TWI353264B - Water purification cartridge and water purifier in - Google Patents

Description

1353264 30164pif VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a water purifier that is purified when a raw water is discharged, and a water purifier having the purified water core. ' [Prior Art] At present, there is a so-called water-type water purifier that is known as a water-purifying water jacket. The kettle-type water purifier has a structure in which a water purification filter is installed between the living portion located at the upper side and the lower-purifying water reservoir, and the raw water reservoir is stored in the raw water reservoir. When purifying to the side of the purified water reservoir, 'purify the raw water in the water purification filter. In Fig. 5, the water purifier 5' as the water purifier having the above-described configuration is shown in the water purifier 5'. The purified water reduction core ι, the upstream _ surface clean water part 2, purifies the raw water by the adsorption of the filled suction _ (live char); and the downstream purified water purification part 3, through the filled The passage of the filter body (hollow fiber membrane) is used to purify the raw water passing through the adsorption water purification unit 2. Reference numeral 51 in the figure is a reservoir, and reference numeral 52 is a purified water reservoir. In the above-described water purification cartridge i disclosed in Patent Document 1, the adsorption clean water portion 2 and the over-water portion 3 located below it are separated from the ground. Therefore, the water purification and the formation of the secret body are longer in the up and down direction, and it is difficult to sufficiently distance the bottom of the water purification filter cartridge and the bottom of the purified water reservoir portion. When the above-mentioned turn is not ensured, if the water level of the purified water accumulated in the purified water reservoir 4 52 rises, the lower part of the clean water core will be immersed in the short time of 4 3 〇 164 pif. Because the water purification filter element is purified by the water purification filter and the core 1, the larger the δ=water volume, the less the (four) distance _ the shorter the short _^, the lower the ^, so if the material is to be made The structure of the water is disclosed in Japanese Laid-Open Patent Publication No. 2004-230335. SUMMARY OF THE INVENTION The present invention is directed to providing a water purifier having the water purification filter. The net square is formed densely, and the time until the start of the second is ensured by a long period of time; the time until the purified water is stored in a good condition can protect the problem, and the present invention provides a net tilting core 1 and has: The clean water part 2' is cleaned by the adsorption of the adsorbent filled in. The net cleansing part 3' is cleaned by the filtering effect of the filled filter body 51 and the pan 2... The raw water storage portion of the water purifier 50 is such that the raw water passes between the portions 52, and the raw water partitions 13 are arranged in the horizontal direction to form the adsorption water purification unit 2°卩3' on the partition wall 13. A communication hole 14 that connects the adsorption water purification unit 2 and the second water supply 3 is provided. Thus, the water purification cartridge 11 can be formed in a downward direction. Therefore, it is easy to maintain the distance between the bottom of the net and the bottom of the purified water reservoir 52 for a long period of time, and it is immersed in the purified water reservoir 52 starting from the water-purifying core 1 to stop t ', ' The time thus maintains a good circulation speed, whereby a certain amount of purified water can be quickly paid. In the water purification cartridge 1 of the above configuration, it is preferable that the filtration water purification unit 3 located on the downstream side of the adsorption water purification unit 2 is extended below the lower end portion of the adsorption water purification unit 2 The communication hole 14 of the partition wall 13 is placed at the height of the lower end portion of the adsorption water purification unit 2 . In this way, the raw water introduced into the adsorption water purification unit 2 is purified by passing through the entire adsorbent filled in the adsorption water purification unit 2, and then introduced into the filtration water purification unit 3 through the communication hole. Therefore, it is filled in the adsorption water purification unit 2

All the adsorbents can be effectively utilized, and as a result, the longevity of the water purification cartridge i can be achieved. Further, it is preferable that the width of the communication hole 14 of the partition wall 13 is set to be smaller than the diameter of the adsorbent filled in the adsorption water purification unit 2. In this way, the adsorbent can be prevented from leaking from the side of the adsorption water purification unit 2 to the side of the filtered water purification unit 3, and the adsorption water purification unit 2 (10) can be held in a state of being filled without any gap. As a result, the water purification filter element i can be realized. Use longevity.

