KR102847711B1 - Filtration device with internal deformation and distortion prevention structure - Google Patents

Abstract

The present invention relates to a filtering device having an internal deformation and distortion prevention structure, and more specifically, to a filtering device that receives sewage and filters it, comprising: a base support; a filtering tank body disposed on the upper portion of the base support, having an inlet pipe formed therein for introducing sewage and a discharge pipe formed therein for discharging filtered sewage, and having a filtration space formed therein; and an inner reinforcing support part provided inside the filtering tank body, wherein the filtering tank body filled with sewage is provided with an inner reinforcing support part and an outer wall guide reinforcing part to improve support capacity and strength, and to prevent deformation or distortion of the filtering tank body due to the load of the filled sewage, and to provide a moving rotating crushing and stirring means to crush floating matters contained in sewage, thereby having the effect of improving filtration and purification efficiency.

Description

Filtration device with internal deformation and distortion prevention structure

The present invention relates to a filtering device having an internal deformation and distortion prevention structure, and more specifically, to a filtering device having an internal deformation and distortion prevention structure in which an internal reinforcing support part and an external wall guide reinforcing part are provided in a filtering tank body filled with sewage to improve support capacity and strength, and deformation or distortion of the filtering tank body due to the load of filled sewage is prevented, and a moving rotating crushing and stirring means is provided to crush floating matters contained in sewage, thereby increasing filtration and purification efficiency.

Generally, large reservoirs for filtration and purification used in water treatment plants, reservoirs, settling tanks, filters, and water supply facilities are formed as structures using concrete.

However, reservoirs manufactured in this way are prone to cracking as harmful substances contained in concrete and other materials dissolve in the water, and the water repeatedly freezes and thaws, causing problems such as continuous leakage and bacterial infiltration, making them unsuitable for drinking water.

To solve these conventional problems, a filtration tank made of synthetic resin and equipped with a filtration space inside is being developed.

However, filtration tanks made of synthetic resin have the problem of lower bearing capacity and strength compared to concrete tank structures, and there is a constant problem of the filtration tank becoming deformed or partially warped or twisted when filled with sewage to be filtered and purified.

The invention described above refers to background technology in the technical field to which the present invention belongs, and does not refer to prior art.

Registered Patent No. 10-2086786

The present invention has been made to solve the above-mentioned conventional problems, and the purpose of the present invention is to provide a filtering device having an internal deformation and distortion prevention structure in which an inner reinforcing support part and an outer wall guide reinforcing part are provided in a filtering tank body filled with sewage to improve the support capacity and strength, and deformation or distortion of the filtering tank body due to the load of the filled sewage is prevented, and a moving rotating crushing and stirring means is provided to crush floating matters contained in the sewage, thereby increasing the filtration and purification efficiency.

The present invention is a filtering device that receives and filters sewage, characterized by comprising a base support, a filtering tank body positioned on the upper portion of the base support, having an inlet pipe formed to allow sewage to flow in, a discharge pipe formed to discharge filtered sewage, and having a filtering space formed inside, and an inner reinforcing support provided inside the filtering tank body.

In addition, the inner reinforcing support member is characterized by being composed of a fixed support frame member formed on the inner bottom surface edge portion of the filter tank body, a main support shaft formed while maintaining a certain interval on the fixed support frame member, and connecting support shafts that interconnect the main support shafts formed on the fixed support frame member.

In addition, the base support part is further provided with an outer wall guide reinforcement part to support the filter tank body, and the outer wall guide reinforcement part is composed of vertical guide shafts whose lower ends are connected and fixed to the upper part of the base support part, and an upper fixing frame member that is fitted to the upper side while surrounding the filter tank body and to which the upper ends of the vertical guide shafts are connected, and the outer wall guide reinforcement part is further provided with a horizontal connection part composed of the horizontal connection shafts, and the horizontal connection shafts are characterized in that they are fastened to interconnect the vertical guide shafts.

