TW200803960A - Water cleaner and water cleaning method using the same - Google Patents

Abstract

Disclosed a water cleaner, which is capable of precisely detecting an extent of contamination of a filter based on an actual amount of use of purified water and informing a user of the detected extent of contamination so that the user exchanges the filter and uses and maintain the water cleaner simply and conveniently, and a water cleaning method using the same. The water cleaner that purifies raw water and discharges purified water, comprises: a plurality of tanks each containing a filter; a main body that is combined with the plurality of tanks and is provided with a raw water pipe into which the raw water is supplied, a purified water pipe from which the purified water is discharged, and a plurality of passages connecting the raw water pipe to the purified water pipe via the plurality of tanks, wherein the passages cause the raw water in the raw water pipe to pass through the plurality of tanks and then to be discharged to the purified water pipe; a first measuring unit that measures the supply amount of the raw water supplied to the raw water pipe; and a control unit that calculates an extent of contamination of the filter based on a result of the measurement of the first measuring unit.

Description

200803960 IX. Description of the Invention: [Technical Field] The present invention relates to a water purifier and a method of purifying water using the water purifier, and more particularly, "about a water purifier, which can be based on pure water The actual usage accurately detects the degree of contamination of the filter and notifies the user of the degree of contamination detected, so that the user can easily and conveniently replace the filter and use and maintain the water purifier; and a purified water using the water purifier method. [Prior Art] The water purifier widely used in our daily life is to purify the raw water such as tap water to the water quality standard according to the 'Drinking Water Control Law, Article 5, Article 3 (in Korea) device of. It can be classified according to the criteria such as the use, composition, and purification principle of the water purifier. Among these standards, the purification principles of the most popular standards can be divided into natural filtration systems, direct-connection filtration systems, distillation systems, and reverse osmosis. System (reverse welcome to enterprise system). The natural filtration system consists in storing a specified amount of raw water and filtering the stored raw water by its weight during the filtration process, and directly connecting the filtration system by directly connecting the purified water to the hydrant or the like to which the raw water is supplied. The raw water is purified by passing the raw water through a filter by using a water supply pressure. The distillation system consists in accumulating vapors produced by boiling raw water, and the reverse osmosis system consists in removing impurities from the raw water using a semipermeable membrane m (so-called membrane). Although the strip system and the reverse osmosis system can obtain relatively pure water, 7 200803960 These systems have the benefit of removing beneficial substances such as dissolved oxygen in addition to removing contaminants included in raw water. Disadvantages of minerals, etc. Natural filtration systems and direct-connected filtration systems do not have the disadvantages of the Schneider system and the reverse osmosis system, but have the difficulty of maintaining the filter. Recently, as concerns about health care have increased, distillation systems and reverse osmosis systems have shown a downward trend in their use. Direct connection filtering

The system is becoming the most popular because it does not require raw water storage, has a simple structure and is easy to use. The purification process of a general water purifier using a direct connection filtration system includes seven steps of water, preliminary filtration, absorption, primary filtration, and drainage. Specifically, the external raw water is supplied to the water purifier, the impurities contained in the raw water are initially filtered out, the volatile organic substances are absorbed and removed, the ceramic filter finally filters out the fine impurities, and the finally filtered water is discharged. To the user. For filtration, the direct connection of the purified water H includes a variety of filters, such as the 'earbQnmter', including the ceramics UemmiefiheO. Often, the maintenance of such lighters has a critical impact on the effectiveness of direct, filtered water purification. It has been proposed to capture the replacement of the filter in order to increase the efficiency of the surface H and to optimize the purification capacity of the water purifier. And, the method. However, these methods of lifting are not sufficient to detect the degree of contamination and the replacement time of the capture filter. #前, Actually, after the user has specified a time period (for example, once a month) = his main honesty (for example, the taste of water) is determined by a new filter 、 ', filter ☆ ' this Exhibition 7F is based on the degree of material related to the filter 8 200803960 » The significant difference between the filter and the maintenance of the data. Therefore, the unnecessary frequent replacement of the ancestors caused cost and human waste, and there may be frequent occurrences: the user drank the contaminated water due to the appropriate replacement opportunity that missed the filter. In detail, in order to replace the filter with a new filter, the existing water purifier must be completely dismantled, which imposes a heavy burden on the user. SUMMARY OF THE INVENTION In order to overcome the above problems, an object of the present invention is to provide: a water purifier capable of accurately determining the degree of wide dyeing of various filters provided in a water purifier and allowing any user to be simple and easy Another new object of the present invention is to provide a water purifier capable of being superior to the actual amount of pure water used, and a water purification method using the water purifier. Detecting the degree of contamination of the filter and notifying the user of the degree of contamination detected by the user, making it easy and convenient for the user to replace the filter with a new filter and to use and maintain the water purifier; and a use of the water purifier Water purification method. In order to achieve the above object, according to the present invention, the present invention provides a water purifier for purifying, producing raw water and discharging pure water, comprising: a plurality of tanks, each of which includes a filter; a main body; Combined with a plurality of storage tanks, and having a raw water pipe to which raw water is supplied, a purified water pipe for discharging pure water, and a plurality of passages for connecting the raw water pipe to the pure water pipe via a plurality of storage tanks, The passage causes the raw water in the raw water pipe to pass through the plurality of storage tanks and is then discharged to the pure water pipe; the first measuring unit, which measures the amount of raw water supplied to the raw water pipe for 200803960; and the control A control unit that calculates the degree of contamination of the filter based on the measured results of the first measurement unit. Preferably, the control unit calculates the degree of contamination of the filter by comparing the maximum purified flow rate of the filter with the supply of raw water. The water purifier further includes a second measuring unit, the second measuring unit measures the amount of pure water discharged to the pure water pipe, and the control unit measures based on the first and second measuring units As a result, the degree of contamination of the filter is calculated. The clean water further includes a display unit that displays the degree of contamination of the filter calculated by the control unit. The display unit displays the degree of contamination of the filter by number, symbol or picture. Preferably, the body comprises: a top cover, the plurality of storage slots are detachably assembled to the top cover; a noddle plate is attached to the rear side of the top cover, and the plurality of channels are defined by the intermediate plate and Between the top covers; and a bottom cover that is combined to the top cover at the bottom of the intermediate plate. The plurality of storage tanks are divided into a first storage tank to an nth (n>1) storage tank, the first storage tank is first supplied with raw water, and the nth storage tank is finally supplied with raw water, and the inlet and the internal water flow through which the external water flows in The outlet through which the outlet passes is provided at one side of each of the plurality of storage tanks combined to the top raft. The inlet hole and the outlet hole are formed in the top cover in a one-to-one correspondence with the inlet and the outlet of each of the storage tanks, and the plurality of passages include: a raw water supply passage, which makes the raw water pipe and the first The inlet of the sump is connected; (lvl) channels are connected from the first treasury until the η sump connects the outlet of the previous sump to the inlet of the next sump; and the pUrified Water discharge passage is connected to the nth The outlet of the storage tank to the pure water pipe. 200803960 Fortunately, the middle plate is formed with a raw water supply hole (mwwater su卯汐h〇le) and a purified water discharge h〇le which are respectively connected to the raw water supply passage and the pure water discharge. The raw water pipe and the pure water pipe are respectively connected to the raw water supply passage and the pure water discharge passage through the raw water supply hole and the pure water discharge hole. The raw water pipe is connected to the raw water supply hole by the first measuring unit. The first measuring unit comprises: a first flow-in 'P〇rt, which is connected to the raw water pipe; a first flow-(10)t port, _ which is connected to the raw water supply hole, And a first housing including a first impeller rotated by a flow of raw water flowing from the first inflow to the first outflow weir and a number of rotations counting the first impeller A first counter, and the supply of raw water is measured based on the number of revolutions of the first impeller. The water purifier further includes a decompressing means installed in the first outer casing and adjusting a supply pressure of the raw water transferred to the first outflow weir. Preferably, the water purifier further includes A measuring unit that measures the amount of pure water discharged to the pure water pipe, and the control unit calculates the degree of contamination of the filter based on the measured results of the first and second measuring units. The intermediate plate is formed with a first connecting hole (flrst, connecting hole) communicating with the (n-1)th channel, and a second connecting hole communicating with the nth channel, and the first connecting hole is formed by The second measuring unit is connected to the second connecting hole. The second detecting unit includes: a second flow-in port connected to the first connecting hole; a second flow-out port 'connected to the second connecting hole; and a second a second housing comprising a second impeller rotated by a flow of water from the second inflow turbulent flow to the second water flowing through the weir, and a second counter that counts the number of revolutions of the second impeller ( Second counter), and the discharge of pure water is measured based on the number of rotations of the second impeller. Preferably, each of the plurality of reservoirs further comprises an annular rotating flange. (annular rotating flange), the flange is protruded such that the inlet and the outlet are placed inside the rotating flange, and the top cover further includes an annular fixed flange which protrudes to make a one-to-one correspondence The inlet hole and the outlet hole which are in communication with the inlet and the outlet of each storage tank are placed inside the fixing flange, the rotating flange is inserted into the fixing flange, and the plurality of storage tanks are assembled and rotated in a one-to-one correspondence. Between the flange and the fixing flange. The water purifier further includes: at least one fitting end protruding from the outer surface of the rotating flange; and a screw joining part provided along the inner surface of the fixing flange, the mating end The screw joint is joined to the screw joint by a spiral manner, and the rotary flange is combined with the fixed flange in a one-to-one correspondence. Preferably, each of the plurality of sump includes a first check valve (first, check valve) that selectively covers and surrounds the inlet; a flow-in space that passes through the first a check valve is in communication with the inlet; a second check valve selectively covering and surrounding the outlet; and a flow-out space communicating with the outlet via the second check valve and filtering The device is inserted between the inflow space and the outflow space. The first and second check valves respectively include first and second packages that are covered by the spring force and that surround the inlet and the outlet. 12 200803960 Preferably, the intermediate plate further comprises an inlet pin, the top cover further comprises an outlet pin in the fixing flange, and when the storage tank is assembled, the first ° 1 outlet is opened and the second end The return valve is opened by the outlet pin. σ, by the inlet pin Preferably, the filter is selected from the group consisting of carbon over-cry, η, side-bumping, wind ★ 兖 兖 filter and work. The function filter includes a fine shouting ball (including the living according to another aspect, the present invention provides a kind of |f bedding) (the mother one includes the passer) and the pure water purified water in the clean water $ The method comprises the steps of: a) measuring the supply of raw water supplied to the water purifier 1 and b) comparing the supply of raw water to the raw water supply based on the supply of raw water Calculate the degree of contamination of the filter. The water purification method further comprises: between a) step and b), a) measuring the amount of pure water obtained in the water meter, and the step e) comprises maximizing the flow rate of the transition unit with raw water. The degree of contamination of the filter is calculated by comparing the supply amount with the amount of pure water discharged. [Embodiment] Hereinafter, an exemplary embodiment of the present invention will be described with reference to the drawings.