In addition, the water purifier 50' provided with the water purification cartridge 上述 having the above-described configuration can provide a long time for the clean water to be immersed in the purified water accumulated in the lower portion of the clean water. 5 净 water purifier with good circulation catch. The time of the first day of the priming scale to the time when the clean water filter is immersed in the clean water of the second water to maintain the water = fruit phase (four) rapid system - quantitative purification fruit to $ outside: technical solution 2 In addition to the effect of the invention of the first aspect of the invention, the effect of the invention of the first aspect of the invention is that the total amount of the adsorbent 6 30164 pif agent filled in the water purification unit can achieve the effect of realizing the longevity of the use of the water purification core. Further, according to the invention of claim 3, in addition to the invention of claim 1 or 2, the adsorbed purified water portion (10) is held in the form of the adsorbent without filling and filling, and as a result, the use of the water purification cartridge can be achieved. . In addition, the invention of the fourth aspect of the invention provides a clean water towel that can be kept at a good flow rate until the water purification filter is started to be in the lower water purification water supply. The effect of the device. The above and other objects, features and advantages of the present invention will become more apparent <RTIgt; , . [Embodiment] It is clear. The present invention is performed on the present invention based on the embodiment shown in the drawings. (1) The water purification water purifier 5 of the example of the embodiment of the present invention is a so-called water bottle type water purifier, and the main body has a raw water: ρ 5 and supplies raw water such as tap water and temporarily accumulates The portion 52, (4) the raw water storage portion 51, the purified water product w, the raw water reservoir portion 51, and the purified water, are below the first water; and the raw water to the clean water is purified by the water purification cartridge 1 due to its own weight. When shouting T, 'in the water purification, 1 (10) raw water is installed by the water purifier 5: the bottomed cylindrical outer container 53, the upper end opening; 1353264 30164pif • and the bottomed cylindrical inner container 54, from the outer container 53 The upper end opening is inserted, disposed in the outer container 53, and is also open at the upper end σ. The depth of the content 54 is - about half or half - or less than half of the outer container 53, and the portion "the inner container 54 of the outer container 53 is opposed to the outer container 53. The fitting is carried out without a gap". The raw water accumulation portion 51 is formed in the inner portion 54, and the purified water reservoir portion is formed between the bottom wall 54a of the inner container 54 and the bottom wall 5 of the outer container 53. The above-mentioned _55 extends from the purified water and the storage port 52 Up to the top, it acts as an injection path when injecting purified water. The upper cover portion % is fitted and fixed to the upper end opening of the inner barrage 54. A water supply port 57 is opened in the center of the upper cover portion 56, and a flap 58 that blocks the water supply π 57 from above the water supply port π is provided. A shaft hole 59' is formed in the rear end portion of the baffle %, and the upper cover portion 56 is fitted in the shaft hole 59 so that the cylindrical shaft 6 provided at the rear of the water supply port 57 is rotatably fitted in the shaft hole 59. % can be freely opened and closed with respect to the water supply port 57. Further, the front-rear direction here is the front side where the gap % in which the injection path is formed is located. Therefore, the injection port 55a formed at the upper end of the gap 55 is located in front of the water supply port 57, and the shaft 6 is located on the opposite side of the injection port 55a via the water supply port 57. The injection opening 61a is freely opened and closed on the injection port 55a, but the injection cover 61 may not be provided. The bottom surface of the raw water reservoir 51 is gently inclined downward toward the lowermost portion 51a thereof. The water purification cartridge 1 is embedded and mounted in the mounting recess 62 from above, and the ampoule recess 62 is accumulated from the raw water. The lowermost portion 5U of the portion 51 is further recessed and provided downward. At the center of the bottom of the mounting recess 62, there is an opening 30164 pif port 'via the mounting portion 62 and its bottom closing σ (ie, via the clean water in the mounting recess 62 - 1), the raw water reservoir 51 and below it. The purified water reservoir 52 is in communication. The water purification unit 1 has an adsorption water purification unit 2 on the upstream side, and purifies the raw water by the adsorption of a rhythm (not shown) filled inside; and the side is over; f the water purification unit 3 'The raw water that has passed through the adsorption water purification unit 2 is purified by the filter body (not shown) filled in (4); the water purification unit 2 and the net rotation 3 constitute the water purification unit 4, The water purification unit 4 sequentially purifies the raw water in the raw water reservoir 51 while flowing downward, and then (4) flows out into the purified water reservoir 52. Further, a mineral addition portion 5 is formed above the