KR101589452B1 - Water purifier - Google Patents

Abstract

A water purifier in the present invention comprises: a housing; a sludge separator including a separation part separating water and sludge, a water discharge pipe guiding water separated from the sludge in the separation part, and a sludge discharge pipe guiding the sludge in the separation part with water; a water purifying part formed inside the housing, and purifying the water discharged from the sludge separator with a filter; a water drain part formed inside the housing, and draining water moved from the water purifying part through a drain; and a sludge basket filtering the sludge discharged from the sludge discharge pipe, and allowing the water to pass through, wherein the sludge basket is formed inside the housing to be taken out of the housing to enable a user to easily manage the water purifier by periodically emptying the sludge basket.

Description

Water purifier

The present invention relates to a water purification apparatus, and more particularly, to a water purification apparatus that separates water from sludge and purifies the water.

The water purification plant is connected to facilities using water such as swimming pools such as swimming pools and landscaping buildings such as artificial waterfalls and the sludge or leaves (hereinafter referred to as "sludge") contained in the water of the facility And the sludge can be filtered back to the facilities by purifying the filtered sludge.

The water treatment plant can be installed near the facility where sludge treatment is desired. The water treatment plant can be installed to be buried underground, or it can be installed inside the building.

The water purification device may include a sludge separation mechanism for separating sludge contained in the water, and a purification unit for purifying the separated water from the sludge.

The sludge separated from the sludge separation mechanism may be accumulated on the inner bottom of the water purification apparatus. In this case, the sludge accumulated on the inner bottom of the water purification apparatus should be cleaned by the operator or facility manager There is an inconvenience.

An object of the present invention is to provide a water purification apparatus which is capable of efficient purification and is easy to treat sludge separated from water.

The present invention relates to a semiconductor device comprising: a housing; A sludge separator for separating water and sludge; a sludge separator having a water outlet pipe through which water separated from the sludge is guided in the separating section; and a sludge outlet pipe through which the sludge of the separating section is guided together with water; A sludge separator disposed in the housing, the sludge separator comprising: A drain disposed in the housing for draining water flowing from the purified water portion to a drain port; And a sludge basket which is disposed inside the housing so as to be drawn out to the outside of the housing and through which sludge drained from the sludge discharge pipe is filtered and water is passed through.

The sludge discharge pipe may extend from the separating part to the drainage part through the upper side of the purified water part.

And a basket supporter disposed inside the drainage portion and supporting the sludge basket.

The basket supporter may be disposed inside the drainage unit so as to be higher than a bottom surface of the drainage unit and each of the drainage ports. .

The basket supporters may be spaced apart from each other, and each of the pair of basket supporters may have a guide surface on which the sludge basket is slidably guided.

And a flow control valve provided in the sludge discharge pipe.

Wherein the separator comprises a first pipe connected to a water inlet pipe through which water and sludge are received and connected to the sludge outlet pipe, a second pipe surrounding a part of the outer circumference of the first pipe, A water hole can be formed in the upper portion of the inner tube portion located inside the inner tube portion and the second tube.

The sludge separator may further include a flow guide arranged to be spirally arranged along an inner wall of the first pipe to induce a spiral swirling flow.

The sludge separator may further include an oxygen dissolution module connected to the water outlet pipe and discharging oxygen by dissolving oxygen in the water exiting the water outlet pipe.

And a drainage section bulkhead located between the integer section and the drainage section, the water of the purified water section riding over the drainage section

The upper end of the drainage compartment wall may have a height facing the outer surface of the sludge basket.

And an integer partition wall spaced apart from the drain partition wall. The filter medium may be located between the drain partition wall and the integer partition wall.

A filter partition wall spaced apart from the water portion partition wall; And a filter disposed between the integer partition wall and the filter partition wall.

The water treatment device includes a sterilizing lamp; The filtering apparatus may further include an inner partition wall partitioning the purified water partition wall and the drain partition wall into a filter medium space in which the filter medium is located and a sterilizing lamp space in which the sterilizing lamp is located, The partition wall and the partition wall may be spaced apart from each other.

The water purifier includes an air blower; An air distributor disposed inside the purified water portion and having a through hole through which the air passes; And an air supply line connecting the air blower and the air distributor.

Wherein the water purifier has a drain valve installed to allow the water of the air distributor to flow to the drainage unit; And a drain valve operating portion for operating the drain valve. .