1 is a block diagram of a water purifier in accordance with an embodiment of the present invention. The water purifier generally includes a tankmiit 100, a main body 2, and a squirrel 300. The I sump unit 100 includes a plurality of storage tanks T1 to T6 (each having an inlet through which external water flows in; and an outlet through which the internal water flows out) has a specially constructed sputum. The 200803960 water flowing into the storage tanks 至1 to T6 via the respective inlets is discharged through the respective filters and then through the respective outlets. The male troughs 1 to T6 are detachably combined to the main body 2〇〇. A raw water pipe 2〇2 is provided in the main body 2〇〇, the raw water pipe is connected to the water plug or the like and the raw water is supplied to the raw water pipe; the pure water pipe 242 is connected to be operated by the user/ a disconnected sluice valve (such as a cock) is attached; and a plurality of channels 222, 224, 226, 228, 23 〇, 232, and 2 = 4, through which the raw water from the raw water pipe 2 〇 2 is sequentially It passes through a plurality of storage tanks T1 to T6 and is discharged to the pure water pipe 242. Assuming that the number of tanks T1 to T6 is η(η > ι ), the plurality of channels 222, 224, 226, 228, 230, 232, and 234 may include a raw water supply port 222 that connects the water pipe 202 to the first Slot T1; (η-1) return 224, 226, 228, 230 and 232, connecting the outlet of the previous storage tank D1 to D6 to the next storage tank from the first storage tank T1 to the last nth storage tank T6 An inlet of Τ1 to ;6; and a pure water discharge passage 234 connecting the outlet of the last nth sump 6 to the pure water pipe 242. Specifically, as shown in the figure, according to the order of supply of raw water, it is assumed that the six tanks 1 to D 6 are the first to sixth tanks D to 76, and the raw water supply passage 222 connects the raw water pipe 202 to The inlet of the first storage tank T1, the first passage 224 connects the outlet of the first storage tank τι to the inlet of the second storage tank 12, and the second passage 226 connects the outlet of the first storage tank T2 to the inlet of the third storage tank τ3, the second passage 228 connects the outlet of the second sump 3 to the inlet of the fourth sump 4, the fourth passage 230 connects the outlet of the fourth sump 4 to the inlet of the fifth sump 5, and the fifth passage 232 connects the outlet of the fifth sump 5 Connected to the inlet of the sixth tank Τ6, and the pure water discharge passage 234 connects the outlet of the sixth tank 20086 200803960 to the pure water pipe 242. Based on the actual usage of the pure water, the controller 3 detects the degree of contamination of the filtered state included in the storage tanks T1/T6, and varies based on the detected degree of contamination and displays the replacement time of the filter. To this end, the controller may include a measuring unit 310 that measures the flow of raw water supplied to the raw water pipe 2〇2, and the control unit 340 calculates the result based on the measurement to be included in the storage tank T1' to The filtration in T6, the degree of contamination of the state, and the replacement time of the transitioner; in φ and display unit 350, which displays the filter replacement time calculated by control unit 340 for the user. # Specifically, the control unit 340 calculates the pollution degree based on the ratio of the maximum purification flow rate (preset for each filter) to the actual purification flow rate based on the raw water inflow amount measured by the first measurement unit 31〇, and when When the maximum purification flow rate is close to the actual purification flow rate, the control display unit 35 displays each replacement time. In this case, preferably, in addition to the first measuring unit 310, the second measuring unit 36 can be used to measure the flow rate of the pure water discharged through the pure water pipe 242, so that the calculation of the control unit 34 is further improved. The reliability of the results. When passing the first measuring unit 310, the first supply to the raw water pipe 202 is supplied; when it passes through the plurality of channels 222, 224, 226, 228, 230, 232, and 234, the first through When the sixth storage tanks T1 to T6, the raw water is purified; when passing through the second measuring unit 360, the discharge amount of the pure water is measured; and the pure water is delivered to the user via the pure water pipe 242. In the process, the control unit 340 calculates the degree of dyeing of the 200803960 filter based on the supply amount of raw water and the discharge amount of pure water (which are measured by the first and second measurement units 310 and 360, respectively), and controls The display unit 35 displays the result for the user. σ| t, the details of the water purifier will be described with reference to Figure 1 and related figures. 2a and 2b are respectively a top view of the water purifier = an external perspective view and a rear side external perspective view according to an embodiment of the present invention. 3 is a partially exploded perspective view of the water purifier according to the embodiment of the present invention, showing the main body 200 placed on the ground, including the sump unit 100 to be assembled to the plurality of storage tanks T1^T6 in the main body 200. And covering the main body 200 to protect the outer casing 400 that accommodates the space of the storage tanks 1 to 6 and forms the appearance of the water purifier. In the front side of the = casing 400, the display unit 35 is provided, the operation is pressed by ^332, and the like. These components 35〇 and 332 and the control unit 34 can be mounted on a printed circuit board (printed circuitb〇ard, pcB) 33〇. In this case, the control unit 340 may include a microcomputer, and the display unit 35 may include a liquid crystal scatter (ay, LCD) device for displaying the degree of contamination of each filter for the user. And operation =, 332 changes the picture of the display unit 35Q or turns on/off the water purifier according to the intention of the user. The control unit 340 and the display unit 35 do need to drive the work. To this end, a battery case (battery 29〇t) can be inserted into one side of the main body 2〇0. The front side of the main body 200 is inserted.

