KR100894249B1 - Water clean system - Google Patents

Abstract

The present invention relates to a filtration water purification system, and in particular, an inlet part for mixing water and air taken from the second water tank and the intermediate layer and supplying it to the purified water part, and installed in the first water tank and using water supplied from the inlet part using centrifugal force. Filtration water purification means consisting of a water purification unit for separating and removing foreign matter from the water; It is installed in the second tank and the pumping power of the pump sucks the water in the tank to filter the large particles and small foreign substances while filtering by using microorganisms, and the cooling water passing through the filtration unit to supply to the first tank Filtration cooling means consisting of a cooling unit to; It is possible to increase the water purification efficiency by sucking water from the water surface and the middle layer of the water tank as well as to reduce the size of the overall water tank because it does not require the use of sand and cotton used to filter foreign substances. The present invention relates to a filtration water purification system that is capable of providing a slim tank.

Filtration cooling means, filtration water purification means, water inlet, water purification, filtration, pump, cooling,

Description

Filtration water purification system

1 is a view showing a filtration water purification system of the present invention.

Figure 2 is a view showing an inlet portion of the filtration water purification means applied to the present invention.

Figure 3 is a view showing the operating state of the acquisition unit applied to the present invention.

Figure 4 is a view showing in detail the inner induction pipe of the inlet portion applied to the present invention.

5 is a view showing a water purification unit of the filtration water purification means applied to the present invention.

Figure 6 is a plan sectional view showing the main portion of the purified water applied to the present invention.

7 is a view showing a filtration unit of the filtration cooling means applied to the present invention.

Explanation of symbols for main parts of the drawings

A: acquisition part, B: water purification part,

C: filtration unit, D: pump,

E: cooling section,

1: fish tank, 2: bass,

3: fixed tube, 4: chamber,

5: pump, 6: upper tube,

7: first part, 8: upper inlet,

9: first jaw, 10: internal guide pipe,

11: lower tube, 12: second mouth,

13: lower inlet, 14: second locking jaw,

15: air pipe, 16: valve,

20: case, 21: inlet,

22: central tube, 23: first flow hall,

24: appearance, 25: second flow hole,

26: separator, 27: connection,

28: bubble discharge cap, 30: baffle,

31: porous hole, 32: microbial carrier,

33: reservoir, 34: drainpipe,

35: filter part, 40: case,

43,45: baffles, 44,46: perforated holes,

50: first filter sponge, 51: first filter paper,

52: second filter paper, 53: second filter paper,

The present invention relates to a filtration water purification system, and in particular, it is possible to increase the water purification efficiency by sucking water from the water surface and the middle layer of the water tank, as well as using sand and cotton that have been used to filter foreign substances. The present invention relates to a filtration water purification system that can reduce the overall size of the tank and make the tank slim.

In general, the filtered water purification system is to keep the water in the aquarium clean by filtering the water in the aquarium.

The filtration water purification system is composed of filtration water purification means for removing foreign substances in water and filtration cooling means for cooling the temperature of water.

However, since the conventional filtration water purification system essentially has a structure in which sand and cotton are installed to filter out foreign substances in the water, the water passing through the sand and cotton is cooled and resupplyed to the tank again. There was a problem that the size is increased, for this reason there is a problem that can not use the limited space efficiently because a large place is required for the installation of the water tank, and also the conventional filtration water purification system has a large amount of water on the water surface of the water tank at all times There was a problem that caused the bubbles.

Therefore, the present invention for solving the above problems is a water purification unit consisting of an inlet unit for mixing the water taken from the water surface and the middle layer of the water tank and supplying the purified water to the purified water unit, the purified water unit for separating and removing foreign matter from the water using centrifugal force; ; Filtration cooling means comprising a filtration unit for sucking the water in the tank by the pumping force of the pump to filter out the large foreign matter and small foreign matter and purified water using microorganisms, and the cooling unit for cooling the water passing through the filtration unit to the water tank; It is possible to increase the water purification efficiency by sucking water from the water surface and the middle layer of the water tank as well as to reduce the size of the overall water tank because it does not require the use of sand and cotton used to filter foreign substances. It is an object of the present invention to provide a filtration water purification system that can provide a slim, water tank can be manufactured.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1 to 7.