purified water 44 in the purified water core 1, and the mineral component of the mineral agent (not shown) filled with the mineral is added to the raw material flowing in the purified water 4 In the mainstream of water. The water purification unit 4 formed in the lower half of the net weight core 1 is formed so as to be fitted in the stepped portion 8 of the adsorption container 7 in the tubular over-capacitance H 6 opened at the upper and lower ends. The above-mentioned heave container; the end portion 'attached container 7 is formed as a lower end of the bottomed cylindrical bottom portion 7a, and the lower portion of the bottom portion 7a is provided with a low--step portion 8 in the peripheral wall of the Yixin container 6 and the outer_adsorption container 7_wall Filling activity ^ and other granular = attached agent. The outlet port 9 is formed at the center of the bottom wall of the step portion 8, and the above-mentioned (4) faces the space defined by the lower end opening of the filter container 6 fitted to the step portion 8. At the peripheral wall end of the step portion 8, the locking projection 1b of the rib 2 protrudes inward, and the locking projection 10 comes into contact with the lower end surface of the filter 46 to form a secret in the step portion 8 The above-described regulation between the lower end of the l64pif over-tanned container 6 and the thirsty outlet 9 is carried out in the groove portion of the outer peripheral surface of the lower end portion of the container 6, and the lower end portion of the filter container 6 is attached via the (10) 11. Further, on the peripheral wall of the step portion 8, the hotness is set at the same height as the filtration = 8 to ride the horizontal direction toward the vent hole 2, at the lower end of the tank container 6 and the order of adsorption (four) 7 =

The air accumulated between them leaks out of the side of the P storage portion 52 through the side vent hole 12. Further, in the partition wall 13 formed by the peripheral wall of the filter container 6, a plurality of communication holes 14 are provided, and the plurality of communication holes 14 are disposed at the center of the filter water purification unit through the partition wall 13 in the horizontal direction. 3 is connected to the adsorption clean water unit 2 on the outer peripheral side surrounded by the fish water purification unit 3. Since the communication hole 14 is formed in a slit shape in the direction of the long axis of the water, the communication hole 14 is provided in a state where the filter container 6 is fitted in the step portion 8 and the lower portion of the adsorption unit 2 k is the same south. In the example of the drawing, the communication hole 14 is provided with a row in which the lower end of the disk and the water-removing portion 2 are the same in the south and a row in the upper and lower rows which are slightly upward from the lower end of the adsorption water purification unit 2. The mineral addition portion 5 formed in the upper half of the water purification filter 1 is formed such that the upper end portion of the filter container 6 is fitted in the concave step portion 15a of the mineral container 15, and the mineral container 15 is formed as an upper end opening. The bottomed cylindrical shape is provided with a concave step portion 15a that is recessed upward at the center of the outer bottom surface thereof, and the mineral container 15 loaded on the filter container 6 by the fitting is filled with a granular agent such as a calcium agent. A mineral agent, and a cap-shaped upper cover 16' that covers the lower end from above the mineral container 15 is engaged with the upper end opening edge of the 1353264 30164pif adsorption container 7. Here, the upper end opening edge of the mineral container 15 abuts against the inner peripheral surface of the upper cover 16, and the space surrounded by the mineral container 15 and the upper cover 16 becomes the mineral addition portion 5. The cartridge housing 30 forming the water purification filter and the outer casing of the core 1 is formed by the upper cover 16 and the adsorption container 7. ❿ On the peripheral wall of the upper cover 16 and on the side of the mineral container 15, a plurality of small-diameter water guiding ports 17 are formed on the entire outer circumference, and the raw water is introduced into the water purification filter through these water guiding ports. Further, the filter portion side exhaust port 18 is formed in the vertical direction above the upper portion of the upper cover 16 and located in the filter container 6 and vertically above the water purification portion 3. A tubular exhaust passage 19 is extended from a central portion of the bottom surface of the concave step portion 15a recessed above the mineral container 15, and the exhaust passage 19 extends upward through a portion of the mineral agent that houses the mineralizer 15. . The upper end opening of the exhaust passage 19 is in communication with the filter portion side exhaust port 18 of the upper cover 16. In other words, the transitional water-repellent portion 3 in the over-tank container 6 connected to the concave step #15a of the mineral container 15 is connected in communication with the raw water reservoir portion 51 of the exhaust passage 19 and the filter-side exhaust port μ. a plurality of slit-shaped 15 meat-dissipating holes are formed in the phase wall of the mine material 15 to form a mineral-dissolving hole 2, which serves as a mineral-adding portion 5 between the mineral-adsorbing paint enamel and as a space in the adsorption container 7. The