KR100898122B1 - Vertical multistage link type pore control fiber filter - Google Patents

Abstract

The present invention is a plurality of unit fiber filter is formed in the filter tank is formed in the filter medium for the pore control to filter the raw water in the filter tank to drain to the bottom of the strainer when entering the strainer through the fiber filter; The bottom of the strainer of each upper unit fiber filter and the top of the filtration tank of each lower unit fiber filter are connected to each other and stacked vertically; Forming a raw water inlet for introducing external raw water into the filtration tank of the uppermost unit fiber filter; The bottom of the strainer of the lowest unit fiber filter communicates with the filtered water discharge pipe to drain the filtered water to the external water tank; The pore control fibrous media of each of the unit fiber filters stacked is vertically penetrated through the center of each unit fiber filter and fixedly coupled to the upper fiber media hanger of each unit fiber filter, and is lifted or lifted by an actuator formed on the upper side of the unit fiber filter. The air gap is integrally controlled by the rotating air gap control rod; An air chamber for supplying backwashing air is formed between the vertical connections of each unit fiber filter; An integrated vertical multistage fiber filter, characterized in that the connection pipe of a multi-unit fiber filter is removed.

Textile filter, textile filter, backwash, reverse displacement

Description

Integrated Vertical Multistage Fiber Filter {Vertical Multistage Link Type Pore Control Fiber Filter}

The present invention is a plurality of unit fiber filter is formed in the filter tank is formed in the filter medium for the pore control to filter the raw water in the filter tank to drain to the bottom of the strainer when entering the strainer through the fiber filter; The bottom of the strainer of each upper unit fiber filter and the top of the filtration tank of each lower unit fiber filter are connected to each other and stacked vertically; Forming a raw water inlet for introducing external raw water into the filtration tank of the uppermost unit fiber filter; The bottom of the strainer of the lowest unit fiber filter communicates with the filtered water discharge pipe to drain the filtered water to the external water tank; The pore control fibrous media of each of the unit fiber filters stacked is vertically penetrated through the center of each unit fiber filter and fixedly coupled to the upper fiber media hanger of each unit fiber filter, and is lifted or lifted by an actuator formed on the upper side of the unit fiber filter. The air gap is integrally controlled by the rotating air gap control rod; An air chamber for supplying backwashing air is formed between the vertical connections of each unit fiber filter; An integrated vertical multistage fiber filter, characterized in that the connection pipe of a multi-unit fiber filter is removed.

In general, the fiber filter is provided with a strainer in the filter tank, and the upper side of the strainer is formed freely rotating or freely lifting the upper fiber filter hanger, and the lower side of the strainer is usually fixed lower fiber filter hanger is formed, the upper and lower fiber filter hanger Filtration is a filter that is widely known to form a filtrating layer is fixed while wrapping around the strainer.

These filters are used in parallel to increase the filtration capacity or in series to improve the filtration water quality.

However, in the case of using a plurality of filters, pipes are required to be connected to each unit filter, and each pipe must be formed at a specific location for each filter structure, and thus, the cost for the piping equipment and the pipe installation space are necessary.

This is a representative cause of the increase in the equipment cost required to install a plurality of filters, and complicated piping may cause great difficulty in management.

An object of the present invention is to provide an integrated vertical multi-stage fiber filter which saves pipe installation space and reduces pipe installation costs by eliminating the need for piping equipment when connecting a plurality of fiber filters in series.

In order to achieve the above object, the present invention provides a plurality of unit fiber filter to form a pore control fibrous filter centering the strainer inside the filter tank to drain to the bottom of the strainer when the raw water flows into the strainer through the fiber filter; The bottom of the strainer of each upper unit fiber filter and the top of the filtration tank of each lower unit fiber filter are connected to each other and stacked vertically; Forming a raw water inlet for introducing external raw water into the filtration tank of the uppermost unit fiber filter; The bottom of the strainer of the lowest unit fiber filter communicates with the filtered water discharge pipe to drain the filtered water to the external water tank; The pore control fibrous media of each of the unit fiber filters stacked is vertically penetrated through the center of each unit fiber filter and fixedly coupled to the upper fiber media hanger of each unit fiber filter, and is lifted or lifted by an actuator formed on the upper side of the unit fiber filter. The air gap is integrally controlled by the rotating air gap control rod; An air chamber for supplying backwashing air is formed between the vertical connections of each unit fiber filter; The integrated vertical multi-stage fiber filter is characterized in that the connecting pipe of the multi-unit fiber filter is removed.