1 shows the present invention for achieving the above object,

In the filtration water purification system which filters and filters the water in the water tank 1 provided in the multilayered structure so that the water of the 1st water tank 1a may be supplied to the 2nd water tank 1b,

The water inlet part A which supplies the water and air taken from the water surface and the intermediate | middle layer of the 2nd water tank 1b, and supplies it to the water purification part B, and is installed in the 1st water tank 1a, and supplied from the water inlet part A Filtration water purifying means consisting of a water purification unit (B) for separating and removing water from the water using centrifugal force;

Filtration unit (C), the filtration unit (C) installed in the second tank (1b) and sucks the water in the tank by the pumping force of the pump (D) to filter the large foreign matter and small foreign matter while using a microorganism to purify Filtration cooling means consisting of a cooling unit (E) for cooling the water passing through the supply to the first water tank (1a);

Consists of.

The filtration water purifying means sucks the surface water and the intermediate layer water in the second water tank 1b to remove suspended matter (foreign matter) contained in the water from the water tank consisting of the first and second water passages 1a and 1b ( 1) to keep the water in the clean state at all times,

The filtration cooling means filters the foreign matter in the second water tank 1b and then cools the water in the water tanks 1a and 1b to maintain a constant temperature.

2 to 4 show the inlet portion (A) of the filtration water purification means,

Reference numeral 2 represents a base installed at the bottom of the second water tank 1b, and a pump 5 is connected to one side of the base 2.

A chamber 4 is formed at a lower end of the base 2, a fixed tube 3 protrudes upward from the chamber 4, and one side of the chamber 4 is an inlet 5a of the pump 5. ) And the outlet 5b of the pump 5 is connected to the purified water unit B so as to supply the water obtained by the intake unit A to the purified water unit B.

A silver ion generator 17 generating silver nano ions is installed at the bottom of the chamber 4 so that bacteria can be sterilized by silver ions contained in the water supplied to the water purification unit B.

The side portion of the base 2 forms a plurality of supports in the vertical direction so that the inside of the base 2 can be completely immersed in the water of the second bath 1b.

Then, the air pipe 15 is installed to penetrate the center of the fixed tube 3 by using the upper structure 2a of the base 2, and the outlet side of the air pipe 15 is pumped as shown in the figure. It reaches to the inlet (5a) of (5) so that the air can be supplied to the water purification unit (B) with the intake.

At the inlet side of the air pipe 15, a user may adjust the opening amount of the valve 16 by adjusting the opening amount of the valve 16 by installing a valve 16 to adjust the opening amount. .

On the other hand, the upper side of the fixing tube (3) forms an upper tube (6) and the lower tube (11), which can be referred to as the main configuration of the inlet portion (A).

The upper side of the upper tube (6) is connected to the first buckle (7), the lower side of the lower tube (11) is also formed a second secondary hole (12), the lower side of the upper tube (6) and the lower tube ( The upper side of the 11) is connected to each other, the diameter of the lower tube 11 is formed smaller than the upper tube (6).

In addition, the upper and lower pipes 6 and 11 are positioned on the upper part of the fixing pipe 3 connected to the pump 5 through the chamber 4 so that the upper end of the fixing pipe 3 is located inside the lower pipe 11. The lower inlet 13 is formed between the lower tube 11 and the fixed tube 3 while being accommodated, and the upper inlet 8 is formed in the upper opening of the upper tube 6.

In addition, the inner inlet pipe 10 is further formed to guide the water introduced into the upper inlet 8 into the fixed tube 3 inside the upper tube 6 so that the water introduced into the upper inlet 8 is It is supplied to the fixed pipe (3) through the inside and outside of the inner induction pipe (10), by forming a projection (10a) to the upper end of the inner induction pipe (10) outwards and descending force of the water to the projection (10a) Make it hit and offset.

The inner guide pipe 10 is mounted on the rod (10b) in the transverse direction on top of the upper pipe (6), is suspended in the rod (10b) as a wire (10c) is installed.

The acquisition part A comprised in this way has the following effects.

When the upper and lower pipes 6 and 11 are installed inside the second water tank 1b without the pump 5 being operated, the upper and lower pipes 6 and 11 are installed by the buoyancy force of the first and second floats 7 and 12. The tube 6 will remain slightly submerged.

At this time, when the pump 5 is operated, the water in the chamber 4 is sucked by the pumping force and supplied to the water purification unit B installed in the first water tank 1b. In this process, the pumping force is applied to the upper pipe 6. It is trying to be submerged by the action of the descending power of water being sucked by.

That is, the water is introduced through the upper inlet (8) to ride down the inner and outer side of the induction pipe (10) to the fixed pipe (3) side, at this time the water descending on the outside of the inner induction pipe (10) protrusion ( 10a) while the lowering force is transmitted to the upper tube (6) more strongly will be the upper tube (6) is to try to descend.

