KR102527493B1 - Horizontal filtration filter device - Google Patents

Abstract

The present invention relates to a horizontal filtration filter device. The horizontal filtration filter device of the present invention comprises: a horizontal outer cylinder (10); an inner cylinder (20) installed in a horizontal hollow form inside the outer cylinder (10); a screen (30) installed vertically on one side of the inner cylinder (20); a filtration filter (40) installed in a horizontal hollow form inside the screen (30) of the inner cylinder (20); an inflow pipe (11) installed on one side of the outer cylinder (10) to allow treated water to flow between the outer cylinder (10) and the inner cylinder (20); an inlet hole (21) cut on one side of the inner cylinder (20) to allow treated water flowing between the outer cylinder (10) and the inner cylinder (20) to flow into the inner cylinder (20); an inflow space (22) formed on one side of the screen (30) of the inner cylinder (20) to allow treated water flowing in through the inlet hole (21) to flow in; a communication hole (31) formed by cutting the middle of the screen (30) in a circular shape to allow treated water flowing into the inlet space (22) to flow into the inside of the filtration filter (40); and a filtered water discharge pipe (23) installed between the inner cylinder (20) and the filtration filter (40) to discharge the filtrated water filtered through the filtration filter (40) to the outside. Accordingly, the treated water introduced through the inflow pipe (11) flows into the inflow space (22) through the inlet hole (21), then flows into the inside of the filtration filter (40) through the communication hole (31), and is then filtered. The filtered water is discharged through the filtered water discharge pipe (23). Therefore, the height of the filtration filter device can be lowered and the filtration area can be expanded.

Description

Horizontal filtration filter device {Horizontal filtration filter device}

The present invention relates to a horizontal filtering filter device.

The applicant of the present invention has proposed a "double filtration automatic backwash filter system" through Registered Patent No. 10-1753728 (hereinafter referred to as 'conventional').

However, the conventional filtration filter device is vertical, and in the case of a large capacity, the height occupied in the room is high, so it is difficult to install the device and difficult to maintain.

For reference, the prior art documents below list four recent prior art documents searched for as a keyword "filtration filter" through Patent Information Net Keyprise. and background technology and its development status.

Registration/publication numbers: 1023943330000, 1020751120000, 1017537280000, 1016571390000.

The present invention has been developed to solve the conventional problems mentioned in the background art, and in particular, it is an object of the present invention to solve the problem by lowering the height of the filter device as well as widening the filtration area.

The present invention as a means for solving the problem, a horizontal outer tube; An inner cylinder installed in a horizontal hollow shape inside the outer cylinder; A shield installed vertically on one side of the inner cylinder; A filtration filter installed in a horizontal hollow form inside the shield of the inner cylinder; An inlet pipe installed on one side of the outer cylinder to allow the treated water to flow between the outer cylinder and the inner cylinder; An inlet hole that is cut at one side of the inner cylinder to allow treated water flowing between the outer cylinder and the inner cylinder to flow into the inner cylinder; an inlet space formed on one side of the shielding membrane of the inner cylinder to allow the treated water to flow in through the inlet hole; a communication hole in which the middle of the screen is circularly cut so that the treated water flowing into the inlet space flows into the filter; It consists of a; filtered water discharge pipe installed between the inner tube and the filter to discharge the filtered water filtered through the filter to the outside. Suggests a means for allowing filtered water to be introduced into the inside of the filter through the filter, filtered, and then discharged through the filtered water discharge pipe.

According to the means of the present invention, since the outer cylinder, the inner cylinder, and the filter are made of a horizontal type, the height of the filter device is low compared to the prior art, so that the installation and maintenance of the device are easy, and the filtration area is widened to increase the amount of filtration. has an enhancing effect.

1 is a transparent perspective view of the present invention
Figure 2 is a perspective view in which a part of Figure 1 is cut away
Figure 3 is a cross-sectional view of Figure 1
Figure 4 is a side cross-sectional view taken horizontally with respect to the middle of Figure 3
Figure 5 is a side cross-sectional view taken horizontally based on the filtered water discharge pipe of Figure 3
6 is a perspective view taken from the backwash nozzle connection part of FIG. 1
Figure 7 is another transparent perspective view of Figure 1
Figure 8 is a cross-sectional view of Figure 7
Figure 9 is a side cross-sectional view taken horizontally with respect to the middle of Figure 7;
Figure 10 is a side cross-sectional view taken horizontally based on the filtered water discharge pipe of Figure 7
11 is a perspective view taken from the backwash nozzle connection part of FIG. 7