In addition, the filter tank body is characterized in that a floating matter discharge groove is further formed to discharge sewage and floating matter that overflows to the upper side.

In addition, the filtration tank body is further provided with a moving rotation crushing and stirring means to ensure that the chemical solution is uniformly distributed in the sewage and to crush floating matters, and the moving rotation crushing and stirring means comprises: a guide bracket unit connected to and fixed on the inner surface of the filtration tank body; a transport cylinder having one end connected to and fixed on the guide bracket unit connected to the filtration tank body; a guide pipe member fitted and fixed on the drive shaft of the transport cylinder connected to the guide bracket unit; transport shafts having one end connected to and fixed on the guide pipe connected to the drive shaft of the transport cylinder; a transport agitation panel connected to and fixed on the other end of the transport shaft connected to the transport cylinder and moved by the drive of the transport cylinder; transport crushing holes formed in the transport agitation panel connected to the transport shaft; an operating crushing motor connected to and fixed on the upper portion of the transport agitation panel connected to the transport shaft; and the above It is characterized in that it is composed of a hollow operating rotary tube that is fixedly connected to the rotating shaft of the operating shredding motor at one end and rotated by the driving of the operating shredding motor, and operating shredding holes formed in the operating rotary tube connected to the operating shredding motor, so that floating masses contained in the sewage are crushed by colliding with the transport agitating panel and the rotating operating rotary tube, and are crushed in the process of penetrating or getting caught in the transport shredding holes and the operating shredding holes.

The filtering device having an internal deformation and distortion prevention structure of the present invention provides an internal reinforcing support part and an external wall guide reinforcing part to a filter tank body filled with sewage, thereby improving the support capacity and strength, and prevents deformation or distortion of the filter tank body due to the load of the filled sewage, and provides a moving rotating crushing and stirring means to crush floating matters contained in sewage, thereby having the effect of increasing the filtration and purification efficiency.

Fig. 1 is a front view showing a filter device having an internal deformation and distortion prevention structure according to the present invention.
Fig. 2 is a cross-sectional view showing a filter device having an internal deformation and distortion prevention structure according to the present invention.
Figure 3 is a plan view showing a filter device having an internal deformation and distortion prevention structure according to the present invention.
Figure 4 is a partially enlarged perspective view showing a filter device having an internal deformation and distortion prevention structure according to the present invention.
Figure 5 is a front view showing an outer wall guide reinforcement part of a filter device having an internal deformation and distortion prevention structure according to the present invention.
Figure 6 is a plan view showing an outer wall guide reinforcement part of a filter device having an internal deformation and distortion prevention structure according to the present invention.
Figure 7 is an installation state diagram showing a moving rotary crushing and stirring means of a filter device having an internal deformation and distortion prevention structure according to the present invention.
Figure 8 is a drawing showing a moving rotary crushing and stirring means of a filter device having an internal deformation and distortion prevention structure according to the present invention.

The description of the present invention is merely an example for structural and functional explanation. Therefore, the scope of the present invention should not be construed as being limited by the embodiments described herein. In other words, since the embodiments are capable of various modifications and may take various forms, the scope of the present invention should be understood to include equivalents that can realize the technical idea.

Meanwhile, the meanings of terms described in the present invention should be understood as follows.

Terms such as "first" and "second" are intended to distinguish one component from another, and the scope of the rights should not be limited by these terms. For example, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

When a component is said to be "connected" to another component, it should be understood that while it may be directly connected to that other component, there may also be other components intervening. Conversely, when a component is said to be "directly connected" to another component, it should be understood that there are no other components intervening. Similarly, other expressions describing relationships between components, such as "between" and "directly between," or "adjacent to" and "directly adjacent to," should be interpreted similarly.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as "comprises" or "have" should be understood to specify the presence of a feature, number, step, operation, component, part or combination thereof, but not to exclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts or combinations thereof.