However, in the present invention, water is also sucked through the lower inlet 13 formed between the lower tube 11 and the fixed tube 3 by the pumping force, so that the upward force of the water flowing through the lower inlet 13 is increased. 10a) while balancing the force of the descending water descending through the upper tube (6) to balance the power so that the upper, lower tube (6) (11) is not submerged in the water as if fixed by something The surface water of the second water tank 1b can be obtained and supplied to the filtration water purification device while maintaining the floating state.

In addition, the present invention can further improve the efficiency of the water purification unit (B) by sucking the water in the intermediate layer through the lower inlet 13 as well as the surface water of the tank.

In addition, since silver ions generated from the silver ion generator 17 installed in the chamber 4 are supplied to the water purification unit B, an additional effect of sterilizing bacteria in the water can be expected.

On the other hand, Figure 5 and Figure 6 shows the water purification portion (B) of the filtration water purification means,

Reference numeral 20 denotes a case forming an external shape of the water purification unit B installed in the first water tank 1a. A water storage tank 33 for storing filtered water is formed at the lower part of the case 20, and the case The upper side of the 20 is connected to the foam discharge cap 28 is connected to the foam discharge cap 28 is discharged in the form of bubbles (foreign matter) separated from the water in the case 20.

The upper side is opened to the outside of the exterior 24 while forming a double structure of the central tube 22 and the exterior 24 of the sealed structure into which the water supplied through the water inlet 21 flows into the case 20. The separation tank 26 in which a plurality of drainage holes 26a are formed is formed at the upper end.

The water inlet 21 is water and air supplied from the water inlet (A) is introduced, it passes through the inside of the reservoir 33 is connected to the lower side of the central pipe (22).

A plurality of first flow holes 23 are formed at an upper end of the central tube 22, and a plurality of second flow holes 25 are formed at a lower end of the exterior 24, wherein the first flow holes ( 23) and the second flow hole 25 is inclined at the opposite angle, and the water discharged through the second flow hole 25 on the lower outer peripheral surface of the outer surface 24 is turned into a strong turning force while the separation tank 26 A plurality of turning wings 29 to guide the inside to form a streamlined.

As the first flow hole 23 is formed at the upper end of the central pipe 22, water and air introduced through the inlet 21 flow through the first flow hole 23 and flow into the exterior 24. After being immediately discharged to the outside through the second flow hole 25 in the lower side of the outer surface 24, thereby causing foreign matter contained in the water is combined with the air bubbles are generated.

In addition, the water flowing into the exterior 24 is discharged into the separation tank 26 through the second flow hole 25 after flowing down, wherein the plurality of second flow holes 25 in one direction Since the water discharged inside the separation tank 26 is raised while turning, foreign matter combined with light air is collected at the center of the separation tank 26, and the water separated foreign matter is separated The tank 26 is overflowed or discharged through a plurality of drainage holes 26a formed on the separation tank 26 to move to the reservoir 33 through the space between the separation tank 26 and the case 20.

The water passing through the second flow hole 25 is raised to the upper part of the separation tank 26 while being strongly rotated in one direction by a plurality of swinging wings 29 formed in a streamline shape on the outer circumferential surface of the exterior 24.

Foam (foreign matter) collected in the central portion of the separation tank 26 is discharged to the bubble discharge cap 28 through the connecting portion 27 to be discharged to the outside, at this time by connecting a separate tube to the bubble discharge cap 28 Allow the bubbles to drain out of the aquarium.

On the other hand, the upper and lower portions of the space between the case 20 and the separation tank 26, the baffles 30 are provided horizontally, respectively, and the plurality of microorganisms in the space portion between the baffles 30 The impurities remaining in the water are once again purified by the microbial carrier 32 when the water in which the foreign matter is removed from the separation tank 26 by the carrier 32 is passed through the microbial carrier 32 to the reservoir 33. Be sure to

In addition, a drain pipe 34 for discharging the filtered water is connected to one end of the reservoir 33, and an opening and closing plate 37 for adjusting the opening amount of the drain hole 34a of the drain pipe 34 is provided. The cap 36 is rotatably coupled to the upper portion of the drain pipe 34, and the glass tube 38 is inserted into the cap 36 so that the water level in the case 20 is displayed through the glass tube 28. In order to be located at the inlet side of the drain pipe 34, the filter unit 35 is finally formed on one side of the reservoir 33 to filter foreign matter.

Opening and closing hole 37a is formed in the opening and closing plate 37 so that the opening and closing hole 37a adjusts the opening amount of the drainage hole 34a as the user rotates the cap 36.

Note that the inlet pipe 21 and the drain pipe 34 described above are made up of independent bodies.

Referring to the operation and effect of the water purification unit (B) configured as described above are as follows.

