accomplish the object of the present invention as described above,

A hollow cylindrical housing as a filtration device for sewage treatment; A rotating shaft passing through an axial line of the housing; A motor for driving the rotating shaft; A coupling for coupling the rotation shaft and the motor; An impeller installed on a side surface of the rotating shaft; A sewage inlet for introducing sewage into the side surface of the housing; A siphon feeding inlet provided at a side of the sewage inlet and into which time water flows; A sewage discharge port through which sewage is discharged from the side surface of the housing; A recessed semicircular sewage sump trough formed at the lower end of the housing; A spiral guide vane installed in the concave sewage sump trough; One or more air nozzles provided on the sump surface of the sewage sludge installed with the guide vanes and connected to an external compressor through an air line to inject air into the housing; A debris discharge port installed at the lower end of the drainage trough and connected to the outer hose; And at least one fixed frame is arranged in a circular shape on the inner side of the cylindrical housing, and the filter cloth is formed in a circular shape by the fixing frame and installed in the housing.

In the above, a mechanical joint is provided to seal the gap between the drainage trough and the rotary shaft of the housing, and a bearing portion is provided at one end of the rotary shaft provided with the mechanical joint, so that the bearing portion can come into contact with the ground surface desirable.

In this case, a sewage inflow valve is provided in the sewage inflow port, the sate inflow inlet, the sewage discharge port, and the sludge discharge port for opening and closing the inflow and outflow ports and the inflow amount and the discharge amount, respectively, A sewage discharge valve is installed in the sewage discharge port, a sewage discharge valve is installed in the discharge outlet, and the sewage discharge valve, the time constant control valve, the sewage discharge valve, The automatic control panel is also connected to and controlled by a motor for operating the rotary shaft and a compressor for operating the one or more air nozzles.

In the above, the at least one fixed frame is formed in a 'C' shape with both side edges bent. A clamp for forming grooves on both side ends so as to accommodate folded side edges of the filter cloth frame; The filter cloth frame and the clamp are coupled with each other with one or more bolts and nuts while the filter cloth is sandwiched between the filter fabric frame and the clamp. .

According to the present invention, the filter cloth is selectively installed at the time of installation of the filtration device in accordance with the characteristics and concentration of the sewage which is expected to flow, so that the sewage and floating matters can be separated most effectively from the area, and the debris that sinks to the bottom of the impeller is guided The trough provided with the vane can be easily collected, and the separation effect can be maximized by effectively separating sewage, debris, floats and the like by using at least one air nozzle installed in the trough.

Also, when a residue is discharged, a large amount of residue can be prevented from flowing into the residue discharge port at the same time, so that maintenance and management of the apparatus can be facilitated and failure can be prevented in advance.

1 is a conventional filtration apparatus for sewage treatment.
Fig. 2 and Fig. 3 are sectional structural views of the filtration apparatus for sewage treatment of the present invention. Fig.
4 is a structural view of a portion of the waste water ditch trough in the filtration apparatus of the present invention.
5 and 6 are views showing the fixing structure of the fixing frame and the filter cloth according to the present invention.
7 is a perspective view showing a state where the fixing frame and the filter cloth are combined.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in more detail with reference to the accompanying drawings. The following description is intended to assist in the understanding and understanding of the present invention, but is not to be construed as limiting the invention thereto. Those skilled in the art will appreciate that various modifications and changes may be made within the spirit of the invention as set forth in the following claims.

2 to 7 are views showing a filtration apparatus for a small scale sewage treatment using a filter fabric according to the present invention, wherein a filtration apparatus 100 for a small scale sewage treatment using a filter cloth according to the present invention comprises a housing (not shown) A sewage sludge trough 118 formed at the lower end of the housing 102 and a filter cloth 140 disposed inside the housing 102. [

The housing 102 has a vertical cylindrical shape with an inner hollow, an upper closed and a lower open, as shown in Fig. A motor 101 is installed outside the closed upper end of the housing 102 and the motor 101 rotates the rotary shaft 104 by applying rotational power to the rotary shaft 104 installed inside the housing 102. The rotary shaft 104 extends along a vertical axis line of the housing 102 and one end of the rotary shaft 104 adjacent to the motor 101 is connected to the motor 101 by a coupling 103.

An automatic control panel 109 is disposed outside the housing 102 for driving and controlling the motor 101. The automatic control panel 109 and the motor 101 are connected by wire or wirelessly. Functions and procedures for the automatic control panel 109 to operate the motor 101 will be described later.