The water pipe may include an injection unit located above the water purification unit and having a plurality of injection holes for injecting water into the water purification unit.

According to the present invention, the sludge stacked on the sludge basket can be treated by drawing the sludge basket to the outside of the housing, and the sludge processing operation is easier than the case where the manager enters the inside of the water purification apparatus and treats the sludge.

In addition, since the sludge basket can be disposed inside the drainage part and drawn out to the outside, there is an advantage that the space utilization can be made higher than when the sludge basket is located outside the drainage part.

Further, there is an advantage that the sludge basket can be stably supported in the drainage portion, and the sludge in the sludge basket can be prevented from overflowing again outside the sludge basket by the water in the drainage portion.

Further, the sludge basket is slidably guided to the basket supporter, the sludge basket can be easily moved to a position where the sludge basket does not interfere with the water outlet pipe, and the sludge basket can be easily drawn out.

In addition, the amount of filtration by the filter medium can be adjusted by opening the flow control valve, so that the water purification ability can be easily controlled.

In addition, there is an advantage that the spiral-swirling water can push out the sludge blocking the water hole to minimize clogging of the sludge by the water sludge.

In addition, since the water having the dissolved oxygen amount increased by the oxygen dissolving module is introduced into the filter medium, there is an advantage that the water purification ability by the filter medium can be further improved.

In addition, since the water primarily purified by the filter is secondarily purified by the filter medium, there is an advantage that the water purification performance can be improved.

In addition, there is an advantage that oxygen in the air directly supplied through the through holes of the air distributor is supplied to the filter medium to maximize filtration performance.

In addition, the water in the purified water portion can be drained to the outside through the drain valve, so that there is an advantage that the freezing can be prevented. .

Further, since the water separated from the sludge is injected into the purified water portion through the plurality of spray holes, the whole filter medium in the purified water portion has an advantage that water can be quickly and uniformly purified.

1 is a front view showing the inside of a water purification apparatus according to a first embodiment of the present invention,
2 is a plan view showing the inside of the water purification apparatus according to the first embodiment of the present invention,
3 is a cross-sectional view of the inside of the sludge separator shown in Figs. 1 and 2,
4 is a front view showing the inside of the water purification apparatus according to the second embodiment of the present invention,
5 is a front view showing the interior of the water purification apparatus according to the third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals denote like or similar elements, and redundant description thereof will be omitted.

The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. , ≪ / RTI > equivalents, and alternatives.

FIG. 1 is a front view showing the inside of a water purification apparatus according to the first embodiment of the present invention, FIG. 2 is a plan view showing the inside of the water purification apparatus according to the first embodiment of the present invention, FIG. 3 is a cross- 2 is a sectional view showing the inside of the sludge separator shown in Fig.

This embodiment includes a housing 1; A sludge separator (2) for separating the water (W) and the sludge; (3) for purifying the water (W) separated from the sludge in the sludge separator (2) with the filter material (31); A drainage section (4) for draining the water (W) purified in the purified water section (3) to the drainage port (41); And a sludge basket 5 in which the sludge transferred in the sludge separator 2 is contained.

The water purification device may be connected to a desired facility by an intake line (not shown) and an outflow line (not shown) such as a water pipe, and at least one of the water supply line and the water outflow line may circulate water (W) (Not shown) may be provided.

When the pump is driven, the water W of the facility can be guided to the sludge separator 2 together with the sludge, and the water W of the drainage part 4 flows into the facility through the outflow line .

The housing 1 can form the appearance of the water purification apparatus. A space in which the sludge separator 2, the purified water portion 3, the drainage portion 4, and the sludge basket 5 are disposed may be formed in the housing 1. [

The housing 1 may be installed underground or installed in a building. The housing 1 may be constituted by a case in which the sludge separator 2, the purified water portion 3, the drainage portion 4 and the sludge basket 5 are located. It is also possible that the housing 10 is constructed of a building structure, for example, a concrete structure in which the sludge separator 2, the purified water portion 3, the drainage portion 4 and the sludge basket 5 are located.

The housing 1 may be formed in a shape in which its top surface is opened and front, rear, left, right circumferential surfaces and bottom surfaces are clogged. The housing 1 can be combined with a plurality of members in a box shape whose upper surface is opened.