Wherein the air chamber is a chamber formed in the upper plate is formed as a lower fiber filter base plate, the lower plate is formed as a blocking plate, an integrated vertical multi-stage fiber filter, characterized in that the back air supply pipe for supplying the back air is opened by the control valve at the time of back washing It is preferable to become.

In addition, the air chamber is the lowest unit of the fiber filter only the upper plate is formed as a lower fiber filter stool, the lower plate is a chamber formed as a blocking plate, is connected by a back-air supply pipe for supplying the back-air is opened by a back-control valve, The air chamber of the remaining unit fiber filter is a chamber in which an upper plate is formed as a lower fiber filter stool and a lower plate is formed as a blocking plate. The blocking plate is formed with a through hole communicating with the lower unit fiber filter, and a lower portion of the lower hole is formed at the lower side of the air filter. A stopper is formed toward the blocking plate toward the blocking plate, and a cup stopper having an air hole formed therein is formed, and an upper side of the through hole is connected by the cup stopper and a bar, and a rubber film is formed to block the hole downwardly. The reverse stop which is formed with the upper stopper is combined to open the through hole only during backwashing. It is preferred to be an integrated vertical multistage fiber filter.

And the fibrous media holder is a plate in which a plurality of fibrous media binding holes are formed; The upper part is composed of a bar-shaped pin made of pipe, the upper end is formed in the stopper for stopping through, the lower end is fixed to the fibrous media hanger by a lower fixing band that prevents escape after penetration, and extends from the upper side of the fiber media bundle The fiber hook is formed by the hook is formed by the filtrate of the filtrate is fixed, the fixing of the filtrate of the island filter media guides the backwashing air to the center of the fibrous media fixed by the through hole of the fiber hook It is preferable to be an integral vertical multistage fibrous filtration.

In addition, the fiber hook is coupled to the bottom fiber media hanger is particularly long because the length of the rod portion extending to the bottom so that the air layer is formed at the bottom of the bottom fiber media hanger when backwashing, characterized in that to guide the uniform injection of air It is preferred to be a vertical multistage fiber filter.

The pore control rod is formed of a unit pore control rod having a unit length protruding from the strainer bottom of the unit fiber filter and the top of the filter tank, thereby assembling each unit pore control rod when assembling the unit fiber filter, thereby total stacking length. It is preferred to be an integrated vertical multistage fiber filter, characterized in that to form a void control rod of.

Advantageous Effects The present invention provides an integrated vertical multi-stage fiber filter that saves piping installation space and reduces piping installation costs.

Hereinafter, the present invention will be described with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known technology or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. will be.

* The following terms are terms defined in consideration of functions in the present invention and may vary depending on the intention or custom of the user or operator, and the definitions should be made based on the contents throughout the specification for describing the present invention. .

1 is a cross-sectional structure diagram of the present invention, FIG. 2 is a cross-sectional flow diagram of the present invention, FIG. 3 is a cross-sectional structure diagram of still another embodiment of the present invention, and FIG. 4 is a reverse displacement used in the air chamber of the present invention. 5 is a cross-sectional view of the fiber hook used in the fiber media hanger of the present invention.

The present invention is devised to provide a method of using a plurality of pore control fiber filter, such as the prior application 10-2007-0129743, largely divided into a pore-regulating fiber filter 20, filtration tank 10, strainer (30) The unit is composed of a fiber filter and a raw water inlet pipe 11, the filtrate discharge pipe 12, the actuator 80, the air gap control rod 40 and the air chamber 70.

The unit fiber filter used in the present invention is installed in the strainer 30 in the filter tank 10, the upper side of the strainer 30, the upper fiber media hanger 55 free rotation or free lifting is formed and the strainer 30 The lower side of the fibrous filter media (50) is usually fixed to the lower side, the fibrous media of the upper and lower ends of the fibrous media (20) is wrapped around the strainer (30) is fixed to form a filter layer is representative of the pore control filter It is widely known.