(socket connector) 336 combination. The housing 4| does not expose the operation button 332 and the display cover open &. The front side of the outer casing 400 is provided with a button hole 404 and a pm connector 502 provided with the indicator unit 350, and the pins are connected from the battery 500 via the pin connector 5〇2; 16 200803960 window cover 406 Covering 402, the printed circuit board 330, the control unit 340, the socket connector 336, the pin connection crying 5, 2, etc. can be protected. °. In the rear side of the main body 200, a raw water pipe connecting port 254 for raw water supply and a pure water supply are provided.

Both the purified water pipe c〇nnecting p(10) 274' are exposed to the outside of the water purifier. The raw water pipe 2〇2 is connected to the raw water pipe connection 254 to receive raw water from the water plug, and the pure water pipe 2 is magically connected to the pure water connection port 274 to supply pure water to the user. According to the design of the water purifier, the other parts except the main body 2 can be used in various ways, such as the battery pack, the printed circuit board, the control unit 340, the control unit 340, and the display unit 35, The pin connector 5G2, the socket connector 336, the outer casing details, and the mounting position are modified 'this is not subject to any limitation. The storage is the main part % of the water purifier according to the embodiment of the present invention; and the branching of the main f 2〇0 ^ perspective view: the top side exploded perspective view and the bottom side decomposition of the body of the "mouth" The slot single it example shows the function, structure and operation of the six-cylinder storage to the T6 of the T6 to the D6 of the internal built-in detailing, which will be described in detail. ^ Volume storage is only... J is the first to sixth storage tanks D1 to T6. When the troughs are combined to the main body, the main body has a box shape of 200803960. The main body 200 may include the storage tanks T1 to T6 assembled to a top cover 210; an intermediate plate 25〇 closely attached to the rear side of the top cover 21〇, defining a plurality of channels 222, 224, 226, 228, 230, 232, and 234 between the intermediate plate 250 and the top cover 2J0; A cover 280 is provided at the bottom of the intermediate plate 250 and assembled with the top cover 21, and provides a space in which the first and second measurement units 310 and 360 and the battery case 290 are mounted. Hereinafter, in more detail The top cover 210, the intermediate plate 250, and the bottom cover 280 constituting the main body 200 are described. First, the top cover 210 is considered. Fig. 6a Figure 6b is a plan view and a rear side view of the top cover 210. Referring to Figures 6a and 6b in conjunction with the drawings, the top cover 21 includes a top side 212 to which the sump T1 to T6 is assembled and an edge along the top side 212. 9 downwards the side wall 214. The top cymbal 210 is a part that can assemble and disassemble the sump to the T6 and is used to connect the inlets of the sump T1 to T6 and the outlet to the top sill 210 and the intermediate plate 250. A plurality of channels 222, 224, 226, 228, 230, 232, and 234 are provided. To this end, an assembled and disassembled joint structure is provided in the bottom of the sump T1 to T6 and in the top of the top cover 210. Specifically, The first to sixth rotating flanges TF1 to TF6 (each of which includes a ring) protrude downward from the bottoms of the first to sixth storage grooves T1 to T6, respectively, and the first to sixth fixing flanges C F1 to C F6 (each including an annular lug and in which the first to sixth rotating flanges TF1 to TF6 are respectively inserted) protrude upward from the top of the top cover 21〇. At least one mating end 104 is from the first to the sixth rotating flange The outer surface of each of TF to TF6 protrudes. (4) One to the first fixing flange 18 200803960 CF1 to CF6 In the inner surface of each of them, a screw joint part 216 is provided to screw-couple the corresponding mating end 104 of each of the first to sixth rotary flanges TF1 to TF6 to the screw joint part 216. When the rotary flanges TF1 to TF6 of the sump T1 to T6 are inserted into the fixed flanges CF1 to CF6 of the top cover 210 and then rotated, the mating ends 104 of the rotary flanges TF1 to TF6 are along the screws of the fixed flanges CF1 to CF6. The joint part 216 is rotated and fixed, and in the reverse process, the mating ends 104 of the rotary flanges TF1 to TF6 are released from the screw joint part 216. Referring to Fig. 9 (which is a rear perspective view of the first sump T1), inside the first rotary flange TF1, a first inlet T1 through which the external water flows in and a first outlet Tib through which the internal water flows are provided. The first to sixth tanks T1 to T6 have the same shape and thus have an inlet and an outlet, respectively. For the sake of convenience, in order to distinguish between the inlet and the outlet assigned to the first to sixth storage tanks T1 to T6, the suffix a indicates the inlet and the suffix b indicates the outlet. Although not all shown in the drawings, reference numerals Tla and Tib denote the first inlet and the first outlet of the first tank T1, respectively, and reference numerals T2a and T2b denote the second inlet and the second outlet of the second tank T2, respectively. Reference numerals T3a and T3b denote the third inlet and the third outlet of the third tank T3, respectively, reference numerals T4a and T4b denote the fourth inlet and the fourth outlet of the fourth tank T4, respectively, and reference numerals T5a and T5b denote the fifth tank, respectively. The fifth inlet and the fifth outlet of T5, and reference numerals T6a and T6b respectively denote the sixth inlet and the sixth outlet of the sixth tank T6. Referring again to FIGS. 4, 5a, 5b, 6a and 6b, in the inner surfaces of the first to sixth fixing flanges CF1 to CF6 on the top cover 19 200803960 210, first to sixth inlet holes are provided. Outlet holes that communicate with the inlets and outlets of the first to sixth storage tanks T1 to T6, respectively. In this case, in order to distinguish between the entrance hole and the exit hole assigned to the first to sixth fixed flanges CF1 to CF6, the 'end a refers to the non-inlet hole and the tail b does not. Although not all shown in the drawings, reference numerals CFla and CFlb denote the first inlet aperture and the first outlet aperture of the first fixing flange CF1, respectively, and reference numerals CF2a and CF2b denote the second of the second fixing flange CF2, respectively. An inlet hole and a second outlet hole, reference numerals CF3a and CF3b respectively denote a third inlet hole and a third outlet hole of the third fixing flange CF3, and reference numerals CF4a and CF4b respectively denote a fourth inlet of the fourth fixing flange CF4孑L and the fourth exit hole, reference numerals CF5a and CF5b respectively denote the fifth inlet hole and the fifth outlet hole of the fifth fixing flange CF5, and reference numerals CF6a and CF6b respectively denote the sixth inlet of the sixth fixing flange CF6 Hole and sixth exit hole. When the first to sixth rotary flanges TF1 to TF6 of the first to