A part of the upper surface of the housing 1 can be opened for access or service of the sludge basket 5 and another part of the housing 1 can be clogged by the top cover 11. [

A basket entry / exit hole 12 through which the sludge basket 5 passes vertically can be formed, and the basket entry / exit hole 12 can be shielded by the shielding cover 13. It is possible for the shielding cover 13 to be hinged or slidably connected to at least one of the top cover 11 and the housing 1. [ It should be understood that the shielding cover 13 may be configured to be detachable from at least one of the top cover 11 and the housing 1.

The sludge separator 2 includes a separator 21 for separating the water W and sludge, a water pipe 22 for guiding the water W separated from the sludge in the separator 21, ) Of the sludge can be guided together with the water (W).

The separating part 21 includes a first pipe 25 connected to the water inlet pipe 24 through which the water W and the sludge are received and connected to the sludge discharge pipe 23, And a second tube (26) surrounding it.

The first tube 25 may be arranged to penetrate the second tube 26. The first pipe 25 may include an inner pipe portion 25A located inside the second pipe 26 and the inner pipe portion 25A may include an inner pipe portion 25A between the inner pipe portion 25A and the second pipe 26, And a water hole 25B for letting out the water W may be formed. The water hole 25B may be formed on the upper portion of the inner tube portion 25A and the water W separated from the sludge in the inner tube portion 25A may be injected upward of the inner tube portion 25A.

The first pipe 25 may include an outer pipe portion 25C located outside the second pipe 26. [ The outer tube portion 25C can connect the inner tube portion 25A and the sludge outlet tube 23 with each other. The outer tubular portion 25C may be disposed orthogonally to the sludge outlet pipe 23. [ At least one of the first pipe (25) and the sludge discharge pipe (23) may include a bending portion.

The sludge in the facility can be introduced into the first pipe 25 together with the water W and the water W is injected to the outside of the inner pipe portion 25A through the water hole 25B, It can pass through the inner tube portion 25A without passing through the inner tube portion 25B.

Some of the water W flowing into the first pipe 25 may be injected into the inner pipe portion 25A and the second pipe 26 through the water hole 25B.

The remainder of the water W flowing into the first pipe 25 may flow into the sludge discharge pipe 23 together with the sludge.

For example, 50% of the water W flowing into the first pipe 25 passes through the inner pipe portion 25A and is discharged to the inner pipe portion 25A and the second pipe 26 through the water hole 25B And the remaining 50% can flow into the sludge outlet pipe 23 together with the sludge.

The sludge separator 2 may further include a flow guide 27 arranged in a helical manner along the inner wall of the first pipe 25 to induce a spiral swirling flow.

When the flow guide 27 is not disposed on the inner wall of the first pipe 25, a straight water flow flowing in the longitudinal direction of the first pipe 25 may be mainly formed in the first pipe 25, A portion of the first tube 25 can be kept attached to the inner wall of the first tube 25 while blocking the water hole 25B.

On the other hand, when the flow guide 27 is disposed on the inner wall of the first pipe 25, the water W can be guided into the circulating flow in the first pipe 25 while being guided by the flow guide 27, The water W circulating in the first pipe 25 may strike the water hole 25B and the sludge attached to the water hole 25B so that the sludge does not block the water hole 25B.

That is, the flow path guide 27 can be minimized by the sludge blocking the water hole 25B of the first pipe 25. The flow path guide 27 may be elongated in the longitudinal direction of the first pipe 25 and may be formed longer than the inner pipe portion 25A located inside the second pipe 26 of the first pipe 25 have.

The water outlet pipe 22 may be arranged such that one end thereof is connected to the separating portion 21 and the other end drops the water W into the housing 1. [ The water outlet pipe 22 may be connected to the second pipe 26 of the separating unit 21. [ The water W exiting to the water hole 25B of the first pipe 25 can be introduced into the water pipe 22 through the first pipe 25 and the second pipe 26, 22 to the inside of the housing 1. [0035]

The housing (1) may be provided with a water receiving portion (8) for receiving the water (W) dropped from the water outlet pipe (22). The water receiving portion 8 may have a space S1 formed between the one side wall 1A of the housing 1 and a purified water partition wall 33 described later. The water receiving portion 8 may be formed by a part of the housing 1 and the water portion partition wall 33. [

The water W dropped from the water outlet pipe 22 to the water receiving portion 8 may gradually clog from the lower portion of the water receiving portion 8. The water receiving portion 8 may be formed separately from the water purification portion 3 and the drainage portion 4. [ The water receiving portion 8 can be arranged adjacent to the integer portion 3 so that the water W of the water receiving portion 8 can flow into the water purification portion 3. [

The water receiving portion 6 may be formed so that the upper surface thereof is opened. The sludge separator 2 can be installed at a position above the water receiving portion 8 so as to be spaced apart from the bottom of the water receiving portion 8 and the water W dropped from the sludge separator 2 passes through the water receiving portion 8 And flows to the water purification part 3 located at the periphery thereof.