For each step, the identifiers (e.g., a, b, c, etc.) are used for convenience of explanation and do not describe the order of the steps. The steps may occur in a different order than stated unless the context clearly dictates a specific order. That is, the steps may occur in the same order as stated, may be performed substantially simultaneously, or may be performed in the opposite order.

Unless otherwise defined, all terms used herein have the same meaning as commonly understood by those of ordinary skill in the art to which this invention pertains. Terms defined in commonly used dictionaries should be interpreted to be consistent with their meaning within the context of the relevant technology, and should not be interpreted as having ideal or overly formal meanings unless explicitly defined herein.

FIG. 1 is a front view showing a filtering device having an internal deformation and distortion prevention structure according to the present invention. FIG. 2 is a cross-sectional view showing a filtering device having an internal deformation and distortion prevention structure according to the present invention. FIG. 3 is a plan view showing a filtering device having an internal deformation and distortion prevention structure according to the present invention. FIG. 4 is a partially enlarged perspective view showing a filtering device having an internal deformation and distortion prevention structure according to the present invention. FIG. 5 is a front view showing an outer wall guide reinforcement part of a filtering device having an internal deformation and distortion prevention structure according to the present invention. FIG. 6 is a plan view showing an outer wall guide reinforcement part of a filtering device having an internal deformation and distortion prevention structure according to the present invention. FIG. 7 is an installation state diagram showing a movable rotary crushing and stirring means of a filtering device having an internal deformation and distortion prevention structure according to the present invention. FIG. 8 is a drawing showing a movable rotary crushing and stirring means of a filtering device having an internal deformation and distortion prevention structure according to the present invention.

As shown in the drawing, the filtering device (10) of the present invention having an internal deformation and distortion prevention structure (hereinafter referred to as a filtering device for convenience of explanation) is a filtering device (10) that receives sewage and filters it, and the filtering device (10) is composed of a base support (20), a filtering tank body (30), and a side reinforcing support.

The above base support member (20) is placed on top of the above fixing support member.

The above base support member (20) is formed as a panel structure made of metal, connects the above fixing blocks, and is placed on top of the above fixing blocks.

The above base support member (20) is fixed by screwing or attaching the lower surface to the upper surface of the above fixed block.

The above filter tank body (30) is placed on the upper part of the base support part (20), and an inlet pipe (31) is formed to allow sewage to flow in, a discharge pipe (32) is provided to discharge filtered sewage, and a filtering space is formed inside.

The above filter body is made of synthetic resin and is formed into a tank structure with an open upper portion.

Sewage containing floating matter is introduced into the above filtration tank body (30) through the inlet pipe (31) and filled in the filtration space, and a chemical solution is injected through the open upper part of the above filtration tank body (30) to decompose floating matter contained in the sewage for a certain period of time, thereby enabling filtration and purification.

In addition, by collecting and capturing the floating matter contained in the sewage flowing into the filter tank body (30) while floating on the surface of the sewage, or discharging it by overblowing, the sewage can be filtered and purified.

In addition, by allowing the floating matter in the sewage filled in the filter tank body (30) to settle after a certain period of time, then discharging a portion of the sewage, and collecting the settled floating matter or foreign substances, the sewage can be purified and filtered.

At this time, by fitting a filter in the form of a pipe or shaft structure to the inlet pipe (31) and the outlet pipe (32), floating matters contained in the inflow or discharged sewage can be filtered, thereby increasing the filtration and purification efficiency. It is also preferable to further fit a filter net to the outlet pipe and then screw it on to filter floating matters contained in the discharged sewage.

Additionally, it is also possible to introduce microorganisms into the filter tank body (30) so that floating matter is biodegraded after a certain period of time.

Additionally, it is possible to place an electrode purification device in the filter tank body (30) to purify and filter the sewage.

It is preferable to further form relief supporting protrusions on the outer surface of the above-mentioned filter tank body (30) to improve the supporting and fixing power compared to a flat structure without supporting protrusions.