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings may be exaggerated, omitted, or schematically illustrated for convenience of description of essential parts, and the terms and names used in the description are implicitly defined by the shape, action, role, etc. of the configuration rather than the dictionary meaning. The description of the direction is determined based on the direction first presented from the initially presented drawing, and the description of the position is determined based on the middle of each configuration or the center of the circle. In addition, detailed descriptions of pre-registered known technologies and conventional technologies may obscure the gist, so they are omitted or replaced with simple codes or names. In addition, the specific structure, shape, shape, arrangement, size, etc. of the configuration that can be identified through the drawings, the operation of the configuration that can be inferred through the drawings, and the resulting action and effect may obscure the gist, so detailed descriptions will be omitted. Bolts, welds, holes, etc. applied for coupling between components can obscure the point and can be omitted from the drawing, unless the shape of the component is specifically specified, the shape of the plane is circular or rectangular, , in this case, the plan view can be omitted.

below, Figure 1 pay Figure 6 The present invention will be described with reference to the following.

As shown, the present invention includes a horizontal outer cylinder 10; An inner cylinder 20 installed in a horizontal hollow shape inside the outer cylinder 10; A shielding film 30 installed vertically on one side of the inner cylinder 20; A filter 40 installed in a horizontal hollow shape inside the shield 30 of the inner cylinder 20; An injection pipe 11 installed on one side of the outer cylinder 10 to allow the treated water to flow between the outer cylinder 10 and the inner cylinder 20; An inlet hole 21 cut at one side of the inner cylinder 20 to allow the treated water flowing between the outer cylinder 10 and the inner cylinder 20 to flow into the inner cylinder 20; An inlet space 22 formed on one side of the shield 30 of the inner cylinder 20 to allow the treated water to flow in through the inlet hole 21; a communication hole 31 in which the middle of the shielding film 30 is circularly cut so that the treated water flowing into the inlet space 22 is introduced into the filter 40; A filtered water discharge pipe 23 installed between the inner cylinder 20 and the filter 40 to discharge the filtered water filtered through the filter 40 to the outside; includes,

In the above configuration, the treated water introduced through the inlet pipe 11 flows into the inlet space 22 along the inlet hole 21, and then flows into the filter 40 through the communication hole 31 and is filtered. Next, the filtered water may be discharged through the filtered water discharge pipe 23.

In this way, as described in the effect of the invention, since the outer cylinder 10, the inner cylinder 20, and the filter 40 are made of a horizontal type, the height of the filter 40 device is lower than in the prior art, so the installation and maintenance of the device is low. There is an effect of easy maintenance, and there is an effect of improving the filtration amount by widening the filtration area.

In addition, in the present invention, as shown in FIG. 3, the shielding film 30 is installed on both sides of the middle of the inner cylinder 20, the filter filter 40 is installed inside the shielding film 30 on both sides, and the inlet hole (21) is formed in the middle of the inner cylinder 20 from the middle of the screens 30 on both sides, and the inlet space 22 is formed between the screens 30 on both sides from the inside of the inlet hole 21. there is.

In this way, the treated water introduced through the inlet pipe 11 is dispersed from the inlet space 22 in the middle of the inner cylinder 20 to the communication holes 31 of the shields 30 on both sides to filter the treated water in a dual form.

In this case, since dual filtering can be performed using one device, there is an effect of remarkably increasing the throughput of treated water.

On the other hand, although not shown, the three-way type triple filtering may be performed by installing the above-described outer cylinder 10, inner cylinder 20, and filter 40 on the opposite side of the inlet pipe 11 in the same manner as described above. If not, it may be configured to perform internal cleaning and repair by forming an inspection window.

In addition, in the present invention, as shown in FIGS. 3 and 4, the injection pipe 11 is installed horizontally on one side of the middle of the outer cylinder 10, and the end of the injection pipe 11 is in close contact with the inner cylinder 20. While only the lower part is opened, the inlet hole 21 is formed in the middle upper part of the inner cylinder 20, and the sediment discharge pipe 50 installed at the lower part of one side of the outer cylinder 10; may be included.

In this way, the treated water introduced through the inlet pipe 11 is introduced into the inlet hole 21 while rotating in a horizontal cyclone form through the space between the outer cylinder 10 and the inner cylinder 20, and rotates in a cyclone form. Foreign matter having a high specific gravity is precipitated to the lower portion and may be discharged to the outside through the sediment discharge pipe 50.

In this way, since contaminants having a high specific gravity can be preemptively selected, there is an effect of preventing the filter 40 from being caught or clogged by contaminants having a high specific gravity.