sixth storage tanks T1 to T6 are respectively assembled into the first to sixth fixed flanges CF1 to CF6 of the top cover 210, the first inlet hole CFla and The first outlet hole CF1b communicates with the first inlet T1a of the first storage tank T1 and the first outlet Tib, respectively, and the second inlet hole CF2a and the second outlet hole CF2b respectively and the second inlet T2a and the second outlet T2b of the second storage tank T2 The third inlet hole CF3a and the third outlet hole CF3b communicate with the third inlet T3a of the third storage tank T3 and the third outlet port 3b, respectively, and the fourth inlet hole CF4a and the fourth outlet hole CF4b are respectively connected to the fourth storage tank T4. The fourth inlet T4a is in communication with the fourth outlet port 4b, and the fifth inlet port CF5a and the fifth outlet port CF5b are respectively connected to the 20th 200803960 fifth inlet T5a and the fifth outlet T5b of the fifth storage tank T5, and the sixth inlet hole CF6a The sixth inlet T6a and the sixth outlet T6b of the sixth storage tank T6 are in communication with the sixth outlet hole CF6b. Further, in the rear side of the top cover 210, a plurality of grooves are provided, and in the four steps, the plurality of channels 222, 224, 226, 228, 230, 232, and 234 can be formed by being closely adhered to the intermediate plate 250. Specifically, the raw water supply passage 222 that communicates with the first inlet hole CFla, the first passage 224 that connects the first outlet hole CF1b and the second inlet hole CF2a, the first outlet hole CF2b and the third one are provided independently of each other. a second passage 228 that communicates with the inlet hole CF3a, a second passage 228 that connects the third outlet hole cF3b with the fourth inlet hole CF4a, and a fourth passage 230 that connects the fourth outlet hole cF4b with the fifth inlet hole CF5a, The fifth outlet hole CF5b and the sixth inlet hole CF6a are connected to the fifth passage 232 and the pure water discharge passage 234 communicating with the sixth outlet hole CF6b. Although the drawing shows one end of the fifth passage 232 (which is in communication with the fifth outlet hole CF5b) and the other end of the fifth passage 232 (which is in communication with the sixth inlet hole CF6a), the middle portion of the fifth passage 232 is not, The fifth outlet hole CF5b and the sixth inlet hole CF6a are connected to each other by the first measuring unit 360, which will be inserted later. Further, at the side wall 214 of the top cymbal 210, a battery housing 248 ' is provided to house the battery case 29 in the battery housing 248. Also, at a suitable position within the battery housing 248, a securing member 298 is provided, such as for securing and releasing the teeth of at least one side of the battery case 290 by a spring. Further, a button 296 for fixing or releasing the insertion state of the battery case 290 by the user's manipulation control fixing member 298 21 200803960 is provided at the side wall 214 of the top cover 21 near the battery housing 248. Then, consider the intermediate plate 250. Fig. 7a is a plan view of the intermediate plate 250 attached to the rear side of the top cover 210, and Fig. 7b is a rear side view of the intermediate plate 250 facing the bottom plate 280. Referring to Figures 5a, 5b, 6a, 6b, 7a and 7b, the intermediate plate 250, which is closely attached to the rear side of the top cover 210, causes the plurality of channels 222, 224, 226, 228, 230, 232 and 234 to interact with each other. independent. Similarly, on the intermediate plate 250, the first and second measuring units 31A and 36B and other connecting members are mounted. When the intermediate plate 250 is closely attached to the rear side of the top cover 21, the raw water supply hole 252 communicating with the raw water supply passage 222 and the pure water discharge hole communicating with the pure water discharge passage 234 are protruded via the top cover. At this time, the raw water supply hole 252 is connected to the raw water pipe 202' via the raw water connection port 254 and the pure water discharge hole 272 is connected to the pure water pipe 242 via the pure water connection port 274. Further, the first and second measuring units 31A and 36B are provided in the rear side of the intermediate plate 250. The first measuring unit 31 connects the raw water supply port to the raw water supply port 254, and the second measuring unit 360 defines a second channel between the second measuring unit and the top cover 21〇. One end of 232 is connected to the other end 232b. The first measuring unit 31 includes a first-inflow raft 312 connected to the raw water connection bee 254, a first-outlet water 316 connected to the raw water supply hole, and a first outer casing 314 interposed therebetween. The second measuring unit 360 includes a second inflow raft 362 connected to the first connecting hole 262 at the intermediate plate &" perforated to communicate with one end of the fifth passage 232 on the rear side of the cover 2H), in the middle The plate 25 is perforated with a second outflow port 366 of a second connection hole 266 communicating with the other end 232b of the fifth channel 232 on the rear side of the top cover 22 200803960 2i, and a second outer casing 364 interposed therebetween. A pure water discharge port (276) is provided at the pure water discharge hole 272 on the rear side of the intermediate plate 250 and connected to the pure water connection port 274 via the pipe 278. Although not explicitly shown in the drawings, in the first and second outer casings 314 and 364 of the first and second measuring units 310 and 360, an impeller rotated by a moving fluid and a measuring impeller are mounted. The count state of the number of revolutions (such as a lead switch), thereby allowing the flow of water to be measured based on the count result of the counter. Preferably, the decompression member is installed in the first outer casing of the first measuring unit 31〇 using a flexible diaphragm such as rubber. The pressure reducing member makes the supply pressure of the raw water supplied to the raw water supply hole 252 via the first outflow water 316 constant. With regard to the reference, the first measurement unit 310 is disclosed in Korean Patent Application No. 10-2004-50984 and No. 10_2004_15194, which are hereby incorporated by reference. 36(). The bottom cover 28A will now be described with reference to Figures 5a and 5b. In the bottom cover 280, an installation space 288 for accommodating the battery case 2, which is inserted into the battery housing 2, is defined. In the installation of the 288 towel, a plate spring 〇 286 推出 ρ is provided in a direction opposite to the direction of the insertion of the battery case 290. When the battery is received via the side wall 214 of the top cover 210, the battery is charged, and the box 290 is also charged. When inserted into the mounting space 2δδ of the bottom cover 280, at least the side of the battery case 23 200803960 is grasped by the fixing member 289 of the top cover 210 and is expanded and contracted by the elastic force of 286. When the user presses 2% of the day ^, the hunting is pushed out of the battery case 29 by the elastic force of the leaf spring 286.