An actuator 80 for rotating or pulling the upper fibrous media hanger 55 is connected to the upper fibrous media hanger 55 so that the fibrous media 20 is squeezed during filtration and the pore is made small and loose during backwashing. .

The present invention is a device that allows the use of a plurality of such fibrous filters, which is to remove the complicated piping equipment required in the conventional use of a plurality of.

To this end, the present invention is laminated to the fiber filter unit as a unit.

The unit fiber filter is formed in the center of the filtration tank 10 and the filtration tank 10, as shown in Figure 1, the lower end of the strainer 30, which is open to the outside of the filtration tank 10, free rotation or freely on the top of the strainer 30 The upper fibrous media hanger 55 and the lower fibrous media hanger 50 fixed to the lower end of the strainer 30 formed to be elevated, the upper and lower ends are coupled to the upper and lower fiber media hanger to form an outer layer on the outer periphery of the strainer 30. It consists of a fibrous filter 20.

The vertical stacking of the unit fiber filter is made by communicating the bottom of the strainer 30 of each upper unit fiber filter and the top of the filtration tank 10 of each lower unit fiber filter as shown in FIG.

As described above, as illustrated in FIG. 2, a flow path of water is formed in the order of the upper strainer, the lower strainer, and the lower strainer in the upper filtration tank, and overlapping filtration is performed by the number of stacked unit fiber filters.

That is, if three unit fiber filters are stacked as shown in the drawing, the raw water introduced into the raw water inlet can produce filtered water having the best water quality due to three overlapping filtrations.

According to this laminated structure, raw water is introduced into the raw water inlet pipe 11 in the uppermost unit fiber filter and discharged through the filtered water discharge pipe 12 from the lower unit fiber filter through the lower unit fiber filter.

Therefore, the raw water inlet for communicating with the raw water inlet pipe 11 is formed in the filtration tank 10 of the uppermost unit fiber filter of the present invention, and the lower portion of the strainer 30 of the lowest unit fiber filter communicates with the filtrate discharge pipe 12 to filter the filtered water. Drain into an external tank.

Since the laminated structure of the present invention assumes that filtration and backwashing are simultaneously performed in each unit fiber filter, the air gap of the fiber filter 20 of each unit fiber filter should be integrally controlled.

To this end, the pore control fiber filter 20 of each unit fiber filter, the upper fiber filter hanger 55 is coupled to the pore control rod 40 vertically penetrating the center of each unit fiber filter, the pore control rod 40 is connected to the actuator 80 formed on the upper side of the top fiber filter unit to transfer the lifting or rotational movement of the actuator 80 to the upper fiber filter hanger (55).

Therefore, the present invention adjusts the filtration pores of the fibrous media 20 that are compressed or relaxed to each strainer 30 by rotating or lifting the upper fibrous media hanger 55 integrally by the driving of the actuator 80. .

In order to adjust the gap, the lower fiber media hanger 50 should be fixed.

Each unit fiber filter of the present invention is formed with an air chamber 70 for supplying the backwash air between each connection.

The air chamber 70 may be configured as an independent air chamber configured to be independent of the filtration tank 10 or a communication type air chamber communicating with the filtration tank.

In the case of the independent air chamber, as shown in FIG. 3, the space of the filter tank 10 of each unit fiber filter is completely separated by the blocking plate 60 at the lower side of the lower fiber filter hanger 50, and each air chamber ( The backwash air supply pipe 71 which is opened by the control valve at the time of backwashing and supplies the backwashing air to 70 is independently connected to each other.

In the case of the independent air chamber, backwashing air may be injected into the backwashing air supply pipe during backwashing.

In the case of the communication type air chamber, as shown in FIG. 1, only the lowest unit fiber filter unit is formed in the same manner as the independent air chamber, and the upper plate is formed of the lower fibrous media hanger 50, and the lower plate is formed of the blocking plate 60. In the case of backwashing, the backwashing air supply pipe is opened by the control valve and supplies the backwashing air.

The air chamber 70 of each unit fiber filter of the remaining upper portion is formed with a lower fibrous media hanger 50, the lower plate is a blocking plate 60 formed with a through hole provided with a reverse side 6 as shown in FIG. Is done.

That is, the blocking plate 60 of the communication type air chamber is formed with a through-hole communicating with the lower unit fiber filter, each through-hole is provided with a check valve (6) that is open only during backwashing.