2, the impeller 114 is fixed to the inside of the housing 102 so that the impeller 114 is rotated along the rotation axis 104. The impeller 114 is rotatably supported by the housing 102,

One side of the housing 102 is provided with a sewage inlet 105 through which sewage is introduced and a sewage inlet valve 105a through which the sewage inlet 105 is opened and closed. At this time, the sewage inlet 105 passes through one side of the filter cloth 140 disposed inside the housing 102 as shown in FIG. As shown in FIG. 2, a syrphy feeding inlet 113 is connected to the sewage inlet 105. Water can be injected into the syrphy feeding inlet 113 so that the water is supplied to the housing 102 through the sewage inlet 105 If the concentration of the incoming sewage is too high, it dilutes it and makes it easy to separate sewage and debris. In addition, the sate phase feeding inlet 113 is provided with a sate cistern valve 113a for opening and closing the sate phase feeding inlet 113 and adjusting the amount of water to be introduced.

In addition, a sewage discharge port 106 is provided at the other side of the housing 102 so that the filtered sewage can be discharged. Similarly, a sewage discharge valve 106a, which can open and close the sewage discharge port 106, Respectively. Since the sewage discharge port 106 is installed on a side surface of the housing 102 other than the lower surface of the housing 102, the amount of sewage injected into the housing 102 is small so that the water surface does not reach the sewage discharge port 106 In this case, the above-mentioned sphygmomanometer inlet 113 can be solved by injecting water into the housing 102 to raise the water level.

2, a cylindrical filter cloth 140 is installed so as not to interfere with the rotation of the impeller 114. The filter cloth 140 is fixed to one or more fixed And is fixed inside the housing 102 by a frame 130. The structure in which the filter cloth 140 is connected to and fixed to the fixed frame 130 will be described later.

The sewage sump trough 118 is fixed to the lower end of the housing 102 with a concave semicircular shape as shown in FIG. As shown in FIG. 4, a helical guide vane 119 and at least one air nozzle 120 are installed inside the concave sewage sump trough 118, and a sludge discharge port 110 is installed to form a sewage sludge trough 118 are discharged through a hose 115 connected thereto. The debris discharge port 110 is provided with a debris discharge control valve 110a for controlling the amount of discharged debris.

As described above, since the sewage sump trough 118 is formed in the center of the lower end of the housing 102, the rotating shaft 104 passes through the center of the sewage sump trough 118, In order to prevent sewage from leaking out between the sewage sump troughs 118, a mechanical joint 111 is provided therebetween, a bearing portion 112 is provided at the other end of the rotation shaft 104, (112) is fixed to the ground so that the rotating shaft (104) can be stably rotated. In order to support the housing 102 on the ground, a housing support 121 formed of a cylindrical shape or one or more columns is supported by the housing 102 or welded to the housing 102 .

Since the at least one air nozzle 120 must be supplied with air, it is connected to the external compressor 123 through an air line 122 through which air can flow in and out, The air nozzle 120 is uniformly sprayed through the line 122 and an air control valve 124 is provided in the air line 122 to control the opening and closing amount of the air.

The operation of the filtration apparatus for sewage treatment 100 constructed as described above will be briefly described. In a state in which the lower inflow valve 105a of the sewage inflow port 105 is open, sewage is introduced through the sewage inflow port 105 The automatic control panel 109 operates the motor 101 to rotate the impeller 114 when the motor 102 is drawn into the housing 102. As described above, since the sewage containing a large amount of suspended matter and debris is drawn into the housing 102, centrifugal force is applied to the sewage to receive a force toward the wall surface of the housing 102.

Since the cylindrical filter bag 140 is installed in the housing 102 at a predetermined interval from the wall surface, the suspended substances and debris contained in the sewage can not pass through the filter cloth 140, And the water component in the sewage can be easily passed through the filter cloth 140. The water component passes through the filter cloth 140 and is discharged through the sewage discharge port 106. [ Here, it is preferable that the manager sets the opening timing of the sewage discharge valve 106a.

As described above, the bottom of the housing 102 is formed with a curved semicircular sewage sump trough 118, which is formed with a curved semicircular shape at the lower end of the housing 102. As shown in FIG. So that the debris and floats collect at the central portion of the concave sewage sump trough 118 along the curved surface of the sewage sludge trough 118 and the concave surface of the sewage sludge trough 118 has a helical guide vane 119 are formed on the guide vane 119 so that the debris can descend through the guide vane 119 to control the descending speed of the scum, and one or more air nozzles 120 are installed between the helical guide vanes 119 Air is introduced into the space between the sludge of the sewage coming down the guide vane through the compressor 123 and the sludge is crushed and / By Lee is not blocked so that the waste can be smoothly discharged through the residue discharge port (110).

5 and 6 are schematic views illustrating a structure in which at least one fixed frame 130 of the present invention fixes the filter cloth 140. FIG 7 is a cross-sectional view illustrating a state where the fixed frame 130 and the filter cloth 140 are combined It is a perspective view. Hereinafter, a structure and a method for coupling the at least one fixed frame 130 and the filter cloth 140 will be described with reference to FIGS. 5, 6, and 7. FIG.