Figure 8 is a perspective view of the body of the water purifier when viewed from an angle different from the angles of Figure 4, Figure and Figure 5b, showing the top side of the top cover 210, in accordance with an embodiment of the present invention. The first to sixth fixing flanges CF1 to CF6, the screw joint parts 216 provided in the inner surfaces of the first to sixth fixing flanges CF1, and the first to sixth inlet holes cNa to CF6a and the first to sixth Portions of the exit holes CFlb to CF6b. The top side 212 of the top cover 21 自 at the inner surfaces from the first to sixth fixing flanges CF1 to CF6 after passing through the first to sixth inlet holes (^1 & to ? 63) will be described later and An outlet pin 218 inserted into the first to sixth outlets Tib to T6b of the first to sixth storage tanks T1 to T6 and a top side protruding from the intermediate cover 25A and inserted into the first to sixth storage tanks T1 to T6 The inlet pins 268 in the first to sixth inlets T1a to T6a (see Figs. 5a, 6a, and 7a). The main body 2〇〇 can be summarized by the following moving path of raw water. The water plug-water pipe 202 - raw water pipe connection 埠 254 - first measuring unit 310 - raw water supply hole 252 - raw water supply channel 222 - first inlet hole CFla -> first storage tank T1 - first outlet hole CFlb - first passage 214s Two inlet holes CF2a-> second storage tank T2 - second outlet hole CF2b - second passage 226 - third inlet hole CF3a - third storage tank T3 - third outlet hole CF3b - third passage 228 - fourth inlet hole CF4a - fourth storage tank D4s fourth outlet hole CF4b - fourth passage 230 - fifth inlet hole CF5a · ^ 24th 200803960 five Beiding trough T5 - The fifth outlet hole CF5b - one end 232a of the fifth passage 232 - the first connection hole 262 -> the second measurement unit 360 - the second connection hole 266 - the other end 232b of the fifth passage 232 - the sixth inlet hole CF6a - The sixth storage tank T6 - the sixth outlet hole CF6b - the pure water discharge passage 234m pure water discharge hole 272 - the pure water discharge 埠 276 - the tube 278 - the pure water pipe connection 埠 274_^ the pure water pipe 242 - the user hereinafter, consider the sump unit 100.

As shown in FIG. 9, first to sixth inlets T1a, 2a, T3a, T4a, T5a and T6a and first to sixth outlets Tib, T2b, D3b, D4b, T5b and T6b are respectively provided in the first Up to the first to sixth rotation flanges TF1 to TF6 of the sixth tanks T1 to T6. In this case, preferably, the first to sixth inlets T1a, T2a, T3a, D4a, Τ5^ and T6a of the sump 1 to D6 may be located at the central portion of the rotating flanges TF1 to TF6. And the first to sixth outlets D1, D1, D1, D1, D1, and D1 are located on the outer sides of the rotating flanges TF1 to TF6. The storage tanks T1 to D6 used in the water purifier of the present invention can be roughly divided into three kinds of storage tanks, that is, carbon storage tanks, that is, for the carbon storage tank, and the removal is included in the raw The hydrazine of the volatile organic substance in the water is a storage tank, which comprises a shell filter for removing the raw water contained in the raw water, a ceramic filter, and a functional storage tank, such as 34 yuan, such as a modified pure water. Each of the storage tanks T1%T6 may include a carbon-use use, and at least one of the functional filters, and the filter may be selected in accordance with various ways of ordering or combining the filter states. 25 200803960 Figure to Figure 12 are cross-sectional views of three types of storage tanks, respectively. In order to facilitate the 'false 疋, the carbon storage tank shown in Fig. ίο is the first storage tank τι, the groove is the third storage tank T3 and the figure first, in Fig. 10 is shown as the first storage _τι of the carbon storage tank, defined by the first - an inflow space I in which the check valve 110 selectively communicates with the first inlet T; a and a first outlet via the second check valve 12Q

The Tib-connected outflow m 〇 'cylindrical 竣 transitioner c is interposed therebetween and forms two separate spaces. In more detail, as shown in the drawing, a first delivery pipe 116 of a predetermined length, which is selectively connected to the first inlet T1 by the first check valve 110, is provided in the first sump T1. The carbon filter C surrounding the first delivery pipe 116 is placed at a position lower than a predetermined height. The carbon filter is placed on the bottom side of the first annular carbon filter frame 115a and is tightly attached to the first annular carbon filter frame U5a. The opening frame 115a surrounds the outer surface of the first conveying pipe π6 and is closely attached to the inner surface of the first sump 1 . The top side of the carbon filter C is covered and surrounded by a second sec〇nd annular carbon filter frame 115b surrounding the outer surface of the first delivery pipe 116. With the carbon filter C as a boundary, the inflow space i is defined by the inside of the first delivery pipe 116 and the outer side of the carbon filter C, and the outflow space 〇 is defined between the first delivery pipe il6 and the carbon filter C. Between the first inlet T1a and the first delivery pipe 116, a first check valve 110 is inserted to selectively open the first inlet T1a. Between the outflow space 〇 and 26 200803960, an outlet Tlb, a second check valve 120 is inserted to selectively open the first outlet lb. To this end, the first check valve n〇 includes a first circular package H2 covering and surrounding the first inlet Tlat and a first spring 114 applying an elastic force to cause the first package 112 to cover the first inlet T1a, and the second check valve 120 includes a rounded package 122 that surrounds the outer side of the first delivery tube 116 and covers and surrounds the first outlet Tib, and a second spring 124 that applies an elastic force to cause the second package 122 to cover the first outlet T1b. Therefore, when the first and second packages 112 and 122 are raised, they open the first inlet T1a and the second outlet T1b. Referring to FIG. 8, when the first rotating flange TF1 of the first sump T1 is inserted and fixed in the first fixing flange CF1 of the top cover, the first package η: is inserted into the first inlet D1 The pin 268 is raised to open the first inlet Tu, and the second package 122 is raised by the outlet pin 218 inserted in the first outlet Tib to open the first outlet Tib. In addition, by opening the first and second check valves 110 and 120, the first inlet hole CFla of the top cover 210 communicates with the first inlet T1a of the first sump and the first outlet hole cFlb of the top cover 210 is first. The first outlet Tlb of the sump 1 is in communication. The raw water delivered from the first inlet hole CFla of the top cover 210 is supplied to the first storage tank τι via the first inlet Tla' of the first storage tank, and then overflows the first delivery pipe 116 to be inflow, and the intermediate I is filled . The raw water filled in the flow space ^ is filtered by CCC to flow to the effluent space ,, while the autogenous water absorbs and removes the volatilization, and the organic matter 2 'and the (4)-export Tlb discharges the raw water to the top. The first exit iCFlb of 盍210 (see Figure 5a, Figure 6a and Figure). In Fig. 10, reference numeral 118 denotes an outer orifice surrounding the 27 200803960 first-transport: 116 in the outflow space 以 to support the second spring 124 and formed with a plurality of, one-way 丄=stop-blocking the flow of raw water W plate). Reference numeral 126 denotes a first buffer plate (flrst buffer mail) which surrounds the outer side of the U6 at a predetermined position on the carbon over t C so that the raw water overflowing the first round feed pipe 116 is uniformly The entire outflow space 第一 of the first storage tank T1. , ,