The sludge discharge pipe 23 is a tube for guiding the sludge to the inside of the sludge basket 5, and the position thereof may be different depending on the position of the sludge basket 5. When the sludge basket 5 is located inside the drainage section 4, the sludge discharge pipe 23 can extend from the separation section 21 to the drainage section 4 via the upper side of the purified water section 3.

On the other hand, the water purification device may further include a flow rate control valve 28 provided in the sludge discharge pipe 23. The flow regulating valve 28 may be constituted by a solenoid valve and may be constituted by a butterfly valve. The manager can adjust the opening degree of the flow control valve 28 by operating the operating portion 29 connected to the flow control valve 28. [

The purified water portion 3 is provided inside the housing 1 so that the water W discharged from the sludge separator 2 can be purified by the filter material 31.

The water purification unit 3 may include an integral partition wall 33 spaced apart from a drainage partition wall 43 described later. The purified water portion 3 may have a space in which the filter medium 31 can be received between the purified water partition wall 33 and the drainage partition wall 43. The purified water portion 3 may be formed by a part of the lower plate 1C of the housing 1 and the purified water partition wall 33 and the drainage partition wall 43. [

The filter medium 31 may be located between the drainage partition wall 43 and the purified water partition wall 33. The filter medium 31 may be a member mixed with components capable of enhancing the water purification effect of the water W. The filter medium 31 may be formed in an annular shape. The filter medium 31 may be a silver nano biofilter in which yellow soil, sawdust, silver, copper, and biological components are mixed. The water W may be absorbed by the filter medium 31 and purified by biological filtration.

The water portion barrier rib 33 may be formed over the water portion W so that the water W outside the water portion 3 flows into the inside of the water portion 3.

The water purification device may include a filter partition wall 34 spaced apart from the purified water partition wall 33. The water purification device may include a filter 35 disposed between the purified water partition wall 33 and the filter partition wall 34.

The lower end of the filter partition wall 34 can be spaced apart from the lower plate 1C of the housing 1 and the water of the water receiving portion 8 is formed between the lower end of the filter partition wall 34 and the lower plate 1C of the housing 1. [ W can flow toward the integer part 3 can be formed. The height of the filter partition wall 34 from the lower plate 1C of the housing 1 to the upper end of the filter partition wall 34 is higher than the height from the lower plate 1C of the housing 1 to the upper end of the purified water partition wall 33.

The filter 35 can purify water gradually flowing between the purified water partition wall 33 and the filter partition wall 34. [

The water W of the water receiving portion 8 may gradually become clogged between the filter partition wall 34 and the purified water partition wall 33. At this time, the water W passing through the filter 35 is primarily purified by the filter 35 . The water W can be overflowed on the purified water partition wall 33 while gradually rising up the water W. Such water W falls down into the filter medium 31 inside the purified water portion 3 and is secondarily purified by the filter medium 31 .

The water drainage part 4 may be formed in the housing 1 so that the water W flowing in the purified water part 3 is drained to the drainage port 41. The drain port (41) can be formed at the lower portion of the housing (1). The drain port 41 may be formed inside the drain pipe formed to protrude outward from the lower portion of the housing 1. [

The water purification unit may further include a drainage partition wall 43 positioned between the water purification unit 3 and the drainage unit 4 and having the water W of the purified water unit 3 riding over the drainage unit. The upper end of the drainage compartment wall 43 may have a height facing the outer surface of the sludge basket 5.

The drainage section 4 is a space in which the water W can pass between the other side wall 1B of the housing 1 and the drainage compartment wall 43 and in which the sludge basket 5 can be moved S2 may be formed. The drainage section 4 may be formed by the housing 1 and the drainage partition wall 43. The drainage section 4 may have an open top surface.