upper end edge of the flow wall of the two-way water purification part 2 is connected to the upper end edge of the flow field wall (4) port 2Γ Λ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Paste--In addition to two-cut: 5=== 11 1353264 30164pif =:::= The width of the air introduction hole 22 is set to be the top of the upper cover 16 and surrounds the crotch-side exhaust port 18 The μ direction is spaced apart from each other by an equal interval, and a plurality of exhaust gases σ 23 are provided through the filter and the side exhaust port π in the up and down direction. The exhaust gas also serves as a discharge of the bubbles generated in the adsorption water purification unit 2:::::^(;:;, Γ^; 2,3 ^ ^ ^ ^ The mineral agent in the substance addition portion 5 is clogged in Each of the rows and the second is prevented from being filled in the above-mentioned mounting recess 62 in which the water purification filter i of the above structure is placed on the water purifier % with the lower half of the scale 4 being recessed from the green portion In the meantime, the upper half of the addition portion 5 is formed at a position higher than the most i of the raw water reservoir 51, but at this time, the bottom is adjacent to the center of the recessed portion 62, and is adsorbed. The stepped portion 8 of the container 7_outlet =; =. The lower end portion of the canister 6 protrudes to the lower portion of the elastically deformable convex portion 26 which is convex on the entire circumference of the peripheral wall of the adsorption container 7 By the elastic contact with the mounting recess_62_circumferential surface on the entire circumference of the outer circumference, the peripheral wall of the suction ==7 and the mounting recessed portion 62 are brought into close contact with each other. Further, on the outer peripheral surface of the step portion 8 of the =7 There is a ring in the trough? The step portion 8 and the mounting recess portion 62 are brought into close contact by the ^ 12 1353264 30164pif ring 27 . Further, when the purified water is obtained from the water purifier 50 of the present example having the purified water core 1 having the above configuration, the procedure is as follows. First, the baffle 58 of the upper cover portion % is rotated upward to open the water supply port 57, and raw water such as tap water is supplied into the raw water reservoir 51 through the water supply port. The supplied raw water temporarily accumulates in the raw water reservoir 51. The water purification cartridge 1 is introduced into the water purification cartridge 1 through the plurality of water conduits &amp; of the upper cover 16, and thereafter, the raw water is filled into the adsorption water purification unit 2 and the filtered water purification unit 3 and the mineral addition unit 5 that communicate therewith. The main flow path that passes through the water purification filter cartridge and flows into the purified water reservoir 52 due to its own weight is a flow path that is temporarily accumulated in the adsorption water purification portion 2 after flowing down from the water conduit 17 The inside is purified by the adsorption of the adsorbent, and then introduced into the filtered water purification unit 3 through the communication hole 14 that communicates with the lower end portion of the adsorption water purification unit 2, and is filled in the excessively purified water portion 3. The turbidity of the sputum is further removed by the turbid component, and thereafter, the venting port 9 that is opened at the lowermost end of the water purification cartridge 1 flows down into the purified water reservoir 52 in the lower direction. Process by 'adsorption And the filtering action is performed to purify the water. Further, the mineral adding portion 5 fills the main channel with the mineral eluting hole 2, and supplies the mineral water component of the material to the south mineral water. It is obtained by filling in the raw water in the mineral addition part 5. That is, the raw water passing through the water purification cartridge 1 is purified by the adsorption action and the filtration action, and the mineral component is added to the raw water. When the whole water purification cartridge 1 is filled with raw water to purify water, if the air bubbles are retained in the adsorption water purification unit 2 or the filtered water purification unit 3, the flow performance is 13 30164 pif and the water quality of the purified water is also reduced. However, in the water purification filter of the above-described structure, the bubbles generated in the adsorption water purification unit 2 pass through the mineral elution hole 20 or the air conduction hole 22 and float up to the upper mineral addition portion 5, after which, with the mineral The air bubbles generated in the adding unit 5 are discharged from the exhaust port 23 to the side of the raw water reservoir 51. Further, the air bubbles generated in the filtered water purification unit 3 float up to the upper side of the filter container 6, and thereafter, are transported to the filter unit side exhaust port 18' via the exhaust passage 19 connected to the filter screen 6 Thereby, it is discharged to the side of the raw water reservoir 51. In addition, in the raw water storage unit 51, even if the raw water is accumulated above the filter unit side exhaust port 18 of the water purification cartridge 1, the accumulation of the exhaust passage 19 is straight. The air thus prevents the inflow of raw water. Therefore, it is possible to prevent the raw water in the raw water reservoir 51 from