The above inner reinforcing support member (40) is provided inside the filter tank body (30).

The inner reinforcing support member (40) is composed of a fixed support frame member (41) formed on the inner bottom surface edge portion of the filter tank body (30), a main support shaft (42) formed at a certain interval on the fixed support frame member (41), and connecting support shafts (43) that interconnect the main support shafts formed on the fixed support frame member (41).

The above fixed support frame member (41) is attached to or integrally formed with the bottom surface edge of the filter body, and the main support shaft (42) is attached to or integrally formed with the inner surface of the above fixed support frame member (41) as shown in the drawing.

The above connecting support shaft (43) is attached and fixed to interconnect the above main support shafts (42).

The above inner reinforcing support member (40) is formed of synthetic resin material.

The inner reinforcing support member (40) prevents distortion of the bottom portion of the filter tank body (30), improves the supporting force, and prevents deformation of the bottom portion due to the weight of the filled sewage.

An outer wall guide reinforcement part (50) is further provided on the above base support part (20) to support the filter tank body (30).

The above outer wall guide reinforcement member (50) is composed of vertical guide shafts (51) whose lower ends are fixed by screws to the upper part of the base support member (20), and an upper fixing frame member (52) that is fitted to the upper side while surrounding the filter tank body (30), and whose upper ends of the vertical guide shafts (51) are fixed by screws.

The above vertical guide shaft and the upper fixing frame member (52) are made of metal, and the upper fixing frame member (52) is placed on the upper side while surrounding the filter tank body (30).

By supporting the outer surface of the filter tank body (30) by the vertical guide shaft (51) and the upper fixed support member (41), the filter tank body (30) is prevented from being deformed or damaged by the weight when filled with sewage, and the supporting and fixing force of the filter tank body (30) is improved.

The above vertical guide shaft (51) and the upper fixed support member (41) can be attached and fixed to the outer surface of the filter tank body (30).

The above vertical guide shaft (51) is connected to the upper surface edge of the base support member (20) at a certain interval.

The above outer wall guide reinforcement part (50) is further provided with a horizontal connection part (53) composed of the above horizontal connection shafts (531).

The above horizontal connecting shaft (531) is connected to and fastened with the above vertical guide shafts (51).

The above horizontal connecting shaft (531) is made of metal and connects the vertical guide shafts (51) to each other by screwing or welding, thereby improving the supporting and fixing force of the vertical guide shafts (51) and the filter tank body (30).

In addition, the horizontal connecting shaft (531) is attached to the outer surface of the filter tank body (30) to prevent the filter tank body (30) from being deformed.

In the above filter tank body (30), a floating matter discharge groove (60) is further formed to discharge sewage and floating matter that overflows to the upper side.

When sewage is continuously introduced into the above-mentioned filtration tank body (30), floating matter or foreign substances floating on the surface of the sewage are discharged to the outside through the floating matter discharge groove (60) by the overblow method, thereby making a separate collection process unnecessary.

The above filter tank body (30) is further provided with a moving rotating crushing and stirring means (70) to ensure that the chemical solution is evenly distributed in the sewage and to crush floating matter.