When water and air supplied through the inlet part A installed in the second water tank 1b by the driving of the pump 5 are introduced through the inlet port 21 and supplied to the central tube 22,

Water and air are supplied to the upper part of the exterior 24 through the plurality of first flow holes 23 formed at the upper end of the central tube 22. In this process, water and air are strongly vortexed, and foreign substances contained in the water are air. It is flowed to the lower side of the exterior 24 in the state collected in.

Water flowed to the lower portion of the exterior 24 flows to the outside through the second flow hole 25, wherein the water discharged through the second flow hole 25 is formed on the outer circumferential surface of the exterior 24. It is guided to the turning blade 29 of the high speed while moving to the upper portion of the separation tank (26).

When the water is swung at a high speed in the separation tank 26, foreign matters that are lighter in weight than water gather in the center of the separation tank 26, causing bubbles, and the foreign water is separated from the separation tank 26 Excess or discharged to the drain hole (26a) is passed through the microbial carrier 32 is stored in the reservoir 33, the water stored in the reservoir 33 is finally filtered through the filter unit 35, the drain pipe ( 34 is discharged to the first water tank 1a.

At this time, the user rotates the cap 36 so that the opening and closing plate 37 partially blocks or opens the drain hole 34a, and the drainage is adjusted, and the water level inside the case 20 is controlled by the cap ( It is displayed through the glass tube 38 which penetrates 36).

On the other hand, foreign matter (bubble) collected in the central portion of the separation tank 26 is collected into the bubble discharge cap 28 through the connecting portion 27 and then discharged to the outside.

On the other hand, Figure 7 shows the filtration unit C of the filtration cooling means of the present invention installed in the second water tank 1b,

Filtration portion (C) of the filtration cooling means,

A first baffle having a case 40 formed at a position where the inlet 41 and the outlet 42 face each other, and having porous holes 44 and 46 formed at the inlet side and the outlet side of the case 40, respectively. 43 and the second baffle 45 are formed in the vertical direction.

The first filter sponge 50, the first filter paper 51, the second filter paper 52, and the second filter sponge 53 are sequentially disposed between the first and second baffles 43 and 45. do.

At this time, the first and second filter sponges (50, 53) is implemented as a sponge having a large particle having a porous hole so that microorganisms can be attached, the large particle foreign matter in the water introduced through the inlet 41 is filtered sponge It is to be filtered by the (50) (53), and also to be able to purify the foreign matter in the water by the microorganism attached to the filter sponge (50) (53).

In addition, the first and second filter papers 51 and 52 are formed by stacking two or more filter papers for filtering foreign matters of fine particles, and water having large particle foreign matters filtered out while passing through the first filter sponge 50. The foreign particles in the inside can be filtered using the first and second filter papers 51 and 52.

In addition, the first filter sponge 50, the first filter paper 51, the second filter paper 52 and the second filter sponge 53 are installed at regular intervals as shown in Figure 7 the case 40 The internal water pressure is kept constant.

Water passing through the filter sponge and the filter paper is discharged through the outlet 42 and supplied to the cooling unit E by the pumping force of the pump D, and the water supplied to the cooling unit E is the cooling unit E Cooled by the internal cooling device is recycled back to the first water tank (1a).

Since the structure of the cooling unit E is made of a conventional cooling cycle, detailed description of the structure is omitted.

Referring to the action and effect of the filtration unit (C),

Water in the second water tank 1b introduced into the inlet 41 by the pumping force of the pump D is supplied to the first filtration sponge 50 through the porous hole 44 of the first baffle 43, Foreign particles in the water supplied to the first filter sponge 50 is filtered by the filter sponge 50, foreign matter in the water passing through the first filter sponge 50 is attached to the first filter sponge (50) Purified by the microorganisms present.

The water passing through the first filter sponge 50 is then passed through the first and second filter papers 51 and 52 in order to filter the foreign particles contained in the water, the second filter paper 52 After passing through the second filter sponge 53, the water is filtered again and then supplied to the cooling unit (E) to be cooled and then supplied again to the first water tank (1a).

Since the foreign matter removal effect of the filtration water purification means and the filtration cooling means of the present invention described above is excellent because it does not require the use of sand and cotton used to filter foreign matter in the existing tank can significantly reduce the size of the overall tank Of course, the water in the first and second tanks (1a, 1b) can always be kept in a clean state, so that even if a large amount of fish are discharged into the tank (1), the phenomenon of foaming on the surface of the tank (1) does not occur at all. You can expect the effect.