As shown in FIG. 4, the reverse finger 6 includes a cup stopper 61 formed below the blocking plate 60 and an upper stopper 62 formed above the blocking plate 60.

The cup stopper 61 has a cup-like shape that is open from the lower side of the through hole toward the lower end thereof, and a protruding stopper 64 is formed toward the blocking plate 60 side.

The top stopper 62 is connected by the cup-shaped stopper 61 and the bar 63 at an upper side of the through hole, and a rubber membrane 65 is formed to block the through hole.

In the reverse direction 6 formed in this structure, when air is injected into the back-air supply pipe 71 of the lowest unit fiber filter, the air raised from the lower unit fiber filter is collected in the cup-type stopper 61 and the cup-type stopper. Injury

At this time, although some air escapes to the air through-hole 66 formed in the cup-shaped stopper 61, since much more air rises from the bottom, the cup-shaped stopper 61 forms an air pocket to form the cup-shaped stopper. Allow 61 to rise, and the floating distance of the cup stopper 61 is limited by the protruding stopper 64.

As a result, the cup stopper 61 forms an air passage by being attached to the blocking plate 60 while the injured distance is limited by the protruding stopper 64, thereby raising the unit fiber filter of the lower end. Allow air to be guided through the unit fiber filter at the top.

When the air supply from the lower part is stopped due to the backwashing, the air that forms the air pocket inside the cup stopper 61 is gradually released by the air vent 66, and the cup stopper 61 goes out of its own weight. The upper stopper 62 is closed to block the through hole, and is further pressed down by the filtration pressure of the continuous filtration to seal the through hole with the rubber membrane 65 formed at the upper stopper 62.

Each fibrous media hanger 50 of the present invention is composed of a plate formed with a plurality of fibrous media coupling holes.

Each fibrous media engagement hole is fitted with a fibrous hook 5 for fastening the fibrous media 20.

The fiber hook (5) is composed of a rod-like pin as a whole so that the air passage is formed inside the body as shown in FIG.

The fiber hook (5) is coupled to the fibrous media joining hole formed while overlapping the plurality of fibrous media hanger 50 to form a circle, by the body made of the tubular like a circle overlapping the circle to the straw It is the same shape as plugged in.

In order to fix the fiber hook 5 to the fiber media hanger, the upper end of the fiber hanger 5 is formed with a stopper 52 for through blocking, and a lower fixing band 53 for preventing escape after penetrating at the lower end thereof. Combined.

As a result, the fibrous hook 5 is fixed to the fibrous media hanger, and an upper portion of the top of the fibrous hook 5 is formed with a ring 51 on which the filtrate fixing strap 22 extending from the fibrous media 20 is caught. It is done.

As shown in FIG. 5, the end portion of the ring 51 is tapered toward the inside so that the insertion of the medium fixing strap 22 is easy and the escape is difficult.

By fixing the media fixing strap 22 of the fibrous media 20 by this configuration, when backwash air rises during backwash, backwashing air is guided through the fiber hook 5 so that the combined fiber media 20 Backwashing air is guided to the center of the) so that the fibrous media 20 is backwashed effectively.

On the other hand, the fiber hook (5) is coupled to the lower fiber media hanger is particularly long length of the rod portion extending to the lower back when the back of the lower fibrous media hanger as the protruding length of the rod portion as the air pocket (air pocket) It is formed to guide the even injection of air to the entire fiber hook (5).

On the other hand, in the present invention, the pore control rod 40 is formed of a unit pore control rod having a unit length protruding from the lower end of the strainer 30 and the upper end of the filter tank of each unit fiber filter, the assembly time of each unit fiber filter By assembling the unit pore control rod, the pore control rod 40 of the entire stacking length is formed.

The present invention is characterized in that the assembly is easily made by forming the pore control rod unit gap control rod is also formed in the longest length when lamination in this way.

Embodiments shown for the purpose of the present invention described above are only one embodiment in which the present invention is embodied, and as shown in the drawings, it can be seen that various forms of combinations are possible to realize the gist of the present invention.

Therefore, the present invention is not limited to the above-described embodiments, and various changes can be made by any person having ordinary skill in the art without departing from the gist of the present invention as claimed in the following claims. It will be said that the technical spirit of this invention is to the extent possible.