The water treatment device comprises a sterilizing lamp (45); A space between the purified water partition wall 33 and the drainage partition wall 43 is partitioned into a filter medium space S3 in which the filter medium 31 is located and a sterilizing lamp space S4 in which the sterilizing lamp 45 is located. (44).

The germicidal lamp 45 may be a UV germicidal lamp. A plurality of sterilizing lamps 45 may be disposed apart from the sterilizing lamp space S4.

The inner partition wall 44 may be spaced apart from the purified water partition wall 33 and the drain partition wall 43 between the purified water partition wall 33 and the drain partition wall 43. The lower end of the inner partition wall 44 can be spaced apart from the lower plate 1C of the housing 1 and water purified by the filter material 31 is introduced between the inner partition wall 44 and the lower plate 1C of the housing 1. [ A gap G1 that can flow toward the drainage partition wall 43 can be formed. The height of the inner partition wall 44 from the lower plate 1C of the housing 1 to the upper end of the inner partition wall 44 may be higher than the height from the lower plate 1C of the housing 1 to the upper end of the drainage partition wall 43 have.

The water purified by the filter medium 31 gradually flows between the inner partition wall 44 and the drainage partition wall 43 and passes through the flow path between the inner partition wall 44 and the drainage partition wall 43, (45). ≪ / RTI >

The sludge discharged from the sludge outlet pipe (23) is filtered by the sludge basket (5), and the water (W) can pass through the sludge basket (5). The sludge basket (5) can be disposed inside the housing (1) so as to be drawn out from the housing (1). It is preferable that the sludge basket 5 is located inside the drainage section 4 higher than the bottom surface of the drainage section 4 and the drainage port 41, respectively.

The sludge basket 5 may be formed in a box shape whose upper surface is opened, and a water hole through which the water W can pass may be formed on each of the front plate, the back plate, the left plate, and the right plate.

The water treatment plant may further include a basket supporter 9 for supporting the sludge basket 5. The basket supporter 9 can be disposed inside the drainage section 4. [ The sludge basket 5 can be lifted up to the basket supporter 9 and can receive the sludge dropped from the water outlet pipe 23 in this state. The basket supporter 9 can be disposed inside the drainage section 4 higher than the bottom surface of the drainage section 4 and the drainage port 41, respectively.

The sludge basket (5) is preferably arranged movably inside the housing (1). The sludge basket 5 may be arranged to be movable to a first position for receiving sludge from the sludge outlet pipe 23 and a second position for discharging the sludge basket 5 to the outside of the purification apparatus. The first position P1 may be the position where the sludge basket 5 is below the outlet end of the sludge outlet pipe 23 and the second position P2 may be the position where the sludge outlet 5 It can be a position that does not interfere with the tube 23.

The basket supporter 9 can be arranged in the horizontal direction in the drainage section 4. When the housing 1 is formed long in the left-right direction, the basket supporter 9 may be formed long in the front-rear direction. A pair of basket supporters 9 may be provided inside the drainage section 4 and a pair of basket supporters 9 may be disposed apart from the drainage section 4. [

 The pair of basket supporters 9 may be spaced from each other in a direction perpendicular to the longitudinal direction thereof. The pair of basket supporters 9 may be spaced apart by a width smaller than the width of the lower end of the sludge basket 5. The sludge basket 5 can be placed in a first position on the pair of basket supporters 9 to receive sludge and slide to a second position on the pair of basket supporters 9, State.

Each of the pair of basket supporters 9 may have a guiding surface through which the sludge basket 4 is slideably guided and the sludge basket 4 may be slid along the guiding surface to be located in the first position or in the second position .

The water purification apparatus 6 includes an air blower 61; An air distributor (63) disposed at an inner lower portion of the purified water portion (3) and having a through hole (62) through which air flows; And an air supply line 64 connecting the air blower 61 and the air distributor 63 to each other.

The air bladder 61 can be installed on the control panel 65 of the water purification apparatus and can be driven and stopped by operation of an operation unit provided on the control panel 65. [

The air distributor 63 may include a porous plate having a through hole 62 formed therein. The upper plate of the perforated plate may be disposed so as to be spaced apart from the bottom plate of the housing 1. The air introduced into the lower side of the perforated plate passes through the perforation 62 of the perforated plate and is supplied to the upper end of the perforated plate 31 . The perforated plate may be located in the inner lower portion of the purified water portion 3, and the filter material 31 may be filled on the upper side of the porous plate.