As described above, the filter cloth 140 is installed inside the housing 102 in a cylindrical shape. In order to install the filter cloth 140 in the cylindrical shape and to install the filter cloth 140 inside the housing 102, . The arrangement of the at least one fixed frame 130 is as shown in FIGS. 3 and 7. The combination of the fixed frame 130 and the filter cloth 140 will be described with reference to FIGS. 5 and 6. First, The frame 130 includes a filter cloth frame 131 formed on both sides in a 'C' shape, and a clamp (not shown) formed on both ends of the filter cloth frame 131 to receive the bent ends of the filter cloth frame 131 132 and one or more bolts 133 and a nut 134 which are capable of coupling the filter cloth frame 131 and the clamp 132.

In order to fix the fixing frame 130 to the filter cloth 140, the filter cloth frame 131 is positioned on one side of the filter cloth 140 and the clamp 132 is attached to the filter cloth frame 131 So that the filter cloth 140 is connected to the filter cloth frame 131 and the clamp 132 by connecting the filter cloth frame 131 and the clamp 132 opposed to each other with the filter cloth 140 interposed therebetween, And then the filter cloth frame 131 and the clamp 132 are coupled to each other using at least one bolt 133 and a nut 134. At this time, in order to facilitate the engagement of the bolts 133 and the nuts 134, bolt threads of the bolts 133 can pass through the filter cloth frame 132, the clamp 132 and the filter cloth 140, It is preferable to form a hole having a certain size.

Since the filter cloth 140 is formed of a flexible material such as a thin wire mesh or a mesh of a fiber material, the filter cloth 140 easily intervenes between the filter cloth frame 131 and the clamp 132, The frame 130 can be fastened and installed inside the housing 102 by forming the shape as shown in FIG.

100: Filtration apparatus for sewage treatment using filter cloth. 101: Motor.
102: housing. 103: Coupling. 104: rotation axis. 105: Sewer inlet.
105a: sewage inflow valve. 106: Sewer outlet. 106a: sewage drain valve.
109: Automatic control panel. 110: Waste outlet. 111: Mechanical joint.
112: bearing part. 113: Sight feeding entrance. 113a: Time constant regulating valve.
114: Impeller. 115: Hose. 118: Sewage sludge trough. 119: Guide vane.
120: Air nozzle. 121: Housing support. 122: Airline. 123: Compressor.
124: Air regulating valve. 130: Fixed frame. 131: Filter cloth frame.
132: A clamp. 133: Volts. 134: Nuts. 140: Filter cloth.

Claims (4)

A sewage discharge port through which the sewage is introduced and a sewage discharge port through which the sewage is discharged is installed at one side of the sewage discharge port, A housing to which a hypothermic feeding inlet is connected;
A motor fixedly installed outside the closed top of the housing;
A rotating shaft extending along a vertical axis line of the housing in the housing, one end of the housing adjacent to the motor being connected to the motor via a coupling and the impeller being fixed to the other end;
A drainage ditch trough having a concave semicircular shape and fixed to the lower end of the housing; And
And a filter cloth having a cylindrical shape and installed at the inside of the housing to allow the sewage inlet to be guided to the inside so that the sewage inlet can be guided into the inside of the housing,
The housing is supported on the ground by a housing support,
The sewage sludge trough is provided with a spiral guide vane that adjusts the descending speed of the sewage sludge descending toward the sewage sludge trough by gravity and at least one guide vane installed between the guide vanes to crush and separate the sludge descending along the guide vane At least one air nozzle, and a debris discharge port for discharging the debris,
Wherein the filter cloth is formed of a mesh of a wire mesh or a fiber material and the filter cloth is fixed by one or more fixed frames to be installed inside the housing,
The fixed frame includes:
A filter fabric frame formed in a shape of '[''formed at both sides of the filter cloth, and a groove formed at both ends of the filter fabric frame so as to accommodate both bent ends of the filter fabric frame so that the filter fabric is pressed against the filter fabric frame to fix the filter fabric. A clamp, and a bolt and a nut for fixing the filter cloth between the filter cloth frame and the clamp. delete The method according to claim 1,
A sewage discharge valve, a sewage discharge valve, and a debris discharge valve are respectively installed in the sewage inlet, the siphonal inflow inlet, the sewage discharge outlet, and the debris discharge outlet,
Wherein the compressor for operating the sewage inflow valve, the time constant water control valve, the sewage discharge valve, the waste discharge valve, the motor, and the air nozzle is controlled by an automatic control panel located outside the housing. For small - scale sewage treatment.
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