The above-mentioned mobile rotary crushing and stirring means (70) comprises a guide bracket unit (71) attached and fixed to the inner surface of the filtration tank body (30), a transfer cylinder (72) whose one end is screw-fastened and fixed to the guide bracket unit (71) fastened to the filtration tank body (30), a guide pipe member (73) fitted and fixed to the drive shaft of the transfer cylinder (72) fastened to the guide bracket unit (71), transfer shafts (74) whose one end is screw-fastened and fixed to the guide pipe fastened to the drive shaft of the transfer cylinder (72), a transfer agitation panel (75) which is screw-fastened and fixed to the other end of the transfer shaft (74) fastened to the transfer cylinder (72) and is moved by the drive of the transfer cylinder (72), and a transfer agitation panel (75) fastened to the transfer shaft (74) member. It is composed of the formed transport crushing holes (76), the operating crushing motor (77) which is fixed by screwing to the upper part of the transport agitating panel (75) which is fixed to the member of the transport shaft (74), the hollow operating rotary pipe (78) which is fixed by screwing to the rotation shaft of the operating crushing motor (77) which is fixed to the transport agitating panel (75) and which is rotated by the driving of the operating crushing motor (77), and the operating crushing holes (79) which are formed in the operating rotary pipe (78) which is fixed to the operating crushing motor (77), so that the floating masses contained in the sewage are crushed by colliding with the transport agitating panel (75) which is being transported and the rotating operating rotary pipe (78), and are crushed in the process of penetrating or being caught in the transport crushing holes (76) and the operating crushing holes (79).

That is, as the transport agitating panel (75) is transported by the driving of the transport cylinder (72), floating matters contained in the sewage are collided with and crushed, and the floating matters are crushed by penetrating or being caught in the transport crushing hole (76), and the filled sewage is stirred or moved by the transport agitating panel (75) that is raised and lowered, so that the chemical solution injected into the filtration tank body (30) is uniformly distributed in the filled sewage, thereby increasing the purification and filtration efficiency, and preventing the discharge pipe (32) from being blocked by floating matters that are clumped together.

In addition, floating matter collides with the operating rotary pipe (78) that is rotated by the driving of the operating crushing motor (77), and the floating matter penetrates or gets caught in the operating crushing hole (79) and is crushed, and at the same time, the sewage is moved while swirling by the rotating operating rotary pipe (78), so that the chemical solution injected into the filter tank body (30) is uniformly distributed in the filled sewage, thereby increasing the purification and filtration efficiency, and preventing the discharge pipe (32) from being clogged by the floating matter that has clumped together.

It is preferable to further screw-fasten a vibrator-type shredding vibrator to the bottom surface of the above-mentioned transport agitating panel (75), so that the vibration of the shredding vibrator is transmitted to the above-mentioned transport agitating panel (75) and the operating rotary pipe (78) connected to the transport agitating panel (75), thereby increasing the efficiency of crushing floating materials by vibration and reducing the time and cost for maintenance by removing foreign substances stuck to the outer surface of the transport agitating panel (75) and the operating rotary pipe (78).

It is preferable to further attach and fix one end of a crushing rotation impact pin made of synthetic resin material to the outer surface of the above-mentioned operating rotary pipe (78), so that the crushing rotation impact pin rotates together with the above-mentioned operating rotary pipe (78) and collides with floating objects, thereby increasing the crushing efficiency.

The above-mentioned filtration tank body (30) is further provided with a reinforcing support means, and the reinforcing support means is preferably composed of a base support panel made of a synthetic resin material or a metal material that is attached and fixed to the inner bottom surface of the above-mentioned filtration tank body (30), a base guide post whose lower end is fixed by screwing to the upper surface of the above-mentioned base support panel, and horizontal guide shafts whose one end is connected and fixed to the above-mentioned base guide post and whose other end is attached or fixed by screwing to the inner surface of the above-mentioned filtration tank body (30), thereby preventing the side wall of the above-mentioned filtration tank body (30) from moving outward or bending due to water pressure and improving the supporting and fixing force.

Although the present invention has been described in detail so far, it should be made clear that the embodiments mentioned in the process are merely exemplary and not limiting, and the present invention is within the scope of the technical idea or field of the present invention provided by the following claims, and changes in components that can be equally dealt with fall within the scope of the present invention.