The water treatment device may further include a drain mechanism 7 for discharging the water W of the air distributor 63 to the drainage section 4. [ The drain mechanism 7 includes a drain valve 71 installed to allow the water W of the air distributor 63 to flow to the drainage section 4; And a drain valve operating portion 72 for operating the drain valve 71. [ The water distributor 63 can receive the water W dropped under the filter medium 31 after being acted on by the filter media 31. The drain mechanism 7 discharges the water W to the water distributor 63, The water W can be moved to the drainage section 4. [

Hereinafter, the operation of the present invention will be described.

First, the water W of the facility can be introduced into the sludge separator 2 through the inlet pipe 24 together with the sludge.

The water W and the sludge introduced into the sludge separator 2 can flow through the first pipe 24 and are guided by the flow guide 27 in the first pipe 24 to be spirally orbiting .

The water W spirally circulating inside the first pipe 24 can be discharged through the water hole 24B of the inner pipe portion 24A between the first pipe 24 and the second pipe 25 At this time, the sludge does not pass through the hand hole 24B and can flow into the sludge outlet pipe 23 together with the remaining water that can not be discharged to the water hole 24B in the inner tube portion 24A.

Water which has not been discharged to the water hole 24B from the inside of the inner pipe portion 24A flows along with the sludge along the sludge outlet pipe 23 and is guided to the sludge outlet pipe 23 and falls into the sludge basket 5 .

The water W falling down into the sludge basket 5 passes through the sludge basket 5 and falls down to the bottom of the drainage section 4. The sludge dropped into the sludge basket 5 flows into the sludge basket 5 It does not fall to the floor of the drainage section 4 remaining.

The water W dropped from the sludge basket 5 to the bottom of the drainage section 4 can flow to the outflow line outside the housing 1 through the drainage port 41 and can be returned to the facility have.

On the other hand, the water W exiting through the water hole 24B in the inner tube portion 24A can be introduced into the water outlet pipe 22 from the inside of the second pipe 24, As shown in FIG. The water W dropped from the water outlet pipe 22 may gradually clog from the lower portion of the water receiving portion 8. [

The water W of the water receiving portion 8 may pass through the lower side of the filter partition wall 34 and gradually become clogged between the filter partition wall 34 and the purified water partition wall 33. At this time, Lt; / RTI > The water W that has been primarily purified by the filter 35 can fall over the integer partition 3 over the integer partition wall 33. [

The water W dropped into the purified water portion 3 can be secondarily purified by the filter portion 32 between the purified water portion partition wall 33 and the inner partition wall 44 and the water W W may pass through the lower side of the inner partition wall 44 and gradually become clogged between the inner partition wall 44 and the drain partition wall 43 and may be sterilized by the sterilizing lamp 45 at this time. The water W sterilized by the germicidal lamp 45 can fall over the drainage partition wall 33 and into the drainage section 4. [

The water W dropped into the drainage part 4 can be dropped to the bottom of the drainage part 4 and can flow to the drainage port 41 together with the water W dropped from the sludge basket 5, It can be returned to the facility through the water line.

That is, the water W separated from the sludge in the sludge separator 2 can be sequentially purified by the filter 35, the filter medium 31, and the sterilizing lamp 45, and is separated from the sludge in the sludge basket 5 It can be returned to the facility together with the water W.

On the other hand, the air blower 61 can supply air to the air supply line 64, and the air guided to the air supply line 64 passes through the through hole 62 of the porous plate, ). ≪ / RTI > Oxygen is supplied to the filter medium to maximize the biological filtration effect.

The manager can control the opening degree of the flow control valve 28 by operating the water control unit 29 of the water purification apparatus as described above and adjust the opening degree of the water W flowing to the sludge outlet pipe 23 by the flow control valve 28 And the flow rate of the water W to be discharged from the water outlet pipe 22 can be adjusted so that the amount of filtration can be adjusted.

The water purifier can clean the water (W) of the facility with the operation of the manager or the predetermined period, and the sludge can be gradually filled in the sludge basket 5 as the frequency of use increases.

The sludge basket (5) can be moved from the first position to the second position while being lifted up on the basket supporter (9). The manager can lift the sludge basket 5 located at the second position directly or through a separate jig and remove the sludge basket 5 outside the housing 1 to treat the sludge accumulated in the sludge basket 5 .