In addition, as shown in FIGS. 3, 5 and 6, the present invention is installed horizontally at the inner center of the filter 40, a suction space is formed therein, and the inlet is the main wall of the filter 40 a backwash nozzle 60 formed elongated along the length of the main wall to be close to, having an outlet formed on one side of the inside, and having an inlet rotated along the main wall of the filter 40 by a motor M; A filtrate discharge pipe 70 connected to the outside from the outlet of the backwash nozzle 60; may be included.

In this way, while the inlet of the backwash nozzle 60 rotates along the circumferential wall of the filter 40, the filtrate caught in the circumferential wall of the filter 40 is sucked in and discharged to the outside through the filtrate discharge pipe 70. can

In this way, since the filtrate caught in the filter 40 can be cleaned, there is an effect of preventing the filter 40 from being caught or clogged by the filtrate, thereby improving the filtering ability of the filter 40. has the effect of

As shown in the figure, the backwash nozzle 60 is formed as a hood-shaped body with an empty inside, and is installed at the end of the drive shaft M1 of the motor M installed on the side of the outer cylinder 10 and the end of the filtrate discharge pipe 70. It is installed to be idling between the rotation units 71 and rotates according to the driving of the motor M, and sucks and discharges the filtrate caught in the filter 40 by the differential pressure caused by the opening of the filtrate discharge pipe 70. can

below, Figure 7 pay Figure 10 The present invention will be described with reference to the following.

As shown, in the present invention, the filter 40 is installed in a dial-shaped multi-basket type concentrically from the center of the inner cylinder 20 inside the screen 30, and the communication hole 31 is the screen ( 30) may be formed to communicate with the inside of each filter 40.

In this way, the treated water injected through the multi-basket type inlet pipe 11 can be filtered from the inlet space 22 through each communication hole 31 through each filter 40.

That is, FIG. 1 is a single basket type filter 40, and FIG. 7 is a multi-basket type filter.

In this case, while the number of filtering filters 40 increases in the same area, the filtration area becomes narrower, so there is an effect of further improving the filtration capacity compared to FIG. It has a suitable effect.

In addition, as shown in the figure, when the present invention is configured in a multi-basket type, the inlet from the center of the inlet space 22 of the inner cylinder 20 is concentric along the communication hole 31 of each screen 30 A multi-basket type backwash nozzle 61 that is bent to rotate and installed horizontally, has an outlet on the other side, and has an inlet rotated by a motor M; A filtrate discharge pipe 70 connected to the outside from the outlet of the multi-basket type backwash nozzle 61; may be included.

In this way, the multi-basket type backwash nozzle 61 rotates concentrically along the inlet hole 21 of each filter filter 40 at the inlet from the center of the inlet space 22 to the inside of each filter filter 40. The trapped filtrate may be sucked in and discharged to the outside through the filtrate discharge pipe 70.

In this case, since the filtrate caught in each filter 40 can be cleaned like the above-described single basket-type filter chuck, there is an effect of preventing each filter 40 from being caught and clogged by the filtrate. Due to this, there is an effect of improving the reverse performance of the filtration filter 40.

As shown, the multi-basket type backwash nozzle 61 is formed of an elbow-shaped body with an empty inside, and the drive shaft M1 of the motor M installed on the side of the outer cylinder 10 is the shield 30 ) is extended to the inner inlet space 22 and is coupled to one end of the backwash nozzle 60, and the other side of the backwash nozzle 60 can be idling between the rotary unit 71 at the end of the filtrate discharge pipe 70 It is installed to rotate according to the driving of the motor M, and can suction and discharge the filtrate caught in the filter 40 by the differential pressure caused by the opening of the filtrate discharge pipe 70.

This concludes the description of the present invention, and the present invention draws the configuration of the present invention and specific components included in the configuration to help the understanding of the principle of the configuration to be pursued in the present invention and the principle, and the drawings It has been described based on, and the configuration and specific components included in the present invention are determined in structure, form, shape, arrangement, direction, and quantity in consideration of the principle to be pursued, and can be variously changed as needed. There will be. The configuration and specific components thereof presented in the present invention exemplify the effect that a person skilled in the art would like to obtain from the present invention and which principle is most preferable to apply in order to obtain a better effect from the effect. it did Accordingly, the present invention is most preferably completed by including all of the above-described configurations, but it can be completed by selecting or excluding some of the above-described configurations according to cost reduction, manufacturing convenience, environmental conditions, or needs However, one or part of the components may be taken apart and merged with other components to be completed. In addition, each configuration described above may be independently applied to other technical fields other than this technical field in consideration of principles, uses, functions, roles, actions, and effects. Based on this, the scope of the rights of the present invention is specified in the range of covering the claims of the present invention as follows, and claims are made in order from the claims having broad rights. It seems that the subject matter to be pursued in the present invention can be sufficiently grasped through the specific details and the claims to be described below, and the operational effects of the parts that are shown but not described will be sufficiently inferred through the drawings. Therefore, a person skilled in the art will be able to apply various modifications and changes in this technical field based on the contents mentioned in the present invention, thereby further increasing the efficiency of use as well as the development of this technical field.