flowing directly into the filtered water purification unit 3 through the exhaust passage 19. As described above, in the water purifier 50 including the water purification cartridge 1 of the present embodiment, the elongated tubular row is extended upward from the j portion of the filtered water purification portion 3 in the horizontal central portion of the water purification cartridge 1. The air passage 19 discharges the air bubbles generated in the excess water purification unit 3 from the filter portion side exhaust port 18 at the top to avoid the air purification unit 2 that surrounds the filtered water purification unit 3 in the horizontal direction. In addition to the outside of the filter element, a part of the air bubbles generated in the filtered water purification unit 3 does not adhere to the adsorbent remaining in the adsorption water purification unit 2. Therefore, it is possible to prevent a decrease in the flow performance due to residual bubbles and an unstable water quality of the purified water. Further, in the water purification cartridge 1 of the present example, on the top of the cartridge housing 30 forming the outer casing of the water purification cartridge 1 (i.e., at the top of the upper cover 16), the water purification portion 2 (10) is disposed. The rhythm side exhaust port 24' from which the air bubbles are discharged, the filter for discharging the air bubbles in the filter and the water purification unit 3, and the unit side exhaust port 18' in the exhaust port side exhaust port 18 make the exhaust passage 19 The upper end is intended to merge the connected connections. Therefore, 'in the water purification filter 1 in the state of being filled with raw water, even if the adsorbent in the 7Jc portion 2 and the mineral agent in the mineral addition portion 5 are lifted up to the upper side, it is possible to stop the exhaust gas. The passage 19 and the filter-side exhaust port 18 cause the exhaust performance to be low. In the following, the characteristic part of the water purifier 5 of the water purification cartridge 具备 of this example is described in detail, and in the present water purification filter, the cylindrical wall formed by the peripheral wall of the filtration container 6 is interposed. In the partition wall 13, the adsorption water purification unit 2 and the filtered water purification unit 3 are arranged in the horizontal direction, and the partition walls 13 and Ji are provided with the adsorption water purification unit 2 and the filtered water purification unit 3 arranged in the horizontal direction. Since the hole 14 is communicated, the water purification filter formed on the side of the purified water reservoir 52 can be formed! The water purification unit* in the lower half is closely arranged in the up and down direction. Therefore, it is easy to maintain the distance between the lower half of the purified water portion 4 of the water purification cartridge 1 and the bottom of the purified water reservoir 52, and it is possible to ensure long-term infiltration of the water purification cartridge. The time until the purified water in the water reservoir 52 is purified. Thereby, a good circulation speed can be maintained, so that a certain amount of purified water can be quickly obtained. In addition, in the present example, the lower end portion of the filter container 6 forming the filtered water purification unit 3 is fitted into the lower first step portion 8 of the adsorption container 7 forming the adsorption water purification unit 2, thereby extending the filtration water purification unit 3 It is set to a position lower than the lower end portion of the adsorption water purification unit 2 . In addition, the communication hole 14 that connects the adsorption water purification unit 2 and the filtration water purification unit 3 in the horizontal direction of the water 1353264 30164pif is disposed at the height of the lower end portion of the adsorption water purification unit 2, thereby entering the adsorption from the upper side. The raw water of the water portion 20 is purified by adsorption after passing through the entire adsorbent filled in the adsorption water purification unit 2, and then guided to the filtered water purification unit 3 through the communication hole 14 at the lower end portion. The raw water that has flowed into the filtered water purification unit 3 from the communication hole 14 passes through the entire water purification unit 3 in a state in which the hollow body of the hollow fiber membrane is bundled into a bundle without filling the gap. 9 gushing out. Therefore, the adsorption water purification unit 2 is disposed on the side of the filtration water purification unit 3, but the sputum b dog is in the filtration water purification unit 3 after effectively purifying the entire adsorbent filled in the adsorption water purification unit 2 by the purification treatment. As a result, the longevity of the water purification cartridge 1 can be achieved. Further, the width of each of the communication holes 14 is set to be smaller than the diameter of the adsorbent filled in the adsorption water purification unit 2, so that the adsorbent can be prevented from leaking from the side of the adsorption purification water 2 to the side of the filtration and water purification unit 3. Thereby, the state in which the adsorbent is filled in the adsorption clean water unit 2 without a gap can be maintained, and as a result, the use of the water purification cartridge 1 can be extended. Fig. 4 shows a water purifier 50 including the water purification cartridge 1 of another example of the