The manager can mount the sludge basket 5 in the reverse order of withdrawal, and a detailed description thereof will be omitted. The manager can periodically manage the sludge basket 5 in the same manner as described above.

If the water W exists in the inside of the purified water portion 3 in the same manner as in the winter season, the probability of freezing of the purified water portion 3 may be high, and the manager may operate the drain valve control portion 72 to operate the drain valve 71 The water W in the purified water portion 3 can flow through the drain valve 71 to the drain portion 4 and can flow out through the drain hole 41. [

4 is a front view showing the interior of the water purification apparatus according to the second embodiment of the present invention.

In this embodiment, the sludge separator may further include an oxygen dissolution module 30 connected to the water outlet pipe to dissolve oxygen in the water W discharged from the water outlet pipe, and may have other configurations other than the oxygen dissolution module 30, The operation may be the same as or similar to the first embodiment of the present invention, and the same reference numerals are used and a detailed description thereof will be omitted.

The oxygen dissolution module 30 is connected to the outlet end of the water outlet pipe 22 so that the oxygen concentration of the water W flowing in the water outlet pipe 22 can be increased. The oxygen dissolution module 30 can drop water W having improved oxygen concentration into the interior of the housing 1. [ The oxygen dissolution module 30 may be an oxygen supplier for forcibly injecting oxygen into the water W passed through the water outlet pipe 22.

The oxygen dissolution module 30 includes a module body 30A into which an outlet end of the water outlet pipe 22 is inserted and an outlet pipe 30 whose upper end is located inside the module body 30A and whose lower end is located outside the module body 30A. Lt; RTI ID = 0.0 > 30B. ≪ / RTI > The outlet pipe 30B may be spaced apart from the outlet end of the water pipe 22 and the oxygen in the air inside the module body 30A may be discharged through the outlet end of the water pipe 22 to the inside of the module body 30A And water W dissolved with oxygen may flow into the interior of the outlet pipe 30B through the upper end of the outlet pipe 30B.

The water W having increased oxygen concentration while passing through the oxygen dissolution module 30 can be dropped into the lower portion of the inside of the housing 1 through the lower end of the outlet pipe 30B of the oxygen dissolution module 30. [ The oxygen dissolution module 30 can be installed to drop the water W to the water receiving portion 8.

The water W separated from the sludge in the separating section 21 can be dropped to the water receiving section 8 through the oxygen dissolving module 30 and the water W after the water receiving section 8 can be dropped, The flow and thus the water purification action are the same as in the first embodiment of the present invention, and a detailed description thereof will be omitted.

As described above, the water W passing through the oxygen dissolution module 30 and having an increased amount of dissolved oxygen can be permeated into the filter medium 31 in the purified water portion 3 to increase the biological filtering ability of the filter medium 31.

5 is a front view showing the inside of the water purification apparatus according to the third embodiment of the present invention.

The present embodiment is characterized in that the water outlet pipe 22 may include a jetting section 22A located above the water purification section 3 and the jetting section 22A may comprise a plurality of And other configurations and actions of the water outlet pipe 22 may be the same as or similar to those of the first or second embodiment of the present invention. The description is omitted.

The water outlet pipe 22 may further include a connecting portion 22C connecting the jetting portion 22A and the separating portion 21. [ The connection portion 22C may be formed to be bent at least once, and water separated from the sludge in the separation portion 21 may be guided to the spray portion 22A. One end of the connection portion 22C may be connected to the second pipe 26 of the separation portion 21. [

The jetting section 22A may be arranged to cross the upper side of the integer section 3. The jetting section 22A may be disposed horizontally on the upper side of the purified water section 3 or may be arranged to be downwardly sloped in the direction of the drainage section 3. [

The plurality of jet holes 22B may be formed to be spaced apart from each other in the longitudinal direction of the jetting section 22A. The plurality of spray holes 22B can be formed at the lower portion of the spray portion 22A and the water W sprayed from the plurality of spray holes 22B is uniformly sprayed on the filter material 31 of the purified water portion 3, (31). ≪ / RTI >

The present embodiment can be provided separately from the one side wall 1A of the housing 1 and can be provided with the integral partition wall 33 and the one side wall 1A and the drainage partition wall 43 may be filled with the filter medium 31. FIG. That is, in the present embodiment, the one side wall 1A of the housing 1, the lower plate 1C of the housing 1, and the drainage partition wall 43 can constitute the integer part 3.