1 is a cross-sectional structural view of the present invention

Figure 2 is a cross-sectional flow diagram of the present invention

Figure 3 is a cross-sectional structural view of yet another embodiment of the present invention

Figure 4 is a reverse side cross-sectional view used in the air chamber of the present invention

5 is a cross-sectional view of the fiber hook used in the fiber media hanger of the present invention

* Explanation of symbols on main parts of drawings *

5: fiber hook 6: reverse side

10: filtration tank 11: raw water inlet pipe

12: Filtrate discharge pipe 20: Fibrous media

22: media fixing strap

30: strainer 40: void control rod

50: bottom fiber filter hanger 51: hook

52: stopper for through penetration 53: lower fixing band

55: upper fiber filter rack 60: blocking plate

61: cup stopper 62: top stopper

63: bar 64: projection stopper

65: rubber membrane 66: air through

70: air chamber 80: actuator

Claims (6)

A strainer is installed inside the filtration tank, and an upper fibrous media hanger is formed on the upper side of the strainer to freely rotate or freely rise, and a fixed lower fibrous media hanger is formed on the lower side of the strainer. A fiber filter filter is formed while forming a filter layer, a plurality of unit fiber filter for draining the raw water in the filtration tank to the bottom of the strainer when flowing through the fiber filter to the strainer; The bottom of the strainer of each upper unit fiber filter and the top of the filtration tank of each lower unit fiber filter are connected to each other and stacked vertically; Forming a raw water inlet for introducing external raw water into the filtration tank of the uppermost unit fiber filter; The bottom of the strainer of the lowest unit fiber filter communicates with the filtered water discharge pipe to drain the filtered water to the external water tank; The fiber filter of each of the unit fiber filters stacked is vertically penetrated through the center of each unit fiber filter and is fixedly coupled to the upper fiber filter hanger of each unit fiber filter, and is lifted or rotated by an actuator formed on the upper side of the unit fiber filter. The voids are regulated integrally by the void adjusting rods; An air chamber for supplying backwashing air is formed between the vertical connections of each unit fiber filter; An integrated vertical multistage fiber filter, characterized in that the connecting pipe of the multi-unit fiber filter is removed. The method of claim 1 wherein the air chamber is The upper plate is formed as a lower fiber filter stool and the lower plate is a chamber formed with a blocking plate, an integrated vertical multi-stage fiber filter, characterized in that the backing air supply pipe for supplying the backwashing air is opened by the control valve during backwashing. The method of claim 1 wherein the air chamber is Only the lowest unit fiber filter top plate is formed as a lower fiber filter stool, and the lower plate is a chamber formed with a blocking plate, which is opened by a control valve at the time of back washing, and is connected with a back-air supply pipe for supplying back air. The air chamber of the remaining unit fiber filter The upper plate is formed as a lower fibrous media hanger and the lower plate is formed as a blocking plate. The blocking plate is formed with a through hole communicating with the lower unit fiber filter, and the lower side of the through hole is opened toward the lower side and toward the blocking plate. A reverse stopper having a protrusion stopper is formed and a cup stopper having an air hole formed therein and connected to the cup stopper with a bar at an upper side thereof and a top stopper formed with a rubber film blocking the hole downwardly around the hole. An integrated vertical multistage fiber filter, characterized in that coupled to open the through-hole only during backwashing. According to claim 1 or claim 2 or claim 3 wherein the upper fibrous media hanger and the lower fibrous media hanger A plate in which a plurality of fiber media joining holes are formed, wherein the fiber media joining holes are formed; The upper part is composed of a bar-shaped pin made of pipe, the upper end is formed in the stopper for stopping through, the lower end is fixed to the fibrous media hanger by a lower fixing band that prevents escape after penetration, and extends from the upper side of the fiber media bundle The fiber hook is formed by hooking the media straps, Fixing the filtrate filter media of the filtrate is an integrated vertical multi-stage fiber filter, characterized in that to guide the backwash air to the center of the fibrous media fixed by the through hole of the fiber hook. The fiber hook of claim 4 Coupled to the bottom fiber filter stool is a one-piece vertical multi-stage fiber filter characterized in that the length of the rod extending to the bottom so that the air layer is formed at the bottom of the bottom fiber filter stool to guide the even injection of air during backwash. delete

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