embodiment of the present invention. Since the basic configuration of the present example is the same as that of the above-described example, a detailed description of the configuration that corresponds to the configuration of an example will be omitted, and only the different characteristic configurations will be described below in detail. In the above-described communication hole 14 in which the adsorption water purification unit 2 and the filtered water purification unit 3 are in the horizontal direction, a mesh body 45 in which a plurality of minute holes are formed in the vertical direction is disposed. The holes of the mesh body 45 are of course filled with 1353264 30164pif and the net use of the 7-step is long-lived. The upper side 41 that communicates with the over-four (four) side exhaust port 8 of the upper cover 16 is extended downward, and the lower side tube 42 that is connected to the center of the center is extended upward, and &amp; The connected connection thus forms a service path 19. The invention has been described with reference to the preferred embodiments of the present invention, and is not intended to be construed as a limitation of the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side cross-sectional view showing an example of a water heater according to an embodiment of the present invention. Fig. 2 is an enlarged view of a main part of Fig. 1. Fig. 3 is an exploded perspective view of the same water purifier. Fig. 4 is a side cross-sectional view showing a water purifier water purifier according to another example of the embodiment of the present invention. Fig. 5 is a side cross-sectional view showing a water purifier including a conventional water purification cartridge. Water purification filter 2 Adsorption water purification unit 3 Filtration water purification unit 17 1353264 30164pif 13 Partition wall 14 communication hole 50 Water purifier 51 Raw water reservoir 52 Purified water reservoir

Claims (1)

1353264 30164pifl Corrected flood season: August 5, 100, No. 97145193 Chinese patent scope without underline repair iE Ben 7, patent application scope: 1_ A water purification filter with: adsorption water purification part, by filling The adsorption of the adsorbent to purify the raw water; and the alkali water purification unit purifies the raw water by the filled transitional fairy, which is installed in the raw water reservoir of the water purifier and the purified water Between the parts, the raw water passes through the weight, and the adsorption water purification unit and the filtered water unit are arranged in the horizontal direction via the partition wall, and the adsorption water purification unit and the filtered water purification unit are provided on the partition wall. The communicating water hole further includes a tubular exhaust passage that extends upward from an upper portion of the filtered water purification portion and communicates with the raw water reservoir to filter the purified water The air bubbles generated in the portion are discharged to the water purification filter and the outside of the core; the lower end portion of the filtered water purification portion is fitted into the end portion extending from the center of the bottom portion of the adsorption water purification portion, and the end portion is a vent hole is formed in the peripheral wall, and the vent hole has the same height as a lower end of the filtered water purification unit, and air accumulated between a lower end of the filtered water purification unit and the end portion is discharged to the purification through the vent hole. Water accumulation. 2. The water purification cartridge according to the above aspect of the invention, wherein the filtration water purification portion located on the downstream side of the adsorption purification water portion is extended to a position lower than a lower end portion of the adsorption purification water portion. The communication hole of the partition wall is provided at the height of the lower end portion of the adsorption water purification unit. 3. For the water purification filter described in the scope of the patent application No. 2 or 2, where 19 1353264 30164pifl - is the Chinese patent scope of No. 97145193, there is no slash correction. The date of this amendment: August 5, 100 will connect the above-mentioned next door. The width of the pores is set to be smaller than the diameter of the adsorbent filled in the adsorption water purification portion. 4. The water purification cartridge according to claim 1 or 2, wherein a mesh hole body is provided in the communication hole of the partition wall, and the mesh hole body is provided with a plurality of minute holes smaller than the diameter of the adsorbent. . 5. The water purification filter according to the first or second aspect of the patent application, further comprising: a mineral addition unit disposed above the adsorption water purification unit and the filtered water purification unit to fill the interior with a mineral agent The mineral component is added to the raw water, and a mineral elution hole is formed in the outer peripheral wall of the mineral addition portion, and the mineral pores communicate with the mineral addition portion and the adsorption water purification portion, and minerals are added to the mineral addition portion. The mineral water of the component is supplied to the adsorption water purification unit through the above-mentioned outlet holes. The utility model has the patent scope of the invention, which is characterized in that the water purifying filter described in the above or two items. 20