10: Filtration device
20: Base support
30: Filtration tank body
31: Inlet pipe
32: Exhaust pipe
40: Inner reinforcing support
41: Fixed support frame member
42: Main support shaft
43: Connecting support shaft
50: Exterior wall guide reinforcement
51: Vertical guide shaft
52: Upper fixed frame member
53: Horizontal connection
531: Horizontal connecting shaft
60: Floating debris discharge groove
70: Mobile rotary crushing and stirring means
71: Guide bracket unit
72: Transfer cylinder
73: Guide tube member
74: Transfer shaft
75: Transfer mixing panel
76: Transport shredding
77: Operating shredding motor
78: Operating rotary tube
79: Operational crusher

Claims (5)

A filtering device (10) that receives sewage and filters it,
Base support (20);
A filtration tank body (30) having a structure in which an inlet pipe (31) is formed to allow sewage to flow in and a discharge pipe (32) is provided to discharge filtered sewage, a filtration space is formed inside, and a floating matter discharge groove (60) is formed to discharge sewage and floating matter that overflows to the upper side;
An inner reinforcing support member (40) provided inside the above filter tank body (30);
An outer wall guide reinforcement part (50) provided on the above base support part (20) and having a structure that supports the filter tank body (30); and
A moving rotating crushing and stirring means (70) installed inside the above-mentioned filter tank body (30) and having a structure that operates to uniformly distribute the chemical solution in the sewage and crush floating matter;
Including,
The above inner reinforcing support member (40) is
A fixed support frame member (41) formed on the inner bottom edge of the above filter tank body (30);
A main support shaft (42) formed while maintaining a certain interval on the above fixed support frame member (41); and
A plurality of connecting support shafts (43) interconnecting a plurality of main support shafts (42) formed on the above fixed support frame member (41);
Including,
The above outer wall guide reinforcement part (50) is
A plurality of vertical guide shafts (51) that are fixed by connecting the above base support member (20) and the upper fixing frame member (52) to each other;
An upper fixing frame member (52) having a structure that surrounds the upper edge of the above-mentioned filter tank body (30) and is connected to the upper end of the vertical guide shaft (51); and
A horizontal connecting part (53) including a plurality of horizontal connecting shafts (531) that extend horizontally along the outer surface of the filter tank body (30) by a predetermined length to support the outer surface of the filter tank body (30) and interconnect a plurality of vertical guide shafts (51);
Including,
The above moving rotary crushing and stirring means (70) is
A guide bracket unit (71) connected and fixed to the inner surface of the above filter tank body (30);
A transfer cylinder (72) whose end is connected and fixed to a guide bracket unit (71) fastened to the above-mentioned filter tank body (30);
A guide tube member (73) that is fitted and fixed to the drive shaft of the transfer cylinder (72) connected to the above guide bracket unit (71);
A plurality of transfer shafts (74) having one end connected and fixed to a guide pipe connected to the drive shaft of the above transfer cylinder (72);
A transfer mixing panel (75) which is connected and fixed to the other end of a transfer shaft (74) connected to the transfer cylinder (72) and has a structure that drives horizontally and reciprocally by driving the transfer cylinder (72), and has a structure that drives horizontally and reciprocally and crushes lump-shaped floating matter contained in sewage;
A plurality of transport crushing holes (76) are formed on the transport mixing panel (75) connected to the above transport shaft (74) and have a structure that crushes floating objects in the form of lumps contained in sewage by penetrating or trapping them;
An operating crushing motor (77) connected and fixed to the upper part of the transport stirring panel (75) connected to the above transport shaft (74),
An operating rotary pipe (78) having a hollow structure that is fixed at one end to the rotation shaft of an operating crushing motor (77) attached to the above-mentioned transfer mixing panel (75), rotates by the driving of the operating crushing motor (77), and has a structure that rotates and crushes floating objects in the form of lumps contained in sewage;
An operating crushing hole (79) having a structure that is formed in large numbers in an operating rotary pipe (78) connected to the above operating crushing motor (77) and crushes floating objects in the form of lumps contained in sewage by penetrating or trapping them;
A filter device having an internal deformation and distortion prevention structure characterized by including:
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