Figure 11 is a cross-sectional view of the third tank 3 as a terrarium tank. As shown in the figure, the second transfer tube 6 communicating with the third inlet T3a via the third check valve 130 is directly inserted into the ceramic filter s. Therefore, the inflow space I is defined only by the inside of the second duct 136 which is selectively connected to the third population via the third check valve 13G, and the outflow space of the (4) section is passed through the fourth stop. The return valve 14 is connected to the third outlet. The ceramic filter s is formed with a plurality of fine pores. The third check 13A includes a third circular package 132 covering and surrounding the third population T3a, and a third magazine 134 applying an elastic force to cause the second package 132 to cover the third inlet T3a, and the fourth check valve 140 A fourth circular package 142 is provided that surrounds the second wheel and that covers and surrounds the third outlet T3b and applies an elastic force: the fourth cladding 142 covers the fourth magazine 144 of the third outlet T3b. Further, a second orifice plate 138 supporting the fourth 144 surrounds the outer side of the second delivery pipe 136 and terminates the second orifice plate m to form a plurality of second through holes h2. The catalogue is described as: when the third rotating flange TF3 of the third tank T3 is inserted into the third fixing flange CF3 of the top cover 210, the third package 132 is inserted into the third entrance T3a of the 28 200803960 The inlet pin 26δ is raised to open the third inlet and thus, the third inlet hole CF3a of the top cover 210 is in communication with the second inlet T3a of the third storage tank. Similarly, the fourth package 142 is raised by the outlet pin 218 inserted in the T3b to open the third outlet u, and the third outlet hole CF3b of the top cymbal 2H is in communication with the third sump τ T3b. Sheet one outlet, therefore, in the third inlet hole supplied to the top cover 210 (5)

The water flows through the third inlet pT3a to the third storage tank and the __ of the 2nd S, performs the main carving step of removing the fine enamel, and the == mouth m discharges the obtained raw water to the 21st:: mouth. 3b (see Figure 5a, Figure 6a, Figure 7a and Figure 8). =1 12 is the cross section of the sixth storage tank D6 as a functional storage tank. The structure and operation of the second brother/the second tank T6 are similar to those of the rock mountain shown in Fig. As shown in FIG. 12, 'the inflow space j selectively communicating with the first and the incoming T6a via the fifth check valve 15() and the outflow space selectively communicating with the sixth outlet T6b via the sixth check valve 1 (9) Defined by a function filter B inserted in the straight. More specifically, inside the sixth storage tank T6, a second delivery pipe 156 of a predetermined height selectively communicating with the sixth inlet T6a via the fifth check valve 150 is provided. The plurality of function filters B are placed at a position lower than a predetermined height. The functional filter B includes various beneficial substances such as vitamins to add various beneficial substances to a stable substance (such as a ceramic ball) to be dissolved in pure water in order to improve the quality of pure water. The functional filter B is mounted on a third orifice plate around the outer side of the third delivery pipe 156 (third h〇le 29 200803960 = multiple (four) three-way holes h3 and a ring-shaped function over-the-counter-shaped function filter frame 155 around the The outer side of the three ducts 156 and the π-name P are paid to the inner surface of the sixth tank. The inflow space I is defined by the inside and the outside of the third/inlet T6b to the third duct 156, and flows out (four)〇 Defined below the third orifice plate 150 and the functional filter frame 155. A fifth check '150 is inserted between the sixth inlet T6a and the third delivery tube 156, and the fifth check valve 150 includes a cover and surrounds the sixth The fifth circular package 152 of the inlet T6a and the spring force are applied to cause the fifth package 152 to cover the sixth inlet T6a to selectively open the fifth spring H4 of the sixth inlet T6a. Also, in the third orifice plate 1S8 and the sixth A sixth check valve pair is inserted between the outlets, and the sixth check 16Q includes a sixth circular package surrounding the outer side of the third transfer pipe 156 and covering the sixth outlet, and applying a spring force to make the sixth The package 162 covers the sixth outlet to facilitate selective opening of the sixth out The sixth spring 164 of the mouth T6b. Therefore, when the sixth rotating flange m of the sixth sump 6 is inserted and fixed, and the sixth cover 152 10 is inserted into the flange of the top cover 210, the fifth package 152 10 is inserted. The inlet pin 268 in the fifth inlet hex 6a is raised to open the fifth 'inlet ferrule 6a, and therefore, the sixth inlet hole CF6a of the top cover 21 连通 is in communication with the sixth inlet T6a of the sixth storage tank T6, and The sixth outlet hole of the top cover 210 communicates with the sixth outlet T6b of the sixth storage tank T6. Therefore, the raw water supplied from the main body 20〇 to the sixth inlet hole CF6a is supplied to the sixth storage tank D6 via the sixth inlet T6a. And then overflowing the third conveying pipe 156 to be filled in the inflow space I. While the raw water filled in the flow Z space I flows through the functional state B to the outflow space, 30 200803960 will be The beneficial substance of the vitamin is dissolved in the raw water, and the raw water obtained is discharged to the sixth outlet hole CF6b0 of the top cover 210 via the sixth outlet, 丄 2: '苓 数字 166 * shows the second orifice plate, the second hole The plate surrounds the third wheel of the tube at a predetermined position on the top side of the functional over-the-top state: The raw water of the third transport & 156 is evenly filled in the sixth storage 16 . Referring to Figure 1·, Figure 2a, Figure 2b, Figure 3, Figure 4, Figure 5a, Figure 5Λ=6& As shown in Fig. 2, Fig. 8 and Fig. 8 to Fig. 12, |τΓ, 1/ Tla T6a σ Tlb ^ m 130, 140, 150 and 1 (eight) are provided in the sump of the water purifier because it is prevented from being removed from the main body 200 However, the storage tank D1 to D6 is due to the water discharged from the storage tanks 1 to 6 or from the storage tank T1 to? 6 Any accident that may occur when the inside of the water is sprayed. According to the taxi, the user can use the water purifier of the present invention, and not only 350 confirms the pollution degree of the filters c, S and B, and the user can disassemble the storage tank Τ1 to D6 and can be repaired. It’s not too difficult to filter the crying, c, or the replacement time of the 曰1 and Β with a new filter. According to the present invention, it is obvious that the degree of cleanliness is notified and the actual usage amount is notified, and the pollution time of the instrument is increased, thereby increasing the efficiency of use of the filter and the maintenance of the eve. A water filter that is easy and safe to replace the 裎31 200803960, which allows any user to easily and conveniently replace and maintain the filter. While the present invention has been described in its preferred embodiments, the present invention is not intended to limit the invention, and the present invention may be modified and modified without departing from the spirit and scope of the invention. The scope of protection is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS The above and/or other aspects and advantages of the present invention will become apparent from the A block diagram of the water purifier of the embodiment. 2a and 2b are perspective views of the exterior of the water purifier in accordance with an embodiment of the present invention. Figure 3 is a partially exploded perspective view of a water purifier in accordance with an embodiment of the present invention. Fig. 4 is an internally exploded perspective view of the water purifier according to an embodiment of the present invention. Fig. 5a and Fig. 5b are exploded perspective views of the main body of the water purifier according to an embodiment of the present invention. 6a and 6b are a plan view and a rear side view, respectively, of a top cover of a water purifier according to an embodiment of the present invention. 7a and 7b are a plan view and a rear side view, respectively, of an intermediate plate of a water purifier according to an embodiment of the present invention. Figure 8 is a perspective view of a body of a water purifier in accordance with an embodiment of the present invention. 32 200803960 Figure 9 is a rear perspective view of a sump of a water purifier in accordance with an embodiment of the present invention. The sump of the water purifier of the embodiment Fig. 10 to Fig. 12 are cross-sectional views according to the present invention. [Main component symbol description]