Claims (6)

a horizontal outer cylinder (10); An inner cylinder 20 installed in a horizontal hollow shape inside the outer cylinder 10; A shielding film 30 installed vertically on one side of the inner cylinder 20; A filter 40 installed in a horizontal hollow shape inside the shield 30 of the inner cylinder 20; An injection pipe 11 installed on one side of the outer cylinder 10 to allow the treated water to flow between the outer cylinder 10 and the inner cylinder 20; An inlet hole 21 cut at one side of the inner cylinder 20 to allow the treated water flowing between the outer cylinder 10 and the inner cylinder 20 to flow into the inner cylinder 20; An inlet space 22 formed on one side of the shield 30 of the inner cylinder 20 to allow the treated water to flow in through the inlet hole 21; A communication hole 31 in which the middle of the shielding film 30 is circularly cut to allow the treated water introduced into the inlet space 22 to flow into the filter 40; A filtered water discharge pipe 23 installed between the inner cylinder 20 and the filter 40 to discharge the filtered water filtered through the filter 40 to the outside; The treated water flows into the inlet space 22 along the inlet hole 21, flows into the inside of the filter 40 through the communication hole 31, is filtered, and then the filtered water is discharged through the filtered water discharge pipe 23. including one,
The shielding film 30 is installed on both sides of the middle of the inner cylinder 20, the filter 40 is installed inside the shielding film 30 on both sides, and the inlet hole 21 is installed from the middle of the shielding film 30 on both sides It is formed in the middle of the inner cylinder 20, and the inlet space 22 is formed between the shields 30 on both sides from the inside of the inlet hole 21, so that the treated water introduced through the inlet pipe 11 is passed through the inner cylinder 20 ) Distributed from the inlet space 22 in the middle to the communication holes 31 of the screens 30 on both sides to filter the treated water in a dual form;
The inlet pipe 11 is installed horizontally on one side of the middle of the outer cylinder 10, and the end of the inlet pipe 11 is in close contact with the inner cylinder 20 and is only open downward, and the inlet hole 21 is the inner cylinder ( 20) formed in the middle upper part and installed at the lower part of one side of the outer cylinder 10; ) is introduced into the inlet hole 21 while rotating in the form of a horizontal cyclone through the space between the cyclones, and foreign matter having a high specific gravity when rotating in the form of a cyclone is precipitated to the bottom and discharged to the outside through the sediment discharge pipe 50 thing;
It is installed horizontally at the inner center of the filter 40, has a suction space formed therein, has an inlet formed elongated along the length of the main wall so as to be close to the main wall of the filter 40, and has an outlet on one side of the inside. A backwash nozzle 60 having an inlet rotated along the circumferential wall of the filter 40 by a motor M; and a filtrate discharge pipe 70 connected to the outside from the outlet of the backwash nozzle 60, and the inlet of the backwash nozzle 60 rotates along the circumferential wall of the filter 40 to keep the filter 40 ) To suck in the filtrate caught in the main wall of the filtrate and discharge it to the outside through the filtrate discharge pipe 70; characterized in that it comprises a horizontal filtering filter device.
The method of claim 1,
The filtration filter 40 is installed in a dial-shaped multi-basket type concentrically from the center of the inner cylinder 20 inside the screen 30, and the communication hole 31 is each filter filter from the screen 30 ( 40), the multi-basket type is such that the treated water injected through the inlet pipe 11 is filtered from the inlet space 22 through each communication hole 31 through each filter 40 including doing
The inlet from the center of the inlet space 22 of the inner cylinder 20 is refracted to rotate concentrically along the communication hole 31 of each screen 30 and installed horizontally, and the outlet is formed on the other side, and the motor (M ) Multi-basket type backwash nozzle 61 whose inlet is rotated by; and a filtrate discharge pipe 70 connected from the outlet of the multi-basket type back-wash nozzle 61 to the outside, and the multi-basket type back-wash nozzle 61 has an inlet from the center of the inlet space 22. Rotating concentrically along the inlet hole 21 of each filter 40 to suck in the filtrate caught inside each filter 40 and discharge it to the outside through the filtrate discharge pipe 70 Characterized by a horizontal filtering filter device. delete delete delete delete

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