In this embodiment, the water separated from the sludge in the sludge separator 2 can be dropped onto the filter material 31 without passing through the separate water collecting part 8 like the first embodiment of the present invention, There is an advantage that the size of the water purification apparatus is smaller than that in the example, or a larger amount of the filter medium 31 can be used.

It should be understood that the present invention is not limited to the above-described embodiments, and various modifications are possible within the technical scope of the present invention.

1: housing 2: sludge separator
3: integer part 4: drain part
5: sludge basket 7: drain mechanism
8: Hook section 9: Basket guide
21: separating section 22: water pipe
23: sludge discharge pipe 25: first pipe
25A: inner tube portion 25B:
26: the second pipe 27: the flow guide
31: filter medium 33: purified water partition wall
34: Filter barrier 35: Filter
41: drain hole 43: drain hole partition
44: Inner bulkhead 45: Sterilization lamp

Claims (17)

A housing;
A sludge separator for separating water and sludge, a sludge separator having a water outlet pipe through which water separated from the sludge is guided in the separating section, and a sludge outlet pipe through which the sludge of the separating section is guided together with water;
A sludge separator disposed in the housing, the sludge separator comprising:
A drain disposed in the housing for draining water flowing from the purified water portion to a drain port;
A basket supporter disposed inside the drainage section;
And a sludge basket supported on the basket supporter and supported by the basket supporter, the sludge discharged from the sludge discharge pipe is filtered, water is passed through the sludge discharge pipe, and the sludge basket is lifted up inside the drainage part and drawn out of the housing,
The sludge discharge pipe extends from the separating part to the drainage part through the upper side of the purified water part, guides sludge and water into the sludge basket,
Wherein the basket supporter is disposed inside the drainage unit so as to be higher than a bottom surface of the drainage unit and each of the drainage ports,
The separator includes a first pipe connected to the sludge outlet pipe and connected to the water inlet pipe through which water and sludge are received,
And a second tube surrounding a part of the outer circumference of the first tube,
Wherein the first pipe has a water hole formed at an upper portion of an inner pipe portion located inside the second pipe to allow water to flow out between the inner pipe portion and the second pipe,
Wherein the sludge separator further comprises a flow guide arranged spirally along an inner wall of the first tube to induce a spiral swirling flow. delete delete delete The method according to claim 1,
The basket supporters are arranged so that one pair is spaced apart,
Wherein each of the pair of basket supporters has a guide surface on which the sludge basket is slidably guided. The method according to claim 1,
And a flow control valve provided in the sludge discharge pipe. delete delete The method according to claim 1,
Wherein the sludge separator further comprises an oxygen dissolution module connected to the water outlet pipe to dissolve oxygen in the water exiting the water outlet pipe. The method according to claim 1,
Further comprising a drainage bulkhead located between the integer portion and the drainage portion, the water of the purified water portion riding over the drainage portion. 11. The method of claim 10,
And an upper end of the drainage compartment wall has a height facing the outer surface of the sludge basket. 11. The method of claim 10,
Further comprising an integral partition wall spaced apart from the drainage partition wall,
Wherein the filter medium is located between the drain partition wall and the integer partition wall. 13. The method of claim 12,
A filter partition wall spaced apart from the integral partition wall;
And a filter disposed between the integer portion partition wall and the filter partition wall. 13. The method of claim 12,
The water treatment device includes a sterilizing lamp;
Further comprising an inner partition wall partitioning between the purified water partition wall and the drainage partition wall into a filter medium space in which the filter medium is located and a sterilizing lamp space in which the sterilization lamp is located,
Wherein the inner partition wall is spaced apart from the integer partition wall and the drain partition wall between the integer partition wall and the drain partition wall. The method according to claim 1,
An air blower;
An air distributor disposed below the purified water portion and having a through hole for supplying air to the filter medium;
Further comprising an air supply line connecting the air blower and the air distributor. 16. The method of claim 15,
A drain valve installed to allow water in the air distributor to flow to the drainage section;
Further comprising a drain valve operating portion for operating the drain valve. The method according to claim 1,
Wherein the water outlet pipe includes an injection part positioned above the water purification part,
Wherein the jetting portion is provided with a plurality of jetting holes for jetting water into the inside of the purified water portion.

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