100. Slot unit 104: mating end 110: first check valve 112, first circular package 114 • first spring 115a: first annular carbon filter pivot 115b: second annular carbon filter frame 116 - the delivery tube 118, the first orifice plate 120, the first check valve 122, the second circular package 124, the second spring 126, the first buffer plate 130, the third check valve 132, the third circular package 134, the third Spring 136 first wheel feed pipe 138: second orifice plate 33 200803960 140 142 144 150 152 . 154 155 156 10 158 160 162 164 166 200 202 210 • 212 214 216 218 222 224 226 228 fourth check valve fourth circle Shaped packaging fourth spring fifth check valve fifth round packaging fifth spring ring function filter frame third conveying pipe third orifice plate sixth check valve sixth round packaging sixth spring second orifice main body Water pipe top cover top side wall screw joint part outlet pin raw water supply passage first passage second passage third passage 34 200803960 230 : fourth passage 232 : fifth passage 232a : fifth passage one end 232b : fifth passage The other end 234: pure water row Channel 242: pure water pipe 248 · battery storage port 250: intermediate plate 252: raw water supply hole 254: raw water pipe connection 生 / raw water connection 埠 262: first connection hole 266: second connection hole 268: inlet pin 272: Pure water discharge hole 274: pure water pipe connection 纯 / pure water connection 埠 276 · · pure water discharge 埠 278 : tube 280 : bottom cover / bottom plate 286 : plate spring 288: installation space 290 : battery case 2 9 6 · by name Ugly 298: Fixed part 300: Controller 35 200803960

310 first measuring unit 312 first inflow raft 314 first outer casing 316 first outflow raft 330 printed circuit board 332 operation button 334 cable 336 socket connector 340 control unit 350 display unit 360 second measuring unit 362 Second inflow raft 364 Second outer casing 366 Second outflow raft 400 Outer casing 402 Cover 404 Press buttonhole 406 Window 500 Battery 502 Pin connector B: Function filter C: Carbon filter CF1: First fixing flange CFla· First opening hole 36 of a fixing flange 200803960 CFlb: first outlet hole CF2 of the first fixing flange: second fixing flange CF2a: second inlet hole CF2b of the second fixing flange: second fixing flange Second outlet hole CF3: third fixing flange

_ CF3a: third inlet of the third fixing flange 孑L CF3b: third outlet hole CF4 of the third fixing flange ··fourth fixing flange • CF4a: fourth inlet hole of the fourth fixing flange CF4b: Fourth outlet of the four fixing flanges CFL CF5: fifth fixing flange CF5a: fifth inlet hole CF5b of the fifth fixing flange: fifth outlet hole CF6 of the fifth fixing flange: sixth fixing flange CF6a: The sixth inlet hole CF6b of the sixth fixing flange: the sixth outlet hole of the sixth fixing flange φ hi : the first through hole 1 1 · the second through hole h3 : the third through hole I : the inflow space 0 : the outflow space S: ceramic filter T1: first storage tank Tla: first inlet of the first storage tank 37 200803960

Tib: first outlet T2 of the first storage tank: second storage tank T2a: second inlet T2b of the second storage tank · second outlet T3 of the second storage tank: third storage tank _T3a: third inlet T3b of the third storage tank The third outlet T4 of the third storage tank: the fourth storage tank 10 T4a: the fourth inlet T4b of the fourth storage tank · the fourth outlet T5 of the fourth storage tank: the fifth storage tank T5a: the fifth inlet T5b of the fifth storage tank ·· The fifth outlet T6 of the fifth storage tank ···the sixth storage tank T6a: the sixth inlet T6b of the sixth storage tank: the sixth outlet of the sixth storage tank • TF1: the first rotary flange TF2: the second rotary flange TF3: the third Rotating flange TF4 ··fourth rotating flange TF5: fifth rotating flange TF6: sixth rotating flange 38

Claims (1)