As described above, the present invention mixes the water taken from the water surface and the intermediate layer of the second tank with air and supplies the purified water to the purified water portion, and the water supplied from the obtained water portion to the first water tank using centrifugal force. Filtration water purification means consisting of a water purification unit for separating and removing foreign matter; It is installed in the second tank and the pumping power of the pump sucks the water in the tank to filter the large particles and small foreign substances while filtering by using microorganisms, and the cooling water passing through the filtration unit to supply to the first tank Filtration cooling means consisting of a cooling unit to; It is possible to increase the water purification efficiency by sucking water from the water surface and the middle layer of the water tank as well as to reduce the size of the overall water tank because it does not require the use of sand and cotton used to filter foreign substances. It can be expected that the effect of providing a filtration water purification system that can provide a slim, water tank can be produced.

Claims (11)

In the filtration water purification system for filtering and purifying the water in the tank installed in a multi-layer structure so that the water of the first tank is supplied to the second tank, Inlet part for mixing water and air taken from the water surface of the second tank and the intermediate layer and supplying it to the purified water part, and the purified water part installed in the first water tank and separating and removing foreign substances from the water by centrifugal force. Filtration water purification means; Filtration part which is installed in the second tank and sucks the water in the second tank by the pumping force of the pump to filter out the large foreign matter and small foreign matter, and cleans the water using microorganism, and cools the water passing through the filtration part in the first water tank Filtration cooling means consisting of a cooling unit for supplying to the; Filtration water purification system, characterized in that consisting of. The method of claim 1, The acquisition unit, Connecting the upper tube and the lower tube formed with the second secondary hole in the state connected to the first sub-ball, protruding and forming a fixed tube on the upper part of the chamber connected to the pump, the upper and lower tubes are located on the upper fixed tube to the inside of the lower tube As the upper end of the fixed tube is accommodated, the lower inlet is formed between the lower tube and the fixed tube so that the lowering force of the water introduced through the upper inlet formed in the upper opening of the upper tube during the driving of the pump and the rising force of the water introduced through the lower inlet Filtration water purification system, characterized in that configured to maintain a slightly submerged state of the upper inlet of the upper tube. According to claim 2, Filtration characterized in that the inner induction pipe for further guiding the water flowing into the upper inlet guided to the fixed pipe inside the upper pipe, and forming a protrusion on the upper end of the inner guide pipe Water purification system. The filtration water purification system according to claim 2, wherein an air pipe for supplying air to the pump is formed at the center of the fixed tube, and a valve is formed at the inlet side of the air pipe. The filtration water purification system according to claim 2, wherein a silver ion generator for generating silver ions is provided inside the chamber. The method of claim 1, wherein the water purification unit, The case is provided with a water tank at the bottom, and the upper side is opened to the outside of the exterior and a plurality of upper ends while forming a double structure with the central tube of the closed structure in which the water supplied through the water inlet is introduced into the case. The separation tank is formed with a drainage hole, and the first and second flow holes are formed to be inclined at different angles at the upper end of the central pipe and the lower end of the exterior, respectively, and the water and the air are strongly vortexed while passing through the first flow hole. The foreign matter in the water is collected in the air, while passing through the second flow hole and the water inside the separation tank as the light foreign matter and air is concentrated in the center of the bubble form, characterized in that it is configured to separate the water and foreign matter Filtration water purification system. 7. The filtration water purification system according to claim 6, wherein a baffle having a porous hole is formed horizontally between upper and lower portions between the case and the separation tank, and a plurality of microbial carriers are built in the space between the baffles. The water pipe according to claim 6, wherein a drain pipe for discharging filtered water is connected to one end of the reservoir, and a cap having an opening and closing plate for adjusting an opening amount of the drain hole of the drain pipe is rotatably coupled to an upper portion of the drain pipe. And inserting the glass tube through the cap so that the water level inside the case is displayed through the glass tube, and a filter part for filtering foreign substances is formed at one side of the reservoir so as to be located at the inlet side of the drain pipe. system. 7. The filtration water purification system according to claim 6, wherein a plurality of turning vanes are formed in a streamline shape on the outer peripheral surface of the lower end of the exterior. According to claim 1, wherein the filtration unit of the filtration cooling means, A case formed at a position at which an inlet and an outlet are opposed to each other, and a first baffle and a second baffle, each having perforated holes formed at the inlet side and the outlet side of the case, in a vertical direction, and between the first and second baffles; In the first filter sponge, the first filter paper, the second filter paper and the second filter sponge are arranged in sequence, The first and second filter sponge is embodied as a sponge having a large particle having a porous hole to attach microorganisms, And said first and second filter papers are formed by superimposing a plurality of filter papers for filtering foreign matters from fine particles. The filtration water purification system according to claim 10, wherein the first and second filter sponges and the first and second filter papers are provided at regular intervals.

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