200803960 X. Patent application scope: 1. A water purifier for purifying raw water and discharging pure water, comprising: a plurality of storage tanks each including a filter; a body 'which is combined with the plurality of storage tanks and has the same a raw water pipe supplied with water, a pure water pipe discharging the pure water, and a plurality of passages connecting the raw water pipe to the pure water pipe via the plurality of bellows, wherein the channel makes the raw The raw water in the water pipe is discharged to the pure water pipe through the plurality of storage tanks; the first measuring unit measures the supply amount of the raw water supplied to the raw water pipe; and controls a unit that calculates a degree of contamination of the filter based on the measured result of the first measurement unit. 2. The water purifier for purifying raw water and discharging pure water as described in claim 1, wherein the maximum purified flow rate of the filter is compared with the supply amount of the raw water, The control unit calculates the degree of contamination of the filter. 3. The purified water of purified raw water and the pure water discharged as described in claim 1 is a second measuring unit further comprising measuring the discharge amount of the pure water discharged to the pure water pipe, wherein The control unit calculates a degree of contamination of the filter based on the measured results of the first and the second measurement units. 4. The water purifier for purifying raw water and discharging pure water as described in claim 1, further comprising a display unit displaying the degree of contamination of the filter calculated by the control unit. 39. The method of claim 4, wherein the display unit displays the degree of contamination of the filter by number, symbol or picture. 6. The water purifier for purifying raw water and discharging pure water according to claim 1, wherein the main body comprises a top cover, and the plurality of storage tanks are detachably combined to the top cover; a plate attached to the rear side of the top cover, the plurality of channels being defined between the intermediate plate and the top cover; and a bottom cover being assembled to the top cover at a bottom of the intermediate plate . 7. The water purifier according to claim 6, wherein the plurality of storage tanks are divided into a first storage tank to an nth (η>1) storage tank, the first The storage tank is first supplied with the raw water, and the n-th storage tank is finally supplied with the raw water' and an inlet through which the external water flows in and an outlet through which the internal water flows out are provided to be combined with the top cover At / side of each of the plurality of storage tanks. 8. If the water purifier that purifies the raw water and discharges the pure water is described in the patent scope, the inlet hole and the outlet hole correspond to one of the inlets of each/storage tank and the outlet. a relationship formed in the top cover, and wherein the plurality of channels includes: a raw water supply passage that communicates the raw water pipe with the inlet of the first storage tank; (n-1) channels, From the first, the sump until the nth sump communicates with the inlet of the lower/trunk slot in the outlet of the previous sump, and the pure water discharge passage connecting the outlet of the nth sump to the pure water pipe . 40 200803960. The water purifier for purifying raw water and discharging pure water according to claim 8, wherein the intermediate plate is formed to be in communication with the raw water supply passage and the pure water discharge passage, respectively. a raw water supply hole and a pure water discharge hole, and wherein the raw water pipe and the pure water pipe are connected to the raw water supply passage and the pure water discharge via the raw water supply hole and the pure water discharge hole, respectively aisle. 10. The purified raw water and the pure water discharged as described in claim 9 are wherein the raw water pipe is connected to the raw water supply hole by the first measuring unit. U. The water purifier for purifying raw water and discharging pure water according to claim 10, wherein the first measuring unit comprises: a first inflow weir connected to the raw water pipe; the first outflow埠, which is connected to the raw water supply hole; and, in other words, includes a first impeller that is rotated by the flow of the raw water flowing from the first inflow turbulent flow to the first flow=埠And a first counter that counts the number of revolutions of the first impeller, wherein the supply amount of the raw water is measured based on the number of revolutions of the first impeller. 12. The purified raw water and the pure water/yin water as described in claim 11 further comprising a pressure reducing member, wherein the member is installed in the first outer casing and the adjustment is transmitted to the first - The supply of raw water flowing out of the raft is thick. ~土13·If applying for the purification of raw water as described in item 8 and discharging the water purifier of pure 41 200803960, it also includes measuring the second measuring unit discharged to the said emission, ^ late The degree of contamination of the filter is calculated from the results of the measurement of the first measurement of the water. ' Water (4) The purification described in item 13 and discharging the L-water 2' of the pure pass, wherein the middle plate is formed with a second connection hole communicating with the (nl) channel and the n-th channel. And the first connection hole in the & f is connected to the music connection hole by the second measurement unit. The water purifier for purifying raw water and discharging pure water according to claim 14, wherein the second measuring unit comprises a second inflow port connected to the first connecting hole; a second outflow port connected to the second connection hole; and a sixth second casing including a rotation by a flow of water from the second inflow turbulent flow into the first two outlets a second impeller and a second counter that counts the number of revolutions of the second impeller, wherein the discharge amount of the pure water is measured based on the number of revolutions of the second impeller. The chiller for purifying raw water and discharging pure water according to claim 8, wherein the plurality of sump each further comprises an annular rotating flange, the rotating flange protruding to make the inlet and the The outlet is placed on the inner side of the fluorescent flange, wherein the top cover further includes an annular fixing flange, the fixing flange protruding so as to have a pair-to-correspond relationship with the inlet of each storage tank and 42 200803960 The inlet D hole and the outlet hole of the outlet communicating are disposed inside the fixing flange, the rotating flange is inserted into the fixing flange, and wherein the plurality of storage slots The combination group is sandwiched between the rotating flange and the fixing flange in a one-to-one correspondence relationship. The water purifier for purifying raw water and discharging pure water according to claim 16, further comprising: at least one mating end protruding from an outer surface of the rotating flange; and a screw joint part, Along the inner surface of the fixing flange is provided 'the mating end is screwed to the screw engaging part, wherein the rotating flange is combined with the fixing flange in a one-to-one correspondence. The water purifier for purifying raw water and discharging pure water according to claim 8, wherein the plurality of storage tanks each comprise: a first check valve 'which selectively covers and surrounds the inlet; a space communicating with the inlet via the first check valve; a second stop valve selectively covering and surrounding the outlet; and an outflow space via the second check valve The outlet is in communication; wherein the filter is inserted between the inflow space and the outflow space. 19. The water purifier for purifying raw water and discharging pure water according to claim 18, wherein the first and the first check valves respectively comprise a spring: a cover; The inlet and the outlet are the first, and the second package. The water purifier for purifying raw water and discharging pure water according to claim 19, wherein the intermediate plate further comprises an inlet pin protruding to pass through the inlet hole, wherein the top cover Further comprising an outlet pin projecting upwardly in the fixing flange, and wherein when the sump is assembled, the first check valve is opened by the inlet pin and the second check valve is opened by the outlet pin turn on. The water purifier for purifying raw water and discharging pure water as described in claim 1, wherein the filter is a filter selected from the group consisting of a carbon filter, a ceramic filter, and a functional transition device. 22. The water purifier for purifying raw water and discharging pure water according to claim 21, wherein the functional filter comprises a fine ceramic ball, and the fine ceramic ball comprises a vitamin. 23) A method for obtaining purified water in a water purifier by passing raw water through a plurality of storage tanks including a filter, comprising the steps of: a) measuring a supply to the water purifier Supplying the raw water; and b) calculating the excess based on the supply of the raw water by comparing the maximum purified flow rate of the filter with the supply of the raw water The degree of pollution of the device. 24. The method of obtaining purified water in a water purifier by passing raw water through a plurality of storage tanks including a filter, as described in claim 23, further comprising: in the step a) Between the step b), a') measuring the amount of the purified water obtained in the water purifier; wherein the step comprises maximizing the flow by the filtering of the filter 44 200803960 The degree of contamination of the filter is calculated in comparison with the supply amount of the raw water and the discharge amount of the pure water. 45